Raytheon
Aircraft
Company
~eechcraft BONANZA SERIES V35B
(D-10097, D-10120 and After)
F33A
(CE-748, CE-772 and After)
F33C
(CJ-149 and After)
A36
(E-?ll~, E-1241 thru E-3635, Except E-3630)
A36TC
(EA-11
B36TC
(EA-242,
G36
(E-3630, E-3636
thru
EA-272, Except EA-242)
EA-273 and and
After)
After)
Maintenance Nlanual
Copyright PIN 36-590001-9 Issued: May 9, 1980
0
Raytheon Aircraft Company
2005 PIN 36-590001-9A28
Revised:
August 31,
2005
Published
by
RATTH EON AIRC RAFT COMPANY
P.O. Box 85
Wichita, Kansas 67201 U, S.A.
NOTE Where seech Aircraft
Corporation is referred to in this publication, Raytheon Aircraft Company.
it will be taken to read
export of these commodities, technology or software are subject to the US Export Regulations. Diversion contrary to U.S. law is prohibited. For guidance on export control requirements, contact the Commerce Department’s Bureau of Export Administration at 202-
The
Administration
482-4811
or
at
www.bxa.doc.gov.
Ry~heon Aircraft Company
Imb´•lnO~iM1I
GAMA
General Aviation Manufacturers Association
Ray~heon BONANZA SERIES
AiKraft
Company
MAINTEr\jiiNCE
MANUAL
RECORD OF REVISIONS When the
a
revision is inserted, the revision number, the date the revision is inserted into the manual, and the initials of the revision should be recorded on this page.
person(s) inserting
REV
NO. A26
I
I
REVISION DATE
INIT
I
I REV
I
I
NO.
I
I REVISIONDATE
INIT
I
I REV
I
I
NO.
REVISION DATE
INIT
11/18/04
A27
5/27/05
A28
12/9/05
TP
Page 1 Sep 30/04
Ray~heon
nircralt
Company
BONANZA SERIES MAINTENANCE MANUAL
LIST OF EFFECTIVE REVISIONS PART NUMBER
DATE
36-590001-9A
May 9,
36-590001-9A1
October 10, 1980
Introduction, 5, 6, 11, 24, 25, 30, 34, 36, 73
36-590001-9A2
January 28,
Introduction, 12, 21, 25, 33, 35, 61, 71, 73, 77, 81
36-590001-9A3
March 12, 1981
5, 11, 32, 57
36-590001-9A4
January 20,
Introduction, 6, 12, 21, 23, 24, 25, 27, 28, 34, 39, 57, 61, 81,
36-590001-9A5
February 18,
36-590001-9A6
October 27, 1983
introduction, 5, 6, 12, 21, 24, 27, 28, 30, 32, 33, 39, 61, 71, 72, 79, 91
36-590001-9A7
December 21, 1983
71
36-590001-9A8
January 18,
5, 12, 20, 28, 57, 91
36-590001-9A9
September 27,
36-590001-9A10
May 31, 1985
Introduction, 27
36-590001-9A11
August 29,
1985
12, 28
36-590001-9A12
August 28,
1987
Introduction, 5, 11, 12, 25, 27, 28, 32, 36, 51, 55, 71, 74
36-590001-9A13
May 30,
36-590001-9A14
June 20, 1991
Introduction, 5, 12, 20, 27, 55, 71, 91
36-590001-9A15
December 20, 1991
Introduction, 52
36-590001-9A16
October 16, 1992
5, 9, 11, 12, 21, 25, 27, 28, 51, 55, 56, 91
36-590001-9A17
November 16, 1994
Introduction, 32, 74
36-590001-9A18
August 18,
Introduction, 12, 21,23, 27, 32,
36-590001-9A19
March 29, 1996
CHAPTERS AFFECTED 1980
Original
1981
1982
1983
1984
1984
1990
1995
Introduction, 5, 6, 27
Introduction, 5, 12, 21, 23, 25, 27, 33, 35, 36, 71, 74, 91
Introduction, 7, 32
5, 27
A28 Basic publications are assigned a part number which appears on the title page with the date of the issue. Subsequent revisions are identified by the addition of a revision code after the part number. Al after a part number denotes the first revision to the basic publication, A2 the second, etc. Occasionally, it is necessary to completely reissue and reprint a publication for the purpose of obsoleting a previous issue and outstanding revisions thereto. As these replacement reissues are made. the code will also change to the next successive letter of the alphabet at each issue. For example, B for the first reissue, C for the second, etc. a handbook, give the basic number, and the reissue code when applicable, if a complete up-to-date publicationis desired. Should only revision pages required, give the basic number and revision code for the particular set of revision pages you desire.
When ordering be
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
LIST OF EFFECTIVE REVISIONS
(Continued)
PART NUNISER
DATE
36-590001-9A20
February 26,
36-590001-9A21
December 23, 1999
5, 32, 52
36-590001-9A22
November 10, 2000
20, 25, 57
36-590001 -9A23
June 28, 2002
5
36-590001-9A24
September 30,
36-590001-9A25
March 31, 2004
Introduction, 20, 34, 36
36-590001-9A26
September 30, 2004
5, 20, 24, 52, 53, 57, 77, 91
36-590001-9A27
March 31, 2005
Introduction, 5, 10, 12, 24, 27, 52, 61, 71
36-590001-9A28
August 31, 2005
CHAPTERS AFFECTED 1999
2003
27
7, 23, 25, 27, 32, 73
Introduction, 91, 036 MM
A28
Supplement
Raytt~eon
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
RECORD OF TEMPORARY REVISIONS Inserted
Temporary Revision
Affected
No.
Chapter
NOTE: Insert this Record of
Temporary
By
Revisions after the
Removed Date
By
Revision No.
Date
Log of Temporary Revisions page(s).
Page f Sep 30/04
aevpeeen
Aircraft
Company
BONANZA SERIES MAINTENAN~E jV1ANUAL
Record of
Temporary
(Continued)
Inserted
Temporary Revision
Affected
No.
Chapter
Page 2 Sep 30/04
Revisions
By
Removed Date
By
Revision No.
Date
Raytheon BONANZA SERIES
AiKraft Company MAli;jiENANCE
MANUAL
LOG OF TEMPORARY REVISIONS Revision
Revision
No.
Date
27-1
Dec 11192
Flap
Drive Cable Connection
TR 27-2
27-2
Nov 15/93
Flap
Drive Cable Connection
A20
NOTE: Insert this
Log
of
Subject
Temporary
Revisions may be discarded.
Revisions after the Record of Revisions page. Previous Update the Record of Temporary Revisions page(s) as
Revision
Incorporated
Log of Temporary required.
Page 1 Sep 30/04
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
LOG OF TEMPORARY REVISIONS Revision
Revision
No.
Date
Page 2 Sep 30/04
Subject
(Continued) Revision
Incorporated
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
P/N
36-590001-9, REVISION A28, AUG 31/05
chapters which have been
revised or added are listed below with the Highlights of each change. Remove the and this A28 insert Revision in accordance with the attached Instruction Page. Enter the revision affected pages date inserted the Record of Revisions page of this manual. The Highlights Page may be retained on number and the reference. for future with the manual The
HIGHLIGHTS
ChapterlSection Introduction
Description Revised to include reference of G36 Maintenance Manual
publications. 91-00-00
A28
Revised Chart i to reflect addition of
Revised Chart 1 to include
new
Supplement Supplement.
and associated
consumable materials.
Page 1 Aug 31/05
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
INSTRUCTIONS
for REVISION 36-590001-9A28
INSERT
REMOVE PAGE
Title
CHAPTER
PAGE
Title
Page
CHAPTER
Page
DATED
August 31,
2005
Logo Page
Logo Page
"A"
Page
"A"
Page
A28
"B"
Page
"B"
Page
A28
"C"Page
A28
"C"Page
All
INTRODUCTION
All
91-EFF
91-LOEP
All
91-TOC
91-TOC
All
91-00-00
After
compliance,
1 thru 17
1 thru 12
INTRODUCTION
91-00-00
this Instruction Sheet may be discarded.
Page
1 of 1
Aug
31/05
Aug
31/05
Ral~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
LIST OF EFFECTIVE PAGES CHAPTER
PAGE
DATE
Title
Page Logo Page
Aug
"A"
A28
Page Page Page
A28
1 thru 17
Aug
"B"
"C"
Introduction
NOTE
The
chapter
31/05
A28
31/05
List of Effective
Pages
is located in the front of each
chapter.
A28
Raytheon
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
INTRODUCTION nor revisions are automatically provided to the holder of this manual. For information on reissues obtain or revisions applicable to this manual, refer to the latest revision of the Raytheon how to Service Bulletin No. 2001. Aircraft Company
NOTE: Neither reissues
Additional
publications
listed in the current Publications Price List CD-ROM
(P/N 994-32808). For publications contact the Technical Manual Distributions Center (TMDC) at 1-800-796-2665, fax (316) 676-4824, E-mail TMDC@rac.ray.com or visit our web site at http:ll pubs. raytheonaircraft.com. Information
The
Bonanza
on
are
these
Series Maintenance Manual is prepared
in
accordance with
the
GAMA
(General Aviation Association) Specification requirements of the ATA Specification 1 00 (Air Transport Association of America) with respect to the arrangement and content of the System/ Chapters within the designated chapter-numbering system. This maintenance manual is supplemented by the following publications: No. 2 format. It also meets the intent of the
Manufacturers
NOTE: It shall be the
responsibility of the owner/operator to ensure that the latest revision of publications are utilized during operation, servicing, and maintenance of the airplane.
referenced
in this handbook
The Bonanza 36 Series Illustrated Parts
Catalog,
PIN 36-590001-1
The Bonanza 35 Series Illustrated Parts
Catalog,
P/N 35-590102-5
The Bonanza 33 Series Illustrated Parts
Catalog,
PIN 33-590010-7
The Bonanza
Wiring Diagram Manual,
P/N 35-590102-9
(covers Models F33A, F33C, V35B, A36 "serials E-2110 and prior, except E-1946 and E-2104", and A36TC 8 B36TC "serials EA-388 and prior, except EA-320") Wiring Diagram Manual, P/N 35-590102-11 (covers Models A36 "serials E-1946, E-2104, E-2111 thru E-3635, except E-3630" B36TC "serials EA-320, EA-389 and After")
The Bonanza
The Bonanza Model G36 Electrical The Bonanza Model G36 Avionics
Wiring Diagram Manual, W~ring Diagram Manual,
The Bonanza 33, 35 and 36 Series
Continuing
The Bonanza Model 33, 35 and 36
Inspection Guide,
The Bonanza Model G36 Maintenance Manual
NOTE:
Care
and
PIN 36-590001-13 P/N 36-590001-15
Inspection Guide,
P/N 98-36711
P/N 98-32227
Supplement,
PIN 36-590001-11
Raytheon Aircraft Company expressly reserves the right to supersede, parts, part numbers, kits, or publications that may be referenced in this
cancel and/or dedare obsolete any manual without prior notice.
variety of avionic components and equipment is available and because avionic manufacturers normally supply parts and servicing manuals with each set/component, the avionic publications are not included in the Publications Price List. The manufacturer of the equipment should be contacted when additional parts or servicing information is required. Since
nts
a
wide
INTRODUCTION
Aug
31105Pagel
Raldheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
WARNING: Use
only parts obtained
from
approved by Raytheon Aircraft Company, Raytheon Aircraft Company airplanes.
sources
with the maintenance and repair of
in connection
Raytheon Aircraft Company parts are produced and inspected under rigorous procedures to insure airworthiness and suitability for use in Raytheon Aircraft Company airplane applications. Parts purchased from sources other than those approved by Raytheon Aircraft Company, even though outwardly identical in appearance, may not have had the Genuine
required
tests and
inspections performed, may
be different in fabrication
materials, and may be dangerous when installed in
an
techniques
and
airplane.
Salvaged airplane parts, reworked parts obtained from sources not approved by the Raytheon Aircraft Company or parts, components or structural assemblies, the service history of which is unknown or cannot be authenticated, may have been subjected to unacceptable stresses or temperatures or have other hidden damage, not discernible through routine visual or usual nondestructive testing techniques. This may render the part, component
assembly,
though originally airplane use.
even
and unsafe for
manufactured
by
the
Raytheon
Aircraft
or
structural
Company,
unsuitable
Raytheon Aircraft Company expressly disclaims any responsibility for malfunctions, failures, damage or injury caused by use of parts not approved by the Raytheon Aircraft Company.
CORRESPONDENCE If
a
question should
arise
concerning
the
care
of
you; airplane,
in any correspondence. The serial number appears for placard location.
PUBLICA TIONS CHANGE REQUEST information
irregularity or missing raytheonaircraft.comlservice_support/publications_change.htm. entered will be electronically If
an
is
on
it is
the model
important to include designation placard.
the
airplane serial number Chapter 11-00-00
Refer to
(PCR) noted, the
user
of this
manual
may access a PCR form at form and the information that was
This
www.
forwarded to
Raytheon Aircraft Customer Support. The change request will be updates to the publication. Assistance is available, at any time, by contactingRaytheon Aircraft Technical Support at 800-429-5372 or 316-676-3140.
researched for any necessary
ASSIGNMENT OF SUBJECT MA TERIAL The content of this
publication
is
organized
into four levels. The four levels
are:
Identified by different colored divider tabs. These are the primary divisions of the manual that enable broad separation of content. Typical of this division is the separation between Airframe Systems and the Power Plant. GROUP
The various groups are broken down into major systems such as Environmental Systems, Landing Gear, etc. The systems are arranged more or less alphabetically rather than by
SYSTEM/CHAPTER Electrical Power,
importance. They are assigned a number, which becomes the first element of the standardized system. Thus, the element 28 of the number 28-00-00 refers to the chapter FU EL. Everyth ing concerning system will be covered in this chapter.
precedence
or
numberi ng the fuel
SUBSYSTEM/SECTION
The
major systems/chapters
of
an
airplane
are
broken down into
subsystems. These
identified by the second element of the standard numbering system. The element 40 of the number 28-40-00 concerns itself with the indicating section of the fuel system.
subsystems
Aug
31/05Page
2
are
INTRODUCTION
us
Rallheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
The individual units within
UNIT/SUBJECT
a subsystemlsection may numbering system. The element 01 of the number 28-40-01 assigned at the option of the manufacturer and may or may not be used.
standard
be identified is
a
by the third element of the subject designator. This element is
APPLICATION Any publication conforming
to the GAMA
or
ATA format will
the manual is Bonanza Series Maintenance Manual
wishing information concerning this
chapter.
the
the
same
basic
Bonanza Series
numbering system. Thus, whether Wiring Diagram Manual, the person
portion of the fuel system, would refer to the System/Chapter Tab Chapter 28 provides a list of subsystems and sections covered fuel system chapter with a full index could contain the following:
FUEL. The Table of Contents in the front of
example,
use
the indication
28
For
or a
28
FUEL
28-00-00
General
28-10-00
Storage (covers Tanks, cells, necks,
caps, instruments,
etc.)
28-20-00
Distribution (covers Fuel lines, pumps, valves, controls,
etc.)
28-30-00
Dump (If in-flight dumping system
28-40-00
Indicating (covers Quantity, temperature, include engine fuel flow or pressure.)
is installed, it would appear
in
I
here.)
pressure, etc., does not
chapter is arranged in an ascending, numerical sequence. The System/Chapter-SubsystemSection numbers and the page numbers are located at the lower outside corner of each page. A Subsystem may not be included in a particular systemlchapter if it is not applicable to the airplane (e.g. The airplane does not have
The material within the
a
cooling
or
air
conditioning system,
then
subsystem 21-50-d0
would not be included in
Chapter 21).
TITLE PAGE A Title page is located at the beginning of the manual and provides the part number, the chapters, and lists all aircraft models pertaining to this manual and their respective serial numbers. Information throughout this manual is
applicable
to all serial numbers listed
on
the title page except where
specifically
stated.
LIST OF EFFECTIVE REVISIONS The List of Effective Revisions pages follow the Title page of the manual and lists the revisions currently effective for the manual. The page numbers for these pages are alphabetically numbered starting with the upper case "A" and
are
located at the lower outside
corner
of each page.
RECORD OF REVISIONS PAGE The Record of Revisions page follows the List of Effective Revisions pages. When a revision is inserted, the revision number, the date the revision is inserted into the manual, and the initials of the person(s) inserting the revision should be recorded
nns
on
this page.
INTRODUCTION
Aug
31 05Page
3
I
Raytheon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
LOG OF TEMPORARY REVISIONS PAGE
I
Log of Temporary Revisions page follows the Record of Revisions page. The Log of Temporary Revisions page provides a history of each temporary revision, including the revision number which incorporated the temporary
The
revision into the manual.
RECORD OI" TEMPORARY REVISIONS PAGE
I
A Record of Temporary Revisions page follows the Record of Revisions page. When a temporary revision is inserted or removed from this manual, the appropriate information should be recorded on this page.
LIST OF EFFECTIVE PAGES
I
chapter has a List of Effective Pages that is found at the begin provides a list the issue or revision date of each page in the chapter. Each
of the
chapter. The
List of Effective
Pages
TEMPORARY REVISIONS
Temporary revisions are issued to provide maintenance information in the interim between revisions. Each temporary revision is issued by the chapter number to which it applies followed by a sequential number in the order of publication (Temporary Revisions 12-1, 12-2, etc.). Temporary revisions are printed on yellow paper and are to be placed in the maintenance manual in accordance with the instructions provided on each page included in the revision. The information in the
temporary revision will be included in the next revision of the manual.
REVISED TEXT
Any
text that has been revised
vertical revision bar
by
the addition of
new
to the affected text. For
adjacent margin of the page. For changes margins depending on which column
by a change to the existing text, is denoted by a solid, changes to single column text, the revision bar will be located text
or
in the outside
to two column
and inside
has the
text, the revision bars will be located in the outside
change.
Revision bars
are
not
placed
in the
area
between
two columns. on pages that have changes. Not all pages in a revision may have changes and revision will not have change bars. Revision bars are only applicable to changes of the of a therefore some pages the change(s) were made and subsequent revisions will not show these revision bars. The revision specific revision
Revision bars are
only shown
(e.g. A9) and revision date (e.g. Sep 27/84) are printed at the bottom of the page and indicated when latest changes were made to that page and what the revision number for the changes are. Revision bars are used to show punctuation, spelling, capitalization, andlor pagination changes unless the change will affect number
technical
understanding of the
the not
the
text.
REVISED ILLUSTRATIONS When
an
adjacent
Aug
illustration is modified or a new illustration is added, it will be denoted by a solid, vertical revision bar to the illustration. The revision bar is located in the outside margin of the page.
31105INTRODUCTION
ua
Ray~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
WARNINGS, CAUTIONS AND NOTES WARNING not
Brings attention to an operating procedure, inspection, repair correctly followed, could result in personal injury or loss of life.
CAUTION Brings attention to an operating procedure, inspection, repair or strictly observed, could result in damage or destruction of equipment.
Brings attention highlight.
NOTE
to
an
operating procedure, inspection, repair
or
or
maintenance
practices, which if
maintenance condition, which if not
maintenance condition, which is
essential to
.-SCHEMA TIC DIA GRAMS Schematic
diagrams
Airplane All doors
is
on
are
are
the
illustrated with the
closed and locked.
A note will be shown
Contacts with
an
applied
on
on
applied
to the
airplane.
the schematic
and entrance door
connectors that
asterisk
conditions:
ground.
Electrical power is not
with power
following
are
diagram open.).
if the above conditions
identified with lower
case
are
different
letters will be shown
by
(e.g.
an
NOTE
Airplane
underlined letter
shown
or a
letter
(A*).
SPECIAL CONDITIONS CAUTIONARY NOTICE
Airplanes operated for Air Taxi, or other than normal operation, and airplanes operated in humid tropics, cold and damp climates, etc., may need more frequent inspections for wear, corrosion andlor lack of lubrication. Under these adverse conditions, perform periodic inspections in compliance with this guide at more frequent intervals until the owner or operator can set his own inspection periods based on the contingencies of field experience. CAUTION: The recommended
malfunction
as
periods do
not constitute
a
guarantee the item will reach the period without
the aforementioned factors cannot be controlled
by the manufacturer.
SYSTEM/CHAPTER INDEX GUIDE
SystemlChapter Index Guide (refer to Chart 1) is prepared in accordance with both ATA Specification No. 100 Specification No. 2 for use with this maintenance manual and its applicable illustrated parts catalogs, electrical wiring diagram manuals, avionics wiring diagram manuals, and maintenance manual supplements. The guide provides a list of all system/chapters and subsystems that are applicable to this maintenance manual. The following chapters are not applicable to this maintenance manual: 4, 26, 29, 37, 38, 49, 60, 70, 75, 76, 77, 78, 83
The
and GAMA
and 95.
nzs
INTRODUCTION
Aug
31/05Page
5
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1
SystemlChapter
Index Guide
SYSTEMICHAPTER SUBSYSTEM-
TITLE
SECTION INTRODUCTION
Aug
3105Page
6
5
TIME LIMITSIMAINTENANCE CHECKS
5-10-00
Overhaul and
5-20-00
Scheduled Maintenance Checks
6
DIMENSIONS AND AREAS
6-00-00
Dimensions and Areas
7
LIFTING AND SHORING
7-00-00
Lifting
7-10-00
Lifting
8
LEVELING AND WEIGHING
8-00-00
General
8-20-00
Airplane Leveling
9
TOWING AND TAXIING
9-00-00
Towing
10
PARKING AND MOORING
10-00-00
General
11
PLACARDS AND MARKINGS
11-00-00
Required
11-20-00
Exterior Placards and
and
Replacement
Schedule
Shoring
and
Taxiing
Placards
INTRODUCTION
Markings
A28
Raytheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1
SystemlChapter Index
Guide
SYSTEI~ICHAPTER TITLE
SUBSYSTEMSECTION
A28
12
SERVICING
12-00-00
General
12-10-00
Rep\enishing
12-20-00
Scheduled
20
STANDARD PRACTICES
20-00-00
Standard Practices- Airframe
20-01-00
Torque
20-02-00
Electrostatic
20-03-00
Electrical
20-04-00
Control Cables and
20-05-00
Bearings
20-06-00
Tube and Hose Assemblies and
20-07-00
Locking
20-08-00
Airplane
20-09-00
Corrosion
21
ENVIRONMENTAL SYSTEMS
21-40-00
Heating
21-50-00
Cooling
22
AUTO FLIGHT
22-14-00
Autopilot
Servicing
AIRFRAME
Wrenches
Discharge Sensitivity
Bonding
Pulleys
Fittings
Devices
Finish Care
and
Ventilating System
INTRODUCTION
AUgPBjS~;:Page
7
Raytheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1
SystemlChapter Index
Guide
SYSTEMICHAPTERSUBSYSTEM-
TITLE
SECTION 23
COMMUNICATIONS
23-10-00
Ground Communication
23-20-00
Data Transmission 8 Automatic
Calling
23-21-00
Data Transmission 8 Automatic
Calling
23-51-00
Audio
Integrating
Audio
Integrating
23-60-00
Static
Discharging
24
ELECTRICAL POWER
24-05-00
Description
24-30-00
DC Generation
24-35-00
DC Generation
24-31-00
Standby
24-40-00
External Power
24-45-00
Extemal Power
24-50-00
Electrical Load Distribution
24-55-00
Electrical Load Distribution
25
EQUIPMENTIFURNISHINGS
25-00-00
Flight
25-60-00
Emergency
23-52-00
Aug
31/05Page
8
and
Operation
Generator and
and
System
Standby
Alternator
Passenger Compartments
INTRODUCTION
A28
Raytheon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1
SystemlChapter Index
Guide
SYSTEMICHAPTER SUBSYSTEM-
TITLE
SECTION
A28
27
FLIGHT CONTROLS
27-00-00
Flight
27-10-00
Ai\eron and Tab
27-11-00
Aileron and Tab
27-15-00
Aileron and Tab
27-20-00
Rudder and Tab
27-21-00
Ruddervator and Tab
27-30-00
Elevator and Tab
27-31-00
Stall
27-50-00
Flaps
27-70-00
Gust Lock and Damper
28
FUEL
28-00-00
General
28-10-00
Storage
28-20-00
Distribution
28-40-00
Indicating
28-41-00
Indicating
30
ICE AND RAIN PROTECTION
30-00-00
General
30-60-00
Propellers
31
INDICATINGIRECORDING SYSTEMS
31-00-00
General
31-10-00
Instrument 8 Control Panels
31-60-00
Central
Controls
WarninglSafe Flight System
Display Systems
INTRODUCTION
9
Raytheon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1
SystemlChapter
Index Guide
SYSTEMICHAPTERSUBSYSTEM-
TITLE
SECTION
Aug
3105Page
10
32
LANDING GEAR
32-00-00
General
32-10-00
Main Gear and Doors
32-20-00
Nose Gear and Doors
32-30-00
Extension and Retraction
32-40-00
Wheels and Brakes
32-50-00
Steering
32-60-00
Position and
33
LIGHTS
33-20-00
Interior
33-40-00
Exterior
34
NAVIGATION
34-10-00
Flight
Environment Data/Pitot Static
34-12-00
Flight
Environment Data/Pitot Static
34-15-00
Flight Environment
34-20-00
Attitude
34-25-00
Attitude 3 Direction
34-31-00
Landing
and
Taxiing
Aids
34-32-00
Landing
and
Taxiing
Aids
34-40-00
Independent Position Determining
34-45-00
Independent Position Determining
34-51-00
Dependent Position Determining
34-52-00
Dependent Position Determining
34-53-00
Dependent Position Determining
Warning
Data/Pitot Static
Direction
INTRODUCTION
A28
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1
SystemlChapter
Index Guide
SYSTEMICHAPTER SUBSYSTEM-
TITLE
SECTION 35
OXYGEN
35-00-00
General
36
PNEUMATIC
36-00-00
General
39
ELECTRICIELECTRONIC PANELS AND MULTIPURPOSE PARTS
A28
39-00-00
General
39-10-00
Instrument and Control Panels
39-20-00
Electrical and Electronic
51
STRUCTURES
51-00-00
General
52
DOORS
52-00-00
General
52-10-00
Cabin
Passenger/Crew
52-30-00
Cargo
Doors
53
FUSELAGE
53-10-00
Fuselage
53-30-00
Plates/Skins
Equipment
Racks
Door
INTRODUCTIONPage
11
Raytheon
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1
SystemlChapter
Index Guide
SYSTEMICHAPTERSUBSYSTEM-
TITLE
SECTION
Aug 31/05Page
12
55
STABILIZERS
55-00-00
General
55-1 0-00
Horizontal Stabilizers
55-20-00
Elevator and Ruddervator
55-30-00
Vertical Stabilizer
55-40-00
Rudder
56
WINDOWS
56-00-00
General
56-10-00
Flight Cornpartrnent
56-20-00
Cabin
57
WINGS
57-00-00
Wings
57-30-00
Plates/Skin
57-40-00
Attach
57-50-00
Balancing
61
PROPELLERS
61-10-00
Propeller
61-20-00
Controlling
71
POWER PLANT
71-00-00
General
71-10-00
Cowling
Fittings Control Surfaces
INTRODUCTION
A28
Raylheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1
SystemlChapter
Index Guide
SYSTEMICHAPTER
SUBSYSTEM-
TITLE
SECTION
A28
72
ENGINE
72-00-00
General
73
ENGINE FUEL SYSTEMS
73-30-00
Fuel Flow
73-31-00
Indicating
74
IGNITION
74-00-00
General
74-20-00
Distribution
77
ENGINE INDICATING
77-00-00
General
77-11-00
Power
77-21-00
Temperature
77-22-00
Temperature
77-31-00
Analyzers
77-40-00
Integrated Engine
79
OIL
79-00-00
General
80
STARTING
80-10-00
Cranking
Indicating
Instrument
Systems
INTRODUCTION
Aug
31/05Page
13
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1
SystemlChapter Index
Guide
SYSTEMICHAPTERSUBSYSTEM-
TITLE
SECTION 81
TURBINES
81-00-00
General
91
CHARTS
91-00-00
Charts
SUPPLIER PUBLICA nONS ENGINE
1
’0-520 ENGINE
Service Parts Catalog, Form X-30040. Mobile, Alabama 36601.
Teledyne Continental
Maintenance and Overhaul Manual, Form X-30039.
Motors Aircraft Products Division, Post Office Box 90,
Teledyne
Continental Motors Aircraft Products Division, Post
Office Box 90, Mobile, Alabama 36601.
Operators Handbook,
Form X-30041.
Teledyne Continental
Motors Aircraft Products
Division, Post Office Box 90,
Mobile, Alabama 36601. TSIO-520 ENGINE Overhaul Manual for TSIO-520 Series Aircraft
Engines,
Form No. X-30042.
Teledyne Continental
Motors Aircraft
Products Division, Post Office Box 90, Mobile, Alabama 36601.
Operators Manual for TSIO-520-U and -UB Engines, Form No. X-30044. Teledyne Continental Motors Aircraft Products Division, Post Office Box 90, Mobile, Alabama 36601. 10-550 ENGINE Illustrated Parts
Catalog, Form
X-30569.
Teledyne Continental
Motors Aircraft Products
Division, Post Office Box
90, Mobile, Alabama 36601. Overhaul Manual, Form X-30568.
Teledyne Continental
Motors Aircraft Products Division, Post Office Box 90,
Mobile, Alabama 36601. Continued Aimorthiness Maintenance and
Operators Manual,
Form X-30565.
Teledyne Continental
Motors Aircraft
Products Division, Post Office Box 90, Mobile, Alabama 36601.
TURBOCHARGER Overhaul Manual and Parts
Catalog,
Form No. X-30055.
Teledyne
Continental Motors Aircraft Products Division,
Post Office Box 90, Mobile, Alabama 36601.
Page
guA41
31105
INTRODUCTION
n2s
RBYtheoll
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
FUEL INJECTION Overhaul Manual and Parts Catalog, Form No. X-30052. Teledyne Continental Motors Products Division, Post Office Box 90, Mobile, Alabama 36601.
Corporation,
Aircraft
PROPELLER Overhaul Manual and Parts Hartzell
Propeller
Catalog
Manual No. 720415,
Owner’s Manual, 115H,
or
McCauley
Industrial Corporation,
Overhaul Manual No. 113B, Hartzell
Dayton,
Ohio.
Propeller, Inc., Piqua,
Ohio.
Service Manual with overhaul and parts for McCauley 3A32C406-X propellers, Manual No. 761001 or McCauley propeller Operators Manual No. N1PC-11, McCauley Accessory Division, Cessna Aircraft Company, 1840 Howell Ave, Dayton, Ohio 45417. PROPELLER GOVERNOR
McCauley
Service Manual No. 78041 for the 35-380088-3
Propeller Governor,
3535
McCauley Drive, Vandalia,
Ohio 45377.
Overhaul Manual with Parts List Bulletin No. 33080 for the 35-380088-1 Company, Rockford, Illinois.
Propeller Govemor,
Woodward Governor
MAGNETOS Overhaul Instructions for Bendix S-1200 Series
Magnetos,
Form L-609. Scintilia Division,
Bendix Aviation
New York.
Corporation, Sidney,
Service Parts List for Bendix S-1200 Series
Magnetos,
Form L-608. Scintilia Division, Bendix Aviation
Corporation,
Sidney, New York. Installation, Maintenance and Operation Instructions, S6RN-201 and S6RN-205 Magnetos, Form L-526. Scintilia Division, Bendix Aviation Corporation, Sidney, New York. Overhaul Instructions, 5-600 Series Magnetos, Form L-551. Scintilia Division, Bendix Aviation Corporation, Sidney, New York.
Service Parts List, S-600 Series
Magnetos,
Form L-552-1. Scintilia Division, Bendix Aviation
Corporation, Sidney,
New York.
420016200 Series Aircraft
Magnetos
Maintenance and Overhaul Instructions, Form No. 1037-A. Slick Electro, Inc.,
Rockford, Illinois 61101. F-1100 Master Service Manual, Form L-1363 (rev. B), 4300/6300 Series Slick Magnetos. Unison Industries, 7575 Baymeadows Way, Jacksonville, FL 32256. STARTING MOTOR
Equipment List, Servj_ce
Parts and Technical Data OE-A1, Parts and
Equipment
Section Service
Department,
Toledo, Ohio 43694. VOLTAGE REGULATOR
Voltage Regulator
28 volt
(Alternate),
P/N B-00-387-1, Lamar Inc., 71 Indel Ave., P.O. Box 251, Rancocas, NJ
08073.
n2a
INTRODUCTION
Aug
31 05Page
15
Raytheon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
ALTERNATOR
Equipment List, Service Parts
and Technical Data
OE-A1, Prestolite Service Department, Parts and Equipment
Section, Toledo, Ohio 43601. Service and Overhaul Instructions for Continental P/N 642056A1
Teledyne Continental Motors,
or
642051 Alternator, Publication No.
X-30531,
Aircraft Products Division, Post Office Box 90, Mobile, Alabama 36601.
ELECTRIC PROPELLER DEICER
Report 70-04-700, Maintenance Manual Report 68-04-7126, Systems Company Division, B F Goodrich Company, Akron, Ohio 44318. Installation of Deicer Boots,
B.F. Goodrich
Engineered
AUTOPILOT
King KFC-200 Installation Manual No. 006-0203-00 for Models F33C, F33A, A36 and A36TC King Radio Corporation, 400 N. Rogers Road, Olathe, Kansas 66061.
or
No. 006-0201-00
for Model V35B,
Edo-Aire Mitchell Service and Overhaul Manual for
Century
III P/N 68854
or
Century
IV P/N 68S89, P.O. Box 610,
Mineral Wells, Texas 76067.
STROBE LIGHT Overhaul Manual with Illustrated Parts List of Midland Ross
Corp.,
(60-1750-3
Power
Supply),
Publication Number: 33-40-58; Grimes Div.
515 North Russel Street, Urbana, Ohio 43078.
AIR CONDITIONER COMPRESSOR Model 508
Compressor,
Abacus International, P.O. Box 327, Dallas, Texas 75221.
FLIGHT CONTROLS
ELECTRIC ELEVATOR TRIM TAB Edo-Aire Mitchell, Automatic Flight Control Systems, AK563 Bulletin No. 686 MITCHELL, P.O. Box 610, Mineral Wells, Texas 76067.
or
AK669 Bulletin No. 798, EDO-AIRE
BATTERY
Service Manual, Publication Number GSM-1277, Redlands, CA 92373.
Service Manual CB12-9, for Concorde Aircraft
Teledyne Battery Products,
Battery,
Concorde
P.O. Box 431, 840 W. Brockton Ave.
Battery Corp.,
2009 San Bernadino Rd., West
Covina, CA 01790. RADAR
WeatherScout
Digital
Weather Radar
System, System description
and Installation Manual, Publication Number:
168023100, R.C.A., Avionics Systems, 8500 Balboa Blvd., Van Nuys, CA 91409.
Aug
31/05Page
16
INTRODUCTION
nzs
Raytheon
AiKraft C6mpany
BONANZA SERIES MAINTENANCE MANUAL
INTEGRATED AVIONICS SYSTEM Garmin
G1000TM, Cockpit
Reference Guide for the Beechcraft A36/G36, Publication Number: 190-00525-00 01, E151S’ Street, Olathe, KS 66062 USA.
Garmin Internationa\, Inc., 1200
Garmin
G1000TM, Configuration
Manual, Publication Number: 190-00303-04, 151S’ Street, Olathe, KS 66062 USA.
Garmin International, Inc., 1200 E
Garmin
G1000TM,
Line Maintenance Manual, Publication Number: 190-00352-00, 1515’ Street, Olathe, KS 66062 USA.
Garmin International, Inc., 1200 E
SUPPLEMEN TA R Y PUBL ICA TIONS
Servicing Assembly.
98-35012 Brake
Maintenance Instructions and Illustrated Parts Breakdown for the Main
32-31-24 Maintenance Information and Illustrated Parts Breakdown for EM 27-8
nzs
Landing
Wheel, Nose Wheel and
Gear Motor.
INTRODUCTION
Aug
31 05Page
17
C H A PT E R
TIME LIMITS/
MAINTENANCE CH EC KS
RayMheon
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 5
TIME LIMITS/MAINTENANCE CHECKS TABLE OF CONTENTS
SUBJECT
PAGE 5-10-00
Replacement Schedule Special ConditionsCautionary Notice. Landing Gear
Overhaul and
.1
.........._....._
........._____
........._____
..................1
........._____
Power Plant
Flaps and Flight Fuel System
Controls
........4
Instruments Electrical
System
Miscellaneous
W~ngs.
..6 5-20-00
Scheduled MaintenanceChecks -Maintenance Practices
Guide). Propeller (50 Propeller Deicer(100 HourGuide). Turbocharger(EA-ll and After) Deicer
Electric
Hour
...1
...........____
Electric
........._____
................._
...............1
................._
..............1 .3
25 Hours 50 Hours
100Hours...........................................................................3
E33C, F33C Spin Inspection (AcrobaticCategory). 100-HourorAnnual
Inspection
........3
Guide.
..................6
Program(ModelsA36and B36TC) Special Conditions Cautionary Notice.
..............7
FACTS
..................7 .....9
100-HourorAnnual A.
Inspection Operational Inspection
......9
B. Power Plant
Baggage Compartment. Wingsand Carry-Through Structure
..............14
C. Cabin and D.
........._._._.._
.............15
E. Nose Gear F Main Gear and Brakes
.....17
G Main Gear
Operation Operation. Fuselage and Empennage
......18
H. Nose Gear
I. Rear
.....19 .................19
J. General
A27
5-CONTENTS
Mar
31/05Page
1
Rlytheon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 5
TIME LIMITS/MAINTENANCE CHECKS
TABLE OF CONTENTS
(Continued)
SUBJECT
PAGE 5-50-00
Unscheduled Maintenance Checks -Maintenance Practices
OperationAfterSudden Stoppage Incidents When Operating in Areas of High Dust Content When Operating in Areas of High Humidity After Receiptof the Airplane Operating fromVery SoftorUnusualTerrain Inspection AfterHard Landing Inspection AfterEncountering TurbulentAir Inspection AfterLightning Strike
........._._.._.._
........._._....__
Page
2;H~t,
5-CONTENTS
1 1 1 1
2 2
3 7 10
anr
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 5
TIME LIMITS/MAINTENANCE CHECKS
LIST OF EFFECTIVE PA GES CH-SE-SU
PAGE
DATE
5-LOEP
1
Mar 31/05
5-CONTENTS
1 and 2
Mar 31/05
5-10-00
1 thru 6
Mar 31/05
5-20-00
1 thru 21
Sep
30/04
5-50-00
1 thru 11
Sep
30/04
A27
5-LOEP
Mar
31 05Page
1
Rayrheon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
OVERHAUL AND REPLACEMENT SCHEDULE
individual
replacement must be performed not later than the recommended period. The condition period can be used as a criterion for determining subsequent periods applicable airplane or fleet operation, provided the operator has an approved monitoring system.
The time
periods
The first overhaul
or
item at the end of the first
for
inspections
noted in this manual
are
based
on
of the to the
average usage and average environmental
conditions. NOTE: The recommended as
periods
do not constitute
a
guarantee the item will reach the period without malfunction
the aforementioned factors cannot be controlled
by
the manufacturer.
SPECIAL CONDITIONS CAUTIONARY NOTICE WARNING: Prior to
performing
on an engine or the Airframe, ALWAYS pull the starter control Landing Gear circuit breaker. This will remove power to the starter igniter power relay and Landing Gear Control relay.
maintenance
circuit breakers and the control
as
well
as
the
Airplanes operated for Air Taxi, or other than normal operation, and airplanes operated in humid tropics, or cold and damp climates, etc., may need more frequent inspections for wear, corrosion and/or lack of lubrication. In these areas, periodic inspections should be performed until the operator can set his own inspection periods based on experience. NOTE: The date noted
on
issued with each
the STANDARD AIRWORTHINESS
the
airplane, following schedule.
An
engine cycle
new
is defined
as
is to be used
the
period
as
CERTIFICATE, FAA Form No. 8100-2, which is or replacement components listed in
the basis for all TBO
of time from the initial start to shutdown of the
encompasses start-up, increase to full or partial power las required during a complete engine shutdown. Normal operation results in the number of landings
engine. This flight regime) and back to being equivalent to engine
cycles. OVERHAUL AND REPLACEMENT SCHEDULE OVERHAUL OR REPLACE
ITEM
replaced On condition. On condition items are to be overhauled a potentially unsafe or unserviceable condition, if they are worn, or replaced inspection and not repairable through normal maintenance. Primarily items that intermittent inoperative, inaccurate, limited included in the following list. hour are are calender, cycle or
NOTE: All items not listed if
are
to be overhauled or
reveals
LANDING GEAR Main Gear
Assembly
On condition.
collapsed struts that cannot be by replacement will constitute the On condition requirement. Any pitting, corrosion, cracking, distortion or visible wear noted during the seal replacement will also constitute the requirement for an overhaul.) corrected
n27
(Leaking
or
seal
5-1 0-00
Raytheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
OVERHAUL AND REPLACEMENT SCHEDULE
ITEM
OVERHAUL OR REPLACE
(Continued)
LANDING GEAR Nose Gear
(Continued)
On condition.
Assembly
condition
(Leaking or collapsed struts that cannot be by seal replacement will constitute the On requirement. Any pitting, corrosion, cracking,
distortion
or
corrected
visible
wear
noted
during
the seal
replacement will also constitute the requirement for overhaul.) Nose Gear Retract Rod Rod-Ends
(All)
2,000 hours
Actuator
4,000 hours
Retract Motor
2,000 hours
Retract Motor Brushes
500 hours
Shimmy Damper
On condition.
Wheels and Tires
On condition.
or
Brake
Assembly
On condition.
Brake
Lining
On condition.
Master
On condition.
Assembly
Parking Brake
On condition.
On condition.
Cylinder
Shuttle Valve
an
On condition.
Valve
On condition.
All Hoses
POWER PLANT NOTE: A TBO
(time
proration
between
overhaul)
recommendation is in
basis. The TBO recommendation is based
no on
way to be construed as a warranty or engine life the projected time for most advantageous initial
overhaul. The individual operator’s experience may indicate recommended TBO for the particular operation. Cabin Heater Muff
in either direction from the
On condition. Refer to
Engine
departure
a
Teledyne
Continental Service Information Letter
SIL 98-9A Rev. A, or subsequent, for detailed overhaul period instructions. On condition.
Engine Controls Engine Vibration Exhaust
Isolator Mounts
System
Engine
or
On condition.
On condition.
Inspect
Starter
overhaul
at
engine overhaul,
overhaul
or
replace On
condition.
Standby
Generator
1,500 hours
Standby
Generator Brushes
500 hours
Page
raM2
31/05
5-1 0-00
A27
Raylheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
OVERHAUL AND REPLACEMENT SCHEDULE ITEM
(Continued)
OVERHAUL OR REPLACE
POWER PLANT (Continued) Alternator
On condition.
Oil Cooler
On condition,
Propeller (McCauley)
Refer to
Propeller (Hartzell)
Refer to the latest revision of Hartzell Service Letter 61 for
replace
McCauley
if contaminated.
Service Bulletin 137B
or
subsequent.
TBO.
Propeller Controls
On condition.
Propeller Governor (McCauley)
At
engine
overhaul
or
On condition but not to exceed
or
On condition. Refer to the latest
1,800 hours.
Propeller
Governor
(Woodward)
At
engine
overhaul
revision of Woodward Service Bulletin 33580
or
subsequent Air Pressure
Airborne Pumps refer to Airborne Replacement Schedule SI 300-17 or subsequent. See Supplier Data
Pump
CAUTION at the end of this
Chapter. Pump, Part Number AA442CW, Replace at 500 hours time-of-operation. Aero Accessories Pumps, Part Number AA216CW or AA3216CW, Replace at 1,200 hours time-of-operation.
Aero Accessories
Standby
Air Pressure
Pump
Airborne
Pumps
Replacement subsequent except hours are to
refer to Airborne
Schedule SI 300-17
or
pump operation time. See end of this Chapter.
Supplier
be
Data CAUTION at the
Pumps, Part Number AA216CW or Replace at 1,200 hours time-of-operation.
Aero Accessories
AA3216CW, All Hoses
Hoses
carrying
flammable
liquids
at
engine
overhaul
or
every 5 years, whichever occurs first since the last replacement or delivery date of the airplane from the
factory;
Engine
Air Filter
all other hoses On condition.
Clean every 50 hours of operation (10 times max.). Replace every 500 hours or 1 year, whichever occurs
first.
Engine
Baffle Seals
Magneto (Bendix 8 Teledyne Continental Motors
Replace
as
necessary
or
every 10 years of service.
(TCM)
Engine overhaul or every four years, whichever first. Refer to TCM Service Bulletin 643.
Slick Magnetos (Unison Industries)
Refer to Slick Aircraft Products Maintenance Manual
L-1363)
nlr
comes
(P/N
t
and Slick Service Bulletin SB2-80C.
5-1 0-00Page
3
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
OVERHAUL AND REPLACEMENT SCHEDULE
(Continued)
OVERHAUL OR REPLACE
ITEM
FLAPS AND FLIGHT CONTROLS Aileron Trim and
Flight
Linkage
On condition. On condition.
Controls
On condition.
Elevator Tab Actuator
On condition.
Flap
Motor and Gearbox
Replace
Flap
Actuators
2,000 hours
Flap Flexible Shaft
2,000 hours
FUEL SYSTEM On condition.
Fuel Cells Fuel
W~ng
Quantity
Transmitters
On condition.
Fuel Cell Drain Valve
System Check Valves
Fuel
On condition.
Replace
Fuel Selector Valve Fuel Boost
On condition.
every 10 years.
Overhaul every 10 years.
Pump
Hoses
All Hoses
carrying
flammable
liquids
engine
at
overhaul
or
every 5 years, whichever occurs first since the last replacement or delivery of the airplane from the factory; all other hoses On condition. Fuel Cell Reservoir Kit
(If installed)
Replace foam insert every
10 years.
INSTRUMENTS Turn Coordinator
On condition.
Altimeter
Every 24 months per calibrate).
Directional
Gym
Horizon
Gym
Pressure
Airspeed
Gage
Units
Indicator
On condition. On condition.
On condition. On condition.
Fuel Flow/Manifold Pressure Indicator
On condition.
Tachometer
On condition.
Clock
On condition.
ralN4
31105
and
On condition.
Rate-Of-Climb
Page
(inspect
On condition.
Gym
Engine Gage
FAA directive
5-~ 0-00
A27
RBYtbeon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
OVERHAUL AND REPLACEMENT SCHEDULE ITEM
INSTRUMENTS
Flap
OVERHAUL OR REPLACE
(Continued)
Position Indicator
On condition.
Free Air Temperature Indicator
System Filter (In-line
Pressure
(Continued)
On condition. and
Intake)
Refer to Parker-Hannifin Airborne Service Letter 59
subsequent. See Supplier this Chapter."
Standby
Pressure
System
Filters
(In-line
and
Intake)
or
Data CAUTION at the end of
I
Refer to Parker-Hannifin Airborne Service Letter 59
or
subsequent except hours are to be pump operatidn time. See Supplier Data CAUTION at the end of this Chapter." Air Pressure
Regulator Valve
On condition.
All Hoses
Standby
I
On condition.
Air Pressure
System
Check Valve
10 years.
Replace every
ELECTRICAL SYSTEM
Battery
Master
Ail Other
Relay
On condition.
Relays
On condition.
Voltage Regulator Starter
On condition.
Relay
On condition.
Battery (Emergency
Locator
Transmitter)
Replace
at 50% of useful life
any time transmitter is used hour.
las
stated
more
than
on
the
one
battery)
or
cumulative
MISCELLANEOUS Hand Fire Cabin
Extinguisher
Heating
and
Ventilating
Ducts
Inspect every
12 months,
Inspect every
12 months
or
On condition.
every 12 months
or
On condition.
Oxygen Regulator
On condition.
Air Conditioner Filter
On condition.
Air Conditioner
Seat Belts
or
Compressor
3HT
Inspect Type)
Hydrostatically years first.
Oxygen Cylinder (Standard Weight
A27
as
necessary.
On condition.
Shoulder Harnesses
Oxygen Cylinder (Lightweight
recharge
3AA
Type)
or
test every 3 years.
Replace
every 24
4,380 refills (ICC regulation), whichever
Hydrostatically
occurs
test every 5 years.
5-~ 0-00
Mar
31 05Page
5
Raytheon
Aircraft Campany
BONANZA SERIES MAINTENANCE MANUAL
OVERHAUL AND REPLACEMENT SCHEDULE ITEM
(Continued)
OVERHAUL OR REPLACE
WINGS
Wing-Attach
Bolts
Replace Refer to
CAUTIONs After
removing wing existing nuts. *Supplier Data
Page
raM6
31105
inspection
or
On condition.
always install
new
wing attach
nuts. Do not
reuse
change without notice. Users of this manual should refer to the Parker for the latest information. (www.parker.com/airborne)
on
Hannifin website
attach nuts for any reason,
10 years after initial 57.
Chapter
this item may
5-~ 0-00
A27
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
SCHEDULED MAINTENANCE CHECKS ELECTRIC PROPELLER DNCER
MAINTENANCE PRACTICES
(50 HOUR GUIDE)
The various components of the propeller deicer system should be inspected every 50 hours for the appearance of defects. The following inspections may provide means for detecting and correcting such defects before they render the deicer system a.
inoperative:
Lock the brakes and operate the engine at near takeoff power. Tum the deicer systems switch ON and observe the ammeter for at least 3 minutes. If the ammeter needle does not indicate amperage (reference ELECTRIC
PROPELLER DEICING in to the
troubleshooting
Chapter 30-60-00 for proper amperage) probable sources of trouble.
for 90 seconds at 90 second intervals, refer
chart for the
moving propeller, make certain that ignition switch is OFF and that engine has completely. There is always some danger of a cylinder firing when propeller is moved.
WARNING: Before
CAUTION: While following the instructions of Step b., the brushes and b.
With the
engine shut off,
move
the
propeller back and
arcing between
slip ring. tum the deicer switch ON and feel the deicer boots on the
sequence of heater operation. The presence of local hot spots indicates service which should be repaired before more serious damage develops. c.
forth to prevent
cooled
propeller for the proper damage to the deicer heaters,
Remove the spinner and open all access doors pertaining to the wiring and components of the deicer system. Turn the deicer switch ON and station an assistant in the cockpit to observe the system ammeter. Flex all
accessible
wiring, particularly the lead straps, leads from the slip ring assembly, and the firewall electrical wiring. Any movement of the ammeter, other than the cycling flicker that occurs at 90
connectors and their
second intervals, indicates
a
short
or
open circuit that must be located and corrected.
d.
To extend the life of the lead strap between the hub clamp and at least 112 inch from the existing location of the bend.
e.
Check for
damaged
brush rods
or
springs and
ELECTRIC PROPELLER DNCER a.
disappears
on.
worn or
damaged
the bend in the
strap
at a
point
brushes.
(100 HOUR GUIDE)
radio compass interference by operating the engine at near takeoff power with the radio If, under these conditions, noise or interference occurs when the deicer switch is ON and
Check for radio noise gear turned
for
clip, reposition
or
when the switch is OFF, refer to the
troubleshooting
chart for the
probable
source
of trouble.
WARNING: Before moving propeller, make certain that ignition switch is OFF and that engine has cooled
completely.
There is
always
some
danger
of
a
cylinder firing
when
b.
Check all clamps, clips, mountings, electrical connections and connectors for soundness. Check also for loose, broken or missing safety wire.
c.
Closely check the deicer boots for wrinkles,
loose
or
torn areas,
a
propeller
tightness
particularly around
is moved.
and electrical
the outboard end and at the
strap passes under the hub clamp. Look for abrasion or cuts along the leading edge of the flat point or thrust face. If the heater wires are exposed in damaged areas or if the rubber is found to be tacky, swollen or where the
deteriorated
A26
las from
contact with oil
or
solvent
fluids), replace the damaged
deicer boot.
.5-20-00
SepP~b:Pager
Ral~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL d.
Check that the hub clamps are tight. Inspect for cracks or other damage. Check to see that the cushioning material is not missing or damaged in the area under the hub clamp or on the edge of the spinner dome.
Manually operate come
e.
the
propeller from "high pitch"
to "low
pitch"
while
checking
that the deicer lead straps do not
under tension.
Check the
slip rings for gouges, roughened surfaces, cracks,
burned
or
discolored areas, and for
deposits of oil,
grease or dirt. Clean greasy or contaminated slip rings with CRC-2-26 solvent (23, Chart 1, 91-00-00). After such a cleaning, allow a run-in time of 5 hours of engine operation before turning on the deicer system. f.
wobble is detected, check the alignment of the slip rings to the prop shaft with a dial indicator. turning the prop to check the slip ring alignment, push in on the prop to eliminate play in the propeller thrust bearing. If the run out over 360" of rotation is over 0.005 inch or if over any 4-inch are it exceeds 0.002 inch, refer to the paragraph on SLIP RING ALIGNMENT in Chapter 30-60-00.
If
uneven wear or
While
g.
Examine the brush sure
h.
mounting bracket and housing for cracks, deformation, or other indications of damage. are tight and that the leads are not chafed or binding.
Make
that connections
fully on its slip ring over 360" of rotation. If the brush is not properly aligned, elongate the holes in the mounting bracket to raise or lower the brush block to the proper position. If the brushes ride BOTH high and low with respect to the slip rings in 360" of rotation, the slip ring assembly is eccentrically mounted and the spinner bulkhead must be replaced. For the correct angular location of the brushes to the slip ring, refer to the illustrations in Chapter 30-60-00. Check to
see
that each brush rides
add shims under the brush block
or
spacing between the brush block and slip rings as indicated in DEICER BRUSH REPLACEMENT, Chapter 30-60-00. If this distance is not within the specified limits, loosen the mounting screws and reposition them in the elongated holes until the block is properly positioned. If necessary, add shims between the thrust bearing plate and mounting bracket until the brush block is properly located.
i.
Check for proper
j.
slip rings. If this angle is not approximately 2", as Chapter 30-60-00, loosen the mounting screws and reposition the brush block until the proper angle exists between the brush block and slip rings. The spacing established in Figure 3, Chapter 30-60-00 must also be maintained after the proper contact angle is established. Estimate the contact
angle
of the brush block in relation to the
indicated in DEICER BRUSH REPLACEMENT,
CAUTION: While
following
the instructions of Step k.,
the brushes and k.
move
the
propeller back and
forth to prevent arcing between
slip ring.
system operating and a man in the cockpit observing the ammeter, visually inspect and physically flex the wiring from the brush blocks to each component of the deicer system and to the aircraft power supply. Movement of the ammeter needle (other than the cycling that occurs when the timer switches at 90-second intervals) indicate loose or broken wiring in the area under examination at the moment. In such instances, continue to flex the wiring in the area that first indicated trouble while checking the continuity through the individual wires of the affected harness until the source of trouble is located. Use the wiring diagram to trace the circuitry of the deicer system.
With the deicer
Sep
5-20’00
A26
Ray~heon
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
TURBOCHARGER
(EA-11
AND
AFTER)
25 HOURS a.
Visually inspect
oil leaks, exhaust system leaks and
general
oil leaks, exhaust system leaks and
general condition.
condition.
50 HOURS a.
Visually inspect
100 HOURS
Inspect turbocharger system per the following method: a.
Remove compressor inlet duct assembly. Inspect the compressor wheel for nicks, cracks or broken blades. Turn by hand and feel for excess bearing drag or wheel rubbing against housing. Reinstall air inlet duct.
wheel b.
Check the oil inlet and outlet ports in center
housing
for leaks, and the turbine heat blanket for condition and
security. c.
Check for any interference with linkage between the bypass valve condition and security.
d.
Inspect all exhaust system components for
e.
Inspect
worn or
damaged
(wastegate)
areas, loose
and actuator, its
clamps,
general
cracks and leaks.
lubrication system components for worn or damaged areas, loose clamps and leaks. given to the ducts downstream (pressure side) of the compressor.
Special
attention
should be
Inspect the fuel injection
f.
nozzle pressure reference manifold, for deteriorated hose, loose connections, leaks
or
obstructions. g.
All fluid power lines should be checked for leaks and
h.
The compressor discharge reference line from the throttle air valve to the controller should be opened and inspected for oil leakage from the controller. Any leakage is cause for replacement of the controller.
security.
E33C, F33C SPIN INSPECTION (ACROBATIC CA TEGORY) inspection is required on (even if the spin time is only a
This
acrobatic
maneuvers
all E33C and F33C
(CJ-1 and After) airplanes which are being acrobatically spun small part of total time). This inspection is NOT required if an airplane is performing other than spins (no spins at all). The regular 100-Hour Inspection (P/N 98-322276 or
subsequent), Intermediate 1 GO-Hour Inspection (P/N 98-38999 or subsequent) or Continuing Care Inspection Guide (P/N 98-36711D or subsequent) MUST also be complied with.
5-20-00
3
Ray~heon
company
AiKraft
BONANZA SERIES MAINTENANCE MANUAL
E33C, F33C SPIN INSPECTION (ACROBATIC CATEGORY) FREQUENCY 1. 50 Hours
INSPECTION
PART Rudder
pedal
CORRECTIVE ACTION
Check for cracks.
If cracks
are
MECH
INSP
found, contact the
bellcrank
Technical
support
Raytheon. Aircraft
Support Department Company.
of
assembly 2. 50 Hours
Elevator to
Check
Elevator
(4 per elevator)
torque fitting
proper hole diameter.
screw
holes
If hole diameter is
for
inch,
ream
more
than 0.194
hole to 0.208
0.002 inch
diameter and install NAS 2903-4
or
NAS 6203-4)( oversize bolt. If hole
casting joint
diameter exceeds 0.210 inch for oversize bolts, contact the Technical
Support Department of Raytheon Company. Torque bolt or
Aircraft screw
Check hole size in elevator inboard
to 30 to 40 in.-lbs.
If hole diameter is
hinge
inch, replace
greater than 0.251 fitting.
elevator torque
mount hole in center of
elevator torque
fitting.
Check elevator rod end
mounting
3. 50 Hours
hole in the
If hole diameter is greater than 0.379 0.001 inch and ream to 0.436
inch,
elevator torque fitting for
install
proper diameter,
bushing.
one
BS 1 05740-X-XC-0500
Horizontaland
Horizontal stabilizer
If bolt holes
are more
vertical
in diameter
or
stabilizer
forward spar: Check diameter of 4 outboard
bushings
attachment
bolt holes
diameter and install NAS 2904-14
bolt holes
(2 upper
on
each side
and 2
lower),
(stabilizer
than 0.253 inch
elongated,
to 0.270
ream
the
0.002 inch
oversize bolts. If hole diameter
exceeds 0.272 inch for oversize
I bolts,
spars and
Horizontal stabilizer rear
bulkheads)
spar: Check diameter of 2 outboard bolt holes on
contact the Technical Support Department of Raytheon Aircraft Company. Torque the nuts to 85 to
each side
100 in.-lbs.
1
(1
upper and
lower).
If any of these holes
are
oversize, check all other horizontal stabilizer holes and vertical stabilizer bolt holes for correct diameter.
Page
45-20-00
A26
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
5330, F33C SPIN INSPECTION (ACROBATIC CATEGORY) (Continued) INSPECTION
PART
FREQUENCY
Check torque
4. 50 Hours
on
CORRECTIVE ACTION
all
Torque the pounds.
nuts,
Inboard
Check for
elevatorhinge
and
INSP
nuts to 85 to 100 inch
Replace if bent
straightness
MECH
or worn.
wear.
bolts
Elevator push-
I
rods to
Check for and
if bent
Replace
straightness
or worn
smaller than
0.370 inch diameter.
wear.
elevator
torque fitting bolt 5. 50 Hours
Upper
and
Inspect
tor
cracks,
if any of noted conditions
Replace
middle rudder
corrosion and excessive
hinges
wear.
exist.
Lower rudder
Inspect tor cracks,
Replace
hinge
corrosion and excessive
exist.
if any of noted conditions
wear.
6. 50 Hours
Elevator hinge
joint
I
Check
bearing
for
looseness and
if noted conditions exist.
Replace
bearing
bracket for cracks, corrosion and excessive wear.
Check
I
bushing
diameters.
If I.D. is
over
0.191 inch
under 0.310 inch,
if noted conditions exist.
Replace Check elevator
hinge
O.D. is
or
replace bushings.
If greater than 0.200 inch,
replace
brackets hole diameter.
bracket.
Check elevator
Replace
if noted conditions exist.
Replace
if
hinge
bracket for cracks, corrosion and excessive wear.
Check bolts for
wear.
plating
is
worn or
corroded.
Check reassembled
joint for 7. 50 Hours
Elevator
Check for
pushrods
and cracks.
straightness,
Check rod end
bearing
for excessive free
play,
Check rod end
mounting
A26
Install
new
parts
as
required.
looseness.
hole diameter.
Replace pushrod Replace
more
I replace
or
cracked.
bearing if play is noted.
rod end
excessive free If
if bent
than 0.378 inch in diameter, rod end.
5-20-00
5
Raytheon
Aircraft Campany
BONANZA SERIES MAINTENANCE MANUAL
E33C, F33C SPIN INSPECTION (ACROBATIC CATEGORY) (Continued) PART
FREQUENCY
Trim Tab
8. 50 Hours
INSPECTION
CORRECTIVE ACTION
Check for cracks.
Replace
Check free
Replace tab bushing and/or trim pushrod ends, and/or trim tab
indicated in
play as Chapter
27-30-00.
Elevator
actuator shaft and/or trim tab
Check for cracks,
If cracks
between
especially outboard hinge Trim tab
10. 50 Hours
INSP
if noted conditions exist.
excessive free 9. 50 Hours
MECH
are
play
tab
hinge
if
is noted.
found, contact the
Technical
Support Department of Raytheon Company for
and
Aircraft
elevator balance horn.
repair.
Check
Replace
if bent.
Replace
if bent.
straightness.
push rod assemblies Trim tab
11. 50 Hours
´•I
actuator
Check output shaft for
Istraightness. Check actuator
Check attach bolts for proper torque.
installation for looseness. 12. 50 Hours
Elevator bellcrank
Check
pushrod mounting hole for
existing bushing
proper diameter.
BS105740X-XC0958
If
more
than 0.379 inch, press out and press in one
drill 0.377 hole
13. 50 Hours
14. 50 Hours
(elevator pushrod to bellcrank)
Check for
Inboard
Check for cracks. Check
elevatorhinge casting
hinge bearingsfor
Bolt
and
straightness
rt
bushing
and
0.002-inch diameter
through bushing.
Replace
if bent
or worn
smaller than
0.370 inch.
wear.
Replace
if noted condition exists.
looseness.
100-HOUR OR ANNUAL INSPECTION GUIDE operator is responsible for maintaining the airplane in
airworthy condition, including compliance Regulations (14 CFR). It is further the responsibility of the owner or operator to ensure that the airplane is inspected in conformity with the requirements covered in 14 CFR Parts 43 and 91. These 14 CFR Parts cover the requirements concerning the Inspection Guide. This Inspection Guide is not intended to be all inclusive, for no such guide can replace the good judgement of a certified airframe and power plant mechanic in the performance of his duties. As the one primarily´• responsible for the airworthiness of the airplane, the owner or operator should select only qualified personnel to maintain the airplane. The owner with all
Sep
or
applicable Airworthiness
Directives
30/045-20-00
as
specified
an
in Part 39 of Title 14 Code of Federal
nns
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
FACTS PROGRAM (MODELS A36 AND 836TC) Airplanes delivered from the factory after August 1, 2001 will use the Factory Aircraft Comprehensive Tracking System (FACTS) which becomes the factory computerized maintenance tracking and forecasting system for the Model A36/B36TC series airplanes. The FACTS program for the Model A36/B36TC adheres to the guidelines established in this chapter of the maintenance manual. The Raytheon Aircraft approved inspection program contained in this chapter, and within the Raytheon factory computerized maintenance inspection program (FACTS), is specifically for the Model A36/B36TC series airplanes. Any variation to the inspection program must be approved in writing by the FAA Flight Standards District Office (FSDO), or Ain~vorthineSs Authority. The FACTS program meets the requirement of both 14 CFR 91 and 14 CFR 135. SPECIAL CONDITIONS CAUTIONARY NOTICE The time
periods for the inspections noted in this schedule are based on normal usage under average environmental operated in humid tropics, or in cold, damp climates, etc., may need more frequent inspections for wear, corrosion, lubrication, and/or lack of maintenance. Under these adverse conditions, perform periodic inspections in compliance with this guide at more frequent intervals until the owner or operator can set his own inspection periods based on the contingencies of field experience. conditions. Airplanes
NOTE: The required periods do not constitute as
a
guarantee that the item will reach the period without malfunction,
the aforementioned factors cannot be controlled
by
the manufacturer.
inspection program, in accordance with 14 CFR Parts 43 and 91, consists of, but is not limited to, inspection items listed in this Inspection Guide, any applicable Airworthiness Directives issued against the airframe or any equipment installed therein and conformity to Type Certificate Data Sheet as applicable.
This
Material contained in this guide, including the inspection intervals, may be changed at any time by the owner/ operator, with prior notification and approval of the local FAA General Aviation District Office, when warranted by service experience or engineering recommendations. Information contained herein is applicable to all Bonanza series airplanes covered in this maintenance manual except where differences are indicated by serial effectivity.
Inspection Guide may be used as an outline, detailed information of the many systems and components airplane will be found in the various sections of this maintenance manual and the pertinent supplier publications. It is also recommended that reference be made to the applicable maintenance handbooks, service instructions, Raytheon Aircraft service bulletins, applicable FAA regulations and publications, and supplier bulletins and specifications for torque values, clearances, settings, tolerances, and other requirements. In the final analysis, it is the responsibility of the owner/operator to ensure that the airframe and power plant mechanic inspecting the airplane has access to the previously noted documents as well as to this Inspection Guide. While the
in the
NOTE: Any time
an
airplane
is
covered with
paint,
inadvertently
defaced
In addition to the
are
repainted or touched up, inspect all placards and decals to assure that they are not easily readable, and are securely attached. Replace any placards that have been
or
removed.
inspections prescribed by this schedule, the altimeter system and all ATC transponders inspected at 24-month intervals in compliance with the requirements specified in 14
MUST be tested and
CFR Parts 91.411, and 91.413. the airplane must be accomplished within each 12-month period for compliance with the Regulations. The time periods for inspections stated in this inspection guide should NEVER be exceeded by more than 10 hours, and then only if the additional time is required to reach a place where the inspection can be satisfactorily accomplished. However, the additional time used must be deducted from the next inspection time. If 10 hours were used to reach the inspection facility, the next inspection would be due in 90 hours for the next 100-hour inspection with no extension allowed. A
complete inspection of
Title 14 Code of Federal
PiZS
5-20-00
7
Ralfheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
An
airplane must receive a complete (100-hour, annual, or complete continuing care inspection) inspection every regardless of the hours flown. The inspections completed during a 12-month period can be deleted from the items to be inspected. Rubber goods such as fuel lines are recommended to be changed at five year periods regardless of airplane time. 12 months
NOTE: Additional publications
listed in the current Publications Price List CD ROM
(P/N 994-32808). For publications contact the Technical Manual Distribution Center (TMDC) at 1-800-796-2665, fax (316) 676-4824, E-mail TMDCQrac.ray.com or visit our web site at http:~ raytheonaircraft.com. information
on
are
these
NOTE: All electrical systems operational delivering and maintaining 28.25
Raytheon
Aircraft
classes of
Company
Service
inspections
are
to be made
using
issues service information for the benefit of
Bulletins.
an
external power
source
capable of
0.25 vdc.
MANDATORY
owners
and operators in the form of two
Border) Service Bulletins
are changes, inspections or (Red considers these with Service Bulletins mandatory. safety. factory compliance OPTIONAL (No Border) Service Bulletins cover changes, modifications, improvements or inspections which may benefit the owner. Due to the wide range of information covered by the OPTIONAL Service Bulletin, each owner or operator is responsible for conducting a thorough review of each OPTIONAL Service Bulletin to determine if compliance is required based on the applicability of the OPTIONAL Service Bulletin to his particular set of operating conditions. It is the responsibility of the owner or operator to ensure that all Raytheon Aircraft Service Bulletins which are pertinent to his particular operation -are complied with.
modifications that could affect
NOTE: Model E33C and F33C
WARNING:
During
the
Ensure the
Sep
30/04~Z’3&4
The
airplanes being
spun MUST also have the AEROBATIC INSPECTION at 50 hours.
performance of this inspection the airplane will landing gear isdown and locked before removing
5-20-00
be the
placed on three-point jacks. airplane from the jacks.
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
100-Hour A.
or
Annual
Inspection
OPERATIONAL INSPECTION 1.
MECH
INSP
Check for proper operation, unusual noise and dragging. Check starter and/or load meter to ensure starter disengagement when
STARTER
energized light (if installed) starter switch is released.
2.
3.
FUEL FLOW Check for proper fuel pressure limits and fluctuations. Refer to 71-00-00 for fuel system setup.
CYLINDER HEAD TEMPERATURE
Chapter
Check for proper operation, temperature and
fluctuations. 4.
ALTERNATOR
5.
STANDBY ALTERNATOR/GENERATOR Perform
a
Check for proper output and unusual noises.
functional test
as
outlined in
Check for proper operation in test mode. of P/N 36-590001-9 (or
Chapter 24-31-00
the Bonanza Series Maintenance Manual. Check
subsequent),
wiring
for
security
and
condition. 6.
INSTRUMENT AIR SYSTEM
7.
STANDBY INSTRUMENT AIR
plumbing
and
wiring
for
Check for proper operation and output pressure.
(If installed) Check for proper operation. Check security and condition. Refer to AFM Supplement
36-590006-23. 3.
PROPELLER OPERATION smoothness of
9.
Cycle propeller and
check for proper rpm
drop
and
operation.
PROPELLER DEICER
Check for proper
10. OIL PRESSURE AND TEMPERATURE
operation
and amperage drawn
on
ammeter.
Check for proper pressure, temperature limits
and unusual fluctuations. 11. MAGNETOS
Check the
performance
of the magneto
NORMAL PROCEDURES in the appropriate Pilot’s 12. POWER CHECK
Operating
as
outlined under the
Operating
Refer to NORMAL PROCEDURES in the
heading
Handbook.
appropriate
Pilot’s
Handbook.
13. AMMETER
Check for proper indication and unusual fluctuations.
14. HEATING AND VENTILATING SYSTEM
output. Check controls for freedom of 15. FIREWALL SHUTOFF VALVE
Check for proper
16. IDLE RPM AND MIXTURE SETTINGS
settings. Check 17. IDLE CUT-OFF
Check for proper operation, heat and airflow
movement.
controls for freedom of
operation
and freedom of movement.
Check for both proper rpm and mixture
operation.
Check for proper operation and freedom of movement.
18. IGNITION SWITCH
Rotate the
ignition switch through the OFF position to the extreme engine stops firing, the switch is normal. If the engine continues to run with the switch held against the OFF stop, it is an indication that one magneto is still "hot" or ungrounded. When the switch is released, it should automatically return to OFF and the engine should stop running. However, any ignition switch exhibiting this abnormal condition should be replaced. limit of switch travel; if the
5-20-00
9
RayNReon
nircra)t tompany
BONANZA SERIES MAINTENANCE MANUAL 100-Hour A. OPERATIONAL INSPECTION
engine
Annual
Inspection (Continued)
(Continued)
19. ALL ENGINE CONTROLS
response and
or
MECH
With the
rigging.
20. FUEL QUANTITY GAGES
engine running, check for proper operational limits, Check friction locks for proper operation.
Check for proper operation and unusual fluctuations.
21. AUXILIARY FUEL PUMP
Check pump for proper operation, unusual noise and
fluctuations. 22. FUEL TANK SELECTOR
Check for proper
placarding,
proper
operation
and feel for
detent.
positive
Check for condition, attachment, cracked or broken lenses. Check switches, knobs and circuit breakers for looseness and operation.
23. ALL LIGHTS
24. STALL WARNING SYSTEM 25. RADIO OPERATION
26. FLAPS
Check for proper
Check for proper
operation
and
operation, security
heating
of the unit.
of switches and knobs.
Check for noisy operation, full travel and proper indication.
27. PITOT HEAT
Check for amperage drawn
on ammeter
and for proper
heating
of the
unit.
23. FLIGHT INSTRUMENTS 29. BRAKES
parking
Check for condition and proper operation.
Check for condition and wear,
ease
30. EMERGENCY LOCATOR TRANSMITTER 121.5 MHz one
of
operation
and proper release of the
brake. Check for unusual brake chatter.
signal.
on
VHF
or
243 MHz
on
Check for proper operation. Tune radio to to ON and monitor for
UHF, then turn ELT switch
Turn ELT switch OFF, then place in ARM airplane is returned to service.
position. Ensure
that the ELT is
armed when the
31. AIR-CONDITIONER condenser
retracted
position
Operate the air conditioner and verify that the retractable ground extended position when turned on and returns to
to the
moves
when turned off. Check for proper
32. OXYG EN SYSTEM
operation
the
and unusual noise.
Functionally check the oxygen system for proper operation. Check operation.
the oxygen bottle shutoff valve for proper 33. SWITCHES, CIRCUIT BREAKERS
Check for proper
operationl
34. FLIGHT CONTROLS, TRIM CONTROLS AND TRIM INDICATOR movement and proper
operation through
full travel with and without
Check freedom of
flaps
extended.
Check electric trim controls for operation. B.
POWERPLANT 1.
NACELLE SKIN loose
2.
or
NACELLE STRUCTURE
missing 3.
Sep
damage
or
cracks. Check for
Check for cracks and deformation. Check for loose
rivets and concealed
COWLING
cowling 4.
missing
Check for deformation and obvious rivets.
Check for condition, security and adjustment of latches. Inspect for cracks.
Open
the upper
and clean.
COWL FLAPS
Check for travel, deformation and
5-20-00
or
damage.
security. Inspect
for cracks.
INSP
Raylheon
nirclaft Company
BONANZA SERIES MAINTENANCE MANUAL
1GO-Hour B. POWER PLANT 5.
or
Annual
Inspection (Continued)
(Continued)
MECH
INSP
SPARK PLUGS
plugs
to proper
Clean, inspect, regap, test and replace as necessary. Tighten spark torque and check ignition harness condition and for proper attachment. Perform differential
6.
COMPRESSION
7.
BATTERY Inspect for clean, tight connections and add distilled water to maintain level of 3/8-inch above top of separators. Inspect the vents and overflow tube for
compression
test. a
obstructions. Check for security and proper attachment. Check for corrosion. Make certain the battery is clean. Water or dirt on battery surface can cause the battery to
discharge. 8.
PLUMBING
Inspect plumbing and associated accessories for condition (such as fraying) and attachment. Check plumbing clearance and secure against possible chafing.
cracks and
9.
Check reservoir for
BRAKE FLUID RESERVOIR
securifl, open vent,
proper fluid level
and for leaks. 10. ENGINE OIL TANK OR SUMP
and
Check for cracks, leaks, proper fluid level, deformation
security.
11. CRANKCASE
security
Check
security
and that the tabs
are
of crankcase-thru bolts.
Inspect
the
dipstick
tabs for
not bent.
Clean screens, check for holes in the screens or foreign matter on screens and filters. Check for proper torque after installation.
12. OIL SUMP DRAINS AND SCREENS
and for obstructions. Check for metal
13. OIL COOLER
particles
Check oil cooler, lines and
fittings
for condition,
security, chafing
and
leaks. 14. PROPELLER AND MOUNTING BOLTS
Check for condition and security. Check the lightning strikes. If there is evidence of lightning strikes, consult the propeller manufacturer, the engine manufacturer and Raytheon Aircraft Company. Inspect the blades for cracks, dents, nicks, scratches, erosion, corrosion, security and movement in the hub.
tip
of the blades for evidence of
15. PROPELLER SPINNER
16. PROPELLER HUB 17. ALTERNATOR
Check for deformation,
Check for cracks,
security
and cracks.
excessively leaking
seals and condition.
Check for condition and attachment. Check
attachment and possible
chafing.
wiring
for proper
Check for unusual noise.
18. ALTERNATOR
(Prestolite or Delco Remy only) Remove and disassemble the necessary to inspect the rotor shaft bearings for condition and replace Refer to Service Instructions No. 0546-359 Rev II or subsequent. necessary. alternator
as
19. STARTER
Check for condition, attachment and chafed
20. STANDBY GENERATOR/ALTERNATOR
wires and for
~as
or
if
loose wires.
Check for condition, attachment,
security of
chafing.
5-20-00
Sep
30/04Pagell
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL 100-Hour B. POWER PLANT
or
Annual
Inspection (Continued)
(Continued)
21. MAGNETOS
excessively
MECH
Check contact
burned
INSP
for proper clearance. Points with deep pits or be discarded. must Inspect the cam follower felt pad for
areas
points
proper lubrication and clean the compartment with a clean, harness for proper connection, security and fraying. Check 22. MAGNETO PRESSURIZATION FILTER
dry cloth. Check ignition timing.
Check for condition, cleanliness and
security. 23. CYLINDERS AND BAFFLES
Check cylinders and exhaust manifold for obvious leaks, security and cracks, check baffles for cracks and security. Check cylinders for broken cooling fins and loose or missing base nuts.
24. EXHAUST SYSTEM
Check for deformation, security, cracks, leaks, loose or missing clamps. Check for thin wall condition which may occur due to normal internal erosion on stacks which have long service time. nuts and
Check for wrinkles,
25. FIREWALL access
holes for proper
26. HOSE AND DUCTS
deterioration and
or
cracks. Check all electrical and control
Check all fuel, oil and air hose or duct for leakage, cracks, Check fittings for security.
damage.
27. ENG INE ACCESSORIES
and tubes for
damage
sealing.
Check for condition,
chafing, security
28. ENGINE MOUNTS
security and
leaks. Check wiring, hoses
and leaks.
Check for cracks, corrosion and security. Inspect rubber cushions, grounding straps for condition and security.
mount bolts and nuts, and
29. CABIN HEATER SYSTEM
obstructions per
Chapter
Check for cracks, distortion, corrosion, leaks and
21-40-00.
30. PROPELLER GOVERNOR
Check for leaks and corrosion and control
arm
for
security. 31. ENGINE CONTROLS
attachment, alignment
Check controls and associated equipment for condition, rigging. Remove cable connection bolts and check for ~wear
and
each 300 hours.
32. IGNITION HARNESS
Inspect
for
fraying
and attachment.
33. ELECTRICAL WIRING AND EQUIPMENT
equipment
and accessories for
34. ALL DRAINS AND PLUGS
leaks and correct
fraying
or
subsequent.
Check for condition,
Refer to
Chapter
and
frayed
security
and obstructions. Check for
Check for
security and attachment. Check Chapters 12 and 21. Check belt for tension
condition.
37. INDUCTION AIR FILTER
Sep
and associated
Refer to Parker-Hannifin Airborne Service Letter
level and for oil leaks. Refer to
wom or
wiring
5-10-00 for additional information.
36. AIR-CONDITIONER COMPRESSOR
refrigerant
electrical
tightness.
35. PRESSURE PUMP INTAKE FILTER 59
Inspect
and attachment.
5-20-00
Check for condition, cleanliness and security.
C125
RBYllheOn
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
1GO-Hour B. POWER PLANT
or
Annual
Inspection (Continued)
(Continued)
MECH
38. INDUCTION SYSTEM AND ALTERNATE AIR
delamination of the inner
cracks, operation and
lining.
Check hot and cold flexible air ducts for
Check the alternate air valve for
blockage, security,
wear.
39. FUEL INJECTION CONTROL VALVE screen
INSP
Clean the
screen
and check for
damage.
Install
and check for leaks.
40. FUEL INJECTION SYSTEM
evidence of fuel leaks,
fraying
Inspect all fuel injection components, lines and cracking.
and
fittings for
41. FUEL RETURN LINE
(EA-11 thru EA-439) Check for chafing against the wastegate particularly in the area approximately six inches from the fire wall
seal drain line,
bulkhead
fitting
of the fuel return line.
42. ELECTRIC PROPELLER DEICER a.
Check for service damage to the deicer heaters, brush rods, springs and brushes. Check for attachment and security.
b.
Check the lead strap and all other clamps, connectors and wiring for electrical soundness, security and attachment.
c.
Check the slip rings for roughness, cracks, burned or discolored areas and for deposits of oil, grease or dirt. Check for security and attachment of all components.
d.
Check deicer boots for wrinkles, loose
or
tom areas.
43. TURBOCHARGER SYSTEM a.
b.
Inspect
the
Inspect the
system for oil leaks, exhaust system leaks, cracks and attachment. compressor wheel for nicks, cracks
or
broken blades and freedom of
movement. c.
Inspect the bypass valve (wastegate) for proper operation and inspect all linkage for interference, condition, security and attachment.
d.
Inspect all
exhaust
system components for worn
or
damaged
areas, loose
clamps,
worn or
damaged
areas, loose
clamps,
cracks and leaks. e.
Inspect
lubrication system components for
cracks and leaks. f.
Inspect the upper deck pressure reference lines and the fuel manifold for loose connections, leaks and possible chafing.
g.
Check and calibrate the turbine inlet temperature indicator in accordance with Chapter 77-00-00.
h.
Check manifold pressure controller
44. ENGINE BAFFLE SEALS
annual
inspection. Replace
Inspect as
for
linkage
for
or
reference
wear.
security and
necessary
injection
condition at each 100-hour
or
every 10 years of service.
Inspect pressure system in-line filter for condition, cleanliness and security. Refer to Parker-Hannifin Airbome Service Letter 59 or subsequent. Refer to Chapter
45. FILTERS
5-10-00 for additional information.
A26
5-20-00
13
Raytheon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL 10~Hour 8. POWER PLANT
or
Annual
Inspection (Continued)
(Continued)
MECH
46. PRESSURE PUMP
(Airborne)- Inspect as required by Parker Hannifin Service Letter Refer to Chapter 5-10-00 for additional information. PRESSURE PUMP (Aero Accessories Pumps, Part Number AA216CW or AA3216CW) Initially inspect at 600 hours time-in-service in accordance with Aero Accessories Service Letter No. 004 and thereafter as directed by the Service Letter. Refer to Chapter
43A
or
subsequent.
5-10-00 for additional information. C.
CABIN AND BAGGAGE COMPARTMENT 1.
2.
SKIN Inspect skins for deformation, cracks and loose found, check adjacent structure.
missing
rivets. If
damage
is
STRUCTURE Check for cracks and deformation. Check for loose or missing rivets and concealed
3.
or
damage.
CABLES, PULLEYS AND TURNBUCKLES Check the flight control components, pulleys. Replace control system components (pushrods, turnbuckles, end etc.) that have bulges, splits, bends, or cracks. Check control cables, castings, fittings, associated and equipment for condition, attachment, alignment, clearance and pulleys, cables that have more than 3 broken strands in any 3-foot Replace operation. proper cables and
length of
cable
or
evidence of corrosion. Check cables for proper tension.
NOTE: It is important to operate controls through their full range so that the cables from pulleys and all portions of the cables are exposed for inspection. 4.
LANDING GEAR GEARBOX AND ACTUATING LINKAGE
move
away
Check for
condition and attachment. Check for unusual noise. Remove oil filler
leakage, wear, plug and check oil
by engaging and turning the emergency hand crank 1/2 turn to’deiermine that oil being picked up on the worm gear. The oil level should be maintained no more than necessary to cover 1/2 of the diameter of the worm gear. Install oil filler plug. level is
5.
FLAP MOTOR AND SHAFTS
Check drive shaft 6.
Check for condition, security arid wear at all points. and check jam nuts for tightness.
security
signs
of
chafing
or
Check for condition, security and leaks.
cracks.
BRAKE MASTER CYLINDER AND PARKING BRAKE VALVE
security 8.
for
AUXILIARY FUEL PUMP AND FUEL LINES Check lines for
7.
housing
and leaks. Check lines for
RUDDER PEDALS
signs of chafing
or
Check for condition,
cracks.
Check for freedom of movement. Check cables,
push/pull rods,
bellcranks, pulleys, turnbuckles and fair leads for proper routing, condition and security. Check rudder pedal fore and aft positions for wear. Check locks and pins to ensure
positive NOTE: It is
lock.
important to operate controls through their full range so that the cables pulleys and all portions of the cables are exposed for inspection...
move
away
from 9.
CONTROL COLUMN, TRIM CONTROL AND INDICATOR (Electric and Manual) Check for freedom of movement. Inspect pulleys, sprockets, bearings, actuators, chains and tumbuckles for condition, security and operation. Check trim indicator for proper indication.
Sep
5-20-00
INSP
Ral~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
100-Hour
or
Annual
C. CABIN AND BAGGAGE COMPARTMENT 10. ENGINE CONTROLS
locks for proper
Check for
ease
Inspection (Continued)
(Continued) of
operation through full
MECH
INSP
MECH
INSP
travel. Check friction
operation.
11. ELECTRICAL WIRING AND EQUIPMENT
Check for condition, security and signs of
chafing. 12. PLUMBING
Check all
plumbing
and connections for
security, leakage
and
general
condition 13. WINDOWS AND DOORS
Inspect windows for scratches, crazing and general security of attachment. Check latching mechanism for proper engagement and ease of operation. Check that rotation of the interior door handle without depressing the handle lock release button does not unlatch the door. condition.
doors for
Inspect
14. INSTRUMENTS AND INSTRUMENT PANEL
Inspect instrument panel,
sub
and instruments for condition and attachment. Check all knobs for
placards Inspect shock 15.
mounts and
ground straps
for cracks and
panels,
security.
security.
SEATS, SEAT BELTS AND SHOULDER HARNESSES Inspect cabin seats, seat belts and shoulder harnesses for proper operation, condition and security of attachment. Inspect floorboards for condition and seat attachment. Check for operation of the seat stops. Check condition of the oxygen system and check the oxygen
16. OXYGEN SYSTEM
masks for cleanliness and 17. VENTILATING SYSTEM
and
stowage. Check all fresh air and heat outlet vents for proper movement
operation.
18. FUEL SELECTOR VALVE
Inspect for leakage, security, freedom of movement, proper detent feel and condition. Clean strainer and check for condition. Check for proper
placarding. 19. EMERGENCY EXIT HATCH
Check emergency release handle and latch assembly for Check that the hatch moves out freely. Check the complete latch proper operation. for all and condition assembly moving parts for proper operation. With the hatch check for installed, proper latching and seal. Safety the emergency exit with 0.020 inch-diameter copper wire after
20. STATIC SYSTEM
Check and drain water from the static lines. Check for condition,
21. CABIN AIR BLOWER 22. FUEL STRAINER
opening.
mounting security
and
wear
at all
points.
Drain and clean. On fuel cells with foam inserts, check for brown Safety Communique No. 67 and Service Bulletin No. 2109.
foam material. Refer to
23. CONTROL COLUMN
Inspect D.
(E-1946, E-2104, E-2111 and After; EA-320, EA-389 and After) U-joint roll pinb and ensure they are not backing out.
the control column
WINGS AND CARRY-THROUGH STRUCTURE
LH 1.
SKIN
Check for deformation and obvious
rivets. If
landing
damage or
is
found, check adjacent
excessive
damage.
Check for cracks, loose
or
RH
missing
structure. Check for indications of hard
flight loading.
.5-20-00
15
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL 1 GO-Hour
or
Inspection (Continued)
Annual
D. WINGS AND CARRY-THROUGH STRUCTURE
(Continued)
MECH LH
2.
INSP
RH
Check for cracks, deformation and concealed damage. Check for loose rivets. Refer to Chapter 53-10-00 of this Maintenance Manual for inspections
STR UCTURE or
missing fuselage
for
web cracks at the
fuselage/wing
spar carry
through
area.
3.
ACCESS DOORS AND PANELS
4.
CABLES, PULLEYS AND TURNBUCKLES Check the flight control components, cables and pulleys. Replace control system components (pushrods, turnbuckles, end fittings, castings, etc.) that have bulges, splits, bends, or cracks. Check control cables, pulleys, and associated equipment for condition, attachment, alignment, clearance and proper
operation. Replace
length
of cable
NOTE: It is
Inspect for cracks, proper fit
cables that have
more
and attachment.
than 3 broken strands in any 9-foot
evidence of corrosion.´•Check cables for proper tension.
or
important to operate controls through their full range so that the cables pulleys and all portions of the cables are exposed for inspection.
move
away
from 5.
AILERONS
Check for condition and
Check for cracks, loose or missing rivets hinge bearings and brackets for condition, push/pull and rod ends for corrosion.
security.
and freedom of movement. Check rods for 6.
security
FUEL CELLS, CAPS AND VENTS Inspect fuel cells, caps and vent lines. Refer to 28. Refer to Service Instruction Number 0632-280.
Chapter 7.
8.
PLUMBING
Check for
leakage, chafing,
condition and
ELECTRICAL WIRING AND EQUIPMENT
security.
Inspect for chafing, damage, security and
attachment.
9.
FLAP LIMIT SWITCHES
Check for condition,
10. FLAPS AND ACTUATORS
drive shafts. Check roller
bearings
11. FLAP
Check for condition, security,
operation.
binding or chafing of actuator
flap
POSITION TRANSMITTER
are
and freedom of
skin and structure for cracks, loose or missing rivets. Check and tracks for condition. Check stop area for condition and damage.
12. DRAIN HOLES
they
security
Check for
security
and
operation.
Check the drain holes in the upper wing attach
fittings
to ensure that
open and free of obstruction.
13. WING SPAR CAP
Inspect the wing
spar cap for corrosion. Refer to
Chapter
57. See
Service Bulletin 2538. 14. WING
BOLTS
Check
wing bolts for proper torque at the first 100-hour inspection and inspection after each reinstallation of the wing attach bolts. Refer to maintenance manual for wing bolt, nut and fitting inspection criterion
at the first 1 GO-hour
Chapter 57 of this and frequency.
15. RADAR ANTENNA COVER
Check the
fiberglass for security,
attachment and cracks.
16. FUEL VENTS AND AIR INLETS, PITOT TUBE AND STALL WARNING VANE for condition and obstruction. 17. Perform the INSPECTION OF FUEL CELL FLAPPER VALVE
Check
procedure. Refer to
Chapter 28-10-00.
Sep
30/045-20-00
A28
RaytPleon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
100-Hour E.
or
Annual
Inspection (Continued)
NOSEGEAR 1.
WHEEL AND TIRE
MECH
INSP
MECH
INSP
Check wheel for cracks and tire for wear, damage and proper bearings for condition and wear.
inflation. Check wheel 2.
LANDING GEAR STRUT Inspect the shock strut and components for cracks, attachment, proper inflation and evidence of leakage.
3.
ACTUATING LINKAGE
Check for
wear
at attach
points. Check for
cracks and
security. 4.
GEAR DOORS AND LINKAGE and skins. Check
and 5.
linkage for
security.
NOSE GEAR STEERING LINKAGE
security. Inspect linkage 6.
Check doors for damage and cracks to the structure and cracks at the attach points. Check for condition
wear
SHIMMY DAMPER
Inspect linkage for tightness, condition and
boots for condition.
Check for condition and attachment. Check attach points for Chapter 12-20-00.
cracks. Check fluid level per 7.
STRUT FLUID LEVEL in
8.
Chapter
Check and maintain the proper fluid level in the strut
as
outlined
12-20-00.
STRUT AND A-FRAME HINGE BOLTS
Inspect
for corrosion and
security
of
attachment.
9.
STATIC CABL~ (If installed)
Inspect for condition, proper clearances and attachment.
Check for condition.
10. VISUAL INDICATOR
11. NOSE LANDING GEAR DRAG BRACE
(P/N 002-820016-31, P/N 002-820018-3, or Installed) Check that the two drag brace bracket attachment bolts (Item 22, Figure 4, Chapter 32-20-00) are secure. Check drag brace assembly for shear stress, wear and corrosion. At 2,000 hours, remove and inspect the two bracket attachment bolts. Replace all hardware with evidence of shear stress, wear and/or with Kit 35-4012-1
corrosion. 12. NOSE LANDING GEAR RETRACT ROD ROD-ENDS
for
F.
signs
of
cracking,
sheer stress,
wear
Check the retract rod rod-ends
and corrosion.
MAINGEARAND BRAKES
LH 1.
RH
BRAKES, LINES, LINING AND DISCS Check for condition, wear and security. Check lines for chafing and signs of leakage or cracks. Check discs for wear or warping. Check brake discs for cracks.
2.
WHEELS AND TIRES Check wheels for cracks and tires for wear, damage, condition and proper inflation. Check wheel bearings for condition and wear.
3.
ACTUATOR GEARBOX, MOTOR AND SWITCHES
Check for
leakage,
condition and
security. 4.
LANDING GEAR STRUTS
Inspect the
shock struts and
attachment, corrosion, proper inflation and evidence of
n,s
components for cracks,
leakage.
5-20-00
17
RayNheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL 100-Hour F. MAIN GEAR AND BRAKES
or
Annual
Inspection (Continued)
(Continued)
MECH LH
Check for
ACTUATING LINKAGE
5.
condition and
and skins. Check and
security. pins.
as
outlined in
for
Check doors for
for
damage
and cracks to the structure
wear
Check and maintain the proper
Chapter
hydraulic fluid
level in the struts
12-20-00.
STRUT AND A-FRAME HINGE BOLTS
8.
points. Check
and cracks at the attach points. Check for condition Determine that ail clevis retaining pins are in place and secured with cotter
linkage
STRUT FLUID LEVEL
7.
and cracks at attach
RH
security.
GEAR DOORS AND LINKAGE
6.
wear
INSP
Inspect
for corrosion and
security
of
attachment.
G.
MAIN GEAR OPERATION
WARNING: ~Under
circumstances should the
landing gear be operated electrically engaged. In the event of such an operation, a tear down and magnetic inspection should be performed to determine damage to the engagement slot in the worm shaft. no
while the hand crank is
battery voltage is not sufficient to properly cycle the landing gear for this inspection, use only an extemal power source capable of delivering and maintaining 0.25 vdc to the airplane’s electrical system throughout the extension and 28.25 retraction cycles when performing the landing gear retraction inspection. Refer to Chapter 32 for more specific information on the following items.
CAUTION: Since the
Check operation, fit and fair. Check for unusual noise.
1.
DOORS
2.
POSITION LIGHTS
3.
WARNING HORN
Check for security, adjustment and wiring for breaks, condition of insulation, loose connections and proper indication.
Check for proper operation.
UPLOCK CABLE TENSION
4.
Check
uplock
cable mechanism for condition and
security. Check uplock cable for proper tension and for possible fraying. 5.
EMERGENCY EXTENSION
Check system for freedom of
operation. Check for
unusual noise. With thespar cover installed, check for proper engagement of the emergency extension handle and proper system operation. 6.
DOWNLOCK TENSION
Check for proper deflection force
on
the main gear knee
joints. 7.
UPLOCK ROLLERS indicated in
8.
Chapter
Check condition and clearance of 12-20-00. Check for
Page
rollers
and
lubricate
as
binding.
LIMIT SWITCH RIGGING
Check for security and proper adjustment of the limit switches. Refer to RIGGING THE LANDING GEAR in Chapter 32-30-00 of this maintenance manual for correct
9.
uplock
SAFETY SWITCH
Check for
185-20-00
landing gear gearbox internal
security, proper rigging
and
clearance.
operation.
A26
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
100-Hour
G. MAIN GEAR OPERATION
or
Annual
Inspection (Continued)
(Continued)
MECH LH
INSP
RH
10. GENERAL OPERATION
Place the airplane on jacks and cycle the landing gear while checking to ascertain that the position light switches operate in conjunction with the landing gear position. Check the condition and operation of the complete landing gear
system. 11. DYNAMIC BRAKING ACTION
12.
of
dynamic
brake
relay.
ASSIST STEP (If Installed) Inspect the retractable step for cable and safety link condition, proper adjustment and operation. Check fixed link condition, proper
adjustment H.
Verify proper operation
and
operation. Check fixed steps for security.
NOSE GEAR OPERATION
WARNING: Under
MECH
INSP
circumstances should the
no
landing gear be operated electrically engaged. In the event of such an operation, a tear magnetic inspection should be performed to determine damage to
while the hand crank is down and
the engagement slot in the
worm
shaft.
CAUTION: Since the battery voltage is not sufficient to
properly cycle the landing gear for this only an external power source capable of delivering and maintaining 28.25;t 0.25 vde to the airplane’s electrical system throughout the extension and retraction cycles when performing the landing gear retraction inspection. Refer to Chapter 32 for more specific information on the following items. inspection,
use
Check operation, fit and fair. Check for unusual noise.
1.
DOORS
2.
NOSE GEAR UP TENSION
3.
DOWNLOCK TENSION Check the downlock tension RIGGING THE LANDING GEAR in 32-30-00.
4.
GENERAL OPERATION
Check the up tension on the RIGGING THE LANDING GEAR in Chapter 32-30-00. on
nose
the
gearas indicated in
nose
gear
as
indicated in
Place the
airplane on jacks and cycle the landing gear while position light switches operate in conjunction with the the Check condition and operation of the complete landing gear position.
to ascertain that the
checking landing gear system.
I.
5.
VISUAL INDICATOR
Inspect for proper adjustment and operation.
6.
NOSE GEAR STEERING
Check for condition and
security.
REAR FUSELAGE AND EMPENNAGE 1.
SKIN
Check for deformation, cracks and obvious damage. Check for loose damage is found, check adjacent structure.
or
missing
rivets. If
2.
INTERNAL FUSELAGE STRUCTURE loose
or
Check for cracks and deformation. Check for
missing rivets. Check bulkheads,
door posts,
stringers and
doublers for
corrosion, cracks and buckles. 3.
STRUCTURE other obvious
A26
Inspect the damage.
two most aft bulkheads for
cracks, distortion, loose rivets
or
5-20-00
19
Raytheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
100-Hour
Annual
Inspection (Continued)
(Continued)
I. REAR FUSELAGE AND EMPENNAGE 4.
or
MECH
IINSP
CABLES, PULLEYS AND TURNBUCKLES Check the flight control components, cables and pulleys. Replace control system components (pushrods, turnbuckles, end fittings, castings, etc.) that have bulges, splits, bends, or cracks. Check control cables, pulleys, and associated equipment for condition, attachment, alignment, clearance and proper
operation. Replace cables
length
of cable
NOTE: It is
or
that have
more
than 3 broken strands in any 3-foot
evidence of corrosion. Check cables for proper tension.
important to operate controls through their full range so that the cables pulleys and all portions of the cables are exposed for inspection.
move
away
from 5.
Check for deformation, cracks and
CONTROL SURFACES
missing
or
bond cables. Check the inboard in 6.
security. Check for loose security of hinges and elevator hinge casting ton the aft bulkhead) for cracks
rivets. Check for freedom of movement. Check for
mounting~bolt
holes.
TRIM TABS AND ACTUATORS
Chapter.27-30-00.
Check
hinges
Check for
security
trim tabs for cracks and control rods for-attachment.
Chapter
wear.
12-20-00.
7.
STATIC PORTS
8.
PLUMBING
9.
Check free
play per security and wear. Check. Lubricate trim tab hinges per and
and trim tab actuators for
Check for obstruction and clean
Check for
leakage, cracks, chafing,
ELECTRICAL WIRING AND EOUIPMENT
as
necessary.
condition and
security.
Inspect for chafing, damage, security
and
attachment. 10. STATIC LINES 11. ANTENNAS 12.
Check condition of static lines and drain.
Check for condition and
security.
ELEVATOWRUDDER (Ruddervators)a.
Check that the drain holes
open and clean.
b.
Check that the ruddervator trim tab and
are
hinge pin are correctly mated. Refer to Chapter 27-21-00.
ELEVATOR TRIM TAB INSTALLATION, the trim tab
c.
Check for cracks
d.
Check the stabilizer front and
on
13. RUDDER FORWARD SPAR
hinge support
rear
(CE-748,
spar attach
channel.
points for cracks
and looseness.
CE-n2 thru CE-1425; CJ-149 thru CJ-179;
E-llll, E-1241 thru E-2518; EA-11 thru EA-500 and airplanes that have not installed Kit 33-6001-1 Refer to Service Bulletin No. 2333 every 500 flight hours or annually. 14. RUDDER FORWARD SPAR
(CE-1426 and After; CJ-180 and After; E-2519 and After; airplanes that have installed Kit 33-6001-1 Open inspection covers adjacentto the upper and center hinges. Inspect ribs, spar, hinges and all rudder components in area of the hinges for attachment security, cracks and general condition using a flashlight and mirror. Install covers. EA-501 and After and
I I
J.GENERAL and serviced.
1.
Airplane cleaned
2.
Airplane lubricated, after cleaning,
Page
peS02
30/04
5-20-00
in accordance with
Chapter
12-20-00.
nze
Ra~heon Aircraft Company BONANZA SERIES MAINTENANCE MANUAL
10O-Hour J. GENERAL
Annual
or
(Continued) all
MECH
3.
Inspect
4.
Ensure that all Airworthiness Directives,
previously 5.
For
a
Inspection (Continued)
placards
to
ensure
that
they
issued Service Instructions
are
easily
readable and
Raytheon
are
securely
attached.
I
Aircraft Service Bulletins and
reviewed and
complete or annual inspection of the airplane, guide should be inspected.
complied
all items
on
with
the
INSP
as
I
required.
airplane
that
are
noted in this
pas
5-20-00Page
21
RaytheOn
AiKraft
Campany
BONANZA SERIES MAINTENANCE MANUAL
UNSCHEDULED MAINTENANCE CHECKS
MAINTENANCE PRACTICES
subchapter is assembled in chart form to allow a technician to perform checks for damage after operating the airplane in conditions which could require unscheduled maintenance. Specific conditions, such as lightning strikes, turbulent air penetration or hard landings, etc., are included. Inspection instructions are included for each of the This
conditions listed. WARNING:
During
the
performance of these inspections the airplane could be placed on three-point jacks. landing gear is down and locked before removing the airplane from the jacks.
Ensure the
UNSCHEDULED MAINTENANCE CHECK
INSPECTION REQUIREMENT
ITEM
INSPECTION INTERVAL
I
OPERATION AFTER SUDDEN STOPPAGE INCIDENTS The
Propeller Governor
propeller governors should be overhauled or replaced as instructed in the manufacturer’s
After sudden
engine stoppage.
manuals.
WHEN OPERATING iN AREAS OF HIGH DUST CONTENT Nose
Landing Gear Shock
Strut Instrument Air Filters
Clean off and wipe dry exposed polished surfaces. instrument line
Replace
Routine.
supply filters at or extremely dusty
before 100 hours under
As noted.
conditions.
Ensure door is sealed around all edges and
Alternate Air Door
there is
adequate spring
tension
on
Routine.
the door.
CAUTION: To avoid damaging the barometric sensor, disconnect the autopilot reverse
air pressure to the
Pitot and Static Lines
pitot and static
Check for obstructions
sensor
line
prior
to
applying
lines.
by applying reverse air psi) to the ends of
200 hours
or as
required.
pressure (not the pitot and static lines with them to exceed 20
disconnected from the instruments.
WHEN OPERATING IN AREAS OF HIGH HUMIDITY Floor Structure
Check structure under the floor for corrosion
At
a
scheduled
inspection.
At
a
scheduled
inspection.
At
a
scheduled
inspection.
At
a
scheduled
inspection.
by removing a floor panel and inspection the structure, especially the channel sections. Aft Cabin
Remove aft cabin for corrosion,
Wing
Remove covers
Empennage
access covers
especially aft
wing and center
and
inspect points.
of bulkhead
section
access
and check forcorrosion.
Remove all
fuselage access covers and check
for corrosion.
n2e
.5-50-00Page
1
Aircraft
Company
BONANZA SERIES MAINIENANCE MANUAL UNSCHEDULED MAINTENANCE CHECK
(Continued)
INSPECTION REQUIREMENT
ITEM
INSPECTION INTERVAL
AFTER RECEIPT OF THE AIRPLANE
Check torque of the
Wing
wing
attach bolts.
After the first 100 hours and at the first 100 hours after the
I
adjustment
of
wing.
OPERATING FROM VERY SOFT OR UNUSUAL TERRAIN LANDING GEAR
Visually check for cuts,
Tires
wear, deterioration
Routine.
and inflation.
I Main Landing a.
Gear
Wheels
Check strut inflation. 1.
2.
Checkforobvious
damage.
Routine.
Removeandclean; inspectforabrasions, chipped rims, bearing for wear,
Every
100 hours and/or
annually.
cracks and
corrosion, fretting and bluing; check seals for distortion, deterioration, and proper fit and security. b. Brake Units
c.
Shock Absorber
1.
Check
2.
Check for evidence of
3.~
Check discs for scoring, distortion, damaged plating and evidence of overheating.
cylinders and damage and leaks.
associated lines for
overheating.
Check surfaces for cleanliness, free from oil
or
Routine.
Every
100 hours and/or
annually.
Every
100 hours and/or
annually.
Every
100 hours and/or
annually.
grease deterioration. d. Wheel Wells
Clean foreign material
(dirt, etc.) from wheel Inspect supports between main and aft spars in upper wheel well and the lift leg attach
As
required.
wells.
bracket at the main spar for deformation,
cracks, Nose a.
etc.
Landing Gear Wheel
1.
Visually
check for obvious
damage.
Remove and clean.
2.
Inspect for abrasions, chipped rims, bearings for corrosion, fretting and bluing; check
Routine.
Every
100 hours.
cracks and wear,
seals for distortion, deterioration, proper fit and security.
b. Shock Strut
1.
Check for obvious damage and leaks. Clean exposed surface of shock strut
piston
Routine.
with clean cloth moistened with
hydraulic fluid.
Page
25-50-00
AZS
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
UNSCHEDULED MAINTENANCE CHECK INSPECTION REQUIREMENT
ITEM
OPERATING FROM VERY SOFT OR UNUSUAL TERRAIN b. Shock
(Continued)
Strut(Continued)
INSPECTION INTERVAL
(Continued)
2.
Checkforcorrect extension.
Every
100 hours.
3.
Thoroughly clean and inspect for leaks, damage and security; service as
Every
100 hours.
I
necessary. c.
Fork
Check for cleanliness and obvious
Assembly
d. Nose Wheel
Routine.
damage.
Check for obvious
Steering
damage, associated rods damage and security; pulleys for wear and security.
Every
100 hours,
and
security. I Every
100 hours.
for condition and attachment.
Every
100 hours.
i
and connections for
steering e.
f.
Actuator
and
Check for excessive
Linkage
Inspect
Shimmy Damper
play, safety
I I
I I
INSPECTION AFTER HARD LANDING Perform the
following:
should be carried out after
NOTE: This
As
hard
I I
applicable.
a as ready inspection airplane landing flight. The inspections are conducted at two levels. The first level consists of determining if any external damage has occurred and looking for evidence of internal structural failure. The second level is concerned with a more detailed inspection of any damaged areas which were indicated in the findings of the first level inspection. If it is determined by the first level inspection that there is no damage to the airplane, it is not necessary to proceed to the second level inspection.
and before the
is certified
for
further
WARNING: Even
though
considered serious
wrinkles in the
negligible, damage. as
a
wing or fuselage skin surface may be slight enough inspection of the internal supporting structure may
close
FIRST LEVEL INSPECTION General
Appearance
flight.
Determine that the airframe components
(wings, fuselage and empennage) normal configuration. Landing Gear
Prior to next
to be
reveal
1.
Inspect tires for excessive the tread,
bottoming
are
wear,
in their
splits
in
out or folding over the
sidewalls. 2.
Checkthewheels (rims)forflatspotsor cracked
3. for
cracks.Check
I I
castings.
shock struts and attachment
lugs
4.
Inspect hydraulic
5.
Inspectnosedrag legsandgeardoor retract linkage for damage.
I
brake lines for leaks.
i 5-so-oo
Ray~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL UNSCHEDULED MAINTENANCE CHECK
I
INSPECTION REQUIREMENT
ITEM
INSPECTION AFTER HARD LANDING
Landing Gear (Continued)
(Continued)
1
(Continued)
Inspect landing gear lift leg attach bracket deformation, cracks,
6.
at the main spar for etc.
Inspect
Nose Structure
around
landing .stnioph catta
7.
I
area
Inspect external skin surfaces for
1.
distortion, loose
I
11
I I
or
missing
rivets.
2.
Check
3.
Inspectenginecontrol cablesforsmooth operation and check plumbing and wiring for security and attachment.
14
attachment for
rdamage. otcowling nemngila
Inspect engine support fittings for cracks or
structural failure.
5.
Check tips of
6.
Check propeller´•spinnerand backplatefor evidence of interference with cowling.
propeller
for
damage.
Inspectwheelwell structurefordamage or area surrounding the landing gear attachment points.
7.
I
gear
cracks. Check
Wing Carry-thru Structure
1.
Checkwing attachmentfittings forcracks. Perform a Dye Penetrant inspection.
2.
Inspect plumbing, wiring and actuator for damage and security of attachment.
3.
Checkkeel,frontand rearsparonthe lower side of
fuselage
for
damage
and
alignment.
I
Wings
Inspect external wing surface
1.
skin for
cracks, abnormal wrinkles and loose
gnissimro rivets.
I
Page
2.
Checkwing attachmentfittings forcracks. Perform a Dye Penetrant inspection.
3.
Inspect internal
4.
attachment.Inspect plumbing
45-50-00
structure. and
wiring for security of
INSPECTION INTERVAL
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
UNSCHEDULED MAINTENANCE CHECK (Continued) INSPECTION INTERVAL
INSPECTION REQUIREMENT
ITEM
INSPECTION AFTER HARD LANDING (Continued)
Fuselage Center Section
1.
Inspect
external skin surface for cracks,
abnormal wrinkles and loose
or
missing
rivets. 2.
Inspect
around cabin windows for
structural cracks.
Fuselage, Aft
1.
Check external skin surface the entire
length loose 2.
for cracks, abnormal wrinkles and missing rivets.
or
Inspect empennage
and control surfaces
for freedom of movement.
SECOND LEVEL INSPECTION NOTE: Because shock
surrounding Landing Gear
As
required.
loading may be transmitted along one structural member to another, carefully inspect the supporting structure in any damaged area found in the first level inspection.
I
and
i.
Place
airplane
on
jacks and check shock
strut for free up and down movement.
2.
Remove tires and cuts
3.
or
broken
inspect internally for
areas.
Disassemble and examine wheels
for cracks
or
trims)
distortion.
4.
Visually inspectaxlewith 10-powerglass. If suspect, dye check or magnaflux.
5.
Removeand
replaceormagnafluxthe
landing gear attach bolts, for cracks 6.
or
Remove and
check bolt holes
elongation. replace
or
magnaflux drag
link bolts and supports.
Nose Structure
7.
Perform
1.
If
landing
gear retraction test.
tips of propeller have been damaged, applicable Engine Maintenance Manual for engine .inspection procedure. refer to the
2.
3.
4.
nae
Inspect areas surrounding the engine support fittings. Check the internal structure of the wheel
well for cracks
or
Test
and
plumbing operation.
damage. wiring
for proper
5-so-ooPage
5
Ral~heon
AiKraft
Company
BONANZA SERIES MAINTENAN~E MANUAL UNSCHEDULED MAINTENANCE CHECK
(Continued)
INSPECTION REQUIREMENT
ITEM
INSPECTION AFTER HARD LANDING
(Continued)
Inspect wheel well structure and surrounding areas for signs of structural
5.
Nose Structure
INSPECTION INTERVAL
(Continued)
failure.
Dyecheckwing attachmentfittings; (magnaflux or replace)
1.
Wing Carry-thru Structure
examine
attachment bolts and check bolt holes for
alignment
and correct dimensions.
Remove floorboards and
2.
access
plates
spar, and keel structure for evidence of deformation
and
or
inspect the
front and
structural failure.
plumbing, wiring, flaps, control cables, pulley mounts, and any other
3.
Test
system found in this operation.
area
for proper
Dyecheckwing attachmentfittings; (magnaflux or replace)
i.
Wings
rear
examine
attachment bolts and check bolt holes for
alignment 2.
I
Fuselage, Center
and Aft
and correct dimensions.
Test
plumbing operation. Examine
1.
and
stringers,
wiring
for proper
frames and sidewalls
for deformation structural failure.
Section 2.
Test
plumbing operation.
and
Inspect heating damage.
3.
wiring
and
for proper
air-conditioning ducts
for
cablesandpulley mountings and check for clearance from structure at pass-through locations. Ensure a smooth operation. Examinethecontrol
4.
REPAIR OF DAMAGE and
degree
damage which may be involved, the best repair of replacement airplane. If the hard landing inspection indicates that occurred, contact Raytheon Technical Support, Raytheon Aircraft Company,
of structural
Due to the
variety
procedure
must be based on the
serious structural
damage
has
findings
of the individual
Wichita, KS 67201 for assistance. LOG BOOK ENTRY
Followingahardlanding inspection, an entry covering the extent applicable) must be noted in the airplane permanent records.
of
inspection,
the
damage
and the
repair (if
6
egaP. 5-50-00
Sep 30/04
A26
Raytheon
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
UNSCHEDULED MAINTENANCE CHECK ITEM
(Continued)
INSPECTION REQUIREMENT
INSPECTION INTERVAL
INSPECTION AFTER ENCOUNTERING TURBULENT AIR Perform the
following:
As
applicable.
NOTE: This
inspection should be carried out after the airplane has been subjected to high G loading while flying through turbulent air and before the airplane is returned to service; The inspection is conducted on two levels. The first level consists of determining if any external damage has occurred and looking for evidence of internal structural failure. The second level is concerned with a more detailed inspection of damaged areas which were indicated in the findings of the first level inspection. If it is determined by the first inspection that there is no damage to the airplane, it is not necessary to proceed to the second level inspection. FIRST LEVEL INSPECTION
WARNING: Even
though
considered serious
wrinkles in the
negligible, damage.
General Appearance
as
flight.
wing or fuselage skin surface may be slight enough to be inspection of the internal supporting structure may reveal
close
a
Determine that the airframe components (wings, fuselage and empennage) are in their normal
Wing Carry-thru Structure
Prior to next
1.
configuration.
Inspect the external skin surface for cracks, abnormal stress wrinkles and loose
2.
3.
or
Check
missing
rivets.
wing attachmentfittings for cracks.
Inspectplumbing andwiringfordamage security of attachment.
and 4.
Check the keel and the front and on
the lower side of the
damage Nose Structure
1.
Inspect
and
3.
cowling damage.
5.
or
missing
attachment for
rivets.
alignment
Inspecttheengine supportfittingsfor cracks
4.
spar
for
the external skin surfaces for
Check or
fuselage
alignment.
wrinkles and loose 2.
rear
or
deformation
or
structural failure.
Inspectenginecontrol cablesforsmooth operation and check plumbing and wiring for security and attachment. Inspectstructure inwheelwellfordamage or
cracks.
5-50-00
SepPa~g&bi:Page
7
Ray~heon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL UNSCHEDULED MAINTENANCE CHECK ITEM
(Continued)
INSPECTION REQUIREMENT
INSPECTION INTERVAL
INSPECTION AFTER ENCOUNTERING TURBULENT AIR (Continued) 1.
Wings
Inspectthetopand bottomwingsurface and~ loose or missing
for cracks, wrinkles rivets. 2.
Inspectwing attachmentfittingsfor cracks.
3.
Inspect aileron, wrinkles
4.
5.
or
aiierontab and
flaps
for
cracks.
Inspect internal structure through access panels.
and fuel cells
Inspectplumbingand wiringforsecurityof attachment.
Nose Structure
1.
Checkexternalskjn surfaceforcracks, wrinkles and loose
2.
Inspect
area
or
missing
rivets.
forward of windshield for
evidence of structural deformation
or
failure.
I
Fuselage, Center Section
Inspect external
skin surface for cracks,
abnormal wrinkles and loose
Fuselage, Aft
Inspect the
1.
entire
length
or
missing
rivets.
of the external
skin surface for cracks, stress wrinkles and loose 2.
or
rivets.
Checktheempennage damage and
3.
missing
surfacesfor
free movement.
Inspect for skin wrinkles at the juncture fuselage and empennage.
of
the
SECOND LEVEL INSPECTION NOTE: Because G
surrounding
loading may be and supporting
Wing Carry-thru Structure
1.
transmitted
As
required.
along one structural member to another, carefully inspect damaged areafound in the first level inspection.
the
structure in any
Dyecheckwing attachmentfittings, (magnaflux or replace)
examine
attachment bolts and check bolt holes for
alignment 2.
and correct dimension.
Remove floorboards and and
inspect
the front and
access
plates
spar and keel structure for evidence of deformation or
3.
rear
structural failure.
Operational
test
plumbing, wiring, flaps,
control cables, pulley mounts and any other system found in this area.
Sep
30/045-50-00
n28
RayPheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL UNSCHEDULED MAINTENANCE CHECK (Continued)
INSPECTION INTERVAL
INSPECTION REQUIREMENT
ITEM
INSPECTION AFTER ENCOUNTERING TURBULENT AIR (Continued) Nose Structure
i.
2.
Inspect areas surrounding the engine support fittings.
Inspect internal
structure for cracks
or
damage. 3.
Wings
1.
Operational
plumbing
test
and
wiring.
Dyecheckwing attachmentfittings, (magnaflux or replace)
examine
attachment bolts. 2.
If there is evidence of
damage
to the fuel
the cells and
or fuel lines, remove inspect the fuel cell liners and liner support
cells
structure.
3.
Operationaltestthe plumbingandwiring, flap actuator, aileron and tab control cables and pulley mounting.
Fuselage Center Section
1.
Examinestringers, framesandsidewalls for deformation
2.
Examine ducts for
or
structural failure.
heating and air-conditioning damage. plumbing
and
wiring.
3.
Operational
4.
Examine the control cables, pulley mountings and the cable clearance at areas
test
the cables pass
structure. Ensure a
through the
smooth, normal
operation. Empennage
1.
Inspect elevator pushrods, torque damage.
tubes
and bellcrank for 2.
Inspect the
attachment of the vertical
stabilizer spars to the top of the for evidence of damage. 3.
Inspect skin surfaces for or missing rivets.
fuselage
condition and
loose 4.
5.
Check structure for cracks, loose rivets and/or concealed damage. Check rudder for freedom of movement and attachment.
6.
Check elevator for freedom of movement and attachment.
5-50-00
Sep
30104Page
9
Rayrheon
AiKraft Company
BONANZA SERIES MAINTENANCE
~IANUAL
UNSCHEDULED MAINTENANCE CHECK
(Continued)
INSPECTION REQUIREMENT
ITEM
INSPECTION AFTER ENCOUNTERING TURBULENT AIR
Empennage (Continued)
7.
INSPECTION INTERVAL
(Continued)
Check trim tab actuators for smoothness of
operation wiring of the
and attachment. Check the
electrical trim tab actuator for
connection, security of attachment and condition. Check the electrical trim tab actuator for full travel and
security of
attachment. REPAIR OF DAMAGE Due to the
variety
procedure
must be based
and
degree on
of structural
damage which may be involved, the best repair or replacement inspection findings of the individual airplane. If the turbulent air inspection damage has occurred, contact Raytheon Technical Support, Raytheon Aircraft
the
indicates that serious structural
Company, Wichita, KS 67201,
for assistance.
LOG BOOK ENTRY
Following a turbulent air inspection, an entry covering applicable) must be noted in the permanent records.
I I INSPECTION
the extent of
inspection, the damage and the repair (if
AFTER LIGHTNING STRIKE
Perform the
following:
Prior to next
flight.
CA UTION: Propellers must be inspected and/or replaced utilizing the data provided in the manufacturers manuals
prior to retuming
Propeller
the i.
airplane
to service
At times the the
airplane,
following any lightning strikes
or
other
impact damage.
difficulty is not in inspecting but in determining if a strike
has occurred. Most
times,
an
exit location
will indicate
possible damage to the components. The entry point is most often the propeller. A darkened area in the propeller tip may be noticeable after a lightning strike. A 3- to 5-power magnifier will show slag at the bottom of a nick in the propeller blade. If a strike is suspected, inspect deep nicks in the blade. Damage after
a
lightning strike should be corrected the procedure specified by the
utilizing
manufacturer. 2.
Blade overhaul must be
accomplished by by propeller manufacturer. Damage beyond the limits specified by the propeller manufacturer may require the blade to be returned to the factory or to a designated repair facility for a
mechanic certified
evaluation.
I
Engine
Inspect as
instructed in the
appropriate Engine
Maintenance Manual.
Sep
5-50-00
~25
Raytheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL UNSCHEDULED MAINTENANCE CHECK
(Continued) INSPECTION INTERVAL
INSPECTION REQUIREMENT
ITEM
INSPECTION AFTER LIGHTNING STRIKE (Continued)
Fuselage
1.
Carefully inspect
the exterior of the
Evidence of
airplane.
a
strike will
usually
appear as a burned hole or as a series of burned holes in metallic surfaces. Plastic
parts may be delaminated and/or deformed due to high internal pressures. Normally two or more points will be found, the entry and the exit
frequently
an
points. Antennas are entry point of lightning and
carefully inspected for evidence arcing, sooting or pitting.
should be of 2.
From the
spreads
point of entry,
aft in
a
burn marks. After the exit
are
the strike
usually
series of small holes
found, the
points of entry
or
and
structure between
points should be carefully inspected. Attention should be given to hinges and hinge pins for possible pitting. Cables, pulleys, bearings, bolts and all bonding jumpers in the area should be inspected for possible damage. Antennas, electrical and electronic equipment should be visually checked for damage and functionally checked for operation. If the strike was near the fuel vent, all plumbing should be carefully inspected for damage. Steel components may exhibit magnetism and require degaussing so as not to affect
these
compass systems.
s-so-oo
11
C H A PT E R
DIMENSIONS AND AREAS
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 6 LIST OF PAGE EFFECTIVITY CHAPTER SECTION SUBJECT
PAGE
6-EFFECTIVITY/CONTENTS 6-00-00
DATE
1
.........,,,.Oct 7/83
1
Feb 18/83
2
Oct 10/80
2A
Feb 18/83 ...............Oct 7/83
3 4
..........,,.Jan 20/82
5
...........,.Oct 7/83
6
..............Jan 20/82
7
..............Jan 20/82
8
CHAPTER 6
.................................Jan
20/82
DIMENSIONS AND AREAS
TABLE OF CONTENTS
CHAPTER SECTION
i
SUBJECT i
SUBJECT
..6-00-00
DIMENSIONS AND AREAS
Airplane Dimensions (CE-748, CE-772 and after; CJ-149 thru CJ-155 Without Kit 33-4002-1) D-10120 and
after) Airplane (D-10097, Airplane Dimensions (CJ-156 and after, and CJ-149 thru CJ-155 with Kit 33-4002-1) Airplane Dimensions (E-llll, E-1241 and after) Airplane Dimensions (EA-1 thru EA-272 except EA-242) Airplane Dimensions (EA-242, EA-273 and after) Stations Diagram (CE-748, CE-772 and after; CJ-149 and after) Stations Diagram (D-10097, 0-10120 and after) Stations Diagram (E-llll, E-1241 and after; EA-1 and after) Dimensions
PAGE
’’’’’’’’’i
........1 ........2
.........i
......2A
..........I!
.......3
.........i
.......4 .......5
.......6 .........1
.......7 ´•8
"END"
6EFFECTIVTTY/CONTENTS
Paacl Oct 7/83
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
26’8"
8’3"
6’5"
P~ lr~
7.5" MINIMUM CLEARANCL~ 33’6"
o
O
’OPTIONAL RADAR
12’2"
7’ DIA
9’7"
1
rii.toi.ic
Airplane Dimenaione (CE=148, CE-n2 and atter; CJ-149 thru CJ´•155 Without Kit 33-40(32-1) Figure 1 6-00-00
Pagel A5
Feb 18/83
BEECHCRAFT BONANtA SERIES MAINTENANCE MANUAL
76’5
T
cn
6’7"
j
c:e
7’7"
6´•8" MINIMUM CLEARANCE
33’6"
O
I
h\
o
’OPTIONAL RADAR
10’6"
7’ DIA
9’7"--------1
Airplane Dimensions (D-10097, P10120 Figure 2 s-00-00
Page2 Oct 10/80
and
after)
BEECHCRAFT
BONANZA SERIES MAINTENANCE MANUAL
26’8"
.CI~S
23
ra
8’J"
6’7"
1_L! L
7.5.. MINIMVMCL~RPINCE
33’6"
WING AREA: 181.0 SO.FT.
I
O
M
/H\I
o
12’2"
7’
9’7
Alrp(ane blmensIans (CJ-155
and
after, and CJ-149
~33-601.29
thru CJ-155 With Kit 33-4002-1) Figure 2A MKMO
Page 2 A A5
Feb 19183
BEECHCRAFI BONANtA SERIEb.
MAINTENANCE ~ANilAi
r as´• 6.a’
CLEARANCE, 9.5’’ E-1946. E-2104. E-2111 AND
7.5" MINIMUM
4FTER
-a,
33’6"-
t
Ss
t
~k
*OPTIONAL RADAR
tAT SERIALS 6-1946, 6-2104, 6-2111 AND ~k AFTER, VORTEX GENERATORS WERE ADDED TO THE WING LEADING EDGE. AT THE SAME SERIALS A CONTROLLABLE TAB REPLACED THE FIXED TAB ON THE LEFT AILERON.
12’2"
IC~ 7’ DIA
80" DIA 3 BLADE PROPELLER USED 6-1946, 6-2104, E-2111 AND AFTER.
t
t
t9’7" A36607- 33
Airplane
(E-llll, Figure 3
Dimensions
E-1241 and
after)
M~-OO
Page3 A6
Oc17/83
BONANZA SERIES MAlNTENANCE MANUAL
29.5 27 FT;G´•INi’
~I
le FT;5
IN.
6Fr.’61N. a
9.5 IN. (MIN. CLEARANCE WITH TIRE AND SHOCK STRUT DEFLATED)
3"56 MIN.
2.5"
33 FT. 6 IN.
VERTICAL STABIUZER
’OPTIONAL RADAR
12 FT. 2 IN.
80 IN. DIA.
9 FT. 7 IN. A36TC-607-20
Airplane
Dlmenalona
(EA-l’thru EA-272 Excspt EA´•242) ngure 4
6-00´•00
Page
4
Jan 20/82
A4
BEECHCRAFT BONANtA SERIES
YAINTENANGE
iiANiji~k
2.5’
Jg
t t THE FIXED TAB IS REPLACED BY A CONTAOLLABLE TAB ON LEFT AILERON AT SERIALS EA320. EA-389 AND AFTER
37 FT. 10IN.
g VERTICAL STABILIZER
12 FT. 2 IN.t
O78
IN. DIA.
;--9 FT. 7 IN. 29.5
8 FT. 5 IN. 6 FT. 6 IN.
C> ~D
10.5 IN. (MIN. CLEARANCE WITH TIRE AND SHOCK. STRUT DEFLATED)
ILP
.;--_1~
--W.L. 100.00
r 3"56 MIN.
Altplene Olmensions (EA-245 Rgun, 5
836TC-607-23
EA-273 and
6-OM)O
Page5 A6
Oct 7/83
BEECHCRAFI BONANZA SERIES MAINTENANCE MANUAL
82.960 94.75 14.96
118.50
1Iarl;
41.172
/I ~04.90
Yi(
27200
292.00
257.649.00 19.81 2
1_1 I I I ._Lu
151.00
I
11
174.50
1
1_1_1
1111
w.L. 88;1
I m!lu
79.362~-
246.30 233.50 256.90
201.00
149b0
18.25 4.50 39.50 12125 29.25
68.00 58.50
83.09017.s7 112138
131.00
170.00 152250 173.00
297.00
FUSELAGE
VERTICAL STABILIZER 272.000 251.606
3.500
i~26-----
15.250
i
i
I
I
I 38.4032
25.500
36~1J
36.900
ss.25o~\-(
I
23.06
1311
46.000
I
0.000 7525
72.500
123.182 113.172 175.837 191.00
131.30
/W
~48.815
162563
66.000 39.375 59.000
136.188
0.00
23.881
iTi
imll
WING
U 80.b47 108981 94.864 122.750
53.d00 1 45.000
336036
36.030
Stations"Diagram (CE-748,
CE-T72 and after; CJ-149 and
figur,
after)
6
6-00-00
Page 6 Jan 20/82
A4
BEECHCRAFT BONANZA SERIES MANmNANCE MANUAL
75 14.96
41.1;12
118.50
27200 257.649
1I19.812
151.00
04.90
292.00
277.00
1’14.50
33.345
1V~
I 1
1111
1
I
I
1111 11111
Y’
1
II
I I I
I
1
82.53~W.L
~3
I,,!,
88.1
246.30 233.50 256.90
207.00 1815 39.50 4.50 12125 23~25
I17.87
83.090 68.00 58.50
100.00 112138
131.00
297.00
FUSELAGE
170.00 152.250 179.00
CL OF AIRPLANE
g
0.000
72506 56.250 35.750 46.000
15.250
"´•pol"~
II
FRONTSPAR
STABILIZER
M REAR SP
36.15
3.900
123.182 113.172 09.305 175.837 191.00
I
148.875
162.563
I 1
39.375
66.000
s9.000
135.30
83.547 95.463 1
‘13.0001.I
23.881
I
136.1 88
WING
U 175.294
0.00
80.b47 108.281 94.864 122.150
53.d00 I 45.000
Ireo~r
36.030
StatibnS Diagram (P10097,P-10120 and after)
Figure
7
s;ot-0o Page A4
7
Jan 20/82
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
148.15 100.00
68.00
1(B~rs
14Gm
I’55.00
179.00
207.00
233.50 257.606
48.50
23.345
j/
31.172
8.25 -10.00
272.00
100.00
O.dOO
’9.25
39.OF
83.00
58.00
ibm
~12.138
14j.W
124.55
29:50
170.00
NSELAGE
1.245
122.75
188~5
175.281
83´•547 66.00 53.00 103.641 ll.m 1303 91091
39.375 31.75
r23.881
1191"
Islm
VERTICAL SIABIUZER
83.00
272.00 257.606 3.50
162’.563
1
I
~-C I
I
7
1
136.188
108.281 80.047
MODELS F33A, F33C, V35B, A36, A36TC
15.00
23.81 36.15
WING
I
I
1
~36.90
31.75
2((.11
198.Wa
66.00 83.Y7 103.M1 1P75 1"8875 73.00 (7528( 94.094 113.172 ~36.188 162.563
39.375( 23.p81
53-00 47.00
55.25
66.55--
.525
HORIZOHTAL STABIUZER
~iY 162.563
136.188 108.28( 80.047
Stations Diagam
&0090
38d03-8
45.00
MODEL B36TC
23.81
E-1241 and after; EA-1 and Figure 8
(E1111I,
after)
"END"
PageB Jan 20/82
A4
CHAPTER
LIFTING AND
SHORING
Raytheon
nircraft Company
BONANZA SERIES
CHAPTER 7
~iAINiEi\lANCE
MANUAL
LIFTING AND SHORING
TABLE OF CONTENTS
SUBJECT
PAGE 7-00-00
Lifting and Shoring MaintenancePractices Jacking Main Wheel Jacking
..............1 ..........1
Hoisting
......3
7-CONTENTS
Sep 30/03Page
1
RBYtheOn
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 7
LIFTING AND SHORING
LIST OF EFFECTIVE PAGES CH-SE-SU
PAGE
DATE
7-LOEP
1
Sep
-/-CONTENTS
1
Sep 30/03
7-00-00
1 thru 4
Sep 30/03
A24
30/03
7-LOEP
Sep
30/03Page
f
RBythdMI
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
LIFTING AND SHORING
MAINTENANCE PRACTICES
JACKING
WARNING I WbRNING)
landing gear struts do not incorporate internal stops. When the airplane is on jacks, do attempt to remove the torque knees, the torque knee pins or the bolt connecting the torque I<nees without first deflating the shock absorber assembly and supporting the gear. The torque knees provide the extension stop for the lower shock absorber assembly. When they are disconnected, the cylinder is free to slide out of the upper assembly.
The
I
not
I CAUTION 1 the landing gear should only be accomplished within an enclosed building or hangar. Should it become necessary to jack the airplane in the open, no more than one jack point should be utilized at a time. For safety of personnel and the airplane, wind velocity in any direction must be considered prior to jacking the airplane.
Jacking
a
I
a
E~09B 991 656AA
Model 300 Service Jack
Figure
pas
1
7-00-00
Sep
30/03Page
1
Rayfheen BONANZA SERIES
I
A three on
point jack
is used to lift the
the underside of the
along
fuselage.
the front spar. The
rear
airplane off jack pad
One
the
nircraff
Company
MAINTENANCE
MANUAL
jack fitting consists of
an
on
Each
jack pad is identified and located wing-to-fuselage attachment fittings screwed completely into the airplane.
ground (Ref. Figure 1).
is located
each of the lower
eye bolt that is
I WARNING W6~RNING) jack point safety is in place and secured to prevent the airplane from nosing precaution against nosing over, attach, but not suspend, a weight of approximately 200 pounds to the aft tie-down lug. Be
When
one
resulting
the
sure
over.
As
wing
an
rear
additional
is to be removed,
a
stand should be
placed
under the
opposite wing
and the tail to counteract the
unbalanced condition of the airplane.
MAIN WHEEL JACKING
CAUTION I I cnlmou Do not walk
I
The main wheel
airplane,
I
be
jack adapter
sure
recommended
on
the
wing
walk with the
airplane
on
the main
wheeljack.
P/N 35-590006, is supplied as optional equipment (Ref. Figure 2). Before raising the properly inflated to the correct height. If the strut is not inflated to the
the shock strut is
height,
it will be
impossible to jacking.
insert the
jack adapter
into the main wheel axle. A scissor type
jack is
recommended for individual wheel
E~Yose 941657AA
Main Wheel Jack
Adapter (P/N 35-590006) Figure 2
CAUTION I I cnvTloN When
lowering
the
airplane, caution should be exercised to prevent the shock strut from becoming
compressed and forcing the landing gear door against the jack adapter.
Sep
7-00-00
P124
R5lyfhdOll
AiKraft tompany
BONANZA SERIES MAINTENANCE MANUAL
HOISTING The a.
airplane may Install the
be hoisted for maintenance
or
parts replacement
hoisting sling fitting, P/N 35-590067, length with 5/8-18UNF threads.
as
follows:
at each upper forward
wing
attach bolt location
using
bolts
of the proper
hoisting sling assembly,
b.
Attach the
c.
Install the strap
d.
Hoistthe
assembly
P/N 35-590064-1, to the
around the
propeller
hoisting sling fittings (Ref. Figure 3).
blade shanks.
airplane smoothly. NOTE
Adjust the strap assembly e.
As
an
added precaution,
a
to
keep
the
airplane
in
a
level
or
slightly
stand may be installed under the tail of the
nose
down attitude.
airplane.
I CAUTION I A
spreader must be
used above the cabin to prevent
damaging
the door moulding and window
frame. If the
airplane
must be hoisted and the
hoisting sling assembly, P/N 35-590064-1, is not available, remove the a sling to the front wing spar in the fuselage and a
cabin door, the left front window and the front seats. Attach to the hoist
~a4
fitting
on
the
line
engine.
7-00-00
Sep
30/03Page
3
Raytheon
Airc~raft
Company
BONANZA SERIES MAINTENANCE MANUAL
EF~07B
031473F(A
Hoisting Sling Assembly Figure 3
Sep
7-00-00
P/N 35-590064-1
A24
C H A PT E R
LEVE LING AN D VV EIGHING
BEECHCRATT MAINTENANCE MANUAL
CHAPTER 8
LIST OF PAGE EFFECTIVITY CHAPTER
SECTION DATE
PAGE
SUBJECT
8-EFFECTIVITY/CONTENTS
1
8-00-00
1
CHAPTER 8
...............May 9/80
LEVELING AND WEIGHING
TABLE OF CONTENTS
CHAPTERI SECTION SUBJECT
SUBJECT
GENERAL
8-00-00
Maintenance Practices
I
PAGE
.....´•...i
Leveling
.........i
l.......1 .......1
"END"
&EFFECTIVITV/CONTENTS
Pag´•l M´•y 9/80
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
GENERAL- MAINTENANCE PRACTICES
the center of
LEI/ELING
Suspending the plumb assist in stabilizing it.
To level the
airplane longitudinally, attach a cord and plumb phillips head screw, located beneath the rear window on the left side of the airplane. Inflate or deflate the nose gear shock strut as necessary to pass the cord through bob to the
a
second
phillips bob in
head a can
screw
below.
of
oil will
directly light engine
Lateral
leveling is accomplished by removing the front seat(s) pladng a bubble level on the spar carry thru structure. Deflate the tire or strut on the high side of the airplane to
and
center the bubble.
"END"
800-00
Page May
1
9/80
c HAPT E R
TOVVING AND TAXIING
BEECHCRAFT BONANZA SERIES MAINTENAN~E i\iiA~UAL
CHAPTER 9-TOWING AND TAXIING TABLF OF CONTFNTS CHAPTER
SUBJECT
PACE
9-00-00
Towing
and
Taxiing
Maintenance Practices
Towing One Person
Towing Taxiing
With
Towing a
Tractor
or
Tug
"END"
9-CONTENTS
Page 1 Ale
Oct 16/92
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
CHAPTER 9 LIST OF FACE EFFECTIVITY CHAPTER SECTION
SUBJECT
PAGE
DATE
9-EFFECTIVITY
i
Oct 16/92
9-CONTENTS
1
Oct 16/92
9-00-00
1
Oct 16/92
"END"
O-EFFECTIVIN
Page 1 A16
Ocl 16I92
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
TOWING AND PRACTICES
TAXIING
CAUTION
MAINTENANCE After
moving the airplane, always remove Never turn the propeller with
the tow bar.
TO WING
the tow bar attached to the
the
WARNING If the to
the
stand
clear
move
the
direction
gear
as
propeller of the
of rotation
area
the
propeller against Make
of rotation.
warm, residual fuel in the intake
may
ignite
and
and
normal
certain
While the
magneto switch is off.
injectors
nose
will hit the tow bar.
is warm, and it is necessary to attach the tow bar,
engine
move
propeller
cause
the is
engine
ports and
the
engine
to kick.
CAUTION When
is
airplane
an
being towed,
quali-
a
fied person must be in the pilotâ&#x20AC;&#x2122;s seat to operate the brakes in case of an emerWhen the
gency.
is
airplane
being
moved
backward, do not apply the brakes abruptly. Tow the airplane slowly, avoiding sudden stops. Never tow or taxi the airplane with
a
flat strut.
ing with damage
a
Even brief
deflated strut
towing
or
Hand Tow Bar
Figure
can cause severe
TOWING WITH A TRACTOR OR TUG
to the strut.
To tow the
airplane with a tractor or tug, attach the (P/N 45-590075) to the tow pins on the nose lower torque knee. Always observe the turn
NOTE The used
top of the cabin as
tow bar
door should
handhold
a
1
taxi-
while
gear limits of the
not be
entering
or
leaving the cabin. Always open the storm window to relieve internal pressure when closing the door. Never leave the cabin door open on the ramp damage the door.
as
wind
nose
gear when
geater than these limits to the
nose
gear and
when
making
turns.
Turns
extensive
damage
shimmy damper. Also,
exercise
can cause
the tow bar from the
gear removing lower torque knee to prevent damage to the lubrication fittings on the torque knee. care
gusts may
nose
NOTE ONE PERSON TOWING Do not attempt to tow the airplane backby the fitting in the tail skid. The tail
ward
CAUTION
skid The Hand Tow Bar used with
a
(Figure 1)
in
must not be
was
the
designed only landing
tail-low
to
protect the tail to provide
and
attachment for the tail tie-down.
tow vehicle.
TAXIING One
person smooth and
36-590015)
can
level
the
surface
furnished with the
bar to the tow knee and
move
push
airplane easily
with
the
airplane.
tow
bar
on
a
(P/N
Attach the tow
pins on the nose gear lower torque pull gently to move the airplane.
or
The
airplane must be taxied with the wing naps up, engine cowl naps open. Turning may be accomplished by the use of the nose wheel steering and the
mechanism.
"END"
9-00-00
Page 1 A16
Oct 16192
C H A PT E R
PARKING, MOORING STO RAG E j RTN TO SVC.
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 10- PARKING AND MOORING TABLE OF CONTENTS PAGE
SUBJECT 10-00-00
General
....1
Maintenance Practices
Parking Moo~ng................................................................................1 Normal Tie-down
Extended
..................1
Storageand HighW~nd
...........1
ControlLock.................................................................
Storage Flyable Storage -7 to 30 Days. Temporary Storage 30 to 90 Days Indefinite Storage Preparation forService.
........._____
.........___..__
.2
.................3 .......5
~O-CONTENTS
Mar
31/05Page
1
PaYMfaayl
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 10
PARKING AND MOORING
LIST OF EFFECTIVE PA GES CH-SE-SU
PAGE
DATE
10-LOEP
1
Mar 31105
10-CONTENTS
1 and 2
Mar 31/05
10-00-00
1 thru 6
Mar 31/05
A27
1 O-LOEP
Mar
31/05Page
1
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
GENERAL- MAINTENANCE PRACTICES PARKING The brakes
set for
are
parking by pulling
out the
parking
brake control, then
firm. Do not attempt to lock the parking brake by applying force to the and cannot apply pressure to the brake master cylinders.
CA UTION: Do not set the
parking brake
control when the brakes
are
parking
hot from
pressing the pilot’s
brake
brake handle; it controls
severe use or
pedals
until
valve
only
a
during low temperature
when an accumulation of moisture may cause the brakes to freeze. An increase in outside air temperature can build up excessive pressure in the system. In addition, the parking brake should be left
OFF and wheel chocks installed if the
airplane
is to be left unattended.
MOORING
provide guidelines which can be followed when mooring and securing Bonanza series airplanes. Mooring procedures for normal tie-down operations as well as mooring for extended storage and high
This section is
designed
to
wind conditions follow: NORMAL TIE-DOWN
airplanes, a tie-down lug is installed on each wing, and on the aft fuselage. The tie-downs should nylon or dacron ropes or chains with sufficient strength to restrain the airplane in high or gusty winds. Manila or hemp ropes should never be used; The tie-downs should allow very little or no movement when tightened, too much slack will allow the airplane to jerk against the tie-downs. When securing the tail section of the airplane, the tie-down should have a slight slack so that the nose of the airplane will not be raised off the ground. In a strong headwind, a tail tie-down that is too tight will increase the angle between the wing and the oncoming air. This creates an additional lifting force, which causes more pressure to be placed on the wing tie-down ropes and anchors. Adequate antislip knots such as bowlines or square knots should be used when securing the lines. On Bonanza series be
Securing operations should be planned so the airplane is tied down facing the prevailing wind, if the ground attachment permits. Once the airplane has been positioned into the wind, the wheels should be checked fore and aft. The flight control surfaces must then be secured to prevent banging against the stops. The controls should be secured in position with control locks that are installed in the control column. When mooring, be sure to fasten all doors and windows properly. Pitot-static tubes should be covered. EXTENDED STORAGE AND HIGH WIND When
mooring
the Bonanza, the
following
method is recommended: Place chocks fore and aft of each main wheel.
Position a tail stand under the tail skid, adjusting the height of the stand to slightly compress the nose gear shock strut. Run a line through each wing mooring lug, fastening each end to a ground point, one forward and one aft of the
wing. Run
a
line
through
the hole in the tail skid and anchor at the sides of the
airplane approximately
5 feet from
the base of the stand. If a storm is the V-brace and also
recommended that the
nz~
a
anticipated, two lines may be secured to each main landing gear strut barrel near line may be attached around the nose gear strut near the lower torque knee. It is
airplane
be tied down headed into the wind, with the control lock installed.
10’00’00
1
Ral~heon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CONTROL LOCK A control column lock
pin
is
for the control column and the aileron control wheel. The lock
provided
the aileron control wheel and the elevator control. A
propeller
boost pump, and the a.
b.
control. Install the control
Rotate the control wheel to the
align
to
right
and
move
pin secures both provided on the control lock to cover the throttle control, lock assembly in the following sequence:
cover
is
the column forward
so
the hole in the bracket and the column
accept the pin.
Push the control column lock
pin through
the hole
provided
in the control column
guide
and into the control
column. c.
positive retention the propeller control.
Ensure and
WARNING:
of the lock
Always completely
pin by placing
the
cover
the control lock
remove
assembly
assembly
over
the throttle control, boost pump,
before
engine start, taxiing,
and
flight.
STORAGE storage procedures listed are intended to protect the airplane from deterioration while primary objectives of these measures are to prevent corrosion and damage from exposure to
The
types of storage
are
FLYABLE STORAGE- 7 to 30
b.
TEMPORARY STORAGE- up to 90
c.
INDEFINITE STORAGE.
FLYABLE STORAGE
days. days.
7 TO 30 DAYS
airplane cannot be placed in a hangar, install the control lock and tie the airplane down points provided. Do not use hemp or manila rope. It is recommended a tail support be used nose strut and reduce the angle of attack of the wings. Attach a line to the nose gear.
at the three
to compress the
ENGINE PREPARATION FOR STORAGE-
cylinder
wall corrosion much
more
than
Engines in airplanes that are flown only occasionally engines that are flown frequently.
i.
Check for correct oil level and add oil if necessary to
2.
Run engine at least five minutes at 1,200 to 1,500 rpm with operating range.
WARNING: Before rotation of
i.
rotating
engine
If at the end of 30
in the normal
the
position. Always
stand in the clear while
days during flyable storage, the propeller shall be rotated by hand. stop the propeller 60 to 120" from the position it was in.
seven
six revolutions,
days,
cylinder head temperatures
airplane
will not be removed from
storage, the engine should be started and airplane fly preferred keep the internal parts of the engine lubricated. Ground running of the engine will not provide proper heating of the oil without possible damage to other engine compartment components due to lack of air flow, and will result in condensation of moisture in the oil supply, increasing the possibility of cylinder/crankshaft rust. run.
Page
the
to full mark
oil and
control is in the IDLE CUT-OFF
DURING FLYABLE STORAGE- Each After
bring level
tend to exhibit
propeller blades, ascertain magneto switch is OFF, throttle in CLOSED
position and mixture turning propeller. c.
The
MOORING- If the
securely
b.
use.
the elements. Three
considered:
a.
a.
it is not in
The
method is to
2~0-00-00
the
for 30 minutes in order to
A27
Raytheon
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
d.
FUEL CELLS- Fill to capacity to minimize fuel vapor and protect cell inner liners.
e.
FLIGHT CONTROL SURFACES- Lock with internal and external locks.
f.
GROUNDING- Static
g.
PITOTTUBE- Install
h.
WINDSHIELD AND WINDOWS- Close all windows and window vents. It is recommended that installed
i.
over
ground airplane securely
and
effectively.
cover.
covers
be
windshield and windows.
tape, clean the airplane and give it inspection, particularly wheel wells, flaps, and control openings. PREPARATION FOR SERVICE- Remove all
covers
and
a
thorough
1.
If the eng ine has a total time of more than 25 hours and the oil consumption has stabilized, drain the break-in oil after a ground warm-up and install oil per Teledyne Continental Motors Specification MHS-24C.
2.
Preflightthe airplane.
TEMPORARY STORAGE
30 TO 90 DAYS
a.
MOORING-SeeFLYABLE STORAGE.
b.
ENGINE PREPARATION FOR STORAGEnormal range. Drain oil 1.
Operate engine (Preferably in Right) until oil temperature reaches supply from sump while engine is still warm and replace drain plug.
2.
on
the
top spark plug and atomize spray preservative oil (4, Chart 1, 91-00-00) at room temperature, the through upper spark plug hole of each cylinder with piston in the down position. Rotate crankshaft as each pair of cylinders is sprayed. Stop crankshaft with no piston at top position, and thoroughly respray each Remove the
cylinder. 3.
dipstick gage with corrosion preventive oil (3, Chart 1, 91-00-00), which provide protection against corrosion.
Fill the sump to the full mark will mix with normal oil and
Reinstall
spark plugs.
Apply preservative to engine interior by spraying the above specified oil (approximately two ounces) through the oil filler tube. Seal all engine openings exposed to the atmosphere using suitable plugs, or moisture resistant tape, and attach red streamers at each point. Affix a tag to the propeller in a conspicious place with the following notation; DO NOT TURN PROPELLER, ENGINE PRESERVED. Seal the propeller blade spinner cutouts with tape.
c.
FUEL CELLS- Fill to
d.
FLIGHT CONTROL SURFACES- Lock with internal and external locks.
e.
GROUNDING- Static
f.
PITOT TUBE- Install
g.
WINDSHIELD AND WINDOWS- Close all windows and window vents. It is recommended over
h.
A27
capacity
to minimize fuel vapor and
ground airplane securely
and
protect cell inner liners.
effectively.
cover.
cover
be installed
windshield and windows.
BATTERY- Remove and store
according
to standard
practices.
1 0-00-00
Mar
31/05Page
3
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
i.
PREPARATION FOR SERVICE- Remove all covers, tape, and tags. Clean the airplane and
give
it
thorough flaps, spark plugs removed, hand turn openings. inspection, particularly propeller several revolutions to clear excess preservative oil, then reinstall plugs. Preflight the airplane and flight wheel wells,
and control
a
With bottom
test.
INDEFINITE STORAGE a.
MOORING-SeeFLYABLE STORAGE. ENGINE PREPARATION FOR INDEFINITE STORAGE- Drain the engine oil and service with corrosion
I
preventive 1.
oil
Immediately exceed
2.
(3, Chart 1, 91-00-00).
a
after
servicing with the
corrosion
preventive oil, fly the airplane for
a
period of time
not to
maximum of 30 minutes.
It is recommended the
propeller
be removed and the
engine
removed from the
airplane.
The
propeller shaft
should be coated with preservative oil (4, Chart 1, 91-00-00) and wrapped with moisture proof material and
tape. NOTE: If engine is removed from the airplane,
1
a
tail
mooring
stand must be used.
3.
Remove the
4.
Install protex plugs in each of the top spark plug holes, making sure that each installed. Protect and support the spark plug leads with AN-4060~1 protectors.
5.
Place
6.
Seal cold air inlet to the heater muff with moisture resistant tape.
7.
Seal engine breather
8.
Wrap engine with moisture proof material
9.
Attach
top spark plug from each cylinder and spray thoroughly with corrosion preventive oil (3, Chart 1, 91-00-00), at a temperature range of 221 to 250"F.
bag of desiccant
a
a
in the exhaust
by inserting
red streamer to each
10. If the
moisture into sealed
propeller
and seal
openings
is blue in color when
with moisture resistant tape.
protex plug in the breather hose and clamping in place.
place
streamers outside of the sealed
wicking of
a
pipes
plug
on
area
and
the
with
tape after desiccant bags have been installed.
engine
tape
or
where
bags
of desiccant
to the inside of sealed
are
area
placed. Either attach red safety wire to prevent
with
area.
has not been removed, affix
a
tag
in
a
conspicuous place
with the
following
notation: DO
NOT TURN PROPELLER- ENGINE PRESERVED. c.
DURING INDEFINITE STORAGE- The cylinder protex plugs shall be inspected weekly. The plugs should be
changed
as soon as
color in one-half 1.
I
storage. If the dehydrator plugs have changed cylinders, all desiccant material on the engine should be replaced.
their color indicates unsafe conditions of
or more
of the
cylinder bores should be resprayed with corrosion preventive oil every six months or more frequently if inspection indicates corrosion has started. Replace all desiccant and protex plugs. Before spraying, the engine shall be inspected for corrosion as follows: Inspect the interior of at least one cylinder on the engine through a spark plug hole. If cylinder shows start of-rust, spray cylinder with corrosion preventive oil (3, Chart 1, 91-00-00) and turn prop over five or six times, then respray. Remove the rocker box cover from the engine and inspect the valve mechanism.
The
bore
d.
PROPELLER- Coat blades with preservative oil and wrap with moisture proof material and tape. If propeller has been removed, coat all parts with
Page
42e,f
protective
11 0-00-00
material to exclude dust, and then tape.
A27
Ray~heon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
e.
FUEL CELLS- Drain fuel cells. 1.
Flush, spray,
or
rub
thin
a
coating
of
oil
light engine
the inner liners of all fuel cells which have contained
on
gasoline. 2.
f.
After 24 hours, remove cells and store according to standard practices. Do not until 24 hours after oil has been applied.
FLIGHT CONTROL SURFACES- Lubricate all control rods and 1.
quadrants
and coat
lightly
remove or
handle fuel cells
control surface
flight
hinge pins, bearings, bellcranks, chains, preventive compound (5, Chart 1, 91-00-00).
with corrosion
Lock with internal and external control locks.
g.
GROUNDING- Static ground airplane securely and
h.
PITOT TUBE-
i.
WINDSHIELD AND WINDOWS- Close all windows and window vents and install
Apply
a
thin
coating
of grease
effectively.
(6, Chart 1, 91-00-00), and install
cover.
covers over
windshield and
windows.
j.
LANDING GEAR- Coat the extended
k.
TIRES- Install
I.
WING FLAP TRACKS AND ROLLERS- Coat with corrosion
covers.
portion of the
Check air pressure
shock struts with
periodically.
Inflate
as
light weight
oil.
necessary.
preventive compound.
Place
flaps
in retracted
position. m.
BATTERY- Remove and store
n.
INSTRUMENT PANEL- Cover with barrier material and
o.
SEATS- Install
p.
LANDING LIGHTS- Cover with barrier material and
q.
STALL WARNING UNIT- Remove and store
r.
LOOSE TOOLS AND EQUIPMENT- Remove and store in
s.
AIRFRAME- Cover static ports and all and foreign matter.
protective
according
to standard
practices. secure
with tape.
covers.
secure
according
openings
with tape.
to standard a
practices. Tape connections.
dry temperate
with barrier material and
room.
secure
with
tape
to exclude
rain,
sun,
PREPARATION FOR SERVICE a.
Remove all covers,
b.
Remove all
c.
Drain corrosion preventive oil and reservice with recommended MHS-24C.
d.
Reinstall the
e.
Install the
liquid f.
nlr
tape,
and
cylinder plugs
tags from the airplane.
and all paper,
tape,
and
dehydrating agent
propeller if it was removed. Rotate propeller
used to preserve
lubricating oil,
to clear
excess
engine.
per Teledyne Continental Motors
preservative
spark plugs, battery, and rotate propeller by hand through all compressions cowling and start engine in the normal manner.
oil from the
of the
engine
cylinders. check for
lock. Reinstall
Give the
airplane
a
thorough cleaning,
visual
inspection and
test
fly
the airplane.
10â&#x20AC;&#x2122;00â&#x20AC;&#x2122;00
5
CHAPTER
PLACARDS AND MAR KI NGS
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
CHAPTER
PLACARDS
TABLF OF CONTFNTS CHAPTER
SUBJEC~
PAG~
11-00-00
Required Placards FAA
Description and Operation
Required Placards and Markings Designation Placard
Model
11-20-00
Exterior Placards and
Markings
Description
and
Operation "END"
11-CONTENTS Page 1 A16
Oct 16192
BEE6Hi=RAFf BONANZA SERIES
MAINTENANCE MANUAL CHAPTER 11 LIST OF FACE EFFECTIVITY CHAPTER SECTION SUBJECT
PAGE
DATE
11-EFFECTIVITY
i
Oct 16/92
11-CONTENTS
1
Oct 16/92
11-00-00
i
Oct 16/92
11-20-00
1
May 9/80
2
Oct 16/92
3
Oct 16/92
4
Oct 16/92
5
Oct 16/92
6
Oct 16/92
"END"
11-EFFECTIVITY
Page 1 Ale
Oct 16/92
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
DESCRIPTION AND
REQUIRED PLACARDS OPERATION
MODEL DESIGNA TION PLACARD
designation placard identifies the airplane by its model number and serial number. Should a question arise concerning the care of this airplane, it is important to include the airplane serial number in any correspondence to Beech Aircraft Corporation. Refer to Chapter 11-20-00 for illustration of the placard. On airplanes D-10097, D-10120 and after; EA-1
The model
PLACARDS
FAA REQUIRED MARKINGS
All required interior placards and markings
AND
are
listed
in the Limitations of the Pilot’s Operating Handbook and FAA Approved Airplane Flight Manual. Refer to
Section II of the applicable Pilot’s Operating Handbook for these placards and markings. For the acrobatic Bonanza ~CJ-149 and after), also refer to the LOG OF SUPPLEMENTS in the Pilot’s Operating
thru EA-272
Ha nd book.
adjacent
CAUTION Any all
covered and
are
is
repainted, inspect they are not with paint, are easily readable, securely attached.
time
an
placards
airplane to
assure
that
except EA-242; CJ-149 and after,
CE-748,
CE-772 thru CE-120); E-llll, E-1241 thiu E-2399; and EA-242, EA-273 thru EA-472, the model designation placard is located on the right side of the fuselage
On
to the inboard end of the
airplanes CE-120I
and
flap.
after, E-2400 and after, and
EA-473 and after, the model designation placard is located on the right side of the fuselage under the
leading edge of the horizontal stabilizer. The placard is mounted .50-inch below the skin lap and 12-inches forward of the tail
cone.
"END"
11-00-00
Page A16
1
Oct 16/92
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
EXTERIOR PLACARDS AND DESCRIPTION AND OPERATION
Shown in this which
are
Chapter
MARKINGS
exterior placards and markings, good maintenance practices,
IINSTALL
ILINK
ROD
by locationldescription of each. The placards which shown for location only and may or may not bear identical information to the placards installed on the various individual models. Note the specific information on the placards installed on each model to determine current
follow
are
essential for
followed
are
information for that model.
DOORIACK BOLT;
ATTACH
POINrl
WITH
1" LOCATED IN THE CENTER OF THE UNDERSIDE OF THE FUSELAGE AT APPROXIMATELY FS 131.00
LOCATED ON THE OUTBOARD SIDE OF THE ROOT RIB IN THE WHEEL WELL, VISIBLE ABOVE THE INBOARD DOOR
-CAVTIONTURN LIMTTS REACHED WHEN RED LINES ALIGN
DO NOTEXCEED
I
TOW
r--
I
IJACK PADI L________1
LOCATED DIRECTLY ABOVE THE NOSE LANDING GEAR TORQUE KNEE
LOCATED AT WING ROOT ON CENTER SECTION SPAR, FORWARD OF THE INBOARD WHEEL WELL DOOR
IMPORTANT INSTALL UPLOCK CABLE ATTACH BOLT WITH HEAD AFT
LOCATED ON THE LH SIDE OF THE FUSELAGE AT APPROXIMATELY FS 151.00 (2 PLACES)
LOCATED AT APPROXIMATELY WS 60.00 IN EACH WHEEL WELL, DIRECTLY ABOVE THE UPLOCK ASSEMBLY
11-20-00
Page i May 9/80
BEECHCRAFT BONANZA SERIES
MAINTENAhjCE MANUAL
I
(ileechrrlll
aerchcrlf~
I
(i)ce~hcraft
OIL AIR STRUT
OIL AIR STRUT
OIL AIR STRUT
malb´•l~rn
PART NO. ~W25(05 BEED( *IRCRAFT CWPOTUMN
)*)r NO
1~´•110010
rra ucsn mrwa
I(KW IIICI*n COIIOI~IIOU
I
*c*nlu*ws uu
rml~
INSTRUCTIONS
´•´•*YI
I
VY
I
INSTRUCTIONS maaruawcru
INSTRUCTIONS
TO CHECK FLUID AND Flu REU)VE VALVE CAP. DEPRESS VALVE CORE AND ALLOW STRUT TO FULLY COMPRESS. THEN RAISE AND BLOCK STRUT v´• INCH FROM COMPRESSED POSITION. REMOVE VALVE BODYI ASSEMBLY AND FILL WITH HYDRAULIC OIL I CONFORMING TO INS~RVCTION MANUAL I SPECIFICATIONS. SLOWLY EY~ND STR~r I FROM BLOCKED POSITION AND REPLACE VALVE BODY ~SSEYBLY. DEPRESS VALVE CORE AND COMPLETELY COMPRESS S~RLIT TO RELEASE U(CESS AIR AND OIL. I mTH AIRPLANE EMPTY UCEPT FOR FULL FUEL AND OIL KEEP STRUT INFLATED T03n I INCHES OF PISTON SHOWING.
~uow
~o CNKlI nulD ANO nu uALvi cu. orllte
mnurmrrrs
cell
wo
I
I
I I
vKnc´•1IOWr,
.rlOV.
Irrounno
Y´•IYr COln
CO´•t
I
I I
IIUWIO1*t*r~DTCDIDtlO´•´•C´• WARNING I
I
I
DrIllII V´•LVICOII COYIIII) Il´•U1 10 Itltll(
MDI
rmle
COYILLIIL’ 1~
~M X) II~UWL
I
WI1W ITIU1IXnND(D
I´•LYI
u~´•
YNIII*ODI11ON-
~tlllCt VILY( IODI lrr~ ~ND COY)LIIII~
M.l1l0*
u´•*ull~
ILOWL* crm rr,m rO
I,lnto´•l, LL 011CINN0111DDtD
IOlIILICl
I
CO’"’l’fD
r~arrrmro arm*uc´•mu ru~ a~
oil EONIOIYIIIG TO INII)UCIION YLIIU*I
’"O’
~a´• uo ´•um* ´•muc a mrol-r ~o
11101 mvr to Rlur caunnl lurw l~m ~310 UOQ mvl Irrw ~o* co*nara, ronno* rrYOYI V´•Ln UW)´•I ISY*UI AND HLL WlrW
1Ulm.fUln
UO a
m
U.´•.M
rrwru*rnul´•r~
IXCtl(´•LIIYDOIL
I
*n~u ´•n~wr ur* rxcm rot RII1 H)tl *K) 011 IINI ITIUT INRlnD 10 1 INCI(B Or mTOW
IIwowlm
LOCATED ON THE RIGHT MAIN LANDING GEAR STRUT
WARNING RELEASE
AIR
IN
STRUT
WARNING
BEFORE
I
DlsAssEueuNo OR MORE OF THE FOLLOW(NO BEECH PATENTS: 2368(37. 2~12885. OR 24708(6; OTHER PATENTS
’auY ill ill rIlul awwr DIIIIWI1II1G
BUILT UNDER ONE
PENDING. ,I~II
CE-748 THRU CE-979; CJ-143 THRU
D-10397 AND AFTER;
CJ-156 AND AFTER;
E-1970 AND AFTER;
CE-980 AND AFTER.
(I)eechcraft OIL AIR STRUT ´•ur*o ~llr´•n
Eraucunrm*ru~a
EA-273 AND AFTER;
INSTRUCTIONS ~oora ~uorcru
CJ-155;
E-llll. E-1241 THRU E-1969;
D-10097. D-10120 THRU D-10396;
LOCATED ON THE NOSE IO TULILIY~I´• Ilf*Uly uolm 1I~I
LANDING GEAR STRUT
EOlelT´•´•rD´•O~IIIO´•´•
EA-1 THRU EA-272.
I´•lcrL´•IOIO
COI~ mn
LOCATED ON THE NOSE LANDING
GEAR’STRUT
VILII
~OD´•
cora4
m
Yanlmm
r~n nrlmro roumucrwcr ur ror I~Llr
i
1.101.
10 ru n~ nou*C a
I*´•IIYCIIO I´•U11
10
CDlr
I~LL*Y T´•CIU
1*i)
CO´•DLII~L*
U
UDOI´•IIT*
UWlm.UPnU*rULNLUOa
SEE CHAPTER 12 OR 32 FOR CORRECT EXTENSION
I LOCATED ON THE LEFT MAIN LANDING GEAR STRUT C9101~42
11-20-00
Page
2
Oct 16/92
A16
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
NOTICE WING BOLTS ARE LUBRICATED SEE MAINTENANCE MANUAL
FOR CORRECT TOROUE VALUES
ON AIRPLANES CE-950 AND AFTER, CJ-156 APJD AFTER,
D-10372 AND AFTER, E-1847 AND AFTER, EA-221 AND AFTER. LOCATED ON THE LEFT WING NEAR THE FOUR WING ATTACH BOLTS AND ON THE RIGHT WING NEAR THE TWO´• LOWER ATTACH BOLTS. ALSO LOCATED ON THE RIGHT SIDE OF THE FUSELAGE NEAR THE TWO UPPER WING ATTACH BOLTS.
r i EMERGENCY LOCATOR TRANSMITTER SWITCH
EMERGENCY LOCATOR TRANSMITTER
I
SWITCH ARM
ON
OFF
I
REARM
ARM
XMIT
O
O FOR AVIATION EMERGENCY USEONLY.
FOR AVIATION EMERGENCY USE ONLY.
UNLICENSED OPERATION UNLAWFUL.
I
OPERATION IN VIOLATION OF FCC
I
OPERATION IN VIOLATION OF FCC
RULES SUBJECT TO FINE OR LICENSE
I
RULES SUBJECT TO FINE OR LICENSE
REVOCATION.
UNLICENSED OPERATION UNLAWFUL.
L________----------l
REVOCATION. L__________________I
LOCATED ON THE RIGHT SIDE OF THE FUSELAGE
LOCATED ON THE RIGHT SIDE OF THE FUSELAGE
FORWARD AND BELOW THE STABILIZER
FORWARD AND BELOW THE STABILIZER ON
ON AIRPLANES: EA-1 AND EA-2; CE-748, CE-772
AIRPLANES: D-10197 THRU D-10346; EA-3 THRU
THRU CE-828; E-llll, E-1241 THRU E-1406, D-10097, D-10120 THRU D-10196 AND
CE-905 AND CJ-150 THRU CJ-155 EXCEPT
EA-80; E-1407 THRU E-1686: CE-829 THRU AIRPLANES WITH KITS 101-3046 OR
CJ-149 EXCEPT AIRPLANES WITH
101-3127 INSTALLED.
KITS 101-3046 OR 101-3127 INSTALLED.
r-----------------I EMERGENCY LOCATOR TRANSMITTER
XMIT
SWITCH
I
ARM
I
UNLICENSED OPERATION UNLAWFUL.
I
OPERATION IN VIOLATION OF FCC
I
I
RULES SUBJECT TO FINE OR LICENSE
i
I
REVOCATION.
i
I
XMIT
AUTO
TEST
I
FOR AVIATION EMERGENCY USE ONLY.
L____-__-----__---J
-1
EMERGENCY LOCATOR TRANSMITTER
I
SWITCH
FOR AVIATION EMERGENCY USE ONLY. UNLICENSED OPERATION UNLAWFUL.
L
OPERATION IN VIOLATION OF FCC RULES
SUBJEdT
TO FINE OR LICENSE
REVOCATION. _
_
__
__
_´•_
_
_
_
_
_
_
_
_
_
_I
LOCATED ON THE RIGHT SIDE OF THE FUSELAGE
LOCATED ON THE RIGHT SIDE OF THE
FORWARD AND BELOW THE STABILIZER
FUSELAGE FORWARD AND BELOW THE STABILIZER
ON AIRPLANES D;10347 AND AFTER;
ON AIRPLANES: E-2148 THRU E-2423; EA-412
EA-81 THRU EA-411: E-1687 THRU E-2147, CE-906 THRU CE-1032 AND AIRPLANES WITH KIT NO. 101-3046 EXCEPT AIRPLANES WITH KIT NO. 101-3127 INSTALLED.
THRU EA-479, CE-1033 THRU CE-1240 AND
CJ-156 THRU
CJ-ljS
EXCEPT AIRPLANES
WITH KITS 101-3046 OR 101-3127 INSTALLED. C9200973
11-20-00
Page Ai6
3
Oct 16/92
BEECHCRAFT BONANZA SERIES NIAINTENANCE WIANUAL
r----------------------------
r-----------------------------1
EMERGENCY LOCATOR TRANSMITTER
I
SWITCH
I
EMERGENCY LOCATOR TRANSMITTER SWITCH ARMEDI
TEST
ARM
XMIT
i
O
FOR AVIATION EMERGENCY USE ONLY.
FOR AVIATION EMERGENCY USE ONLY. UNLICENSED OPERATION UNLAWFUL.
I
OPERATION IN VIOLATION OF FCC
I
RULES SUBJECT TO FINE OR LICENSE
I
UNLICENSED OPERATION UNLAWFUL. OPERATION IN VIOLATION OF FCC
i
RULES SUBJECT TO FINE OR LICENSE REVOCATION.
REVOCATION.
L
ON
RESET
t--______________~
LOCATED ON THE RIGHT SIDE OF THE FUSELAGE
LOCATED ON THE RIGHT SIDE OF THE FUSELAGE
FORWARD AND BELOW THE STABILIZER ON
FORWARD AND BELOW THE STABILIZER ON
AIRPLANES: CE-1241 THRU CE-1646; E-2424
AIRPLANES: CE-1647 AND AFTER; E-2694
THRU E-2693 AND EA-480 THRU EA-530 EXCEPT AIRPLANES WITH KIT 101-3127
AND
AFTER; EA-531 AND AFTER AND
AIRPLANES WITH KIT 101-3127 INSTALLED.
INSTALLED. I
r
r
AVGAS ONLY
AVGAS ONLY
BE" GRADE
GRADE
100LL
100
1
I
GRADE
1M)LL
~00
FOR ALTERNATE FUELS SEE
FOR ALTERNATE FUELS SEE
PILOTS OPERATING nANDBOOK
PILOTS OPERATING nANDBOOK
CAPACITY 40 US GALLONS (37 USABLE) WITH WINGS LEVEL
DEPRESS FLAPPER CHECK OUANTITY a SECURE CAP
CAP. TO TAB BOTTOM 30 GAL (27 USABLE)
LCCIP.
GRADE
TO T~B SLOT 35 GPIL (12
US*BLEI~J
CAUTION DO NOT INSERT FUEL NOZZLE
L
FUEL NOZZLE MORE THAN 3"
L
INTO TANK
__(
_1
PLACE INBOARD OF FILLER CAP
J-CAUTION? DO NOT INSERT
MORE THAN 1%" INTO TANK
r------------1
i
FUEL
i 54 US GAL CAPACITY (51 US OAL USABLE) L-----------J
80 GALLON FUEL SYSTEM ON AIRPLANES D-10303 AND AFTER;
EA-33 THRU EA-272 EXCEPT EA-242;
PLACE DECAL AFT OF FILLER CAP 108 GALLON FUEL SYSTEM
CE-884 AND AFTER;
ON AIRPLANES EA-242,
CJ-156 AND AFTER; AND E-1594 AND AFTER
EA-273 AND AFTER 99200974
11-20-00
Page
4
Oct16/92
A?6 Lj
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
FUEL AVIATION GASOLINE GRADE 100LL
or
100
FOR ALTERNATE FUELS SEE
PILOTS OPERATING MANUAL
CAPACITY 25 US GALLONS (22 USABLE)
CAUTION DO NOT INSERT FUEL NOZZLE
MORE THAN 3" INTO TANK 50 GALLON FUEL SYSTEM ON AIRPLANES D-10097; D-10120 THRU D-10302; EA-1 THRU EA-32; CE-748. CE-772 THRU CE-883; CJ-149 THRU CJ-155; AND
E-llll, E-1241 THRU E-1593
C9200975
11-20-00 A16
Page
5
Oct 16/92
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
EXTERNAL
POWER 24 VOLT
THE MODEL DESIGNATION
PLACARD IS LOCATED ON THE RIGHT SIDE OF THE FUSELAGE
ADJACENT TO THE INBOARD END
LOCATED ON THE RIGHT SIDE OF THE
OF THE FLAP ON AIRPLANES D-10097,
ENGINE COMPARTMENT, JUST BELOW THE
0-10120 AND AFTER; EA-1 THRU EA-272;
COWLING DOOR
CORPORATION
CJ-149 AND AFTER; CE-748, CE-772
LIODEL
sEnl~L
THRU CE-1200, E-llll, E-1241 THRU
~USE ONLY MS20392-X25 OR ISHEAR PIN WITH THIS PLUNGER
E-2399, AND EA-273 THRU EA-472.
TC.
PC
LOCATED ON THE NOSE LANDING
THE MODEL DESIGNATION
PLACARD IS LOCATED ON THE
GEAR RETRACT LINK ROD
RIGHT SIDE OF THE FUSELAGE UNDER THE LEADING EDGE r------I
OF THE HORIZONTAL STABILIZER
i STATIC
ON AIRPLANES
AIR.
I KEEP CLEAN I
CE-1201 AND AFTER, E-2400 AND AFTER,
LOCATED ON THE LEFT SIDE OF THE FUSELAGE
AND EA-473 AND AFTER.
JUST AFT AND BELOW THE REAR WINDOW
T-----o~-----! USE SAE 50 ABOVE 40" F
I USE SAE 30 BELOW 40"
I
F
I
LOCATED ON THE INSIDE OF THE LEFT COWLING
DOOR, ON THE FORWARD SIDE. THE PLACARD IS r--------~
VISIBLE WHEN THE DOOR IS OPEN
PULL TO
I CHECK LATCH L -----J
r-----------I
FUEL CELL SUMPI DRAIN DAILY LI
I
LOCATED NEAR THE FORWARD HANDLE OF EACH COWLING DOOR
ri
CAUTION
MAGNETO IS NOT INTERNALLY
GROUNDED. CONSULT OWNERS I YINUAL BEFORE DISCOHNECT-
I
LOCATED ON THE UNDERSIDE OF EACH WING NEAR THE FUSELAGE I I I
I
LING
DRAIN DAILY _I
L_________
LOCATED ON THE INSIDE OF EACH COWLING DOOR, ON THE AFT SIDE. THIS PIACARD IS VISIBLE WHEN EITHER DOOR IS OPEN
I
LOCATED ON THE LEFT SIDE OF THE FUSELAGE
JUST BELOW THE LEADING EDGE OF THE WING
TNos~l
L
r---~
-I
NO HANDLE
L,,,
INBOARD END LEFT FLAP. JUST OUTBOARD
I
ON TOP SURFACE NEAR OUTBOARD
WALKWAY ON RIGHT FLAP, 4 INCHES
END OF EACH HORIZONTAL
OUTBOARD OF FUSELAGE NEAR WING LEADING EDGE.
STABILIZER. C9200972
"END"
11-20-00
Page
6
Oct 16/92
A16
C H A PT E R
SERVICING
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 12- SERVICING TABLE OF CONTENTS
SUBJECT
PAGE 12-00-00
Description
General
and
Operation
..1 12-10-00
Replenishing Maintenance Practices Filling the FuelCells Drainingthe Fuel System Fuel Cell Reservoir (CJ-149 and After) Engine Fuel Filtersand Screens. Oil System.
................_
.........1
.........__......
Oil Filter Removal
.1
................._
................._
..................1 ...2
........._......._
Oil Filter Installation
Conditioning System Depressurizing theAirConditioning System Purging theAirConditioning System Charging theAirConditioning System Checking Compressor Oil Level Brake System Charging the Oxygen System. Oxygen System Servicing (All Airplanes except E-1946, E-2104, E-2111 and After; EA-320, EA-389 and After). Oxygen System Servicing (E-1946, E-2104, E-2111 and After; EA-389 thru EA-439) Oxygen System Servicing (EA-320, EA-440 andAfter)
Air
..........3 ................4 ...............4
.5 .....6 ..7 ............._7
..7
12-20-00
Scheduled
Servicing
.............1
Maintenance Practices
Tires
External Power
Battery....... Propeller Deice
.............1 Boots
................._
....r.
Shock Struts
Shimmy Damper Propeller Blade Maintenance
......3
Induction Air Filter
Spark Plugs. Roton Locks
Cleaning and Waxing
nzr
the
Airplane Finish
.3
12-CONTENTS
1
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 12- SERVICING TABLE OF CONTENTS
(Continued)
SUBJEC T
PA GE
Cleaning Plastic Windows Cleaning InteriorCabin Trim Engine Cleaning.
........._____
........._____
4
5
Lubrication
Landing GearUplockRollers i-Servicing
Lubrication of Chart
Chart 2
Special
Page
Lubrication Schedule Tools
Figure
5 7
2.
~2-CONTENTS
nzr
Raylheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 12-SERVICING LIST OF EFFECTIVE PA GES CH-SE-SU
PAGE
DATE
12-LOEP
1
Mar 31/05
12-CONTENTS
1 and 2
Mar 31/05
12-00-00
1
May
12-10-00
1 thru 7
Mar 31/05
12-20-00
1
May 9/80
2
Jun 20/91
3 thru 5
Aug
28/87
6 and 6A
Sep
27/84
7
Oct 7/83
8
May
S,10,andlOA
Aug29/85
11
Oct 7/83
12 thru 14
May
15 thru 18
Oct 7183
19 thru 21
Jan 18/84
22
Aug
A27
9/80
9180
9/80
29/85
2-LOEP
Mar
31/05Page
1
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
GENERAL
Detailed maintenance information
DESCRIPTION AND OPERATION
pertaining
to these
applicable chapters. Overhaul systems information for components of several systems will be contained within this manual. For electrical wiring diagrams refer to the BONANZA F33A, F33C, V358 5 A36 Wiring Diagram Manual, P/N 35-590102-9. will be found in the
The information contained within this chapter pertains to the general servicing procedures and maintenance practices used when
servicing
the various
systems of
the
airplane.
"END"
12M)M)´•
Page 1 May 9/80
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
REPLENISHING -IIIIAINTENANCE PRACTICES
FILLING THE FUEL CELLS CAUTION: Any time the fuel system is drained the
possibility
fuel cell is empty for any reason, air may enter the system. If system does exist, start and operate the engine on the ground
or a
that air has entered the
until all air is removed from the system. Operate the engine forseveral minutes on each tank untilproper engine operation is assured. Refer to the Pilot’s Operating Handbook and Airplane Flight Manual before starting and operating the engine.
Either the 44-gallon-usable (50-gallon-capacity) standard fuel system or the 74-gallon-usable (80-gallon-capacity) optional fuel system is available for all Bonanzas except EA-242, EA-273 and After. At serials EA-242, EA-273 and After, (B36TC) a 102-gallon-usable (1 08-gallon-capacity) fuel system is standard. The fuel system consists of rubber cells in the leading edge of the wings. A visual measuring tab in each cell (except EA-242, EA-273 and After) is attached to the filler neck of the
44-gallon system. The bottom of the tab indicates 27 gallons of usable fuel and gallons of usable fuel in the tanks. At serials EA-242, EA-273 and After, a float-type sight gage is installed in the fuel system. This gage will indicate a partial load of 25, 30 or 35 gallons of fuel in its respective wing. When the gage is indicating in the black zone, do not use the gage. On all airplanes except CJ-149 and After, each wing contains a baffled main fuel cell which provides an uninterrupted flow of fuel to the engine. the detent indicates 32
When
filling
The
a.
the
airplane
airplane
is
fuel cells,
for
designed
always
operation
Chart 1, 91-00-00). If these fuels Make
b.
sure
the airplane is
Do not fill fuel cells
c.
near
observe the
are
grade (green) or 100LL grade (blue) aviation gasoline (1, available, 1 15/145 grade (purple) may be used.
on
not
100/130
statically grounded
open flame
or
following:
to the
servicing
unit.
within 100 feet of any open
energized
electrical
equipment capable
of
producing sparks. NOTE: Care should be exercised while filling the fuel cell to prevent scratching, denting, or otherwise damaging the surface or leading edge of the wing. Do not allow the fuel nozzle to contact the rubber fuel cell.
DRAINING THE FUEL SYSTEM The three snap-type drains should be opened daily to purge any condensed water vapor from the system. (EA-242, EA-273 and After have push-type drains which require the preflight drain tool. Refer to Chapter 12-20-00, SPECIAL
TOOLS.) Each fuel
cell drain is located
on
wing, just outboard of the root. The system through a door inboard of the left wing root.
the bottom of the
drain at the bottom of the fuel selector valve is accessible
low
spot
defueling or fuel cell replacement, operate the engine on each fuel tank with the airplane on ground to ensure that all air has been purged from the fuel cells and the fuel lines to the engine.
CAUTION: After
FUEL CELL RESERVOIR
(CJ-149
AND
the
AFTER)
collapsible, sponge-filled reservoir is incorporated into some of the fuel cells of acrobatic airplanes to provide uninterrupted supply of fuel to the engine during slow rolls, uncoordinated maneuvers, fast tums, slips, etc. in either the 25-gal. (22-gal. usable) or 40-gal. (37-gal. usable) fuel cells. An extra long tube extends into the sponge area to allow use of the fuel contained in the sponge-filled reservoir.
A
non
an
nn7
12’10’00
1
I
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
ENGINE FUEL FILTERS AND SCREENS Most fuel
injection system
malfunctions
can
be attributed to contaminated fuel.
strainers should be considered to be of the utmost
importance
as a
regular
Inspecting
and
cleaning
the fuel
part of preventive maintenance.
Normally the fuel strainers should be inspected and cleaned every 100 hours. However, the strainers should be inspected and cleaned at more frequent intervals in response to severe conditions of service, unknown fuel handling practices, and operation in areas of excessive sand or dust. OIL SYSTEM
airplane is equipped with a wet sump oil system with through an access door in the left engine cowling.
The
a
capacity
of 12
quarts of oil. The oil filler cap is accessible
To drain the
engine sump, remove the right hand access plate and unscrew the sump drain plug in the lower right engine crankcase. An oil drain trough, furnished with each airplane is used to convey the oil through the bottom of the engine cowl prior to D-10364; CE-922; CJ-156; E-1752 and EA-129. At D-10364 and After; CE-922 and After; CJ-156 and After; E-1752 and After and EA-129 and After, a quick attach, snap-type fuel/oil drain adapter and approximately 18 inches of hose will be used to drain the oil sump. Refer to Chapter 12-20-00, SPECIAL hand side of the
TOOLS. Under normal
operating conditions,
the recommended number of operating hours between oil
changes is 100 hours. change. When operating under adverse weather conditions or continuous high power settings, the oil should be changed more frequently. Before draining the oil, run up the engine until the oil reaches operating temperature to assure complete draining of the oil. Oil grades, (2, Chart 1, 91-00-00) areâ&#x20AC;&#x2122;general recommendations only, and will vary with individual circumstances. Check oil~inlet temperature during flight in determining use of the correct grade of oil. Inlet temperatures consistently near the maximum allowable indicates a heavier oil is needed. The new airplane is delivered with corrosion preventative compound (3, Chart 1, 91-00-00) in the engine. This is a corrosion-preventive oil and should be removed at 20 hours of operation, but no later than 25 hours of operation. If the corrosion preventative compound is not removed at the proper time, varnish may form in the engine. Oil conforming to mineral oil may be added to the corrosion preventative compound as necessary. After removing the corrosion preventative compound, refill with mineral oil, which should be used until oil consumption has stabilized (until after engine break-in). After the break-in period, use an ashless dispersant (AD) aviation grade oil in the heaviest weight that will give satisfactory starting. Above 40"F (4.4"C), SAE 50 viscosity should be used; below 40"F (4.4"C), SAE 30 is recommended. Any aviation grade engine oil which meets Continental Motors Corporation Specification MHS-24B is acceptable for use.
The oil filter should be removed and
replaced
at each oil
CAUTION: If metal contamination of the oil system is detected and the cause is corrected, the oil cooler should be replaced. In addition, flush out the system through the interconnected oil system plumbing and replace or
clean any other accessories that will remain with the
engine.
OIL FILTER REMOVAL a.
Gain
b.
Remove the
c.
Loosen the
Page
access
to the
engine
engine
oil filter
oil filter
spin-off filter
safety
and
by opening
the LH
engine
cowl
access
door.
wire.
remove
2-~ 0-00
filter.
n2-r
Ray~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
OIL FILTER INSTALLATION a.
Clean and lubricate the
b.
Position the
new
filter
new
on
filter
the
gasket with engine
oil.
engine mounting adapter and tighten the filter to a torque of 18 to 20 ft-lbs. If a tighten the filter with a suitable wrench for three-quarters to one full turn after
torque wrench is not available, gasket contact wire the filter to the
c.
Safety
d.
Secure the left
engine
engine adapter.
cowl
access
door.
AIR CONDITIONING SYSTEM
Servicing the air conditioning system consists of periodically checking the refrigerant level, checking compressor oil level, checking the compressor belt tension, and changing the system air filter. Recharge the system as outlined under CHARGING THE AIR CONDITIONING SYSTEM whenever the refrigerant level is low, air has entered the system, or components carrying refrigerant are replaced. Refrigerant leaks may be detected by inspection with a flameless leak detector. When working on a refrigerant air cooling system, observe the following special servicing precautions: WARNING: A face shield should be
coming
Do not smoke when
gas when a.
when
exposed
servicing
to
performing
can cause
the
maintenance
loss of
on
the lines because
refrigerant
sight.
system with refrigerant
because it converts to
a
highly
toxic
open flame.
an
Due to the air the the
b.
worn
in contact with the eyes
quality control regulations enacted in the United States, R-12 refrigerant cannot be vented into atmosphere. When performing maintenance on the air-conditioning system where R-12 can escape from system, evacuate the system with only a recovery or recycle servicing unit that will salvage the refrigerant.
air-conditioning system is a high pressure system. Before disconnecting a refrigerant line, discharged with a recovery servicing unit. Purge the entire system to a 125-micron level.
The be
the
system
must
DEPRESSURIZING THE AIR CONDITIONING SYSTEM WARNING: A face shield should be
coming
Do not smoke when
servicing
gas when exposed to The a.
b.
servicing points for discharging Connect
a
worn
when
in contact with the eyes
service unit that
an
the
maintenance
loss of
on
the lines because
refrigerant
sight.
system with refrigerant because it
converts to
a
highly
toxic
open flame.
the system
recycles
performing
can cause
the
are
located under the
refrigerant
copilotâ&#x20AC;&#x2122;s
seat.
to the service valves and open the low pressure valve.
When the pressure is depleted, open the pressure valve and refrigerant from the system.
operate the
vacuum
pump to
completely
remove
the c.
n27
After the
system
is
depressurized, perform
the CHECKING COMPRESSOR OIL LEVEL
procedures.
Maj);~;b:
I
RayMheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
PURGING THE AIR CONDITIONING SYSTEM To purge the system, connect a recycle servicing unit to the low pressure side of the air conditioning system (located under the copilot’s seat). Purge the entire system with the vacuum pump operating at the 125-micron level. Refer to the Chapter 21-50-00, AIR CONDITIONING SYSTEM SCHEMACTIC illustration in the Maintenance Practices section.
CHARGING THE AIR CONDITIONING SYSTEM WARNING: A face shield should be
coming
Do not smoke when
a.
exposed
to
for
charging
the
an
maintenance
loss of
with
the lines because
refrigerant
refrigerant
because it converts to
a
highly
toxic
open flame.
system
are
located under the
copilot’s
seat.
components.
recycle/recovery service unit to the air conditioning system service ports located system contains a partial charge, evacuate all refrigerant prior to charging.
Connect the
Perform the compressor oil level check oil is
procedures provided
in this
chapter to determine
under the
if additional
copilot’s
refrigerant
required. over charge the air conditioning system. A full charge comply could result in damage to the air-conditioning system.
CAUTIOIV: Do not
d.
on
sight.
airplane serials prior to CE-1792; E-2945 and EA-579 use refrigerant R-12 (7, Chart 1, 91-00-00). For airplane serials CE-1792 and After; E-2945 and After; and EA-579 and After, use refrigerant R-134a (64, Chart 1, 91-00-00). Other refrigerants, particularly those containing methyl chloride, will cause rapid deterioration of
seat. If the c.
performing
can cause
For
the aluminum compressor b.
when
servicing the system
gas when
servicing points
The
worn
in contact with the eyes
Add an initial
charge
of 1
pound of refrigerant
to the air
is 2.4
conditioning system
pounds
of
refrigerant.
and any additional
Failure to
refrigerant
oil
required. e.
Start the
engine
in accordance with the
applicable
Pilot’s
Operating
Handbook and
run
the air
conditioning
system. CAUTIOEI: Never add liquid refrigerant to the air conditioning system while the compressor is running. Refrigerant added while the compressor is NOTE:
Charging
the air
operating
must be in vapor form.
conditioning system through observation
of the
sight glass (bubbles disappearing) requires
the temperature to be above 75"F (23.9"C). Charging the air conditioning system, through observation of the sight glass, is not recommended at ambient temperatures below 75"F (23.9"C). At temperatures below
75"F (23.9"C) the refrigerant should be measured into the air conditioning system. f.
If the ambient temperature is above 75"F
(23.9"C), slowly add vapor refrigerant into the air conditioning system If the ambient temperature is below 75"F (23.9"C), measure 1.4 (no bubbles). sight glass into the of system making the total charge 2.4 pounds. pounds vapor refrigerant until the
Mar
31/05Page
is clear
4
All
Rayseon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHECKING COMPRESSOR OIL LEVEL The air conditioner compressor oil level should be checked by a qualified air conditioner service man if the refrigerant charge is lost (evidenced by oil loss). For airplane serials prior to CE-1792; E-2945 and EA-579, the air conditioner
system requires
4 to 5
ounces
of
500-viscosity
oil
(8,
Chart 1,
and After; E-2945 and After and EA-579 and After, the air conditioner Chart 1,
91-00-00).
Check the compressor oil level a.
91-00-00). For airplane serials CE-1792 system requires 4 to 5 ounces of Ester Oil (65,
Fabricate
a
as
follows:
dipstick by bending
a
wire to
a
90"
angle
so
that 1 1/2 inches of the wire will insert into the
compressor. b.
Paint the
dipstick with
c.
Start the
engine
a
fiat black
paint. Allow sufficient time for the paint
to
dry.
in accordance with the
applicable Pilot’s Operating Handbook and run the air-conditioning engine running at low.rpm to allow oil to accumulate in the compressor. Observe system limitations as noted in the applicable Pilot’s Operating Handbook. Shut down the engine the engine operating in accordance with the applicable Pilot’s Operating Handbook. for 15 minutes with the
d.
Relieve the air conditioner
e.
After the
f.
system pressure by evacuating the system with
system pressure is relieved,
Insert the
dipstick through
the oil filler
remove
the oil filler
port, slowly
a
recycle servicing
unit.
plug.
rotate the clutch shaft until the
dipstick will
insert to the bottom
of the compressor.
g.
Withdraw the dipstick; oil should register maintain this measurement.
h.
Install the oil filler plug with O-ring and
NOTE: Make
sure
that the
O-ring
on
the
secure
dipstick at 5/8
inch below the filler
port. Add oil
as
necessary to
plug.
is not twisted and that dirt
or
particles
are
NOT ON the
O-ring
seat. The
plug
should be snug. Do not overtighten the plug. i.
j.
Perform the CHARGING THE AIR CONDITIONING SYSTEM
procedures.
Check the area around the filler plug for leaks. If leaks exist, do not overtighten the filler plug. Remove the plug as noted in Step e. and install a new O-ring after depressurizing the system with a recycle servicing unit. Secure the
plug
and
recharge
the
system
as
noted in
Step
h. and
Step
i..
BRAKE SYSTEM
hydraulic brakes are self-compensating and require no adjustment. Linings should be checked for small nicks sharp edges which could damage the brake discs. Worn, dished or distorted brake discs should be replaced. The brake fluid is supplied to the brake system from the reservoir tank located in the engine accessory section and is accessible by raising the right side of the engine cowl. The reservoir should be filled to within 1 112 inches of the top and a visible fluid level maintained on the dipstick at all times. Use only hydraulic fluid (9, Chart 1, 91-00-00) in the brake system. Ensure that no dirt or foreign matter is allowed to enter the brake system.
The or
nn-I
12’10’00
5
Raytheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHARGING THE OXYGEN SYSTEM In
general,
the oxygen
system
on
the Bonanzas may be serviced in accordance with FAA AC43.13-1A.
COMPRESSOR ENGINE FIREWALL
.r" o
COMPFIESS6R FUSE (NOT APPLICABLE TO E-2104, E-2111 AND AFTER; EA320, EA440 AND AFTEA)
b/\o OIL
ENGINE
FILLER
BAFFLE
PLUG
L~
I
---I
I
55-425-1
Servicing Compressor Figure 1 WARNING:
sparks away and never smoke in the proximity of oxygen. Tools, equipment and kept clean when servicing the oxygen sy~tem, since deposits of oil or other are hydrocarbons highly fiammable when exposed to high concentrations of oxygen. Furthermore, the presence of other foreign particles in the oxygen lines may result in leaks that will both exhaust the oxygen supply and present a fire hazard. As an additional safety precaution, use only the antiseize compounds and leak-testing soaps recommended for breathing oxygen systems.
Keep
fire and
hands must also be
NOTE: Use
only Aviatorâ&#x20AC;&#x2122;s Breathing Oxygen (10, Chart 1, 91-00-00)
when
The
following procedures should be followed prior to,
a.
airplane electrical power is off. Do not operate electrical switches, ground power generators during the oxygen charging operation.
b.
Make
c.
Ground the
and
during
the oxygen
servicing operation:
Ensure that all
sure
that
no
fueling
or
other flammable fluid
servicing equipment
and the
system
servicing
is in process when
to be serviced before
the oxygen bottle.
recharging
or
connect
servicing
connecting
or
disconnect
the oxygen
the filler
system.
adapter.
use oxygen intended for medical purposes, or such industrial uses as welding. Such oxygen may contain excessive moisture that could freeze up the valves and lines of the oxygen
WARNING: Do not
system. d.
Open the cylinder shutoff valve and slowly fill the system to 1,850 50 psi at 70"F (21.1"C), ambient temperature. This pressure may be increased an additional 3.5 psi for each degree of increase in temperature; similarly, for each degree of drop in temperature, reduce the pressure for the cylinder by 3.5 psi.
e.
Close the shutoff valve, disconnect the
Page
raM6
31105
12-~ 0-00
supply cylinder,
and
replace
the filler valve cap.
A27
Ral~heon
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
OXYGEN SYSTEM SERVICING
Observe the
(ALL
AIRPLANES EXCEPT E-1946, E-2104, E-2111 AND AFTER; EA-320,
I
AFTER)
EA-389 AND
guidelines
a.
Remove the
b.
Slide the
under the
access
opening
heading OXYGEN SYSTEM over
the oxygen
cylinder
copilot’s seat to the rear until the filler valve supply cylinder to the filler valve.
in this
Chapter
and service the
system
follows:
as
shutoff valve and check that the valve is off.
is
clear, then
remove
the cap from the filler valve and
connect the c.
Open
the valve
on
the
airplane oxygen cylinder.
d.
Open
the valve
on
the
charging cylinder and slowly
e.
Close the valve
on
the
airplane
f.
Close the valve
on
the
charging cylinder.
g.
Disconnect the
h.
Replace
i.
Slide the
the
supply cylinder
access
copilot’s
oxygen
and
fill the
airplane cylinder.
cylinder.
replace
the filler valve cap
panel.
seat forward to its normal
position.
OXYGEN SYSTEM SERVICING (E-1946, E-2104, E-2111 AND AFTER; EA-389 THRU EA-439) Observe the
under the
guidelines
OXYGEN SYSTEM in this
heading
Check that the oxygen system is turned off.
b.
Slide the
c.
Remove the filler valve cap and connect the
d.
Open
the valve
on
the
supply cylinder
and
e.
Close the valve
on
the
supply cylinder
and disconnect the
f.
Install the filler valve cap.
g.
Slide the
copilot’s
copilot’s
seat to the
guidelines
under the the
heading
Locate and
b.
Remove the cap from the filler
c.
Open
d.
After
e.
Reinstall the
AZ7
the
remove
access
panel
and
filling the airplane cylinder(s), replace the filler valve cap.
supply cylinder.
slowly
fill the
EA-440 AND
system.
supply cylinder.
AFTER)
OXYGEN SYSTEM in this
on
opening
charging cylinder valve
follows:
as
position.
(EA-320,
a.
system
until the filler valve is accessible.
seat to its normal
OXYGEN SYSTEM SERVICING Observe the
rear
the
and service the
push-pull knob.)
a.
(Check
Chapter
the
close the
Chapter
and service the system
as
follows:
top of the left wing, outboard of WS 66, and aft of the front spar.
and connect the
slowly
I
fill the
supply cylinder
to the filler
opening.
airplane cylinder(s).
supply cylinder shutoff valve,
disconnect the
supply cylinder,
and
access cover.
~2-10-00
Rna~a3;J,eo:Page
7
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
SCHEDULED SERVICING PRACTICES
MAINTENANCE
Before connecting an external power unit, turn a. OFF all electrical equipment switches, all radio equipment, and the alternator switch. The battery switch in the airplane should be ON.
TIRES The nose wheel tire is tires are 7.00-6
6-ply
a
5.00-5
4-ply
tires. Inflate the
pounds and the main wheel tires
tire. The main wheel nose
wheel tires to 40
to 33 to 40
4 percent over
a
Leave the
c.
ON
battery
during
the entire extemal
operation.
power
inflating tires, visually inspect for cuts,
cracks, breaks, and tread serviceable tire that is
made.
pounds.
Maintaining proper tire inflation will minimize tread wear and aid in preventing tire rupture caused from running over sharp stones and ruts. When
To prevent arcing, make certain no power is being b. applied by the external power unit when the connection is
fully
24-hour
wear.
CAUTION
The pressure of a drop more than
inflated should not
if
The
battery may be damaged voltages higher than 30 volts.
period.
exposed
to
NOTE
BA ~TERY Oil and other
hydrocarbons spilled
on
tires not
only weaken the rubber but may cause it to swell. Avoid spilling oil, fuel or solvents on tires and clean off any accidental spillage as soon as possible.
A 24-volt, 1 10 ampere hour Teledyne Battery Products leadacid battery is provided for operation of the electrical system.
The
is located
battery
on
the
right
side of the
engine
compartment, just forward of the firewail. The battery is accessible for
CAUTION
and
Beech Aircraft
the
use
of
tendency
Corporation cannot recommend recapped tires. Recapped tires have a
to swell as a result of the increased
temperature generated during takeoff. Increased tire size
removing
servicing by raising the right engine battery box cover.
battery should be checked every 25 hours and maintained 3/8 inch above the top of the separators. Add only distilled water to maintain the specific
The fluid level of the
gravity
of between 1.275 and 1.295.
proper function of the landing gear retract system, with the possibility of damage to the landing gear doors and retract can
cowl door
the
jeopardize
NOTE
mechanism.
Do not overfill the are
lower
EXTERNAL POWER
battery. When the battery cells
overfilled, water and acid will spill
the
on
portions of the engine accessory section
and lower
fuselage.
An extemal power unit with a negative ground may be used to supply power for ground checks, starting and battery
charging. The power unit may be connected directly to the battery or to an optional external power receptacle, located on the lower engine cowling. The receptacle is designed for use
with
a
standard AN type
For further
servicing information, detailed instructions are battery from Teledyne Battery Products.
furnished with each
PROPELLER DEICE BOOTS
plug.
The
optional
external power circuit is equipped with a relay diode to protect the airplane electrical system against damage from an external power source with reversed
The surface of the deice boots should bechecked for
and
a
oil after
polarity.
Removal of oil
Observe the following precautions when using
soap and water solution. Special care should be used on electric deice boots, while cleaning, to avoid damaging the
power
source,
an
extemal
Any
servicing
oil found
on
the
airplane
engine flight.
and at the end of each
the surface of the boots should be removed.
can
be
accomplished by
the
use
of
a
neutral
special conductive surfacing.
12-20-00
Page May
1
9/80
BEECHCRAFT BONANZA SERIES
RIIAINTENANCE MANUAL
CAUTION
NOTE Because the deicer boots
flexible
stock,
are
must
care
If
a bottle containing compressed air nitrogen under extremely high pressure
made of soft
be
exercised
used,
or
is
should be taken not to overin-
against dragging gasoline hoses over them or resting ladders or platforms against the
flate the strut.
surface of the boots.
be used with
care
A pressure
high
regulator
must
pressure bottled air
or
nitrogen. SHOCK STRUTS Remove all
~o check the fluid level and fill the strut, jack the air-
plane,
the valve cap and depress the valve release the air pressure from the strut.
remove
core to
WARNING The
be
should
strut
removal
deflated
before
body or excessive in personal injury or
Compress and block the strut 1/4-inch from the fully Remove the valve body compressed position. assembly and fill with MIL-H-5606 hydraulic fluid (9, Chart 1, 91-00-00). After filling the strut, slowly extend the strut from the blocked position and replace the valve body assembly. Completely cori~press the strut excess
shimmy damper, insert through the hole in the disc at the end of the piston rod until it touches the bottom of the hole in the floating piston. Mark the wire, remove and measure the depth of insertion. Inserting the wire in the hole of the floating piston, rather than letting it rest against the face of the piston, will give a more accurate check.
damage
sudden extension
hole of the
strut
may
cause
With the airplane resting
on
the
airplane
When the
is 2-3/16 inches.
internal
ground and
the fuel
follows:
after,
position
serials CE-980 and after, CJ-156 and and after, E-1,970 and after, and EA-273 and nose
floating piston, insert
the wire
be
approximately
1M-inch
shimmy damper is full, the insertion depth The empty reading is 3-1/16 inches. If the wire enters the piston rod over 2-3/8 inches, hydraulic fluid should be added. When hydraulic fluid is needed, remove the shimmy damper and add MIL-H-5606 hydrau;..e fluid (9, Chart 1, 12-20-00) as
nitrogen airplane after, D-10,397
cells full, inflate the nose strut with dry air or until 3-1/2 inches of piston is exposed. On
inflate the
will
or over-
to the strut.
1/16-inch diameter
several times, noting each insertion depth. When the wire is correctly inserted, the
length greater.
Do not inflate the struts with the of the
approximately
To determine if the wire is inserted in the
CAUTION
inflation
wire of
NOTE
air and oil, then reinstall the valve
jacks since
cloth moistened with
SHIIMMY DAMP~R
core.
on
a
hydraulic fluid.
a
property damage.
to release
foreign material from the exposed piston
of the shock struts with
To check the fluid level in the
of the valve
pressure may result
area
a.
Secure
the
shimmy damper in
a
fixed
with the clevis end down.
gear strut until 5 inches of the strut
b.
piston is exposed. Rock the airplane gently to prevent possible binding of the piston in the barrel when
from the
inflating.
is
Remove the cotter
piston
rod.
pin, washer,
Remove with
and
care as
the
spring, spring
compressed.
12-20-00
Page
2
Jun 20/91
A14
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
c.
scraper of end
Remove
the internal and the end seal
ring
barrel
the
ring,
snap
from the aft (opposite the clevis
end). d.
Insert
a
6-32 threaded rod into and remove the piston.
floating piston
the
SPARK
PLUGS
For the proper spark plug and spark plug gap, refer to Continental Service Bulletin No. M77-10. The spark plugs should be installed with no lubrication and torqued to 300 to 360 inch-pounds (25 to 30 foot-
pounds). Push the piston rod to the clevis end and fill the barrel with MIL-H-5606 hydraulic fluid (9, Chart 1, 91-00-00). e.
f. Slowly actuate the piston rod, allowing the fluid to flow into the cievis end chamber, then return the piston to the
clevis end of the barrel, g.
replace internal h,
Refill the
snap
Fill
the
di
spl aced
end
seal, ring.
the
fluid
and
ring
and
scraper
piston
rod with
fluid.
(Figure 1) locks will not need serRoton vice. If there is a grinding and binding in the lock as the seat reclines or if the action becomes return jerky, a small amount of grease properlyapplied as follows should improve the operation.
Usually,
Use only ENCO ANDOK-B grease (12, a. Chart 1, 91-00-00) on the threads as shown in Figure 1. Too much grease in the wrong
place Reinstall the floating piston, spring washer and cotter pin. Spread the cotter pin to allow clearance for the measuring wire.
LOCKS
ROTON
cancause
improper operation.
i.
it
Release the j, from the floating k.
the
Reinstall
PROPELLER BLADE
6-32
rod
and
b. Compress the counterbalance spring
spring guide approximately
and one
inch. c.
remove
Remove the retaining
ring.
piston. shimmy damper.
d. Relax pressure on the spring guide and counterbalance spring slowly until the spring is fully extended.
MAINTENANCE
Remove the lock from the fixture the spring guide, counterbalspring and spring guide tube.
e.
Due
the stresses to which high propeller blades are subjected, their careful maintenance is vitally important, particularly on the leading edge of each blade from the tip inboard to just beyond the 33-inch All nicks station. and scratches must be repaired before the airplane is flown. Nicks and scratches set concentrations of wh i ch can stress up exceed the strength of the blade material; the result will be a crack and premature failure of the blade. The method and limits for this type of repair, as outlined in the applicable Propeller Handbook, should be followed carefully. to
INDUCTION
~IR
FILTER
The induction air filter should be cleaned periodically and replaced every 5‘00 hours of service. Clean the´•filter as described in the manufacturer’s instructions on the filter.
and
remove
ance
f. the
Apply a small quantity of grease completely extended thrust screw (see Figure 1).
to
Reassemble the lock. For service g. other than lubrication, return the Roton lock to the manufacturer. CLEANLNG FINISH
AND
WAXING
THE
Prior to cleaning the exterior, wheels, making certain the brake
AIRPLANE
cover
the
discs
are
attach cover securely; p i tot install plugs in or mask off all other openings. Be particularly careful to mask off both static air buttons before washing cove
or
red
waxing.
12-20-00 A12
Page 3 Aug 28/87
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
RETAINING RING
FULLY EXTENDED
-I-
SPRING GUIDE
(APPROX)- APPLY (LIGHTLY HERE ONLY)
3/4"
GREASE
SPRING GUIDE TUBE
ABSOLUTELY NO GREASE IN THIS AREA
~MAINASSY COUNTERBALANCE 6~314-1
SPRING
Roton
Lock 1
Figure The
paint finish cleans easily
the
with a sponge and mild detergent solution. Rinse with clear water. A clean whi te cloth, saturated with either MEK (31, Chart i, 91-00-00) or toluol (19, Chart
wax
1,
urethane
91-00-00)
be used
may
to
remove
accu-
mulations of oil or grease, and dried insects. Flush the surface with plenty of cool water to remove all trades of soap and dry with a chamois to prevent water marks.
i
s
finish a yellowed appearance. The old should be removed before a new coat appl i ed.
Airplanes’with be polished to
aluminum a
skin
surfaces may
high gloss with any warpolish. Soft clean cloths
ranted aluminum chamois should be used to prevent a scratching the aluminum when cleaning and
or
polishing. CLEANING
PLASTIC
WINDOWS
CAUTION CAUTION
When mild care
from
washing soap and to avoid
the
airplane with water, use special washing away grease
Do
use
an
ice
scraper
to
windows because this practice may cause scratches To avoid to the window surface: scratches, any clean-Ing of the winddws should bedone with care.
After area. in the wheel lubriwell areas, lubricate all cation points. Premature wear of lubricated surfaces may result if the above precautions are not taken. any
not
remove
lubricated
washing with solvent
A
ice
commercial
from
cleaning compound
made
spe-
cifically for acrylic plastic windows may be used. When using a commercial cleaner,
For better protection, a non-abrasive wax be used on airplanes exposed to cormoisture rosSve with atmospheres condensation.
follow the instructions on the container. If a commercial cleaner is not available, the´•following instruc~ions should be followed:
Wax application procedures are important and will vary in accordance with the type being used. For best results, follow the
of the acrylic plasticwindows The should never be attempted when dry. window should first be flushed with water mild or a solution, then rubbed soap light’t~ with a grit-free cloth, chamois
may
wax
manufacturers specifications. of several coats of wax may
build-up
A
give
Cleaning
12-20-00
Page 4
Aug 28/87
A12
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
or are or
sponge. Stubborn grease or oil deposits readily removed with aliphatic naphtha hexane. Rinse with clear water.
thinner or aromatic cleaners clean the to wi ndows; they wi 11 damage the surface of the plastic. Aliphatic naphtha and similar solvents are and extreme highly flammable, be taken care when must using them. not
use
abrasive
CLEANING
INTERIOR
CABIN
TRIM
Proper care and cleaning of the interior cabin trim (Noryl and Kydex plastics) is of maintain to a primary importance desirable appearance. Clean the interior cabin trim with a detergent soap and water, and brush scrub with a soft bristle brush will dislodge most dirt. Wet wipe with clean water and wipe dry. Alcohol may be used to remove foreign material that is alcohol soluble. CAUTION
The
cabin trim contaminated if
interior
easily
CLEANING
The
engine solvent, or
may any
be cleaned with Stoddard standard neutral solvent
for cleaning engines. The cleaner may be sprayed or brushed on the engine. Compressed air may be used to speed up drying time.
recommended
CAUTION Do
ENGINE
LUBRICATION
Lubrication charts :and diagrams~ within this section contain informati,on- that ensure the proper operation and preiervation of the airplane. Locat´•ion, interval and lubricant required are given. Avoi~ excessive application of lubricants. LUBRICATION OF ROLLERS
LANDING
GEAR
UPLOCK
The uplock roller bearings should be lubricated with MIL-G-23827 greas’e (11,
Chart,l, 91-00-00) time
after
bearings
every
cleaning
are
the
subjected
to
100 hours or any wheel the well
degreasingwith
solvent
under pressure: Using a ´•pressure the uplock bear~ng is lubricated gun, through a grease fitting installed in the uplock bearing bolt.
be can cleaned
NOTE
with
methyl ethyl ketone, naphtha, Mufti, standard solvent, thinner and gasoline, lacquer other types of thinners. Sharp edges or cuts on the edge of the interior cabin trim it to crack.
material
may
The
fitting on the drag grease the uplock di rectly above does roller bearing, not supply lubrication for the uplock roller leg,
bearing.
cause
12-20-00
Page A12
5
Aug 28/87
BEECHCRAFT BONANZA SEAIES
MAIMENANCE MANUAL
CHART 1 SERVICING ITEM
LOCATION
SERVICE WIT~
INTERVAL
See Consumable
Preflight
Check
Engine Oil Level
Access door
Battery Water
upper cowl (1) RH rear side of
Distilled Water
25 hrs.
Ar Conditioner
engine compartment(l) See Chapter 21 for location
Suniso No. 5GS or
As
required
As
required
Compressor Oil Level Air Conditioner
Refrigerant Magneto Pressure-
on
Materials Chart
and special instructions
See Chapter 21 for location and special instructions
Texaco WF 100
500 Refn’geran~
d~i No. 12
Magnetos
Between
50 hrs.
bation Air Filter
Change Engine Oil
Lower
rear
See Consumable
side of
Engine Oil
n~ter
Left
100 hrs.
side of
rear
100 hrs.
Materials Chart
engine (1) engine (1) Clean induction Air Filter Fuel
Injection Control
Valve Screen
valve
of the Fuel Selector Valve
Strainer
Clean
Fuselage nose section 9rill (1) Fuel injection control on
on
described
Clean with solvent and
the lower side
engine (1)
blow
dry with
(1)
50 hrs.
blow
100 hrs.
air
pressure Clean with solvent and
Fuel selector valve inboard left wing mot
as
the filter
100 hrs.
dry with air
pressure Pressure
Pump Intake
Rear engine baffle (1)
Replace
Filter
300 hours on
or
condition
Drain Fuel
Sump
Drain
Fuel Cell Drains
Static Drain
Inboard left wing root (1) Under both wings (2) Behind the ah upholstery
Preflight Preflight 50 hrs.
panel (1)
Replace Induction Air Rite~
Pressure
System
Inline Rlter
Fuselage grill (1)
nose-section
Between pressure and instruments
500 hrs. on
regulator (1)
300 hrs. on
or
condition or
condition
12´•20-00
Pages Sep 27/84
A9
BEECHCRAFT BONANZA SERIES MA\MENANCE
CHART 1 SERVIC1NG (CONT*D) ITEM
LOCATION
SERVICE WITH
INTERVAL
Service Brake Fluid Reservoir
Upper
forward side of the
RlewJI
Oxygen Cylinder
(1)
MIL-H-S606
hydraulic
Under front seats (1) except EA-320
Mil-0-27210 aviatorâ&#x20AC;&#x2122;s
breathing
As
required
As
required
As
required annually
fluid
oxygen
EA-440 and after.
EA-320, EA-440 and after in
left
Main and Nose
Landing
top
wing (1)
of each strut
(3)
Shimmy Damper
MIL-H-5606
hydraulic fluid and dry compressed air
Gear Struts Nose
landing
gear
(1)
MIL-H-5606
hydraulic fluid
or
As or
required annually
Denotes quantity of servicing points.
12-2000
Page 6A A9
Sept
27:84
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
CHART 2
LUBRICATION SCHEDULE
G
c~
A
t
L
O
DH
N
Q
R 36606-120
NOTES 1.
The
following details. (A
lubrication points
ass-re.
are
thru
T) constitute
a
lubrication
servicing schedule. Major differences
on
the model A36. A36TC. 8
~k
2.
Environmental conditions and operational
3.
Landing gear components may require
application may dictate
more
frequent setvidng. depending on operation.
lubrication every 25 or 50 hours. 4. MIL-G-81322 grease may be used in place of MIL-G-23827 grease in MIL-G-23827 grease should be used. 5.
between model types relative to
l~e V-tail configuration, exclusively for the V35B. and the cargo doors provided only
warm
climates. however. in extremely cold climates
Care should be taken when using greases MIL-G-81322 and MIL-G-23827, since they contain synthetic lubricants which will painted surfaces, and will soften rubber products.
discolor
38-M)4-(2I
12-20-00
Pager A6
Oct f/83
3
BEECHCRAFT. BONANZA SERIES MAINTENANCE MANUAL
CHART 2 (Cont’d) LUBRICATION SCHEDULE
INDEX
LOCATION
POINTS(
LUBRICANT
INTERVAL
(5)
MlL-G-81322
100 hrs
NOSE WHEEL WELL
O
steering
Nose wheel
n
o DETAIL A
35600´•12
IZI
~3
DETAIL
B INTERVAL
INDEX
LOCATION NOSE LANDING GEAR
POINTS(
LUBRICANT
O
Nose shook strut
(1)
MlL-H-5608
AR
O
Shimmy damper
MlL-H-5606
AR
Nose gear
hinge points
(2)
MILG-81322
-100 hrs
O
Nose gear
linkage
(2)
MIL-Gg1322
100 hrs
O
Nose gear torque knees
(6)
MIL-Gd1322
100 hrs
I~
"A" Flame
(2)
MIL-G-81322
100 hrs
O
Nose wheel
Aeroshell 5 Pre~ened or MlL-G-81322
100 hrs
9
12-20´•00
Page 8 May 9/80
pivot points
bearings
(2)
1
Nose gear swivel
(2)
MIL-G-81322
100 hrs
Rod end fittino
(1)
MIL-G-81322
100 hrs
3s~604-’3
BEECHCRAFT BONANtA SERIES MAINTENANCE MANUAL
CHART 2 (Contâ&#x20AC;&#x2122;d) LUBRICATION SCHEDULE
ys 1~3 DETAIL INDEX
C .POINTS(
LOCATION
LUBRICANT
INTERVAL
SAE 20 or SAE 10W30
100 hrs
NOSE GEAR DOORS
O
Nose wheel door
hinges
(4)
35604-(4
DETAIL
INDEX
LOCATION
O
eOlNTS(
LUBRICANT
INTERVAL
(13)
SAE 20 or SAE 10W30
100 hrs
RUDDER PEDALS
O
Rudder
pedal linkage
35-604-~5
12-20-00
Page All
Aug
9
29/85
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
CHART 2 (Cont’d) LUBRICATION SCHEDULE
INDEX
LOCATION FORWARD CABIN DOOR
POINT(
LUBRICANT
INTERVAL
O
Forward cabin door handle
(1)
SAE 20 or SAE 10W30
100 hrs
O
Forward cabin door latch
(3)
SAE 20 or SAE 10W30
100 hrs
O
Forward cabin door
(2)
SAE 20 or SAE 10W30
100 hrs
hinges
~3--t--1
DETAIL E 35604-18
Detail F applies
only
to sen’als
E-ll11. 8-1241 and after; EA-1 and after.
P NOTE Lubricate all internal moving parts of the latching mechanism with Aeroshell 17,
II
as
required.
D DETAIL F INDEX
LOCATION AFT CABIN DOOR
O O
LUBRICANT
INTERVAL
Aft cabin door handle
SAE 20
100 hrs
Aft cabin door latch
SAE 10W30 SAE 20 or
POINTS(
(3)
or
100 hrs
SAE 10W30
O
’Aft cabin door
hinges
’Mix MIL-M-7666 with naphtha and
apply
(2) with
a
brush.
MIL-M-7866
AR 35604-32
12-20-00
Page 10 Aug 29/85
All
BEECHCRAFT
BONANZA SEdrES:’ MAINTENANCE MANUAL
CHART 2
(Cont’d)
LUBRICATION SCHEDULE
LOCATION
INDEX
POINTS(
LUBRICANT
INTERVAL
(le)
SAE 20 or SAE 10W30
l00 hrs
(3)
SAE 20
100 hrs
CONTROL COLUMN
O
Controlcolumn
O
Control column head
O
Control column torque knees
linkage
or
SAE 10W30 100 hrs
SAE 20 or SAE 10W30
(6)
O O
~IP cc: PRIOR TO 0-10404, CE-1037, E-2111 EXCEPT E-~946 AND 8-2104, EA-389 EXCEPT EA-320
DETAIL
G 56a~-( ce
O
ei
I-J-
DETAIL
~-o
GG
E-1946. D-2104, E-2111 AND AFTER. EA320, EA389 AND AFTER. INDU(
LOCATION
POINTS(
LUBRICANT
INTERVAL
(4) (10)
SAEP0
100 hrs.
MIL-L-7870 Oil
100 hrs.
(2)
MEK Solvent
100 hrs.
CONTROLCOLUMN
Control column chains
O"*
Ball
bearings (without seals)
Torque Shafts
a,
Wipe lull length of
square
shafts with MEK, these surfaces to remain
dry
or
10W30 Oil
and free of oil.
Remove one of the nonadjustable rollers (27-00~00). 11 it is a sealed roller with the seals intact, reinstall the roller and make a maintenance record that the rollers are sealed and do not need lubrication. If the rollers are not sealed, or the seals are not intact, they may be replaced with sealed rollers and a maintenance record made that the rollers do not need iubrication. If the adjustable rollers are removed for lubrication or replacement, refer to Chapter 27~0-00 for adjustment. 36-604-1(7
12-20-00
All
Page 10A Aug:29/85
BEECHCRAFT BONANZA SERIES.
CHART 2 (Contâ&#x20AC;&#x2122;d) LUBRICATION SCHEDULE
ICb
NOTE At series 0-10380 and after. CJ-156 and after. CE-960 and after. 6-1666 and
after. EA-249 and after. sealed bearings were
installed
and
no
lubrication is
required.
1
DETAIL INDEX
LOCATION
H
POINTS(
LUBRICANT
INTERVAL
(2)
SAE 20
100 hn
TRIM TAB CONTROL
O
Elevator him control
or
SAE 10W30 36604-1(9
12-20M)
Page
11
Oc17/83
A6
BEECHCRAFT BONANtA SEdIES
´•~ANUAL
CHART 2 (Cont’d) LUBRICATION SCHEDULE
INDEX
POINTS(
LUBRICANT
INTERVAL
motor gear box
(1)
MIL-G-81322
600 hn
actuator gear box
(1)
MIL´•L-2105 Mobil 636
300 hrs
(5)
SAE 20 or SAE1OW30
LOCATION LANDING GEAR ACTUATOR
O
Landing gear
O
’Landing gear
O
"Landing gear system
retract arms
’When
2~
"The
100 hrs
oil level on apip stick inserted the filler hole will be approximately 1/4 inch.
properly filled. the
through
j7
or
nose
gear retract
arm
is located beneath the gear box.
’!~zL’
DETAIL
I 3560(-47.
DETAIL
INDEX
LOCATION
POINTS(
J
LUBRICANT
INTERVAL
MIL-G-23827
900 hrs
FLAP MOTOR
m
12-2(MO
Rage 12 May 9/80
Flap flexible drive shaft (inside of cable housing)
35-soe4e
BEECHCRAFF BONANZA SERIES MAINTENAN~E MANUAL:
CHART 2 (Cont’d) LUBRICATION SCHEDULE
INDEX
LOCATION
POINTS(
LUBRICANT
INTERVAL
(2)
MIL-L-10324A OR MIL-L-2105C 75W OR
900 hrs
FLAP ACTUATOR
O
Flap
actuator
101-380016-1
O
i>ETAIL K 3psoeso
DETAIL
L
Detail L depicts the Bonanza 33 and 36 Series airplanes. The Bonanza 35 Series does not
INDEX
O O O
incorporate
Index 2.
LOCATION ELEVATOR TRIM ’flevator trim tab
hinge
"Elevator trim tab actuator
tTab control horn pivot ’Mix MlL-M-7866 with
WINTS(
LUBRICANT
INTERVAL
(2)
MIL-M-7866
100 hrs
(2)
MIL-G-23827
AR
SAE 20 or SAE 10W30
AR
(t) naphtha
and
apply with
a
brush.
’7he actuator is not used on the Bonanza 35 series airplanes. tOn the Bonanza 35 series, lubricate both the upper and lower tab control horn pivots (Index 3). On the Bonanza 33 and 36 series airplanes, only the upper tab control horn pivot lubrication is required.
3560449
12-2(H)O
Rage 13 May 9/80
BEECHCRAFT BONANZA SERIES
MAINTENANBE â&#x20AC;&#x2122;MANUA~
CHART 2 (ConPd) LUBRICATION SCHEDULE
INDEX
LOCATION
POINTS(
LUBRICANT
INTERVAL
(6)
SAE 20 or SAE 10W30
100 hrs
COWL FLAPS
O
Cowl
flap hinges
DETAIL
M 35604-51
~3
~ETAIL INDEX
LOCATION
N
POINTS(
LUBRICANT
INTERVAL
MAIN LANDING GEAR
O
Main shock struts
(2)
MlL-H-5606
AR
O
Hinge points
and retract
(14)
MlL-G-81322
100 hrs
Main gear torque knees
(10)
MIL-G-81322
100 hrs
Main wheel
bearings
(4)
Aeroshell 5 Preferred or Mll-G-81 322
100 hrs
uplock
(2)
MIL-G-23827 See Lubrication of Landing Gear Uplock Rollers in this chapter.
links
O
O
Landing rollers
12-20-00
Rage 14 May 9/80
gear
35~soe52
BEECHCRAFT BONANZA SEAIES MAINTENANCE MANUAL,
CHART 2 (Conrd) LUBRICATION SCHEDULE
INDEX
LOCATION
POINTS(
LUBRICANT
INTERVAL
(10)
SAE 20
100 hrr
MAIN LANDING GEAR DOORS
O
Landing gear
door
hinges
or
SAE 10W30
~i"
BL.~ O DETAIL
O
35-604-53
12-20-00
Rage 15 A6
Oct7/83
BEECHCRAFf BONANZA SERIES MAINTENAN~E- MANUAL
CHART 2 (Cont~d) LUBRICATION SCHEDULE
O
o o
DETAIL
P
n9
´•Lubricate the aileron pushjpull rod ends tin place) at 100 hr intervals using SAE 20 or 10W30 oil. or remove the aileron push/pull rod assembly and clean 6 lubricate rod ends using MILG-23827 grease. Rotate the rod end eye balls to assure adequate lubrication coverage. Check aileron rigging aRer reinstallation of the rod end assembly.
INDEX
O O
LOCATION AILERON Aileron control
linkage
~ileron push/pull rods ends
POINTS(
LVBRICANT
INTERVAL
(6)
SAE 20‘or SAE 10w30
100 hrs
(4)
M116-23827 or SAE 20 or SAE 10W30
100 hn
Ot
Aileron trim tab actuator
(1)
MIL-G-23827
AR
~t
Aileron trim tab
hinge
(1)
W-LBM) Prefened. LPS-1. CRC 3-36. WO-40
100 hrs
Aileron trim tab
push-pull linkage
(5)
W-L-800 Preferred. LPS-1. CRC 3-38.
100 hrs
WD-40
t Eneaive 6-1946. E-2104. E-2~11 and after: EA-320. EA-389 and after. 36-604-122
12-20-00
Page 16 Oct 7/83
A6
BEECHCRAFI BONANZA SERIES MAINTENANCE MANUAL;
CHART 2 (Cont~d) LUBRICATION SCHEDULE
INDEX
LOCATION BAGGAGE DOOR
POINTS(
LUBRICANT
INTERVAL
O
Large´•door latch mechanism
(3)
100 hrs
O
Small door latch mechanism
SAE 20 or SAE 10W30 SAE 20 or SAE 10W30 MIL-M-7866
O
’Door
hinge
’Mix MIL-M-7866 with
naphtha and apply with
a
100 hrs AR
brush.
q
O
3
DETAIL
Q
Detail Q includes serials CE-748. CE-T72 and after: CJ-149 and after: and 0-10097. 0-10120 and after. 35-604-55
-i DETAIL
INDEX
LOCATION ELNATOR TAB
POINTS(
Elevator tab actuator Elevator tab
linkage Detail R includes
R
LUBRICANT
INTERVAL
(1)
MIL-G-81322
100 hn
(4)
SAE 20 or SAE 10W30
100 hrs
only
serials 0-10097. 0-10120 and after.
35604-56
12-20-00
Rage A6
17
Oct7/83
BEECHCRAFT BONANZA SERIES ’MAINTENANCE MANUAL
CHART 2 (Cont’d) LUBRICATION SCHEDULE
INDEX
LOCATION
POINTS(
LUBRICANT
INTERVAL
(2)
SAE 20 or SAE 10W30 MIL-G-81322
100 hn
DIFFERENTIAL CONTROL Elevator cable reduction
O
arm
Differential control assy
(4)
100 hrs
3.j
S
DETAIL Detail S includes
only
Bonanza 35 series
airplanes. 35-604-57
jl:I
2
ii!i
t7~
0!
´•ii ii
i
i
DETA;IL T INDEX
O
LOCATION ELEVATOR CONTROL
POINTS(
LUBRICANT
INTERVAL
Elevator bell crank
(2)
SAE 20 or SAE 10W30
100 hrs
SAE 20 or push pull (2) SAE 10W30 Detail T includes only serials CE-748. CE-772 and after; CJ-149 and after; E-1111. E-~241 and after: and EA-1 and after.
Elevator control
100 hrs
35-604-58
12-211-88
Rage
18
Oct7/83
A6
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
0.
50-590014
TS1222-5 50-590012
TS1222-3
TS1222-4 T51222-8
50-590013
TS1171-1 TS1171-2 TS1176-1 TS1176-2
TS1176-10
TS1171-10
UPPER FORWARD WING BOLT WRENCHES: TS1222-3 TS1222-5 50-590012 TS1222-4 TS1222-8
BOLTS) (FOR NAS152-37 (FOR MS20012-20 AND 131790-1 (FOR MS20012-20 AND 131790-1 (FOR MS20012-20 AND 131790-1 (FOR MS20012-20 AND 131790-1
BOLTS) BOLTS) BOLTS) BOLTS)
UPPER FORWARD WING NUT TORQUE WRENCH ADAPTERS: TS1171-2 TS1176-2 TS1176-10 TS1171-10
(PRIOR TO CE-928, CJ-156, D-10353, E-1758 AND EA-150) (PRIOR TO CE-928, CJ-156, D-13053, E-1758, AND EA-150) (CE-928 AND AFTER, CJ-156 AND AFTER, 0-10353 AND AFTER, E-1758 AND AFTER, EA-~50 AND AFTER) (CE-928 AND AFTER, CJ-156 AND AFTER. D-10353 AND AFTER, E-1758 AND AFTER, EA-150 AND AFTER)
LOWER FORWARD WING BOLT WRENCHES: TS1222-5
(CE-748, CE-772 AND AFTER; 01-149 AND AFTER; E-llll, AFTER; D-10097, D-10120 AND AFTER; EA-1 THRU EA-272 EXCEPT EA-242) (CE-748, CE-772 AND AFTER; CJ-149 AND AFTER; E-llll. E-1241 AND AFTER; D-10097, D-10120 AND AFTER; EA-1 THRU EA-272 EXCEPT EA-242) (CE-748, CE-n2 AND AFTER; CJ-149 AND AFTER; E-llll, E-1241 AND AFTER; D-10097, D-10120 AND AFTER; EA-1 THRU EA-272 EXCEPT EA-242) (CE-748, CE-772 AND AFTER; CJ-149 AND AFTER; E-llll, E-l241 AND AFTER; D-10097, D-10120 AND AFTER; EA-1 THRU EA-272 EXCEPT EA-242) (EA-242, EA-273 AND AFTER)
E-1241 AND 50-590012
TS1222-4
TS12228
TS1222-3
Special
(Sheet Figure 2
Tools
1 of
3617-15
4)
12-20-00
Page A8
19
Jan 18/84
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
LOWER FORWARD WING NUT TORQUE WRENCH ADAPTERS: TS1171-2 TS1~76-2 TS1176-10
(PRIOR TO CE-928, CJ-156, E-1758, D-10353, AND EA-150)
(PRIOR TO CE-928, CJ-156, E-1758, 0-10353, AND EA-150) (CE-928 AND AFTER. CJ-156 AND AFTER. E-1758 AND AFTER. 0-10353 AND AFTER, EA-150 THRU EA-272 EXCEPT EA-242)
50-590014
(EA-242,
EA-273 AND
AFTER)
UPPER AFT WING BOLT WRENCHES: 50-590012
TS1 222-5
TS1222-4 TS1 222-8
UPPER AFT WING NUT TORQUE WRENCH ADAPTERS: 50-590013 TS1171-1 TS1176-1
LOWER AFT WING BOLT WRENCHES: 50-590012 TS1222-5 TS1 222-4
TS1222-8
LOWER AFT WING NUT TORQUE WRENCHES: TS1171-1
1-
TS11761
â&#x20AC;&#x2DC;V
50-590013
35-590064-1 HOISTING SLING ASSEMBLY
35-5900~ MAIN WHEEL JACK ADAPTER
MODEL 300 SERVICE JACK MAX. CAPACITY 5000 LBS
35-590009 THROTTLE RETAINING NUT WRENCH
Special Taols (Sheet Figure 2
2 of
36-17-22
4)
12-20-00
Page
20
Jan 18/84
A8
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
SPECIAL TOOLS 35-590087
DIFFERENTIAL MECHANISM USED ON THE BONANZA 35 SERIES AIRPLANES
ONLY 810-5 35660040 LH 810-5 35660040-1
RH
ELEVATOR CHECK FIXTURE USED ON MODEL SERIALS D-10097, D-10120 AND AFTER 810-3 35660040 LH
810-3 35660040-1
8
RH
ELEVATOR CHECK FIXTURE USED ON MODEL SERIALS CE-748, CE-772
35-590087-9 STOP USED WITH 35-590087 ASSEMBLY WHEN RIGGING THE MODEL SERIALS D-10097,
AFTER; CJ-149 AND AFTER; E-llll, E-1241 AND AFTER; AND EA-1 AND AFTER
AND
D-10120 AND AFTER
810 35660043-2 TRIM TAB JIG
36-590015-1 TOW BAR
P
35-590021 TAIL TIE-DOWN SUPPORT ASSEMBLY 810 33524000 RUDDER CHECK FIXTURE
45-590074-7
810-1 50590091
LANDING GEAR TENSION GAGE
AILERON TRAVEL GAGE
36-17-16
Spclal
Tools
(Sheet
Figure
3 of
4)
2
12-20-00 As
Page
21
Jan 18184
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
PREFLIGHT FUEL DRAIN TOOL ON B36TC AIRPLANES OR FUEL SELECTOR VALVE DRAIN TOOL ON A36TC AIRPLANES WITH KIT NO. 36-9008-15 INSTALLED
B36TC FUEUOIL DRAIN ADAPTER PIN1Oâ&#x20AC;&#x2122;IB
3617-17 001
Special
(Sheet Figure 2
Tools
4 of
4)
"END"
12-20-00
Page 22 Aug 29/85
Atl
CHAPTER
STANDARD
PRACTICES
(AIRFRAME)
Raydheon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 20
STANDARD PRACTICES
AIRFRAME
TABLE OF CONTENTS
PAGE
SUBJECT 20-00-00
Standard Practices-Airframe
.........1
20´•01 -00
Torque Wrenches 20-02-00
Discharge SensitSvlty- Description and Operation Electrostatic Discharge Sensitivity Classification
Electrostatic
DischargeSensitivity- MaintenancePractices Removal/installation of ESDS Equipment. Handling of ESDSComponentsand Equipment Controlling StaticCharge Buildup.
.................1 ..1 .1
Electrostatic
PermanentStatic ControlWorkstation
..................1
..........3
..................6 ..................6
Portable Static Control Workstation
.8
ESDSComponentsand Equipment ESDSComponents and Equipment Marking of ESDS Components and Equipment Storage and Transit of ESDS Components and Equipment Humidity
and DustEffectson
Packaging
........10
of
................11
.12
20-03-00
Bonding- Descriptionand Operation. Bonding Methods. Direct Electrical Bonding
Electrical
...........1 .......1
Electrical
Electrical
......i ...............1
Indirect Electrical
Bonding Bonding of Tubes
.......1
Electrical Power Returns.
.........1 .........2
Recommended Materials
Bonding Maintenance Practices. Metal Surface Preparation and Electrical Bonding
Electrical
..............3 .........3
.........3
Aluminum Surfaces.
Corrosion-Resistant
(CRES)
Steel Surfaces
StainlessSteel and‘ritanium Surfaces.
..........6 ..............6
......6
Electrical
Bonding Examples. Typical Blind GroundStud
.....6
CRES SteelorTitanium Electrical Bonding
*26
...........6
50-CONTENTS
1
Ral~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 20
STANDARD PRACTICES
TABLE OF CONTENTS
AIRFRAME
(Continued)
SUBJECT
PAGE
Bonding Tubing Clampto BondingJumper Electrical Bonding Bonding JumperAcrossTubing Clamp Electrical Bonding Typical Ground Stud Electrical Bonding Aluminum Electrical
............._...
Electrical
Bonding of Ground Tabs
7.
8 8 11 11
20-04-00
Control Cables and
Pulleys
Description
and
Operation.
Recommended Materials
ControlCablesand Pulleys- Maintenance Practices. Control Cable System
1 1
Inspection.
2 2
Control Cable Storage Control Cable
Pulley Inspection.
4
20-05-00
Bearings- Descriptionand Operation
1
Recommended Materials
1
Maintenance Practices
BearingsHydraulic
1
Bearing Removal Bearing Removal Bearing Housing Inspection Bearing Installation Using Retaining Compound Bearing Installation By Staking
1
Press
1
Mechanical Press
2
2 3
20-06-00
Tube and Hose Assemblies and
Tubing,
Hoseand
Fittings Description and Operation Fmings- MaintenancePractices.
Removal of Tubeand HoseAssemblies Hose
.........,.,..._
Assembly Installation
1 2
2 2
Tube Installation. Fluid Line
Fitting Installation
NonpositioningType Fitting
3
Installation
PipeThread Fitting Installation Tube
Page2Sep
Damage
30/04
4 4
Limits
20-CONTENTS
nne
RByMheOn
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 20
STANDARD PRACTICES
TABLE OF CONTENTS
AIRFRAME
(Continued)
SUBJECT
PAGE 20-07-00
Locking Devices Description And Operation Self-Locking Nuts Slotted, Steel Locknuts (Prevailing TorqueType). Lockwire and Cotter Pin Requirements. Locking Devices- Maintenance Practices Lockwire Installation Procedures
............,.._._
................._
.........1 .................1 ................1 ...1
........._......._
Lockwire Hole Lockwire
.............1
Alignment. Twisting
.........4
Cotter Pin Installation
Keywashers (Taband CupTypes) Installation Retaining Rings (Spirolox, Etc.) Installation Turnbuckle Lock Clip Installation
............5 ............,5 ....5
20-0&00
Airplane Finish Care-Description.
...1
Recommended Materials
..1
Finish Care- Maintenance Practices
Airplane Airplane Finish Cleaning Environmental Fallout(Acid Rain).
........._..3
..3
................._
Waxing Airplane Finishes Placard Replacement
.........3 .........___.
Urethane Paints Urethane Paint
Repair
Procedures.
Stripping and Cleaning Urethane Paint. Pretreatment(Wash) PrimerForUrethane
.4 .................4
Paint
..........5
Urethane Primer Urethane
Topcoats
Urethane
Touch-Up Repair.
.......5
Painting Magnesium
Magnesium Surfaces Painting Magnesium Surfaces Special Procedures Propeller Blades. Surfaces Susceptible to Mud and Spray Paint Removal from
............6 .................7
i
.............7
Rubber Seals EnclosedAreas
Battery
I,
Subjectto High Humidity
............7
Boxand Lid
50-CONTENTS ,.~Page
3
Raytheon
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 20
STANDARD PRACTICES
TABLE OF CONTENTS
AIRFRAME
(Continued)
SUBJECT
PAGE
Paint Free Areas
................._
20-0900
Corrosion-
Description
Galvanic Corrosion Recommended Materials
3
Corrosion- Maintenance Practices
4
Corrosion Control Corrosion Protection
..............4
Aluminum Corrosion Removal
4
Removal of Corrosionfrom Aluminum Surfaces
5
Aluminum Corrosion Treatment.
5
Magnesium Corrosion Magnesium Corrosion
Removal.
Treatment
........._____
5
6
Steel Corrosion Removal
Page
2OICONTENTS
A26
RaytLeOn
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 20
STANDARD PRACTICES
AIRFRAME
LIST OF EFFECTIVE PAGES CH-SE-SU
PAGE
DATE
20-LOEP
1
Sep
30/04
20-CONTENTS
1 thru 4
Sep
30/04
20-00-00
1 and 2
Nov 10/00
20-01-00
1 thru 5
Jun 20/91
20-02-00
1 thru 12
Jun 20/91
20-03-00
1 thru 12
Jun 20/91
20-04-00
1 thru 4
Mar 31/04
20-05-00
1 thru 4
Jun 20/91
20-06-00
1 thru 7
Sep
20-07-00
1 thru 7
Jun 20/91
20-08-00
1 thru 8
Sep
30/04
20-09-00
1 thru 6
Sep
30/04
A26
30/04
20-LOEP
Sep
30/04Page
1
Ral~heon Aircraft BEECH BONANZA SERIES MAINTENANCE MANUAL
STANDARD
PRACTIC~S
-AIRFRAME
I WARNING W~RNING) Any maintenance requiring the disconnection and reconnection of flight control cables, plumbing, electrical connectors or wiring requires identification of each side of the component being disconnected to facilitate correct reassembly. At or prior to disassembly, components should be color coded, tagged or properly identified in a way that it will be obvious how to correctly reconnect the components. After reconnection of any component, remove all identification tags. Check all associated systems for correct function prior to returning the airplane to service. This
practices used in maintaining the airplane in an airworthy condichapter is applicable during maintenance in several chapters of this maintenance manual. Maintenance procedures in a particular chapter supersede the general information in this chapter. chapter describes
the standard maintenance
tion. The information in this
The information is broken down in several
unit/subjects.
The
following
is
a
list of the information contained in each
chapter. 20-01-00
This
Nut and Bolt
Torque
Information
unit/subject contains the general information for installation of torqued fasteners. It has information adapters and torque charts showing the torque of different types of nuts and bolts.
on
the
use
of torque
20-02-00
Electrostatic
Discharge Sensitivity
Information
This
unit/subject contains the general information for maintenance of components that are subject to electrostatic damage. Information is included for electrostatic free workstations, symbols, packaging requirements, storage and transit requirements, static charge buildup and humidity and dust effects. 20-03-00- Electrical This
unit/subject
Bonding Information
contains the
general information for installation of electrical wiring grounding, tube grounding
and
electrical power returns.
20-04-00 This
Control Cable and
unit/subject
20-05-00-
contains the
Bearing
Pulley Information
general
information for maintenance and
unit/subject contains the general information use of the hydraulic and mechanical press by pound and the staking method. the
Tubing
of control cables and
pulleys.
Information
This
20-06-00-
inspection
for installation and removal of
bearings. The by use
method. The installation is described
removal is described of the
retaining
Information
This
unit/subject contains the general information for maintenance of hoses, tubing and fittings. Components identified, but the information is basic and applies to most applications.
nu
com-
20-00-00
are
not
Ray~heon Aircraft BEECH BONANZA SERIES MAINTENANCE MANUAL 20-07-00- Fastener
This
unit/subject
Locking
contains the
washers, retaining rings 20-08-00-
This
Information
general
information for the installation of cotter
and turnbuckle
Airplane Finish
unit/subject contains application.
pins, lockwire,
tab and cup type
Information
the
general information for maintenance
of the finishes used
on
the
airplane
removal and
20-09-00- Corrosion Removal and Control Information
This
Nov
unit/subject
key-
locking clips.
contains the
general information
20-00-00
for the control, treatment and removal of corrosion.
and
paint
aeechcraft BONANZA SERIES MAINTENANCE MANUAL
TOROUE WRENCHES
(FIGURES
1 AND
Formula for increased effective
2) 135
Y
Threads of nuts and bolts to be
torqued
must be
clean and free of all lubricants unless otherwise
specified.
The loss of normal friction
tion may result in
by
contamina-
overtorquing.
x
10
10
1350
1.5
11.5
length: 117.39
117 inch-lbs.
y
NOTE
Torque
Formula for decreased effective
wrenches should be exercised
before they
are
A measurable to initiate the
used.
turning of
some
torqued
freely should inch-pounds above
turn
to at 20
100
indicate
achieve
the
inch-pounds
desired
torque.
torque wrench is
not available, an acceptable checking the torque is to attach a spring scale (Figure 2) to a conventional flex or "T" handle inserted into an adapter. Force should be applied in direction perpendicular to an imaginary line a extending from the center of the bolt through the spring scale attaching point.
If
be
a
method of
the
to
This
method compensates for the friction of or fastener.
To calculate the force
required When an
adapter is used with a torque wrench (Figcompensation must be made for the increased or lost leverage. A new torque requirement must be calculated before the final torquing. To figure the desired torque which will actually give the torque specified, use the following formula: 1),
Basic
Torque
T
Formula:
L
x
Y
L or
E
EXAMPLE:
Actual
Y
(Desired) Torque Apparent (Indicated) Torque
L
Effective Lever
E
Effective
T
135 inch-tbs. Unknown 10.0 inches 1.5 inches
T
Y L E
Length Length of Extension
in pounds (scale reading) specified torque, divide the inch-pounds by the distance in inches
to obtain the
torque in
between the center of the bolt and the scale attach-
ing point. For example, if the specified torque is 200 inch-pounds and the distance is 15 inches, a pull of 13´â&#x20AC;˘3 pounds must be applied. When
a
torque wrench adapter
adapter
flex
"T" handle wrench and
or
is
used, the length
must be added to the
of the
a
length of the
value calculated for
particular combination. The following example in finding a desired value.
that cal
LEGEND:
8.5
BT01039
the locknut
ure
158.82
1350
159 inch-lbs.
Y
desired torque. If the desired torque is 80 inch-pounds, the torque wrench must
10
10 -1.5
proper torque setting. For example; a locknut that requires 20 inch-pounds force
x
locknuts.
This initial torque must then be added to the desired torque to attain the
of
135
Y
torque may be required
length:
is
a
typi-
of flex or "T" .........,.....12 inches Length of adapter ...............3 inches ..................1 5 inches Total length Desired torque on bolt ........2000 inch-lbs. Effective
length
Handle wrench
(2000 inch-tbs.)
i
(15 inches)
133.3 Ibs.
8T01038
20-01-00 A14
Page 1 Jun 20/91,
~eechcraft BONANZA SERIES MAINTENANCE MANUAL
TORQUE WRENCH DRIVE CENTERLINE
r
ADAPTER DRIVE CENTERLINE
HANDGRIP CENTERLINE
(PREDETERMINED)
2000-017-01
Torque Wrench and Adapter Figure 1 20-01-00
Page
2
Jun 20/91
A14
~-)eechcraft BONANZA SERIES MAINTENANCE MANUAL
(LB)
TORQUE (IN-LBS.) 90â&#x20AC;&#x2122;
OTAL
LENGTH 2000-017-02
Computing Torque with Figure 2
A14
a
Spring Scale 20-01-00 Page 3 Jun 20/91
~3eechcraft BONANZA SERIES MAINTENANCE MANUAL
CHART 1
SERIES, CLASS 3, CADMIUM PLATED NONLUBRICATED (EXCEPT AS NOTED)
FINE THREAD AND
Torque Limits Recommended for
Maximum Allowable
Installation (Inch-Pounds) Column 1 Size
MS20365
MS21D42
AN310
Dry-Film
Nuts
Lub Nut
5/32-36 3/1 6-32 1/4-28 5/1 6-24 3/8-24 7/1 6-20 1/2-20 9/1 6-18 5/8-18 3/4-16
12-15 20-25 50-70 100-140 160-190 450-500 480-690 800-1 000 1100-1300 2300-2500
1*
7/8-14
2500-3000
*This is
Column 2 MS20364
MS21245
AN320
Lub Nut
Column 4
MS21042
AN310
Dry-Film
Nuts
MS20364
Dry-Film
Nuts
Lub Nut
1 20
1
1 40
1 1
Iloo 1 225
1
1 1--1---
30-40 60-85 95-110 1 270-300 1 290-410 1 480-600 660-780 1300-
1 390 1 840 1100 1600 2400 5000
1 1 1 1
25 60 140 240 1 500 1 660 1 960 11400 1 3000
1500 1800-
1250
1---
7000
1
1 4200
2400
2100
1 210-230 310-430 485-605 10901640-
30 70 135 200
1
limits of 9-11
Dry-Film
Nuts
1
1 1
1*
MS21245
AN320
12-15
15-19 37-47 56-78 72-108
1 7-9
Column 3 MS20365
thread (.1640-32) with recommended torque tightening torque of 14 inch-pounds.
a coarse
allowable
Tightening
Torque (Inch-Pounds)
Lub Nut
1 12
inch-pounds
415
660 1060 2500 3740
and
a
maximum
BT03021
20-01-00
Page
4
Jun 20/91
A14
QeechcraR BONANZA SERIES MAINTENANCE MANUAL
CHART 2
TORQUING COARSE THREADED BOLTS LOADED IN SMEAR
Torque Limits REcommended
Maximum Allowable
(Inch-Pounds) Size
AN365 AN310
9-32 10-24
1/4-20 5/1 6-18 3/8-16 7/16 1/2-13 9/16-12 5/8-11 3/4-10 7/8-9 1-8 1 1/8-8 1
1/4-8
The above values
AN364 AN320
Nuts
Nuts
12-15 20-25 40-50 80-90 160-185 235-255 400-480 500-700 700-900 1150-1600 2200-3000 3700-5000 5500-6500 6500-8000
7-9 12-15 25-30 48-55 95-110 140-155 240-290 300-420 420-540 700-950 1300-1800 2200-3000 3300-4000 â&#x20AC;&#x2122;4000-5000
apply
to Class 3
Torque (Inch-Pounds) AN365
AN364
AN310 Nuts
AN320 Nuts
20
12
35
21
75 160 275 475 880 1100 1500 2500 4600 7600 12000 46000
45
100 170
280 520 650 900 1500 2700 4500 7200 1000
threads, cadmium plated and nonlubricated.
8T03022
20-01-00 A14
Page 5 Jun 20/91
Ci3~eechcraft BONANZA SERIES MAINTENANCE MANUAL
ELECTROSTATIC DISCHARGE SENSITIVITY DESCRIPTION AND OPERATION
charge, while materials at the bottom of the list are capable of producing a similar negative electrostatic charge. Items of dissimilar polarity provide the greatest potential for electrostatic discharge. Numeric values have not been assigned to the listed materials, as static charge levels are not static
Some types of electronic components are easily damaged by electrostatic discharge (ESD), and require special handling and storage procedures, ESD is a release of stored electrostatic charge which has been generated by actions such as contact, rubbing, or separating of materials. A charge this type can damage electrical and electronic equipment installed in the airplane. In some instances, the damage may not be immediate, but progressive. Components and items of equipment that can be damaged by electrostatic discharge are considered to be electrostatic discharge sensitive (ESDS). Electronic components that are considered to be electrostatic discharge sensitive include integrated circuits, transistors and diodes, monolithic and hybrid microelectronics, MOS capacitors, thin film resistors, and piezoelectric crystals. Any circuit or piece of equipment containing ESDS components is subject to ESD damage if certain handling precautions are not observed.
constant, and will vary with ambient conditions. A
greater possibility of ESD exists when the positions of listed items in Table 1 are farther apart. For example, an individual using his/her hands to pick up a PVC pipe has more potential for producing ESD than does an aluminum part contacting a steel cart. Table 2 identifies
some
typical electrostatic charge can produce the electro-
levels and the actions that static
charge.
ELECTROSTA TIC DISCHARGE SENSITIVITY CLASSIFICATION Three levels of
sensitivity classification are estabdischarge sensitivity devices.
lished for electrostatic
Personnel
inspect, test or install equipment containing ESDS combe aware of the possibility of ESD
who
remove,
instruments and
ponents
must
damage,
and should handle ESDS
components in procedures covered in this chapter. Proper procedures and policies for the handling of ESDS components and equipment should be adhered to for the following reasons: accordance with
Classification is used to aid the manufacturer
handling providing packaging supplier requirements that protect the ESD sensitive item, device or component through all phases of handling and packaging of the device during its service life. The three classes of ESD sensitivity are as follows: Class 1
Control of ESD damage, from time of compo-
Class 2
nent manufacture to time of actual installation, must be verifiable and must be maintained by
volts.
use
of established
Established
industry standards.
Class 3
dictates that all personnel procedures to prevent damage ESDS components and equipment.
policy
or
and
in
Sensitivity range
is from 0 to 1,999 volts.
Sensitivity range
is from 2,000 to 3,999
Sensitivity range
is from 4,000 to 15,999
volfs.
follow certain to
Interacting aware
of their
of
responsibility obligation to maintain
areas
must
be
MAINTENANCE PRACTICES
proper
ESD-controlled environments. Table 1
ELECTROSTATIC DISCHARGE SENSITIVITY
lists several materials and the associated
electrostatic charge polarity and magnitude for each. Materials at the top of the list are capable of producing the greatest amount of positive electro-
REMOVAL/INSTALLA TION OF ESDS EQUIPMENT Observe the or
installing
following procedures when removing equipment at the airplane:
ESDS
20-02-00
Page A14
1
Jun 20/91
CiZ)eechcraft BONANZA SERIES MAINTENANCE MANUAL
TABLE 1 MATERIAL POLARITY
CHARGE MATERIALS
(Relative Magnitude and Polarity)
Positive Positive Positive Positive Positive Positive Positive Positive Positive Positive Positive Positive Positive Positive --Neutral--
Air
Human Hands
Asbestos Rabbit Fur Glass Mica Human Hair
Nylon Wool Fur Lead Silk Aluminum
Paper Cotton Steel Wood Amber
Sealing
Negative Negative Negative Negative Negative Negative Negative Negative Negative Negative Negative Negative Negative Negative Negative -Negative Negative Negative Negative Negative Negative
Wax
Hard Rubber
Nickel, Copper Brass, Silver Gold, Platinum Sulfur
Acetate, Rayon
Polyester Celluloid/ Orlon/ Saran/ Polyurethane Polyethylene Polypropylene PVC (Vinyl) KEL-F (CTFE) SILICON
TEFLON/ BT01030
during power-on testing
i ,,,,,,-t CAUTION
tems
to
to
personnel performing
the
maintenance
Tools with should
plastic
not
be
or
devices. These tools
20-02-00 Page 2 Jun 20/91
ESDS
around
can
carry
a
static
readily disthe grounding process, tools should be used only
charge which charge during Insulated
insulated handles
used
does
not
of aircraft sys-
prevent electrical shock
tests.
Some circuit board assemblies may be protected by plastic covers. These covers
charge. tion
to
store
can
Use
a
an
electrostatic
static control work sta-
neutralize
any
electrostatic
A14
C~)eechcraft BONANZA SERIES MAINTENANCE MANUAL
TABLE 2
TYPICAL ELECTROSTATIC VOLTAGES ACTIONS OF PERSONS
’Walking ’Walking
across
MOST COMMON
HIGHEST
READING (VOLTS)
READING (VOLTS)
12,000 4,000 1,800 1,500
39,000 13,000 18,000 20,000 7,000
carpet
vinyl tile floor Seated in polyurethane foam chair Picking up poly bag Inserting paperwork into vinyl envelopes across
Data based
on
ambient relative
800 15% to 36%
humidity
BT01031
charge on the covers before touching a printed circuit board. Store the covers
safe
a
distance
from
the
Do not
c.
use
dust from ESDS ment of
work
air, combined with airborne dust particles,
create an electrostatic
can
area.
pressure air nozzles to remove circuit boards. Rapid move-
printed
charge
that will
destroy
ESDS components.
using test equipment, discharge all test ground prior to connection to the ESDS cir-
When
a.
leads to
cult under test,
b.
Use
a portable static control work station removing ESDS circuit boards´•from card cages and enclosures at the airplane.
Place removed ESDS
equipment on the work dissipative work surface before opening the static shielding container holding the replacement ESDS equipment.
station static
d.
Just
prior to engaging a cable connector with mating receptacle, touch the connector shell to the receptacle shell to neutralize any electrostatic charge on the connector or the.installer’s body. its
Maintain
e.
Avoid
e.
when
c.
d. Always wear a grounding wrist strap opening any ESD protective package.
protective coverings
on
stored ESDS
equipment.
tor
pins
when
touching circuit components or connechandling ESDS components or equip-
when
me"t.
Never place any ESDS component, before or assembly, on a nonconductive surface or in a container not specifically designed for storage of f.
after
ESDS devices. Protect ESDS components and equipment protective containers, conductive caps, and/or pin-shorting devices.
g.
with
Store and transport ESDS components and h. equipment in ESD protective containers. Seal all protective containers with an ESD warning label prior to shipment. i. ment
Place all loose ESDS components and equipinto ESD protective containers BEFORE
HANDLING OF ESDS COMPONENTS AND
removing
EQUIPMENT
j. Keep the work station free of any material required to accomplish the assigned task.
All
personnelhandling
ESDS
components
and
equipment should receive instruction in the proper handling of such items. Observe the following hanrules to prevent
dling and equipment: a.
Keep
inside ESD
damage
to ESDS
components
ESDS components and equipment protective packaging until opened at a
static control work station. b.
place
Before the
unsealing
packages
on
control work station.
A14
ESD
protective packages,´•
the work surface of
a
static
k.
a
grounding
wrist strap.
Follow established ESD
protection
not
rules and
procedures. I´• Always use a static control work station, either permanent or portable, when removing ESDS components and equipment from protective packaging. Use only grounded, electrically isolated, and m. temperature controlled soldering irons that have been rated for use with ESDS components and
equipment. tive
or
Use
static
equipment,
only
hand tools that have conduc-
dissipative handles
such
as
or
grips.
Test
scopes and meters, mljst be 20-02-00 Page 3 Jun 20/91
~-)eechcraft BONANZA SERIES MAINTENANCE MANUAL
11
7
2
10~
9
1;1
1
6
1;1
STATIC WORK
CONTROLLED STATION
1. GROUND CORD ASSEMBLY
6. STATIC CONTROLLED CHAIR
2. STATIC DISSIPATIVE MAT OR
7. CONDUCTIVE CONTAINERS AND
CONDUCTIVE BAGS
WORK BENCH SURFACE
8. HEEL GROUNDING STRAP
3. STATIC DISSIPATIVE/CONDUCTIVE
FLOOR OR MAT 9. ANTISTATIC/CON DUCTIVE CLOTHING OR OUTER GARMENT
4. GROUND CONNECTION 1
ESD CONTROLLED WORK STATION
’10. SIGN
5. IONIZED AIR BLOWER
’11. SNUG-TO-SKIN PERSONNEL
WRIST STRAP TO GROUND
NOTE ITEMS MARKED WITH AN
ARE REQUIRED FOR A STATIC CONTROLLED WORK STATION. ALL OTHER ITEMS ARE OPTIONAL, BUT PROVIDE ADDED PROTECTION OR ENHANCE WORKER MOBILITY.
NOTE KEEP STATIC GENERATORS, SUCH AS PLASTIC CUPS, CIGARETTE WRAPPERS, SURPLUS CLOTHING, HANDBAGS, LUNCH CONTAINERS, PLASTIC BAGS, FOAM
PACKING, READING MATERIAL, ETC. AWAY FROM STATIC CONTROL WORK STATIONS. A~014188
Permanent Static Control Work Station
Figure 1 20-02-00
Page
4
Jun 20/91
A14
~eechcraft BONANZA SERIES MAINTENANCE MANUAL
1
2
i. ALLIGATOR CLIP TO
RELIABLE GROUND CONNECTION 2. SNUG-TO-SKIN PERSONNEL
WRIST STRAP 3. STATIC DISSIPATIVE
WORK SURFACE
npol4les
Portable Static Control Work Station
Figure
2
20-02-00
Page A14
5
Jun 20/91
Ci~)eechcraft BONANZA SERIES MAINTENANCE MANUAL
rated for use around ESDS components and
equip-
Avoid
n.
diverting, to ground, objects.
ment to
such~ as
exposing ESDS components and equiplarge electromagnetic or electrostatic fields transformers or transmitting antennas.
A
Four basic These
following
items:
CAUTION
techniques
are
Never
in ESD control.
employed
wear
a
grounding
dissipative flooring and static-dissipative
dissipate any electrostatic Under certain conditions, personnet using a grounding wrist strap
work
may need to use a moisture enhancer to
buildup. Wear cotton clothing instead of wool or synthetics. Use an ionized air blower to dissipate charges from nonconductive items.
wrist and the wrist strap.
DRAIN OFF THE CHARGE TO GROUND
human
body
is
a
good
The
electrical conductor and for
electrostatic
body can be dissipated by skin contact with a grounding device such as a wrist or ankle strap. Always wear a grounding wrist strap when opening ESD containers or handling exposed ESDS components and equipment. reason
c.
such
charges
NEUTRALIZE THE CHARGE
on
the
Nonconductors,
polystyrene coffee cups, plastic bags, and some clothing develop electrostatic charges that cannot be neutralized by grounding. lonized air flow will neutralize an electrostatic charge on a nonconductor as long as the ionized air blower puts out both positive and negative ions, as
d. MINIMIZE THE EFFECTS OF ELECTROSTATIC FIELDS The immediate environment surESDS rounding components and equipment must be free of electrostatic fields
or
static
induced effects from
shielding
to
mlnlmlze
must have suitable
electrostatic fields.
WORKSTA TION
(FIGURE I) A static control work station
provides for static-free equipment by
of ESDS components and
20-02-00 Page 6 Jun 20/91
resistance
lotion-type
connection
skin
a
low-
between
the
provide
Each person GROUNDING WRIST STRAP handles ESDS components and equipment
a´•
that
wear a grounding wrist strap to dissipate bodily electrostatic charges. The wrist strap must fit firm against the skin and release quickly in case of an emergency. The wrist strap incorporates a 1 megohm current-limiting resistor, in series with the ground cord, to protect the wearer from electrical
must
shock hazards.
STATIC-DISSIPATIVE WORK SURFACE b. Conductive mats on the work bench surface are designed to remove electrostatic charges from conductive items placed on the mat. c.
CONDUCTIVE FLOORING
Conductive floor-
ing is used when additional control of ESD is required. To maintain total control over ESD, use conductive chairs, a grounding heel strap, and conductive shoes. Conductive areas must
tive
be free of all
flooring
wax or
in ESD control
other nonconduc-
coatings. HARD GROUND CONNECTION
Grounding accomplished through one or more copper ground rods driven into moist earth to a depth sufficient to provide a low resistance path from the work station to ground. All work station connections to ground are made through a one megohm resistor to protect work station personnel from electrical shock hazards by limiting current flow to ground. d.
of the static control work station is
PERMANENT STA TIC CONTROL
handling
strap
quately charge.
surfaces. Wear leather shoes, cotton socks, and a grounding ankle strap to dissipate body charge
that
wrist
clothing.
The strap must be in contact with the wearer’s skin to adeover
are:
MINIMIZE THE CHARGE BUILDUP Minimize charge buildup by using conductive or
b.
on con-
1~7
electrostatic static
charges
permanent static control work station consists of
the
CONTROLLING STATIC CHARGE BUILDUP
a.
electrostatic
ductive
ment.
A14
Ci~eechcraft BONANZA SERIES MAINTENANCE MANUAL
f.
NOTE Some
building grounds
checked to
ensure
looping grounds. rent
Ensure that the
need
that there is
from
other
to
be
no cur-
nearby
tive material.
CONDUCTIVE CONTAINERS
ESDS devices
transported in approved containers to prevent ESD damage. These special containers are made of metal or special conductive plastic. Before static-sensitive components and equipment are removed from a static control work station, they must be packaged in containers that provide at least as much protection as that provided by the must be
of current is
external and not static. e. IONIZED AIR BLOWER The ionized air blower provides a constant flow of positive and negative ions over the work station surface to neunonconductive tralize electrostatic charges on materials in the air flow path. The use of an ionized air blower, in combination with a static control work station, provides additional protection for ESDS
components and equipment. Since it is not always possible to eliminate all static charge accumulators (styrofoam, plastic, etc.) from a work area, the ionized air blower is used to provide additional protection
Chairs used
protected work stations must be conductive, and if padded, must be covered with static dissipag.
source
STATIC DISSIPATIVE SEATING
at ESD
by flooding the work area with balanced negative/positive ionized air. Static charge accumulators should always be kept away from static-free areas, but inadvertent static is hard to control, especially when developed by such common items as clothing, footwear, combs, and pens. An ionized air blower will help control some of this inadvertent buildup.
work station. Conductive boxes, kit trays, and similar types of approved containers provide complete
ESD protection to ESDS components and
equip-
ment while in transit. h.
heel
GROUNDING
strap
can
HEEL
provide
STRAP
A
grounding
additional ESD
protection.
The heel strap makes contact with the wearerâ&#x20AC;&#x2122;s skin at the ankle, and extends to the bottom of footwear
to make contact with
ductive
flooring.
used in combination
provide
a
conductive mat
or con-
The
grounding heel strap can be with a grounding wrist strap to
maximum ESD
protection.
CLOTHING ANTISTATIC/CONDUCTIVE of clothing generate electrostatic Many types i.
CAUTION
THIS EQUIPMENT CONTAINS DEVICES SENSITIVE TO DAMAGE BY ELECTROSTATIC DISCHARGE (ESD) USE ESD PRECAUTIONARY~PROCEDURES WHEN TOUCHING, REMOVING, OR INSERTING PARTS OR ASSEMBLIES,
C
Equipment Enclosure Cautionary Placards Figure 3 20-02-00
Page A14
7
Jun 20/91
Cil)eechcraft BONANZA SERIES MAINTENANCE MANUAL
charges.
To
remove some of this buildup, work stapersonnel should wear outer garments that help dissipate electrostatic charges. Cotton ranks among the best fabrics for antistatic protection. Do not wear synthetic or wool fabrics around ESDS
tion
devices,
as
these
fabrics
retain
electrostatic
of emergency. The wrist strap incorporates a megohm current-limiting resistor, in series with the ground cord, to protect the wearer from electricase
1
,,I shock hazards. b´•
STATIC-DISSIPATIVE WORK SURFACE
conductive mat is
charges.
work station, and is static
PORTABLE STATIC CONTROL WORKSTA TION
c.
portable static
control work station
provides
for
static-free
handling of ESDS components and equipment during maintenance operations at the airplane. The typical portable work station is available as a field service kit that is used to dissipate electrostatic charges before the charges can damage ESDS components and equipment. A
A
portable
to remove electro-
from conductive items when those
HARD GROUND CONNECTION work station to the airframe
portable mon ground
to a com-
portable work Figure station connections to ground are made through 1 megohm current-limiting resistors to protect maintenance personnel from electrical shock hazards. as
shown in
Ground the or
2. All
HUMIDITY AND DUST EFFECTS ON ESDS
static control work station
typical portable following items:
designed
part of the
items contact the mat.
(FIGURE 2) A
charges
integral
an
con-
COMPONENTS AND EQUIPMENT
sists of the
GROUNDING WRIST STRAP Each person who handles ESDS components and equipment must wear a grounding wrist strap to dissipate bodily electrostatic charges. The wrist strap must fit firm against the skin and should release quickly in a.
Humidity is a humidity,
the
factor in the control of ESD. The lower the greater the chance of
damage
to
ESDS components and equipment. Humidity at the work station should be maintained between 30 and 65 percent.
CAUTION ELECTROSTATIC DISCHARGE SENSITIVE ELECTRONIC DEVICES SPECIAL HANDLING REQUIRED AP014191
ESDS Drawing Note
Figure
4
20-02-00
Page 8 Jun 20/91
414
BONANZA SERIES MAINTENANCE MANUAL
r
u RS-471
MIL-STD-1285 ESD SYMBOL
ESD
SYMBOL
MIL-STD-129H ESD SYMBOL AP014193
ESDS Symbols
Figure
A14
5
20-02-00 Page 9 Jun 20/91
~eechcraft ´•BONANZA SERIES MAINTENANCE MANUAL
Repair
of ESDS circuit boards,
including replaceperformed in
ment of ESDS a
components, should be dust-free environment.
protective packaging requirements, unless othby specification, shall conform to the following: ESD
erwise defined
Class 1
PACKAGING OF ESDS COMPONENTS AND
in
Package
multi-layer
conductive
type bags consisting of an inner and outer layer of antistatic (surface resistivity of 109 to 1014 ohms per square inch) or static dissipative (surface resistivity of 105 to 109 ohms per
EQUIPMENT All ESDS
components and equipment require speprotective packaging. Seal all ESDS packages with an appropriate cautionary label as shown in Figures 3 through 8.
square inch) material with a middle layer of conductive material (surface resistivity of 10
cial ESD
ohms
or
less).
Class 2 CAUTION
Package in a static dissipative matepossessing a surface resistivity of 105 to 109 ohms per square inch. Materials specified rial
i
for Class 1 may also be used. Do not
clips or staples ESDS ing any package. Do not
use
use
when seal-
Class 3
carbon-filled, conductive
at
a
surface
in
an
antistatic material
resistivity
of 109 to 1014
approved static shielding in shipper’s normal exterior containers. Use antistatic cushioning or fill materials. Do not use static generating materials, such as polyethylene, styrofoam, or paper. Place all ESDS devices in
Remove ESDS components and equipment from protective, static-shielded
ONLY
a
ohms per square inch.
bags.
containers
Package
possessing
containers before
static control
work station after
attaching a grounding wrist strap and verifying that ESD producing items are not on the static dissipative work surface.
Antistatic
packing
packaging
is
generally pink
color. The material differs from
CAUTION
or
common
blue in
plastic
in
ATTENTION
SENSITIVE ELECTRONIC DEVICES. SPECIAL HANDLING REQUIRED. DO NOT OPEN EXCEPT AT AN APPROVED WORK STATION.
CONTENTS STATIC SENSITIVE HANDLING PRECAUTIONS
(PREFERRED)
REQUIRED
CONTENTS
(ACCEPTABLE) AP014192
ESD Unit Container Notice
Figure 20-02-00 Page 10 Jun 20/91
6
A14
Qeechcraft BONANZA SERIES MAINTENANCE MANUAL
W ATTENTION
CONTENTS STATIC SENSITIVE HANDLING PRECAUTIONS
REQUIRED APOI*194
Protective Container Notice
Figure 7 that
positions or a hand inside of a triangle an angling bar across the triangle) are yellow on a black background or black on a yellow background.
antistatic compound is
incorporated into the during the manufacturing process. This type of packaging DOES NOT provide static shielding, and is generally used to package instruction an
material
with
sheets, data sheets, and other non-ESDS materials
prior
to introduction into a static-free environment.
All non-ESDS
items, that
to enter an ESD work
are
station, require repackaging in antistatic materials.
Mark unit containers with the ESDS caution label the outside of the ers
Conductive static antistatic shield static
ing
packaging,
devices,
differs from
shielding packaging
it has the
in that
contained
charges. Conductive
within,
ability
from
to
external
shielding packagbags and rigid con-
static
is available in the form of
with
Apply
an
package.
directly
board, assembly
as
cover,
Figure 8. printed circuit
shown in
to each ESDS
equipment enclosure,
or
door that would expose ESDS devices, if removed. Mark appropriately using decal transfer,
access
stencil, silk screen,
tainers.
Mark exterior contain-
ESD caution label
marks
on
or
any other method
meeting
permanent legibility requirements. MARKING OF ESDS COMPONENTS AND EQUIPMENT All
ESDS components and appropriately with
marked
shown in
Figure
equipment an
ESDS
should be
symbol
as
that
5.
ESDS
symbols in a prominent package personnel to the presence of ESDS devices and equipment. The ESDS symbol should be at least 1/4" in diameter. ESDS symbols Display
location to alert all
are
attached to circuit boards should contrast
with the circuit board base color. Enclosures that contain ESDS circuit boards should be identified
NOTE ESDS
pointing
symbols
(circle
with
into the circle from
arrows
equidistant
bright orange paint
on
by
the outer face of the enclo-
sure.
20-02-00 Ai4
Page 11 Jun 20/91
~)eechcraft BONANZA SERIES MAINTENANCE MANUAL
ESD
STORAGE AND TRANSIT OF ESDS
against
COMPONENTS AND EQUIPMENT
controlled work stations. ESDS
NEVER
materials when
preparing
ESDS devices for
all assemblies and
shipment,
transfer
in
conductive
static-
static-free containers.
materials. ESDS components, that
damaged acceptable,
or
When
have been which properly protective packages, require proper
Shipping information and other instructions, accompanying ESDprotected packages, shall be contained in anti-static
use
packing
in
and storage dissipative, or
ordinary plastic containers transporting ESDS components or equipment,
or
at static
packages,
enclosed
1 CAUTION UUIIOK~1
through appropriate handling
ensure
equipment have been protected
are
received in
opened packing containers, and
should
be
returned
for
are
not
replace-
ment.
CAUTION SENSITIVE DO
NOT
SHIP
ELECTRONIC OR
STORE
DEVICES
NEAR
ELECTROSTATIC.ELECTROIAGNETIC. WAGNETIC, OR RIDIOACTIYE
STRONG FIELDS.
APO 14195
In-House
20-02-00 Page 12 Jun 20/91
Storage Container Figure 8
Label
A14
Ci~)eechcraft BONANZA SERIES MAINTENANCE MANUAL
ELECTRICAL BONDING
INDIRECT ELECTRICAL BONDING
DESCRIPTION AND
OPERATION
When direct electrical
The.following terms tem description:
defined
are
used in the sys-
as
ELECTRICAL BOND: A reliable electrical nection between conductive
vides electrical
con-
parts which pro-
conductivity.
ELECTRICAL BONDING: Conductive parts
are
nection. These flexible metal straps are attached to pâ&#x20AC;&#x2122;epared metal surface using screws, studs, nuts
and washers. The connection is always as short as possible and uses a single jumper. Two bonding
jumpers
joi"ts.
equipment electrical
can
and bonded component.
plane also
connected in a series is unacceptable, as double the resistance between the ground
used
to
electrically
is connected to maintain
maintenance is
around these flexible
or
There are two basic
damaged
ers,
types of electrical bonding; are
accomplished by using
Whether direct must reflect
tain
the
commonly
oration in
indirect, all electrical bonding
integrity. Many times,
ill-
an
may initially provide sufficient properties, but experience a rapid deteri-
conductivity
when corrosion from contam-
moisture appears on the bonding surface. All bonding surfaces should be free of primer or or
coatings
not
compatible
with electrical conductance.
This includes but is not limited to, all films such as anodize, grease, oil, paint,
protective lacquer, or properties. Once
other finishes with
high resistance bonding surface is cleaned, necessary protective coatings applied, the
the electrical nent
is installed
formed to
and
a
and the
comporesistance check is per-
verify continuity
of the electrical bond.
DIRECT ELECTRICAL BONDING Direct
electrical
bonds
are
frequently
used
for
metal-to-metal joints. Before assembly, the joints are treated with a conductive film that prevents corrosion of the
the
this
has
performed on bonding jump-
not be a
and
jumper "Waggling"
bent
tendency reduce
or
to
its
the bonding jumper to see if the end terminals are tight is unacceptable as this may also induce fatigue on the crimped portion of the bonding jumper.
used.
surface
grounding
are
between
maintenance standards to main-
high
electrical
prepared
inants
or
are
as
effectiveness.
Bolts, rivets, conductive laminates, flashing
bonding jumpers
the wire should
weaken
mechanical methods to attach the electrical conducand
tubes
CAUTION
Anytime
tors.
Bonding jumpers
connect
potential.
ELECTRICAL BONDING METHODS
direct and indirect. Both
imprac-
a
GROUND: A conducting connection, whether intentional or accidental, by which an electrical a common
are
used. Indirect
are
bonding is most commonly accomplished by using bonding jumpers to make the desired con-
this
current or
methods
electrical
electrically bonded when they are mechanically interconnected to maintain a common electrical potential. considered
bonding
tical, indirect bonding methods
bonding
Indirect electrical
bonding is also used to connect airplane wire harness shielding terminals to a ground. The tubular braiding attaches t~ the electrical connectors with clamps and shields the airplane wiâ&#x20AC;&#x2122;e harness for its entire length. the
ELECTRICAL BONDING OF TUBES All metallic tubes that carry petroleum products or other fluids, including gases, must have a mechanically secure connection to the ground plane for
static dissipation. Plumbing sections must be electrically bonded to each other to eliminate a potential electrical charge on the individual segments. Continuity between the plumbing segments is achieved with electrical bonding clamps or jumpers. Electrical bonding clamps, used in some applications, have a wire that contacts the plumbing on either side of the clamp, ensuring continuity across the joint.
ELECTRICAL POWER RETURNS
surface. Most direct electrical
bonds involve the installation of components minum.
on
alu-
Electrical power returns should be direct with the possible path from the operating equip-
shortest
20-03-00
Page A14
1
Jun 20/91
C~)eechcraft BONANZA SERIES MAINTENANCE MANUAL
CHART 1
RECOMMENDED MATERIALS
1.
TT-M-261
Cleaner
VENDOR
PRODUCT
SPECIFICATION
MATERIAL
Obtain
Methyl Ethyl
locally
Ketone 2.
Amchem Products Inc.,
Alodine 1200
Coating
Spring Garden St., Ambler, PA 19002 3.
Conformal
Conothane CE-1155
MIL-I-46058
Coating
Conap Inc., 1405 Buffalo St., Olean, NY 14706
4.
Coatings
Advanced
1-1Y-12/1-1H-7
M1L-P-2337
Primer
8 Chemicals,
4343 Temple
City Bivd., Temple City, CA 91780 5.
MIL-S-8802
Sealant
Type
1
Products Research and
PR1422
Chemical
Corp.,
5426 San Fernando Rd., Glendale, CA 91203 6.
1,1,1, Trichlorothane
0-T-634
Cleaner
BF Goodrich,
500 S. Main Street, Akron, OH 44318
BT03019
ground when practical. Current return leads larger should not be connected directly to the airplane structure, but should be connected to a electrical bonding stud attached to the structure. This method prevents damage should a faulty connection induce high current flow through the conment to
4 AWG
or
´•nection. A maximum of four wire terminals may be installed on an individual grounding stud. If two or more
wires
are
grounded
to an individual
stud, each
mechanically sound connection and meet applicable maximum resistance values. Component case electrical bonding and current return bonding are separate, with the connections made to separate ground studs. As a general rule and precaution, note the power return configuration
wire must form
a
before removal of
right configuration
a
component, and
is used
ensure
the
during installation.
meeting federal, military
20-03-00 Page 2 Jun 20/91
or
vendor
cations. GENERIC OR LOCALLY MANUFACTURED
PRODUCTS WHICH CONFORM TO THE REQUIREMENTS
OF
A
SPECIFICATION
MAY
BE
USED
EVEN THOUGH NOT INCLUDED IN THE CHART.
Only
the
basic
number
of each
specification is update the listresponsibility of
listed. No attempt has been made to
ing
to the. latest revision. It is the
the technician
or
mechanic to determine the current
applicable specification prior to usage of the product listed. This can be done by contacting the vendor of the product to be used. revision
RECOMMENDED MA TERIALS The recommended materials listed in Chart 1
provided for reference only and are not specifically required by Beech Aircraft Corporation. Any product conforming to the specification may be used subject~to availability. The products included in these charts have been tested and approved for aviation usage by Beech Aircraft Corporation, by the vendor or compliance to the applicable specifiare
of
the
as
specifications
A14
~iS)eechcraft BONANZA SERIES MAINTENANCE MANUAL
2000-610-32
Use of Stainless Steel Wire Brush On Aluminum (With Pilot)
Figure ELECTRICAL BONDING
1
provide
MAINTENANCE
a
means
ventila-
of
adequate
a
concentration
of
PRACTICES
tion
METAL SURFACE PREPARATION AND
harmful vapors. The procedures that follow describe preparation of the various
ELECTRICAL BONDING
cal
to
prevent
types of metal surfaces for electri-
bonding.
Surface
preparation for electrical bonding requires complete removal of anodic film, grease, oil, paint, lacquer, metal finishes and other resistive coatings from an area slightly larger than the bonding surface. A clean, smooth, properly contoured electrical bonding surface should be obtained, while removing the least amount of metal possible.
the
ALUMINUM SURFACES
protective finishes or slightly larger than the area to be bonded (minimum of .25 inch) by sanding with fine sandpaper. a.
Remove any nonsoluble
corrosion from
an area
NOTE Do not
use
sandpaper. or
emery cloth
or
NOTE
iron oxide
aluminum oxide
Use
silicon carbide
only sandpaper.
A stainless steel wire brush with
may be used to clean small ure
I -´•~´•´•I
a
areas
pilot (Fig-
1).
WARNING
When with
A14
working solvents,
in
an
b.
enclosed
cleaners
or
area
finishes,
bonding surface thoroughly with (1, Chart 1) to remove any oils or contami-
Clean the
MEK nants.
20-03-00 Page 3 ´•Jun 20/91
BONANZA SERIES MAINTENANCE MANUAL
BLIND GROUNDING
STUD
NUT LOCK WASHER
WASHER
TERMINAL (LIMIT TO 41
STRUCTURE 20M)-~IO-41
Typical Blind Ground Stud Figure 2 NOTE
e.
Do not touch the
with
bare hands.
may
bonding surface Body oils or acids
prevent adhesion of the alodine film cause
or
corrosion.
area
dry.
After the alodine has Touch up any
areas
where the alodine does
bonding surface. Care must be taken not to damage the alodine coating as it is still soft when bonding. not cover the
(2, Chart 1) vigorapplication, then apply to the bonding surface with a clean Scotch Brite pad,
The
sponge, brush
bled within
c.
changed color, rinse the gently wipe
with clean, deionized water and
Shake the alodine solution
ously just prior
NOTE
to
or
cloth.
bonding
ment.
The alodine solution should have
Repeat
the
has
been
dried,
alodine can
be
must
be
effectively
bonding. If more than an hour passed, soften the alodine by
used in
an
has
amber color. If the solution is coffee it
Once
assem-
hour of alodine treat-
softened before it
NOTE
colored,
surfaces must be
one
applying
contaminated.
wet alodine to the dried sur-
face.
cleaning procedure if conapplied to
taminated alodine has been
the
bonding
surface.
f.
Install
the
component
being
electrically
bonded. d.
Keep the treated area wet with alodine for approximately 3 to 5 minutes until a yellow color develops. Should the alodine not change color, it is an indication that the surface was not properly cleaned.
g.
Seal around the
edges
of the electrical bond
with conformal coat per MIL-I-46058
(3, Chart 1). If assembly originally protected by primer, prime the assembly with primer (4, Chart 1) and reapply the original finish as required.
the
was
20-03-00 Page 4
Jun 20/91
A14
aeechcraft BONANZA SERIES MAINTENANCE MANUAL
CHART 1 HARDWARE USED WITH GROUND STUDS
Structure
Screw, bolt
Plain
Washer
Washer
Washer
Lock-Nut
Nut
A
B
C&D
Tinned
Aluminum
Cad.
Cad.
Alloys
Plated
Plated
Copper
Terminal and
Alum.
Alloy
Lock Washer Lock Washer E
F
MS35338
MS35338
Jumper
Alum.
Cad.
Cad.
Alloy
Plated
Plated
Cad. Plated
Steel
Steel
Steel Cad.
Steel
Steel
Steel,
Cad.
Cad.
Cad.
Cad.
Cadmium
Plated
Plated
Plated
Plated
Plated
Plated
Steel
Steel
Steel
Steel
Steel
Steel,
CRES
CRES
Cad.
Cad.
CRES
CRES
Steel
Steel
Plated
Plated
Steel
Steel
Steel
None
None
None
None
(corrosionresistant)
BT03020
USE TITANIUM OR CRES STEEL SCREW OR BOLT ABOVE 330’ F.
USE CAD. PLATED STEEL SCREW OR BOLT BELOW 330’ F.
SEAL AFTER INSTALLATION
j-1/2DIAMETER WASHER STEEL LIGHT SERIES PLATED
CLEAN TO BASE METAL AREA 1-1/2 DIAMETER OF TERMINAL
CLEANED AREA
I
LOCK-WASHER
BONDING JUMPER
PLATED STEEL, CRES STEEL OR TITANIUM STRUCTURE
SELF-LOCKING NUT OR SELF-LOCKING PLATE NUT
2000-610-33
CRES Steel
or
Titanium Electrical Bonding
Figure
3
20-03-00 Page 5 A14
Jun 20/91
Ci~echcraft BONANZA SERIES MAINTENANCE MANUAL
NOTE The
bond
must
area
be
within 24 hours of electrical
refinished
bonding
to
preserve the integrity of the bond. If the bond involves a structural component, it must be fillet sealed at the
edges
with sealant
or seams
1) prevent moisture from and deteriorating the electrical to
surfaces.
(5, Chart entering bonding
Refer to
for information
Chapter 20-08-00 airplane finishes.
on
CORROSION-RESISTANT (CRES) STEEL SURFACES a.
b.
Remove all grease and oil from the electrical surface with cleaner (6, Chart 1).
Remove all paint
lacquer from the electrical (1, Chart 1).
or
Lightly
e.
Use cleaner solvent
electrical
bonding
surface with MEK
cadmium
plating
f.
Install
the
After
g.
good
a
resistance check
bond has been verified with the
procedures,
edges
the
with sealant
or seams
the electrical
surfaces.
bonding
TYPICAL BLIND GROUND STUD
(FIGURE 2) Installation of
a
accomplished
as
typical
blind
stud may be
ground
follows:
MS35338
Use
sur-
bonding
washers
on
all
bonding/grounding
Their
function
is
to
tight connection with plain or self-locking nuts under conditions where thermal expansion of the screw ensure a
surfaces time to
being
component
lock
electrical
bolted
thoroughly dry. Install
it must be fillet sealed
(5, Chart 1) to prevent moisture from entering and deteriorating at the
connections.
d.
electrically
NOTE
from the steel
Allow the electrical
being
component
bonded.
faces.
c.
1) to clean the wipe dry with a
clean rag.
not to remove any zinc or
care
Chart
(6,
surfaces and
NOTE Use
bonding surface.
ELECTRICAL BONDING EXAMPLES
bonding bonding
sand the electrical
d.
electrically
may
occur.
bonded. The sidewalls of the
a.
NOTE The
bond
area
must
within 24 hours of the
integrity
involves
a
be
refinished
bonding
to preserve of the bond. If the bond
structural
component,
it
mounting hole
must be
clean and free of all chemical films, grease and paint (cleaning of the upper and lower surfaces is not
required).
b.
Ensure the blind
is of sufficient
ground stud
size to distribute the current it will be
subjected
to.
must be fillet sealed at the seams
with sealer
edges or (5, Chart 1) to pre-
vent moisture from
entering and detethe electrical riorating bonding surfaces. Refer to Chapter 20-08-00 for information on airplane finishes,
ORES STEEL OR TITANIUM ELECTRICAL
BONDING
(FIGURE 3) a.
Prepare the electrical bonding surfaces
as
outlined under METAL SURFACE PREPARATION STAINLESS STEEL AND TITANIUM SURFACES
AND ELECTRICAL BONDING in this
b.
Remove all oil and grease from the electrical bonding surface with cleaner solvent (6, Chart 1). a.
b.
Remove all
lacquer from the electrical bonding surface with MEK (1, Chart 1). c.
paint
or
Allow the electrical
oughly dry, 20-03-00 Page 6 Jun 20/91
bonding surface
to thor-
Screw size: Use
distance will
permit.
a
No. 10
A No. 8
substituted for the No. 10 meet
edge
CRES steel c.
Use
a
distance screw
or
chapter.
screw
No. 6
screw
requirements.
where
screw
edge
may be
if necessary to A Titanium or
must be used.
1/4-inch diameter fastener
for
100-amp
current returns.
A14
~)eechcraft BONANZA SERIES
MAINTENANCE MANUAL
STEEL WASHER PLATED
CLEAN TO BASIC METAL AREA 1-1/2 DIAMETER OF WASHER
SEAL AFTER INSTALLATION 1-1/2 DIAMETER OF CLEANED AREA
CAD. PLATEDSTEEL SCREW OR BOLT
LOCK-WASHER ALUMINUM WASHER
BONDING JUMPER
ALUMINUM
STRUCTURE
WASHER
(ALCLAD)
NOT USED WITH PLATE NUT
SELF-LOCKING NUT (3R SELF-LOCKING PLATE NUT
2000-610-35
Aluminum Electrical Bonding Figure 4 d.
Use
diameter fastener for 200-
5/16-inch
a
amp current returns. e.
Use
f.
Use
screw
MS35206 cad
an
an
for
plated
or
steel
screw
for
below 3309 F..
applications
MS35206
applications
h. No sealing is required where the maximum temperature exceeds 6000 F..
ALUMINUM ELECTRICAL BONDING
CRES
steel
or
titanium
(FIGURE 4)
above 3300 F.. a.
NOTE MS35338
Use
bolted
lock
electrical
connections.
washers
on
all
bonding/grounding
Their
is to function ensure a tight connection with plain or self-locking nuts under conditions where thermal expansion of the screw
may
Prepare the electrical bonding surfaces
as
outlined under METAL SURFACE PREPARATION
occur,
AND ELECTRICAL BONDING in this b.
Screw size: Use
distance will
permit.
a
substituted for the No. meet c.
edge Use
distance
a
No. 10
A No. 8
1/4-inch
10
or
chapter.
screw
No. 6
screw
where
screw
edge
may be
if necessary to
requirements. diameter fastener for
100-amp
current returns.
MS21042L
self-locking nut, or a selflocking nutplate (MS21047L or MS21069L) to retain g.
Use
an
the screw.
d.
Use
a
5/16-inch
diameter fastener for 200-
amp current retLjrns.
20-03-00
Page A14
7
Jun 20/91
’i3eechcraft BONANZA SERIES MAINTENANCE MANUAL
CLEAN TO BASE METAL 1-1/2 CLAMP WIDTH AND INSIDE OF CLAMP
SEAL AFTER INSTALLATION 1-1/2 DIAMETER CLEANED AREA
STRUCTURE
J\
CLEAN AREA OF CLAMP TAB THAT TOUCHES TERMINAL TO BASIC METAL
WASHER
NUT AND
WASHER
SEAL AFTER INSTALLATION 1-1/2 DIAMETER CLEANED AREA 2000-610-36
Tubing Clamp to Bonding Jumper Electrical Bonding Figure 5 NOTE Use
MS35338
bolted
lock
washers
on
all
bonding/grounding
electrical
connections.
c.
function connection with Their
is
d.
to
may
an
MS35206 ORES steel
screw
above
Use clamps of the
same
tube material to avoid
dissimilar metal contact.
tight plain or self-locking nuts under conditions where thermal expansion of the screw
ensure a
Use
3300 F..
BONDING JUMPER ACROSS TUBING CLAMP ELECTRICAL BONDING
occur.
(FIGURE 6)
e. Use an MS21042L self-locking nut, or a selflocking nutplate (MS21047L or MS21069L) to retain
the screw,
Accomplish electrical bonding of tubing segments with bonding jumpers across clamps as follows: a.
Prepare the electrical bonding surfaces
as
TUBING CLAMP TO BONDING JUMPER
outlined under METAL SURFACE PREPARATION
ELECTRICAL BONDING
AND ELECTRICAL BONDING in this
(FIGURE 5)
b.
Accomplish electrical bonding bonding jumpers as follows:
of
tubing clamps
with
b. Use an MS35206 below 3300 F..
20-03-00 Page 8 Jun 20/91
cad
plated
steel
screw
an
cad
chapter.
plated steel
screw
below 3300 F.. c.
a. Prepare the electrical bonding surfaces as outlined under METAL SURFACE PREPARATION AND ELECTRICAL BONDING in this chapter,
Use
MS35206
Use
an
MS35206 CRES steel
screw
above
330" F.. d´•
Install
screw e.
an
AN960 cad
plated
washer under the
head and nut.
Use
an
MS21042L
self-locking
cad
plated
steel nuts.
A14
aeechcraft BONANZA SERIES MAINTENANCE MANUAL
TAB WELDED OR BRAZED TO TUBING
CLEAN TAB TO BASIC METAL AND SEAL AFTER
INSTALLATION.
O
I
I __
I
I
O
CLEAN TAB TO BASIC METAL AND SEAL AFTER INSTALLATION. 2000-610-37
Bonding Jumper Across Tubing Clamp Electrical~Bonding Figure 6
A14
20-03-00 Page 9 Jun 20/91
~eechcraft BONANZA SERIES MAINTENANCE MANUAL
LOCK WASHER F
LOCK NUT TERMINAL (LIMIT TO 4)
WASHER D
I I
WASHER C
I"
PLAIN NUT WASHER B
STRUCTURE
WASHER
A
t
LOCK WASHER E
SCREW OR BOLT
2000-610-39
Typical Ground Stud Electrical Bonding Figure 7
CLEAN TO BASE METAL BONDING/GROUNDING AREA AND CHEMICALLY TREAT
THIS AREA OF STRUCTURE AND BACK OF TAB MUST BE CLEANED AND CHEMICALLY TREATED BEFORE RIVETING TAB TO STRUCTURE. SEAL AREA AFTER ASSEMBLY.
4
NAS
1919M04S RIVET
(MAINTAIN 6D RIVET SPACING; RIVETS TO PENETRATE SHEET ONLY.)
FACE 2000-610-42
Electrical Bonding of Ground Tabs Figure 8 20-03-00
Page 10 Jun 20/91
A14
Qeechcraft BONANZA SERIES MAINTENANCE MANUAL
where thermal
TYPICAL GROUND STUD ELECTRICAL BONDING
(FIOURE 7)
may
Accomplish
electrical
bonding
of
ground
studs for
Screw size: Use a No. 10 screw where edge a. distance will permit. A No. 8 or No. 6 screw may be substituted for the No. 10 screw if necessary to b.
distance
edge Use
a
requirements,
~/´•cl-inch diameter fastener
for
100-amp
current returns. c.
Use
ELECTRICAL BONDING OF GROUND TABS
a. Prepare the electrical bonding surfaces as ’outlined under METAL SURFACE PREPARATION AND ELECTRICAL BONDING in this chapter.
b.
c.
MS35338
lock
electrical
connections.
Their
on
NAS1919M04S
function under
rivet to
attach
the
a
minimum of three rivets to attach the
tab.
all
NOTE
bondinglgrounding
connection with
tight self-locking nuts ensure a
washers
an
tab.
Use
ground
NOTE Use
Use
ground
amp current returns.
bolted
screw
(FIGURE 8)
diameter fastener for 200-
5/16-inch
a
of the
d. Refer to Chart 2 for a listing of compatible hardware used with grounding studs.
current returns as follows:
meet
expansion
occur.
is
to
plain
or
If it is necessary to remove the tab for any reason, the surface must be recl-
conditions
eaned to
remove
all films.
ITEM TO BE BONDED THROUGH MOUNTING FEET
LOCK WASHER CLEAN MOUNTING STRUCTURE 1/4 TO BASE METAL TIMES THE AREA OF THE CLEAN MOUNTING FEET. THE PORTION OF THE FEET IN CONTACT WITH THE MOUNTING STRUCTURE. REFINISH AFTER INSTALLATION 1/4 TIMES THE AREA CLEANED.
NOTE ITEMS THAT HAVE THE BOLTS SPACED MORE THAN 6 INCHES APART. IT IS ONLY NECESSARY TO CLEAN THE AREA 2 INCHES ON EACH SIDE OF THE ATTACH BOLTS OR SCREWS. ON
2000-610-43
Electrical Bonding of Equipment Installed With Mounting Feet Figure 9
20-03-00
A14
Page 11 Jun 20/91
~)eechcraft BONANZA SERIES MAINTENANCE MANUAL
REFINISHED AREA MOUNTING
LOCK
BA~E
WAS~HER
BONDING STRAP
LOCK WASHER
SHOCK MOUNT
MOUNTING STRUCTURE
CLEANED AREA
CLEAN THE MOUNTING STRUCTURE TO THE 1/2 BASE METAL TIMES THE WIDTH OF THE BONDING STRAP AND THE ATTACHING BONDING STRAP SCREWS. REFINISH AFTER 1/2 INSTALLATION TIMES THE AREA CLEANED.
NOTE INSTALL BONDING STRAP UNDER SHOCK MOUNT PAD IN SUCH A MANNER THAT THE STRAP DOES NOT ALTER SHOCK MOUNT FUNCTION.
Electrical
Bonding of Equipment Installed Figure 10
2000-610-411
With Shock Mounts
20-03-00 Page 12
Jun 20/91
A14
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CONTROL CABLES AND PULLEYS
DESCRIPTION AND OPERATION
airplane uses carbon steel control cables of multiple wire construction with the number of strands varying according to the diameter of the cable. The carbon steel wire is helically twisted into strands and the strands wound about other strands forming the flexible carbon steel cable. This
RECOMMENDED MA TERIALS as meeting federal, military or vendor specifications are provided for only and are not specifically required by Raytheon Aircraft Company. Any product conforming to the specification may be used subject to availability. The products included in this chart have been tested and approved for aviation usage by Raytheon Aircraft Company, by the vendor or by compliance to the applicable specifications.
The recommended materials listed in Chart 1 reference
GENERIC OR LOCALLY MANUFACTURED PRODUCTS WHICH CONFORM TO THE REQUIREMENTS OF A
SPECIFICATION MAY BE USED EVEN THOUGH NOT INCLUDED IN THE CHART.
Only the basic number of specification is listed. No attempt has been made to update the listing to the latest revision. it is the responsibility of the technician or mechanic to determine the current revision of the applicable specification prior to usage of the product listed. This can be done by contacting the vendor of the product to be used.
each
Chart 1 RECOMMENDED MATERIALS MATERIAL 1. Lubricant
PRODUCT
SPECIFICATION
MIL-G-23827
Supermil Grease
VENDOR American Oil Co. 165 N. Canal
A722823
Chicago, Royco
27A
Royal
IL 60606
Lubricants Co.
I I
River Road
Hanover, NJ 07936 Aeroshell Grease 7
Shell Oil Co.
I I
1 Shell Plaza
P.O. Box 2463
Houston, TX 77001 BP Aero Grease 31B
BP
Trading
Limited
I
Moore Lane, Britannic House, London E.C. 2 2. Corrosion Preventive
MIL-C-16173
Petrotect Grade 2
England
Pennsylvania Refining Co.
I I
1686 Lisbon Road
Compound
Cleveland, OH 44104
Braycote
130
Bray Oil Co., Los Angeles, CA
20-04-00
Mar
31/04Page
1
NayNmea
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CONTROL CABLES AND PULLEYS
MAINTENANCE PRACTICES
CONTROL CABLE SYSTEM INSPECTION WARNING: When inspecting control cables, always
When
a
wear
control cable is removed from the
gloves to avoid injury from frayed
airplane,
the cable should be
or
dipped
broken wires.
in
MIL-C-16173 corrosion preventive (2, Chart 1). Excess corrosion preventive may be removed
wiping
with
a
Inspect the control cable system a.
I
by
clean cloth. as
follows:
Inspect the control cables for incorrect routing, fraying and twisting. Look for interference with adjacent airplane structure, equipment, wiring, plumbing and other control cables.
NOTE: It is important to operate controls through their full range portions of the cables are exposed for inspection.
so
that cables
b.
Monitor control cable movement for freedom, looseness and full travel.
c.
Visually inspect
d.
Turnbuckles should have the proper thread exposure and be
e.
Locate any control cable broken 1.
Inspect the
all
swaged fittings
control cables
for distortion, cracks
or
near
corroded wires
fairlead
found, closely examine the cable 2.
Any suspect cable should (Ref. Figure 1).
when there
are no more
are
acceptable
in
3.
Inspect the
in
a
31/04
a
along the length of the cable. If damage (Ref. Figure 1).
cloth
loop position
on
a
snag is
and checked for additional broken wires
at random locations
any three foot segment of cable.
or
filled with MIL-G-23827 grease
(1, Chart 1)
for
protection.
control cables with broken wires for evidence of corrosion. If necessary, remove the control a loop and check the center strand for corrosion. Replace any control cable that shows
evidence of corrosion.
raM2
fitting.
primary and secondaty control cables
than three broken wires
cable, form it into
Page
pulleys and all
correctly safety wired.
pulleys by passing
placed
away from
follows:
The interior of all tumbuckles should be coated corrosion
broken wires at the
to determine the extent of the
be removed and
NOTE: Individual broken wires
as
or
move
20-04-00
Raytheon
Aircraft
Company
BONANZA SERIES MAINTEN#NCE MANUAL
BROKEN WIRES ARE VISIBLE WHEN CABLE IS REMOVED AND BENT
BROKEN WIRES ARE NORMALLY DETECTABLE BY WIPING A CLOTH ALONG THE CABLE
DO NOT BEND THE CABLE INTO A LOOP SMALLER THAN 50 TIMES THE CABLE DIAMETER 2000-610-6
Typical Control Cable With Figure 1
1
Broken Wires
CONTROL CABLE STORAGE Control cables should be stored
straight
or
in
a
coil. When stored in coil form, the coil inside diameter should not be
less than 150 times the control cable diameter, or bent in a radius of not less than 75 times the control cable diameter. Coils should not be flattened, twisted or folded during storage. Storage requirements should apply until the control cable is installed in its normal
assembly,
A25
control cable
position in the airplane. If only requirements apply to the uninstalled portion of
a
part of the control cable is installed in
an
the control cable.
20-04-00
Mar
31/04Page
3
I
Raltheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CONTROL CABLE PULLEY INSPECTION Inspect all control cable pulleys NOTE: Control cable a.
I
I
Inspect
pulleys
all control cable
grooves
as
are
follows:
installed
along
the control cables where
pulleys for roughness, sharp edges and
a
change
presence of
of direction is needed.
foreign
material embedded in the
(Ref. Figure 2).
b.
Inspect all control cable pulley bearings for smooth rotation, freedom
c.
Inspect
all control cable
d.
Inspect
the control cable
e.
Control cable
pulleys
pulleys pulley
for proper
a
foreign
material.
alignment.
brackets and
which turn for
from flat spots and
guards
for
damage, misalignment
short distance must be rotated
and looseness.
periodically
to
provide
a new
bearing
surface for the control cable.
WEAR MARK
PULLEY MISALIGNMENT
EXCESSIVE CABLE TENSION
c-=-.------n-~-
WEAR MARK
PULLEY
TDO LARGE FOR CABLE
CABLE MISALIGNMENT
.L=--i_ FROZEN BEARING
NORMAL
Control Cable
Pulley Wear Figure 2
Page
ra31/04 M4
20-04-00
CONDITION
Patterns
A25
Cil)eechcraft BONANZA SERIES MAINTENANCE MANUAL
BEARINGS
b.
DESCRIPTION AND OPERATION
Place
two
This
contains
chapter
bearing
installation
and
1. The
supports should be
removal information,
than the
RECOMMENDED MATERIALS
on
ihe recommended materials listed in Chart 1 as meeting federal, military or vendor specifications are provided for reference only and are not specifically required by Beech Aircraft Corporation. Any product conforming to the specification may be used subject to availability. The products included in these charts have been tested and approved for aviation usage by Beech Aircraft Corporation, by the vendor or compliance to the applicable specifi-
the
the as
hydraulic
press
shown in
Figure
1/2-inch
thicker
at least
removal and installation tool
bearing
a
on
width.
bearing
Center
c.
supports
bearing housing
table under the
bearing and installaapproximately 1/8-inch smaller diameter of the bearing outer race.
outer race. The
bearing
tion tool should be
than the outside
I~ U´•nMll CAUTION
The
press plunger and bearing removal and installation tool should remain in direct alignment with the
hydraulic
bearing being
cations. GENERIC OR LOCALLY MANUFACTURED
removed at all times.
PRODUCTS WHICH CONFORM TO THE REQUIREMENTS
OF
A
SPECIFICATION
MAY
BE
USED
d´•
Align
the
and the
bearing removal and hydraulic press plunger and force the bearing from the bear-
bearing
EVEN THOUGH NOT INCLUDED IN THE CHART.
installation tool with the
Only
apply pressure ing housing.
the
basic
number
of each
is
specification
listed. No attempt has been made to update the listing to the latest revision. It is the responsibility of the technician
revision
of
or
mechanic to determine the current
applicable specification prior to usage of the product listed. This can be done by contacting the vendor of the product to be used. the
to
MECHANICAL PRESS BEARING REMOVAL
(F/GURE I) a.
Remove the
bearing housing
from the
air-
plane. BEARINGS
MAINTENANCE PRACTICES
b.
HYDRAULIC PRESS BEARING REMOVAL
Remove
the
bearing housing from
the
bearing housing,
the
the
bearing outer bearing width.
(FIGURE 1) a.
On
removal socket with
air-
c.
Center
a
race
center
a
bearing
larger than and 1/2-inch deeper than the
an
inner diameter
bearing removal socket smaller bearing outer race.
in
diameter than the the
plane,
CHART 1
RECOMMENDED MATERIALS MATERIAL
1.’ Cleaner
PRODUCT
SPECIFICATION
TT-M-261
Methyl Ethyl
VENDOR
Obtain
locally
Loctite
Corp.,
Ketone 2.
Primer
Locquic
Primer "T"
705 N. Mountain Rd., Newington, CT 06111
3.
Retaining Compound
609
Loctite
Corp.,
705 N. Mountain Rd., Newington, CT 06111
BT01240
20-05-00
Page A14
1’
Jun 20/91
~-)eechcraft BONANZA SERIES MAINTENANCE MANUAL
LOAD MUST BE APPLIED TO OUTER BEARING RACE ONLY.
REMOVAL AND INSTALLATION TOOL
NUT
WASHER
l~r
HOUSING
SOCKET
BEARING
SUPPORT HOUSING SOCKET BEARING
WASHER BOLT
APPLY THE INSTALLING OR REMOVAL LOAD TO THE OUTER RACE OF THE BEARING. HYDRAULIC
PRESS
REMOVAL OR
METHOD
INSTALLATION TOOL
MECHANICAL PRESS METHOD 2000-610-49
Bearing Removal Figure 1 d.
Install
washer and bolt
a
through
one
of the
t U´•,,,,(
sockets, through the center of the bea~ng, then
through e.
f.
the
Install
opposite socket
washer and nut
a
Tighten
as
the nut
on
shown in
on
Figure
1.
When cleaning bearing surfaces, never allow solvent to enter the bearing. Never touch the bearing or bearing
the bolt threads.
the bolt until the pressure bearing from the bearing
housing
is sufficient to release the
a
housing.
surfaces with bare-hands. Use
clean cloth to
cover
the
bearing
to
prevent contamination after they have been cleaned.
BEARING HOUSING INSPECTION surfaces where a retaining comapplied with primer (2, Chart 1). This includes the bearing outer surface, bearing housing mating surface and the bearing housing retention flange if applicable. b.
Inspect
the
bearing
cracks, warpage
or
housing-to-bearing
housing for any grooves, hole elongation. The bearing
contact surface must be smooth
and uniform.
Coat the
pound is
to be
BEAR/NC /NSTALLATION USING RETA/NING
CAUTION
COMPOUND a.
Clean the outer surface of the
with MEK
(1, Chart l)and wipe dry.
bearing
race
Ensure that oil
bearing
no
primer
grooves
is
applied or
to the
lubrication
ports.
20-05-00
Page 2 Jun 20/91
A14
~eechcraft BONANZA SERIES MAINTENANCE MANUAL
OUTER BEARING RACE HOUSING .010 TO .025 R
~I
.030
~.OIO-INCH
.010 TO .032 INCH
SUPPORT INNER BEARING RACE
STAKE
NOTE DO
NOT
SUPPORT
AGAINST
INNER BEARING RACE DURING STAKING. 2000-610-50
Bearing Staking Figure 2
20-05-00
Page
4
Jun 20/91
A14
Ray~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
TUBE AND HOSE ASSEMBLIES AND FITTINGS
DESCRIPTION AND OPERATION
chapter contains information to remove, maintain and install hose and tube assemblies and fittings. Although all hoses and tubes may not be specifically identified herein, the basic maintenance practices normally apply. Any handling and installation of individual system hoses, tubes and fittings is identified in the appropriate system chapter.
This
The
majority
Hoses
are
of tube assemblies used in the
used in
areas
airplane
of the airplane where
a
are
aluminum
flexible line is
or
steel machine formed
more
tubing
assemblies.
suitable for installations and freedom of
movement is necessary.
20-06-00
1
RBYtheon
Aircraft
BONANZA SERIES
TUBING, HOSE AND FITTINGS
Company
MAINTENANC~ ~ANUAL
MAINTENANCE PRACTICES
Observe all WARNINGS, CAUTIONS and NOTES throughout this maintenance manual when maintenance, repair or servicing on any fluid or pneumatic operated system. CAUTION:
Verify before
that systems which operate from fluids or opening or disconnecting a tubing or hose.
The
following list of tubing and hoses. Cap
a.
or
maintenance
all disconnected
plug
practices
tubing
is
provided
pneumatics under
as an
aid for
and hose assemblies and
pressure
are
fully depressurized
handling, removing, installing
fittings immediately
to
performing
and
repairing
prevent contamination of
the system.
Visually check for cleanliness, evidence of contamination and
b.
obstructions
prior to
reconnection of tube
or
hose
assemblies.
Any
c.
hose and tube assemblies that did not have
obstruction
d.
When
protective
covers
installed must be cleaned and checked for
installation.
prior to
tube assemblies, do not force the tube assembly to the installed position. If fittings should result, see Figure 1 for the allowable mismatch.
connecting
a
mismatch
between the male and female e.
Never stretch
f.
The hose material must be not
a
compatible
hose to make
a
connection.
compatible
with the
applicable system fluids. Substitution
of
a
hose material that is
with the system fluid will contaminate the system.
REMOVAL OF TUBE AND HOSE ASSEIWBLIES Tube and hose assemblies may be removed a.
b.
Relieveallsystem
as
follows:
pressure.
Disconnect both ends of the hose
or
tube
assembly
and
immediately
cap
or
plug
the tube
or
hose ends and
fittings. c.
Remove all clamps
d.
Remove the tube
securing
or
hose
the hose
assembly
or
and
tube
assembly.
tag identity both ends
to aid in reinstallation.
HOSE ASSEMBL Y INSTALLA TION Hose assemblies may be installed
NOTE: If
a new
hose
assembly
obstructions and material a.
Observe the maintenance FITTINGS
I
as
follows:
is to be installed, the hose assembly must be clean, the correct compatible with the system fluid.
practices
outlined under the
Sep
clear of
TUBE AND HOSE ASSEMBLIES AND
MAINTENANCE PRACTICES.
Connect the B nuts of the hose assembly to the proper
Torque
heading
length,
the B nuts to the
fittings using
20-06-00
the
fittings.
torque specified in Chart
1.
A26
Raythcon
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
d.
After
e.
Inspect
the hose for proper
f.
Inspect
the hose for freedom to
g.
Inspect the hose for clearance to all structure. If inadequate clearance exists protection must be provided for the hose to prevent damage from chafing.
torquing the B nuts, inspect the twisting is present.
hose to
ensure
that the hose is not under tension and that
no
indication of
length. expand
and contract. between the hose and structure,
TUBE INSTALLA TION NOTE: If
tube
a new
assembly
is to be installed, the tube
assembly
must be
clean, the
correct
length,
clear of
obstructions and manufactured of the correct material. a.
Observe the maintenance
FITTINGS
practices
outlined under the
heading
TUBE AND HOSE ASSEMBLIES AND
MAINTENANCE PRACTICES.
b.
Inspect the tube for damage, particularly at tube ends, fittings, replaced or repaired.
c.
Make certain that the
d.
Check
alignment
fittings
are
assembly
as
Place the tube
2.
The
3.
The free
4.
The free end of the tube must match the
tubing
and
the tube must be within two
end must be
tighten
one
fitting
coupling
assembly.
nut at one end of the tube
degrees of parallel with
within 1/32 inch of the
aligned
should be
follows before installation:
assembly in the proper position
1.
opposite end of
Damaged Zube assemblies
installed before connection of the tube
properly
and fit of the tube
and bends.
cone
fitting
lengthwise
the
assembly.
fitting (Ref. Figure 1).
per every 10 inches of tube
length.
within 1/32 inch per every 10 inches of tube
length. e.
If necessary,
f.
install the tube assembly
apply
the proper anti seize on
the
fittings
compound
and
tighten
to
fittings.
the B nuts to the torque values
specified (Ref. Chart 1).
FLUID LINE FITTING INSTALLATION Fluid line a.
fittings
may be installed
as
follows:
Lubricate the male threads of the
fitting, backup ring
and
packing sparingly
with the
system fluid
or
petrolatum
(AN-P-51, Vaseline).
(AN6289)
b.
Install the nut
c.
Install the teflon
d.
Install the
NOTE: The
on
backup ring
packing (O-ring)
packing
must be
Turn the nut down until the
f.
Install the
A26
fitting
until the nut is clear of the thread relief.
in the counterbore of the nut.
on
the thread relief.
compatible with
e.
fitting
the
packing
is
the
system fluid.
pushed firmly against
into the boss with the nut
turning
with the
the lower threaded section of the
fitting
until the
packing
fitting.
contacts the boss.
20-06-00
I
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
NOTE: This point g.
h.
Holding the the fitting in
can
be detected
nut with
a
by
sudden increase in
a
torque.
wrench to prevent it from turning, rotate the fitting in an additional 1 112 turns. Position by turning in no more than one additional turn.
the proper direction
Holding the fitting, is acceptable.
turn the nut down
tightly against the
boss.
Slight
extrusion of the
ring
around the
backup ring
NONPOSITIONING TYPE FITTING INSTALLATION Nonpositioning type fittings may
packing
be installed
follows.
as
with the system fluid
a.
Lubricate the
b.
Install the
c.
Thread the fitting into the boss until it bottoms
d.
Tighten
packing
in the
the fitting to the
fitting
or
petrolatum (AN-P-51, Vaseline).
thread relief.
specified torque
tightly
on
the boss.
value.
PIPE THREAD NTTING INSTALLA TION be installed
as
follows:
Apply teflon tape to the threads
as
follows:
Pipe thread fittings may a.
I~
close to
end of threads.
1.
Start tape at
2.
Wrap the tape around the fitting in the direction of the threads. Wrap clockwise for right hand threaded fittings. Wrap counterclockwise for left hand threaded fittings.
3.
Apply tension
4.
The tape should overlap the previous wrap of tape up to one-half inch to seal pipe thread
or
to the
narrow
tape
to conform the
tape
to the
shape of
the threads.
inches in diameter. Thread the
Sep
fitting into the boss and tighten until it bottoms tightly
20-06-00
on
the boss.
fittings
up to two
RayHheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
MAXIMUM ALLOWABLE INCH PER 10 INCHES OF TUBE LENGTH
t t
MAXIMUMALLOWABLE
MEASURE MISMATCH WITH FREE END CLEAR OF FITTING
II
1/32 INCH PER 10 INCHES OF TUBE LENGTH
i
2 DEG MAX
ANGULAR
MISMATCH
RADIAL
4
MISMATCH
Tubing
MAXIMUM ALLOWABLE 1/32 INCH PER 10 INCHES OF TUBE LENGTH
i
LENGTH
MISMATCH
Installation Mismatch
Figure
1
Chart 1 Flared Hose
Tubing
Aluminum
Steel
Aluminum
Steel
Size
O.D.
Tubing
Tubing
Tubing
Tubing
(inches)
Flare
Flare
Flareless
Flareless
Min
A26
Fitting Torque Chart (In.-lbs)
-3
3/16
-4
1/4
40
-5
5/16
-6
Max
Min
Max
Min
Max
Min
Max
Oxygen Fitting (Aluminum) Line
Min
Max
Hose End
Fitting Min
Max
90
100
75
90
90
100
70
100
65
135
150
80
100
135
150
70
120
60
80
180
200
100
130
180
200
85
180
3/8
75
125
270
300
100
130
270
300
100
250
-8
1/2
150
250
450
500
200
240
450
500
210
420
-10
5/8
200
350
700
800
360
400
700
800
300
480
-12
3/4
300
500
1100
1150
390
430
1100
1150
500
850
-16
1
500
700
1200
1400
600
900
1200
1400
700
1150
-20
11/4
600
900
1300
1450
600
900
1300
1450
-24
11/2
600
900
1350
1500
600
900
1350
1500
100
125
20-06-00
5
RBytheMI
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
TUBE OUTSIDE DIAMETER (D)
BENDâ&#x20AC;&#x2DC;RADII IS MEASURED TO TUBE CENTERLINE
TUBE CENTER LINE
2000-610-64
Tube
Bending Figure 2
TUBE DAMAGE LIMITS NOTE: Nicks and scratches not area,
grit
using
fine
from line
exceeding
following
grade assembly.
a.
Replace steel tubes which have
b.
Replace
c.
Replace any
Sep
the
limitations may be repaired by polishing out the damaged polishing with crocus cloth and oil. Flush and clean all
of emery cloth and oil. Finish
nicks
or
scratches
any aluminum tube which has nicks tubes which have dents
20-06-00
deeper
or
deeper
scratches
than 10% of
deeper than
tubing
wall thickness.
20% of the tube wall thickness.
than 5% of the tube outside diameter.
A26
Raytheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 2
Tubing Bending TUBE OUTSIDE DIAMETER
Limits
RECOMMENDED BEND
ADDITIONAL BEND
RADII
RADII
(0) 30
4D
6D
INCH
MILLIMETER
INCH
MILLIMETER
INCH
MILLIMETER
118
3.175
0.375
9.525
0.500
12.700
1´•0.750
19.050
3/16
4.762
0.563
14.286
0.750
19.048
1.125
28.572
1/4
6.350
0.750
19.050
1.000
25.400
1.500
38.100
5/16
7.937
0.938
23.811
1.250
31.748
1.875
47.622
3/8
9.525
1.125
28.575
1.500
38.100
2.250
57.150
7/16
11.112
1.312
33.336
1.750
44.448
2.625
66.672
1/2
12.700
1.500
38.100
2.000
50.800
3.000
76.200
518
15.875
1.875
47.625
2.500
63.500
3.750
95.250
3/4
19.050
2.250
57.150
3.000
76.200
4.500
114.300
718
22.225
2.625
66.675
3.500
88.900
5.250
133.350
1
25.400
3.000
76.200
4.000
101.600
6.000
152.400
11/8
28.575
3.375
85.725
4.500
114.300
6.750
171.450
11/4
31.750
3.750
95.250
5.000
127.000
7.500
190.500
13/8
34.925
4.125
104.775
5.500
139.700
8.250
209.550
11/2
38.100
4.500
114.300
6.000
152.400
9.000
228.600
15/8
41.275
4.875
123.825
6.500
165.100
9.750
147.650
13/4
44.450
5.250
133.350
7.000
177.800
10.500
266.700
17/8
47.625
5.625
142.875
7.500
189.500
11.250
285.750
2
50.800
6.000
152.400
8.000
203.200
12.000
304.800
21/4
57.150
6.750
171.450
9.000
228.600
13.500
342.900
21/2
63.500
7.500
190.500
10.000
254.000
15.000
381.000
3
76.200
9.000
228.600
12.000
304.800
18.000
457.200
A26
INCH
MILLIMETER
20-06-00Page
7
aeechcraft BONANZA SERIES MAINTENANCE MANUAL
LOCKING DEVICES
DESCRIPTION AND
cent
plug.
OPERATION
boss
Never lockwire
casing.
or
Cotter
pins should be installed
bushing so
to
that the
head fits into the slot of the castellated nut and,
Except for specific instructions required to satisfy a certain application, the following procedures are standard methods used to install various locking devices used in
conjunction
with bolts,
screws
unless
otherwise
should be bent end flat
and
against
specified, the stud
over
end
one or
of
the
pin
bolt and the other
the flat of the nut.
nuts.
LOCKING DEVICES
SELF-LOCKING NUTS Where cedure
self-locking applies:
For
a.
nuts
MAINTENANCE
PRACTICES
are
used, the following pro-
LOCKW/RE INSTALLA T/ON PROCEDURES 1 AND
(FIGURES
self-locking nuts, note the torque
2)
neces-
sary to turn the self-locking nut before the selflocking nut is seated.
NOTE
Figure 1 illustrates a typical lockwire procedure. Although there are numerous lockwire operations performed on the airplane, practically all are derived from the basic examples shown in Fig-
Add the above torque to the value detailed in the assembly instruction for the application. Use b.
this
new
value
the total
as
applied torque,
SLOTTED, STEEL LOCKNUTS (PREVAILING TORQUE Effective
requires
ure
2.
TYPE)
of slotted, steel locknuts on bolts the full engagement of all locknut threads,
locking
Observe the
following guidelines
when
installing
lockwire:
The chamfered section of the locknut ID does not
the locknut.
New lockwire must be used.
a.
exert force on the bolt. It is not necessary that the bolt be flush with or protrude from the outer face of
b.
Use the
same
type and diameter of lockwire
LOCKWIRE AND COTTER PIN
employed during the initial assembly. Except where otherwise specified, the wire used on the airplane power plant is heat and corrosion resistant
REQUIREMENTS
steel wire of 0.025-inch diameter.
as
that
c.
tightening a castellated nut for cotter pin installation, alignment of the slot must be obtained without exceeding the maximum torque. If this is not possible, replace the nut.After tightening the When
nut to the recommended
be loosened to slot in the nut
is not
permit or
torque, the
insertion of
a
nut must not
cotter
lockwire hole in the bolt
correctly aligned
at the minimum
pin.
If the
torque value
the nut, screw or bolt should be further tightened to the next alignment position, but the maxi-
torque value given
must
Should
not be exceeded.
alignment still be impossible exceeding the maximum torque, back off one-half turn and retorque.
pins must never be reused. All lockwire and cotter pins must fit snugly into drilled holes in the bolts and studs for locking purposes. Bushings and plugs must be lockwired to the adjaLockwire and cotter
thus
a
manner
that
tighten and keep a part locked in place, counteracting the natural tendency of the part
to loosen. e.
Lockwire must
never
be overstressed. It will
break under vibrations if twisted too lockwire shall be
pulled
taut when
tightly.
The
being twisted, but
shall have minimum tension, if any, when secured. f.
without the nut
Lockwire must be installed in
to pre-
tends to
or screw
given, mum
d´•
tight after installation rubbing or vibration.
Lockwire must be
vent failure due to
Lockwire
engine,
ends
must
be
bent
toward
the
or structure, to avoid
ends which
might present
a
sharp or projecting safety hazard or vibrate
in the air stream.
9´•
Internal
wiring
must not cross over or obstruct
flow passage when used.
a
an
alternate method
can
be
20-07-00
Page A14
1
Jun 20/91
Oeechcraft BONANZA SERIES MAINTENANCE MANUAL
INSERT
THE UPPERMOST WHICH POINTS TOWARD THE SECOND BOLT. THROUGH THE HOLE WHICH LIES BETWEEN THE NINE AND TWELVE O’CLOCK POSITIONS. GRASP THE END OF THE WIRE WITH A PAIR OF PLIERS AND PULL THE WIRE TIGHT.
WIRE,
POSITION THE
HOLES.
INSERT PROPER WIRE.
BRING THE FREE END OF THE WIRE AROUND THE BOLT HEAD IN A COUNTER-CLOCKWISE DIRECTION AND UNDER THE END PROTRUDING FROM THE BOLT HOLE. TWIST THE WIRE IN A COUNTER-CLOCKWISE DIRECTION.
WRAP UPPER END OF WIRE AND BEND IT AROUND THE HEAD OF THE BOLT. THEN UNDER THE OTHER END BE OF THE WIRE. SURE WIRE IS TIGHT AROUND ´•HEAD.
GRASP THE WIRE BEYOND THE TWISTEDPORTION AND TWIST THE WIRE ENDS COUNTER-CLOCKWISE UNTIL TIGHT.
GAGE
O
DURING THE FINAL TWISTING MOTION OF THE PLIERS. BEND THE WIRE DOWN AND UNDER THE HEAD OF THE BOLT.
TWIST WIRE UNTIL WIRE IS JUST SHORT OF HOLE IN THE SECOND BOLT.
KEEPING WIRE UNDER TENSION. TWIST IN A CLOCKWISE DIRECTION UNTIL THE WIRE IS TIGHT. WHEN TIGHTENED THE WIRE SHALL HAVE APPROXIMATELY 7 TO 10 TWISTS PER INCH.
CUT
OFF EXCESS H TIWERIWCUTTERS DIAGONAL
g 2000-604-18
RH Thread
Lockwiring Procedure Figure 1
20-07-00
Page 2 Jun 20/91
A14
~eechcraft BONANZA SERIES MAINTENANCE MANUAL
EXAMPLE
I
EXAMPLE 3
EXAMPLE 2
EXAMPLE 4
BOLTS, FILLISTER HEAD SCREWS, SQUARE HEAD PLUGS. AND OTHER SIMILAR PARTS ARE WIRED SO THAT THE LOOSENING TENDENCY OF EITHER PART IS COUNTERACTED BY THE TIGHTENING OF THE OTHER PART. THE DIRECTION OF TWIST FROM THE SECOND TO THE THIRD UNIT IS COUNTER-CLOCKWISE TO KEEP THE LOOP IN POSITION AGAINST THE HEAD OF THE BOLT. THE WIRE ENTERING THE HOLE IN THE THIRD UNIT WILL BE THE LOWER WIRE AND BY MAKING A COUNTER-CLOCKWISE TWIST AFTER IT LEAVES THE HOLE. THE LOOP WILL BE SECURED IN PLACE AROUND THE HEAD OF THAT BOLT.
EXAMPLE 5
EXAMPLE
EXAMPLE
6
7
EXAMPLE 8
METHODS FOR WIRING VARIOUS STANDARD ITEMS. WIRE MAY BE WRAPPED OVER THE UNIT RATHER THAN AROUND IT WHEN WIRING CASTELLATED NUTS OR ON OTHER ITEMS WHEN THERE IS A CLEARANCE PROBLEM.
EXAMPLE
9
THE METHOD FOR WIRING BOLTS IN DIFFERENT PLANES. NOTE THAT WIRE SHOULD ALWAYS BE APPLIED SO THAT TENSION IS IN THE TIGHTENING DIRECTION.
EXAMPLE
10
HOLLOW HEAD PLUGS WIRED WITH THE TAB BENT INSIDE THE HOLE TO AVOID SNAGS AND POSSIBLE INJURY TO PERSONNEL.
RH Thread
EXAMPLE
II
CORRECT APPLICATION OF SINGLE WIRE TO CLOSELY SPACED MULTIPLE GROUP. 2000-604- 19
Lockwiring Examples Figure 2
A14
20-07-00 Page 3 Jun 20/91
Ci~eechcraft BONANZA SERIES MAINTENANCE MANUAL
LOCKWIRE HOLE ALIGNMENT
When nuts
c.
to be secured to a fastener
are
pins, tighten the fastener to the low side (minimum) of the applicable specified or selected torque range, unless otherwise specified, and if with cotter
Check the units to be lockwired to make
sure
they have been correctly torqued and that ing holes are properly positioned in relation other. When there
are
two or more
that
the wirto each
units, it is desir-
able that the holes in the units be in the same relato each other. Never overtorque or loosen
tionship
units to obtain
alignment of the holes. It possible align the wiring holes when the units are torqued within the specified limits. However, if it is impossible to obtain a proper align-
necessary, continue tightening until the nut slot aligns with the fastener hole. Maximum torque must
to
ment of the holes without either over or
undertorqu-
ing, select another unit which will permit proper alignment within the specified torque limits,
Castellated
d´•
proper
should be
To prevent mutilation of the twisted section of the wire when using pliers, grasp the wire at the ends or
at
a
not be
point
that will not be twisted. Lockwire must
nicked, kinked
or
ends; leave
at least
pliers and, when cutting off three complete twists after the
is
fasteners
are
The
pins.
ferred method is apt to become If 50 percent
or more
a
snag.
of the cotter
ter is above the nut
castellation,
used under the nut
or a
a
pin
diame-
washer should be
shorter fastener should be
installed. A maximum of two washers may be permitted under a nut. f´•
Use the in
listed
largest
MS24665
pin
nominal diameter cotter
that
the
hole
and
slots’will
application of a cotter pin to any permitted if the fastener hole size required hole and slot size for the
accommodate. No
extreme care to prevent the wire into areas where they might create
nut or
lockwire holes
cotter
loop, exercising falling a hazard or damage. The strength of
ends from
on
preferred method is with the cotter pin bent parallel to the axis of the fastener. The alternate method, where the cotter pin is mounted perpendicular to the axis of the fastener, may be used when the cotter pin in the pre-
mutilated. Never twist the
wire ends off with the
installed
nuts
safetied with cotter
e.
LOCKWIRE TWISTING
be exceeded.
never
fastener is
is less than the
marginal.
9´•
pin.
Install the cotter
pin
head
firmly in the slot of pin eye at right Bend the cotter pin
the nut with the axis of the cotter
COTTER PIN INSTALLA TION
(FIGURE 3)
angles
to the fastener shank.
prongs
so
are
following to select desired application:
Use the
the
and install cotter
pins for
Install
new
cotter
pins,
In clevis
against
pin head and upper prong the fastener and the lower
the nut.
pin
or
rod end
applications,
install the
pin with the axis of the eye parallel to the shank of the clevis pin or rod end. Bend the prongs
cotter
pin material in accordance with temperature, atmosphere and service limitations as specified in Chart 1. b.
firmly against
prong h.
a.
that the cotter seated
Select cotter
around the shank of the clevis
shown in
Figure
pin
or
rod end
as
3.
CHART 1
COTTER PIN INFORMATION MATERIAL
TEMPERATURE
MS24665 Cotter Pins
Ambient
Carbon Steel
up to 4600F
Temperature
SERVICE Normal
atmosphere
contacting
cadimum
pins plated bolts
cotter
or nuts.
MS24665 Cotter Pins
Ambient
Corrosion-Resistant Steel
up to 800"F
Temperature
Nonmagnetic requirements cotter pins contacting corrosion-resistant steel bolts
or
nuts in a corrosive
atmosphere. BT01083
20-07-00
Page
4
Jun 20/91
A14
Qccchcraft BONANZA SERIES MAINTENANCE MANUAL
i.
Cadmium
plated cotter pins should not be applications bringing them in contact with fuel, hydraulic fluid or synthetic lubricants. used in
c.
External type rings must be to allow installation without
enough d.
expanded only becoming bent.
After installation, ensure each retaining ring is seated in its groove, without looseness
completely KEYWASHERS (TAB AND CUP TYPES) INSTALLA TION
or
distortion.
TURNBUCKLE LOCK CLIP INSTALLATION The terms are
keywasher,
tabwasher and
cupwasher
interchangeable.
Observe the
following
when
installing
new
(FIGURE 4) NOTE
key-
washers, tabwashers and dupwashers: a.
Always
b.
When
use
new
washers for each
The turnbuckle
assembly,
bending or setting the washer tabs, do not use sharp pointed tools. Use of such tools can lead to subsequent failure of the locking tabs which, upon
becoming detached,
cause
can
extensive
damage. RETAINING RINGS (SPIROLOX, INSTALLA TION
ETC.)
Safety
turnbuckles with lock
Retaining rings must approved retaining ring pliers. b. the
Internal
rings
must not be
be
be filled
clips
as
must be used.
New lock
b.
Screw both threaded terminals
clips
than three threads of either terminal is
installed
meet.
follows:
an
equal
dis-
tance into the turnbuckle barrel so that no more
using
compressed beyond
point where ends of the ring
must
a.
side the a.
barrel
MIL-G-23827 grease before the threaded terminals are screwed into the turnbuckle barrel. with
exposed
out-
body.
If necessary, adjust the terminals until the cable is to the proper tension, adjust the turnbuckle c.
to the
locking position (groove
indicator notch
on
on
terminals and slot
barrel should be
aligned)
and
TO PROVIDE CLEARANCE PRONG MAY BE CUT HERE
PRONG MUST BE OF SUFFICIENT LENGTH AS SHOWN.
PRONGS MUST
BE
OF
SUFFICIENT LENGTH TO EXTEND 90â&#x20AC;&#x2122; BEYOND HOLE AS SHOWN.
NUT ON BOLT PREFERRED METHOD
CASTELLATED
PIN APPLICATION 2000-610-46
Cotter Pin Installation
Figure 3
A14
20-07-00 Page 5 Jun 20/91
Qeechcraft BONANZA SERIES MAINTENANCE MANUAL
HOOK HOOK
LOOP
LIP LOCKING CLIP
SWAGED TERMINAL
TURNBUCKLE BARREL
SWAGED TERMINAL
2000-610-47
Turnbuckle
20-07-00 Page 6 Jun 20/91
Safetying Using Lock Clips Figure 4
A14
C~)eechcraft BONANZA SERIES MAINTENANCE MANUAL
insert the end of the
locking clip
into the terminal
and turnbuckle barrel end until the "U" curved end of the locking clip is over the hole in the center of the turnbuckle barrel. d.
Press the
locking clip
in the hole in the center
of the turnbuckle barrel to its full extent. e.
The curved end of the
locking clip
To check proper attempt to remove the
using fingers only. clip installation
tool to check the lock
clip g. the
Do not as
the
use a
locking
could be distorted.
Repeat
the
locking clip
previous steps for installation of the opposite end of the turn-
on
buckle barrel.
will latch in
the hole in in the center of the turnbuckle barrel.
f.
turnbuckle barrel
seating of the locking clip, pressed "U" end from the
h´â&#x20AC;˘
Both
locking clips may
be inserted in the
side of the turnbuckle barrel center hole
or
same
in oppo-
site sides of the turnbuckle barrel center hole.
20-07-00
Page A~4
7
Jun 20/91
Raytheon
Aircraft Company
BONANZA SERIES MAINTE~ANCE MANUAL
AIRPLANE FINISH CARE The
DESCRIPTION.
following cleaning, waxing, placarding and painting airplane in an approved condition.
information
provides
finish
care
information needed to
maintain the
NOTE: When interior
exterior
paint
is required, refer to the airplane log book for the paint part number. This used on the airplane as it was delivered new. On older airplanes which paint identify type do not have the paint part number listed on the airplane log book, contact Raytheon Technical Support, Raytheon Aircraft Company, Wichita, KS 67201-0085 to determine the paint used on the airplane as it was or
number will
the
of
I
delivered.
RECOMMENDED MATERIALS The recommended materials listed in Chart 1
as meeting federal, military or vendor specifications are provided for only and are not specifically required by Raytheon Aircraft Company. Any product conforming to the specification may be used subject to availability. The products included in these charts have been tested and approved for aviation usage by Raytheon Aircraft Company, by the vendor or compliance to the applicable I specifications. GENERIC OR LOCALLY MANUFACTURED PRODUCTS WHICH CONFORM TO THE REQUIREMENTS OF A SPECIFICATION MAY BE USED EVEN THOUGH NOT INCLUDED IN THE CHART. Only the basic number of each specification is listed. No attempt has been made to update the listing to the latest revision. It is the responsibility of the technician or mechanic to determine the current revision of the applicable specification prior to usage of the product listed. This can be done by contacting the vendor of the product to be used.
reference
Chart 1
Recommended Materials MATERIAL 1.
Cleaner
2.
Cleaner
3.
Cleaner
4.
Acid
5.
BasePrimer
Etching
SPECIFICATION ASTM D239
PRODUCT
Primer
Obtain locally.
Acetone
Methyl Propyl TT-N-95, Type II
VENDOR
Ketone
Naphtha, Aliphatic
MIL-C-8514 EX2016G
Obtain
locally.
Obtain
locally.
Obtain
locally.
Pratt 8 Lambert
Coatings Div., P.O. Box 2153, Wichita, KS 67201 6.
Catalyst
T607
Pratt 8 Lambert
Coatings Div., P.O. Box 2153, Wichita, KS 67201 7.
Urethane Primer
38-Y-3
U.S. Paint,
Lacquer
and Chemicals Co., St. Louis, MO 8.
A26
Cleaner
Lacquer Thinner
Obtain
locally.
20-08-00
1
Ray~eon
AiKraff
company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1 Recommended Materials
MATERIAL 9.
Anti-static
SPECIFICATION
VENDOR
PRODUCT 528-104
Coating
(Continued)
or
DeSoto Inc.,
528-306
Southwestern Plant, Forrest Ln. and Shiloh Rd., P.O. Box 401268
Garland, TX 75042 M-213
10. Elastomeric
Lord Chemical Products
Polyurethane (white base) 11.
Group,
2000 W. Grandview Blvd., Erie, PA 16514
Curing Solution (elastomeric polyurethane)
M-200
Lord Chemical Products
Group,
2000 W. Grandview Blvd., Erie, PA 16514
EC750
12. Sealer
Minnesota
Mining
and
Mfg. Co.,
St. Paul, MN
Oakite Products Inc.,
13. Oakite No. 6
Berkeley Hts., N.J. 14.
Sanding Surfacer
F900 Primer Surfacer
07922
Andrew Brown Co., 801 E. Lee,
Irving,
1
15. Toluol
(toluene)
))16. Isopropyl Alcohol 17. Alodine 12008
TT-T-548
TX
Obtain locally.
TT-I-735;
i
MIL-C-5541
Obtain locally. Amchem Products Inc.
Ambler, PA 19002 MIL-P-233n
18. Primer,
U.S. Paint, Lacquer and Chemical Co.
Epoxy-Polyamide
St. Louis, MO 19. Urethane Paint
6160 Matterhorn White
U.S. Paint, Lacquer and Chemical Co. St. Louis, MO
Sep
20-08-00
A26
RBYtheOn
ni~craft
Company
BONANZA SERIES MAINTENANCE MANUAL
AIRPLANE FINISH CARE
MAINTENANCE PRACTICES
AIRPLANE FINISH´•´• CLEANING CAUTION Since paint films do not obtain
a
hard finish fora considerable time after drying,
recently painted should not be polished or a.
Remove dust and dirt from
b.
Remove oil and grease with
painted surfaces a
cloth
with
dampened
airplanes
thathave been
waved until the finish has cured for at least 60
a
days.
cellulose sponge and cool tap water.
with cleaner
(3, Chart 1).
CAUTION: When washing the airplane with mild soap and water, use special care to avoid washing away grease from any lubricated area. After washing the wheel well areas with solvent, lubricate all lubrication points. Premature c.
wear
Remove insects with
a
of lubricated surfaces may result if these
cellulose sponge and
a
mild
Ivory
or
precautions are
not observed.
Lux soap and water solution.
CAUTION: Harsh soaps and detergents will damage the airplane finish. d.
Carefully
e.
Dry
rinse the surface to remove ALL soap.
the cleaned surface
ENVIRONMENTAL
thoroughly
specified curing period
collect
painted
damage surface
a
chamois to
prevent water
of
new
paint, avoid outside storage
surfaces. Acids which remain in
standing
to the finish. Flush off residual moisture with clean can
marks.
FALLOUT(ACID RAIN)
After the on
with
provide protection
from acid rain
when conditions exist where moisture may
water can stain the
tap
water and
dry
paint topcoat and
cause
the surface. At this time,
permanent
waxing
the
damage.
WAXING AIRPLANE FINISHES good coat of wax will protect the airplane finish good automotive polish or wax may be used. A
from the sun’s rays and protect the surface
against
oxidation.
Any
PLACARD REPLACEMENT
placards must be in place and legible. Whenever the airplane replace any placard that has been defaced or is missing.
All
has been
repainted
or
touched up after
repairs,
URETHANE PAINTS NOTE: Any time the paint of the airplane or
on on
the airplane is stripped for repainting, whether the repaint is to be on a localized area the entire airplane, a thorough inspection for possible hidden corrosion should be
conducted. The need for
extremely hard finish for protection against sandblast during takeoff and landings led to the coatings for airplanes. Urethane paint dries to a high gloss and retains color much better finishes. It is unaffected by the chemicals in hydraulic fluids, deicer fluids and fuels and requires less an
development of than standard care
urethane
and maintenance than standard finishes.
NOTE: After any
azs
painting repairs, inspect placards
to ascertain that
none
have been covered with paint.
20-08-00
3
Raytheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
URETHANE PAINT REPAIR PROCEDURES NOTE: The time
paint
normally required
will not
cure
at
for urethane
paint
to
cure
must be extended at
temperatures below 70"F. The
temperatures below 60"F.
airplane is finished with pretreatment (wash) primer, urethane primer and a top coat of urethane enamel. The following procedures include cleaning, paint stripping, repaint preparation, priming, applying a urethane topcoat and an alternate method for small repairs not requiring paint stripping. Careful observance of these procedures should result in a smooth, hard, glossy finish with firm adhesion for maximum life. This
I
NOTE: Precut
stripe, numeral
and letter patterns
are
available
through Modagrafics,
5300
Newport Dr., Rolling
Meadows, IL. 60008.
STRIPPING AND CLEANING URETHANE PAINT CAUTION: DO NOT USE STRIPPER OFANY TYPE FOR REMOVING PAINT FROM FISERGLASS, NYLON OR COMPOSITE SURFACES. Paint must be removed from these surfaces with fine sandpaper, using care not to sand into the material. Never
painting,
for most metal
brighteners
the stannous oxide used as
used,
cover
an
use
aluminum foil to mask electrothermal windshields
will combine with aluminum to form
antistatic
the windshield with paper
a
hydrogen gas
coating on electrothermal windshields. pasteboard masking material.
during
that eats away
If metal brighteners
are
or
Because of their resistance to chemicals and solvents, urethane paints and primers require a special paint stripper. If a urethane stripper is not available, a good enamel stripper may be used. Removing the finish with such a substitute will a.
Mask around the to
I
b.
require
several
edge
applications
of the skin
or
while
skins
working
in with
containing the damaged
area.
a
stiff brush
Use
a
or
wooden scraper.
double thickness of
heavy paper
urethane stripper as instructed by the manufacturer. Stay approximately 1/8 inch away from the masking will necessitate a little more cleanup upon finishing, but will prevent damage to the finish on the This tape. The stripper will not attack aluminum during the stripping process and can be neutralized skin. adjacent
Apply
by rinsing
the affected
area
with water.
CAUTION: Urethane
strippers usually contain acids protection when using stripper.
c.
Rinse the
d.
Wash the from
e.
stripper
prevent accidental splashes of paint stripper from penetrating the masking.
aftennrards
I
the
area
with water and
a
or
bum the skin. Wear rubber
gloves and eye
dry.
stripped area carefully with adhering to the stripped area.
Using
that irritate
a
cleaner
(1,
2
or
8, Chart 1). This will prevent tiny particles of loose paint
nylon scratch pad or aluminum wool dipped in clean water, clean the surface with a cleanser such Ajar, Comet cleaner, etc. A good scouring will leave the surface completely clean.
as
Bon Ami,
f.
Thoroughly rinse with clean water and carefully dry the affected area. If the stripped area includes several joints of skin laps, let the airplane sit until all moisture has dried. This may be accelerated by blowing the skin laps and seams with compressed air. Wet masking should be replaced.
Sep 30/4Page
4
20-08-00
RBy~heOll BONANZA SERIES
PRETREA TMENT
nircraft
Company
MAINiENANCE
MANUAL
PRIMER FOR URETHANE PAINT
(WASH)
etching primer (4, Chart l)should be applied to improve the adhesion of the finishing coats. A base primer (5, Chart 1) and catalyst (8, Chart 1) are used in equal parts as a pretreatment wash primer at the factory.
An acid
a.
b.
Mix the
primer
Apply
thin wet coat of
a
as
instructed
by the
manufacturer.
primer. It should be permitted primer is applied.
to
dry for
at least an
hour, but
not over six
hours, before i
the next coat of urethane
URETHANE PRIMER Mix the urethane
a.
primer (7, Chart 1)
as
instructed
by
the manufacturer.
NOTE: For the best results these directions must be followed carefully, some manufacturers require that the primer be allowed to set for 112 hour after the catalyst and base have been mixed while others recommend immediate
b.
Apply
use
after
coat of urethane
a
mixing.
primer with
a
spray gun
using
35 to 40
psi
of air pressure. A
spotted
appearance
only
indicates that the coat is thin. If the initial
c.
slightly
primer coat is allowed to cure for more than 24 hours before the topcoat is applied, sand the primer roughen the surface and assure adhesion. Wipe off the sanding dust with a cloth dampened with a (8, Chart 1), then apply the topcoat.
to
cleaner
URETHANE TOPCOA TS a.
Mix the
b.
Apply
paint
and
catalyst
as
instructed
by the
manufacturer.
the topcoat with a spray gun at 35 to 45 psi of air pressure. Two coats are normally required to fully primer and build up the topcoat film necessary for adequate service life and beauty. The urethane
conceal the
finish will
normally cure to approximately 85% of
its full hardness in 24 hours at temperatures of 80"F
or
higher.
URETHANE TOUCH-UP REPAIR a.
Mask around the skin
b.
Remove all loose
c.
Using
d.
When the
a coarse
containing
edges
of
sandpaper,
fair the
edge of the paint begins by the coarse paper.
Wash the sanded
sanding f.
After the
area
dirt will be area
with
damaged
paint by using
scratches left e.
the
a
a
area.
high
tack adhesive tape around the
edge of the damaged
area
edge
of the
damaged
area.
with the metal.
to fair into a smooth
Take
cleaner
(2
care
or
to avoid
joint, use a fine grade of sandpaper to eliminate the removing any more metal than is absolutely necessary.
8, Chart 1). Change often to clean wash cloths
so
that all of the
picked up.
to be touched up has been cleaned until all traces of discoloration are gone, to the damaged area.
apply
a
thin coat of
pretreatment primer (4, Chart 1)
A28
20-08-00Page
5
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL NOTE: If
a
metal conversion
such
coating
as
iridite
with. If the metal has not been treated with
or a
alodine is used, the wash primer coating can be dispensed metal conversion coating but no wash primer is available,
clean the surface to be touched up and apply urethane produce a satisfactory undercoat for the repair area.
carefully should
g.
After the urethane primer has cured for 24 hours, sand the
h.
edge
two urethane
Spray on
under
area
to the bare metal. This
repair with medium line sandpaper. Sand paint meet is gone. If necessary, apply no longer visible.
the indentation where the metal and old
of the
repair area until additional urethane primer until
the
primer (7, Chart 1)
the
juncture
of old
paint with
metal is
topcoats.
PAINTING MAGNESIUM PAINT REMOVAL FROM MAGNESIUM SURFACES WARNING: Do not
use paint strippers that may cause an immediate corr~slve effect on magnesium andlor aluminum surfaces. Acid base and some phenol base strippers are not recommended. Consult
the manufacturer for cautions if the
stripper
is not listed in the consumable materials chart of
this manual. a.
Mask
areas
not
being stripped
with two
or more
thicknesses of
masking tape
and aluminum foil to prevent
accidental spillage from penetrating the masking. b.
Apply paint stripper (27,
NOTE: Most strippers
are
Chart 1, 91-00-00) to the surface being stripped with
neutralized with water; therefore, the surface
a
brush
being stripped
or
non-atomizing gun.
must be
thoroughly dry before
any application of the stripper. Magnesium surfaces are treated at the factory with a brown to amber Dow 19 primer coat. Any magnesium surfaces not displaying this color should be resprayed with a primer coat of
before
application
Dow
19 is used in the field to restore the
paint.
original
anti-corrosion surface treatment that may have been
service. The chemicals for Dow #19 formula may be purchased from a Raytheon Aircraft Authorized Outlet in powder form or may be procured locally and produced as follows:
penetrated in
I
Company 1.
Place
approximately 314 gallon
The water should be at
a
of chromic acid
2.
Add 1 1/3
oz,
3.
Add 1
of calcium sulfate
4.
Add distilled water to make
5.
oz,
of distilled water in
a
plastic container which will
one
to three minutes to
6.
Rinse with cold
7.
Apply
a
liberal
running
coating
(CaSO4) one
of fluid.
to the water.
gallon
produce
water and
of
gallon
(H2CT04)´â&#x20AC;˘
of solution and stir
Brush the solution in and around the bare surfaces of the for
measure one
temperature of between 70 and 90"F.
a
vigorously
for at least 15 minutes.
magnesium, keeping the
area
wet with the solution
brown film. Do not exceed three minutes.
dry by
exposure to hot air blast.
epoxy-based corrosion
resistant
primer.
WARNIOJG: Stripping should be accomplished in a well ventilated area, since prolonged exposure to high concentrates of vapor may irritate the eyes and lungs. c.
Sep
Allow the paint stripper to remain on the airplane for 20 to 30 minutes, then work the remaining paint loose with a bristle brush. The stripper may remain on the airplane for 2 hours but must not be allowed to dry on the surface.
20-08-00
A26
RaytheOn
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CAUTION: Never
use a
wire brush when
removing paint from magnesium
surfaces for it may
cause
damage
to the
surface. d.
Remove the remnants of
masking paper and wash the affected paint with lacquer thinner.
area
thoroughly with
water under
high
pressure. Remove all
PAINTING MAGNESIUM SURFACES NOTE:
a.
Any time an airplane is repainted, inspect easily readable and are securely attached.
Prepare
area
to assure that
they
are
not covered with
paint,
are
repainted as indicated under PAINT REMOVAL FROM MAGNESIUM SURFACES. thoroughly with lacquer thinner or an equivalent solvent.
Unprimed areas of magnesium castings are to be coated with MIL-M-3171 corrosion preventative compound (23, Chart 1, 91-00-00) unless these areas will come in contact with oil or grease after assembly. Any holes in the castings which will receive bushings or bearings shall be coated with wet, unreduced zinc chromate primer or corrosion preventative compound at the time of installation.
Prime the affected
b.
placards
the surface to be
Clean the affected NOTE:
all
area
with corrosion
preventative compound
and
apply
the urethane topcoat.
NOTE: Prior to application of the primer base, the magnesium surface should be thoroughly dried. Drying may be accomplished by subjecting the magnesium to an elevated temperature of 130 to 140"F for a minimum of one
hour. Allow
a
minimum of four hours
drying
time between
application of the primer
and topcoat.
SPECIAL PROCEDURES PROPELLER BLADES Paint the
blades
propeller
as
instructed
by the propeller
manufactures ownerâ&#x20AC;&#x2122;s manual.
SURFACES SUSCEPTIBLE TO MUD AND SPRAY
Apply
one
coat of white epoxy
a.
Main and
b.
Interior surface of
c.
Main and
nose
nose
paint
to the
landing gear wheel
following
areas:
wells.
landing gear doors.
landing gear
assemblies.
RUBBER SEALS
Apply
one
coat of
a
thoroughly
water to all rubber surfaces that
dissolved solution of are
one
part Oakite No. 6 (13, Chart 1, 91-00-00) and two parts
to come into contact with metal or other rubber surfaces.
ENCLOSED AREAS SUBJECT TO HIGH HUMIDITY or magnesium parts and assemblies which are enclosed and subject to high humidity should be protected against corrosion by coating with either epoxy primer, MIL-C-16173 corrosion preventative compound, light grease or heavy oil (5, Chart 1, 91-00-00).
Steel, aluminum
na,
20-08-00
7
I
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
BATTERY BOX AND LID
Finish the interior of the
battery
box and lid
as
follows:
a.
Apply
two
(2)
coats of
b.
Apply
two
(2)
coats of Matterhorn White urethane
Epoxy-Polyamide
Primer per MIL-P-23377 No. 6160
paint
(56, Chart 1, 91-00-00). (57, Chart 1, 91-00-00).
PAINT FREE AREAS
following
a.
Engine
b.
Flight control
c.
Exhaustmanifolds andexhauststacks.
d.
Firewalls and
areas
controls. cables and chains.
wrought
aluminum surfaces forward of the firewall, with the
Aluminum parts attached
1. e.
Aluminumflexible conduit.
f.
All
directly to
tubing except unplated steel,
the firewall shall be
g.
Stall
h.
Chromium
i.
Rubber and rubberlike surfaces.
j.
Electrical
k.
Glide
I.
Pitot mast and static buttons.
m.
Cabin door sill and upper latch.
n.
Utility
o.
Window
utility
plated portions
wiring, unless
path
door
antenna
noted,
on
in detail.
primer on
the exterior,
the interior of the
on
interiors where the
engine compartment.
of the
landing
gear
piston tubes.
otherwise noted
as a
specific requirement.
(if installed).
opening
moldings,
threshold
(E-llll,
E-1241 and After; EA-11 and
All
q.
All exterior
bearing
After).
overhead console escutcheon, shoulder harness escutcheon, lower
door latch escutcheon,
p.
8
as
following exception:
wamingvane.
window latch escutcheon, OAT escutcheon,
Sep 30/4Page
primed
which shall receive two coats of
color scheme must be maintained, and except
I
I
shall be kept free from paint:
The
surfaces
subject
wing
bolt
to rotation
placards. See Chapter
utility door escutcheon, ignition panel escutcheon, circuit breaker panel escutcheon, upper
cover
or
escutcheons, and sidewall air valve escutcheons.
sliding,
such
as
11 in this manual for
20-08-00
elevator trim tab
placard locations.
linkage joints.
RayNheon
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
CORROSION- DESCRIPTION Corrosion is the gradual
eating away
Corrosion may develop at
of material
where the
by
chemical action.
protective coating
has been
damaged.
When this
happens,
it is
important protective coating. present. High levels of humidity, high levels of environmental impurities (such as deposits, or chemical fumes), or high ambient temperatures will increase the rate of corrosion. Some of the more common types of corrosion are surface corrosion, inter granular corrosion, pitting, exfoliation, and electrolytic or I galvanic corrosion. areas
Corrosion also
to restore the
occurs
when dissimilar metals
in contact with any moisture salt spray, acid rain, exhaust
are
GALVANIC CORROSION The
galvanic series shown below shows which metals are attacked when Figure 1). The wider the separation in the series, from the top to the bottom, galvanic series list follows: Anodic,
or
in contact with
a
dissimilar metal
the faster the rate of corrosion. A
(Ref. partial
corroded end of series
Magnesium alloys Aluminum
alloys 5052, 5056, 5356, 6061,
All other aluminum
6063
alloys
Zinc Cadmium Lead
Tin
Steel
Copper alloys Nickel
alloys
Titanium
Cathodic,
or
protected end
of series
NOTE: Corrosion is relative. For example: aluminum alloys corrode when in contact with steel; steels corrode when in contact with copper.
n~26
20-09-00
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
TABLE
GALVANIC
I
COUPLES
EMP
METALLURGICAL CATEGORY
GOLD,
AND
SOLID
LOYS
GOLD-PLATINUM
PLATED;
WROUGHT
T
SILVER
4
NICKEL, SOLID OR PLATED; COPPER ALLOYS: TITANIUM
OR
+0.05
SILVER
HIGH
PLATED:
ALLOYS
HIGH
MONEL;
NICKEL-
ICOPPER, SOLID OR PLATED; LOW BRASSES OR BRONZES; SILVER SOLDER; GERMAN SILVER: HIGH COPPER-NICKEL ALLOYS; NICKEL-CHROME ALLOYS; AUSTENITIC STAINLESS STEELS (301, 302, 304, 309, 316 321, 347)
6
COMMERCIAL
7
HIGH
YELLOW AND
BRASSES
COUPLESr
´•0.15
GRAPHITE
RHODIUM:
3
SOLID
PERMISSIBLE
NUM
2
5
[VOLT)
BRASSES
BRONZES:
BRONZES
AND
-0.20
-0.25
BRASS,
NAVAL
O
-0.15
MUNTZ
-0.30
METAL 8 9
18% CHROMIUM 4~0-430 431
TIN-PLATE
II
LEAD
12
ALUMINUM,
OR
ARBON
TANT
04
WROUGHT, AND LOW
12%
STEEL
HIGH
ALLOYS
OF
STEELS
CHROMTUM
410
TIN-LEAD
PLATED
WROUGHT
2014
IRON,
PLATED;
TIN,
TERNEPLATE:
SOLID
T
416
CAST
-0.50
ALLOYS
-0.55
DURALUMIN
-0.60
201 OR
GRAY,
MALLEABLE:
TEELS:
ALLOY
ARMCO
PLAIN
-0.70
IRON
WROUGHT ALLOYS OTHER THAN DURALUMIN; 1100, 3003. 6061, 7075, 5052, 5056, ALLOYS OF THE SILICON TYPE 355, 356. CAST
ALUMINUM, CADM
ALLOYS
PLATED
UM
16
HOT-DIP-ZINC
17´•
ZINC
WROUGHT;
-0.45
SOLDERS
LEAD THE
-0.35
4
ALUMINUM, TYPE
15
CORROSION RESISTANT 17-7PH 17-4PH
ORROSION-RES
10
14
446
PLATED;
CHROMIUM, TYPE
13
TYPE
A
PLATE:
OTHER
THAN
SILICON
TYPE;
-0.75
-0.80
CHROMAT GALVANIZED
ZINC-BASE
DIE
STEEL
CAST
-1.05
ALLOYS;
ZINC-
-1.10
OR
-1.60
AT 18
MAGNESIUM
AND
MAGNESIUM-BASE
ALLOYS
CAST
WROUGHT
c
OF GROUPS CONNECTED BY LINES ARE CONSIDERED AS PERMISSIBLE COUPLES: THIS SHOULD NOT BE CONSTRUED AS BEING DEVOID OF GALVANIC ACTION. PERMISSIBLE COUPLES REPRESENT A iOW GALVANIC EFFECT. INDICATES THE MOST CATHODIC MEMBER OF THE SERIES. AND THE ARROWS INDICATE THE ANODIC DIRECTION. AN ANODIC MEMBER, REFER TO TABLE II, MIL-STD-I86. FOR GROUP AMPLIFICATION OF GALVANIC COUPLES.
MEMBERS
HOWEVER, o
**TAKEN
FROM
MIL-STD-I250[MI].´• 31~ MARCH
1967
2000-610-U
Couples Figure 1
Galvanic
Sep
20-09-00
List
A26
Raythwm
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
RECOMMENDED MA TERIALS The recommended materials listed in Chart 1
as meeting federal, military or vendor specifications are provided for only and are not specifically required by Raytheon Aircraft Company. Any product conforming to the I specification may be used subject to availability. The products included in these charts have been tested and approved for aviation usage by Raytheon Aircraft Company, by the vendor or compliance to the applicable specifications. GENERIC OR LOCALLY MANUFACTURED PRODUCTS WHICH CONFORM TO THE REQUIREMENTS OF A SPECIFICATION MAY BE USED EVEN THOUGH NOT INCLUDED IN THE CHART. Only the basic number of each specification is listed. No attempt has been made to update the listing to the latest revision. It is the responsibility of the technician or mechanic to determine the current revision of the applicable specification prior to usage of the product listed. This can be done by contacting the vendor of the product to be used.
reference
Chart 1 Recommended Materials MATERIAL 1.
Coating
SPECIFICATION
PRODUCTS
MIL-C-5541
Alodine 1200
VENDOR Amchem Products Inc.,
Spring Garden St., Ambler, PA 19002 Amchem Products Inc.,
St. 2.
Primer
MIL-P-233n
Epoxy
Primer
Joseph, MO
Ameron Industrial,
Coatings Div., P.O. Box 2153, Wichita, KS 67201 3.
Ale
RustRemover
MIL-M-10578
20-09-00
, ,Pljso/~;JPage
3
Raytheon BONANZA SERIES
CORROSION
Aircraft Company MAINTENANC~
MANUAL
MAINTENANCE PRACTICES
CORROSION CONTROL
damage requires inspection to determine the depth of penetration and the cross-sectional area change. damaged area must be thoroughly cleaned. If deterioration has significantly reduced the structural strength of a part (e.g., a reduction of thickness more than 5%), the component must be repaired or replaced. Upon completion of the clean-up or repair, all elements must be treated and refinished as applicable. In all instances, good preventive maintenance and regular cleaning will be the most effective corrosion control. Corrosion
The
The
solvents may be used to
following
remove
grease, oil, stains and other surface contaminants
materials.
Specification
Product
Trichloroethylene
.................................0-T-634
O-T-236
Perchloroethylene............................................................
I
on most
Toluene...........................................................................
TT-T-548
Xylene.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TT-X-916
Methyl Propyl Dry cleaning
nla
Ketone
solvent
Type
............................................P-D-680
III
VV-K-211
Kerosene
Vapor degreasing of parts may WARNING: Do not
use
solvents in
be used when the proper
chlorides
on
titanium. Do not
equipment use
is available.
exotic solvents
on
composites. Do
not
use
any
close to the oxygen system.
areas
CORROSION PROTECTION common
metals
subject
to corrosion in
varying degrees. Aircraft parts are protected against corrosion by alloy sheet have a thin cladding layer of pure aluminum (ALCLAD) applied at the mill. Other aluminum alloy parts may be protected with an anodic coating system or a chromate treatment. Many steel parts are protected by cadmium plating. Most parts have protective primer. All
are
several methods. Most aircraft aluminum
ALUMINUM CORROSION REMOVAL Corrosion may be removed
mechanically
or
chemically.
In mechanical removal, it is essential that the abrasive materials cause
future corrosion. An abrasive
previously used on new cycle of corrosion.
in aluminum alloys and start a particles sufficient to initiate corrosion
On aluminum
alloy parts,
On clad aluminum or
glass
the tool leave
or particles that could particles which will imbed aluminum alloys will leave tiny
no
residue
A steel wire brush used
on
of the aluminum.
corrosion is best removed with aluminum oxide abrasive paper use a
thoroughly with
or
aluminum wool.
chemical alkaline cleaner. Mix and store alkaline solutions in
containers. Mask off all dissimilar metals
brush. Rinse
Page
alloys,
on
ferrous metals will contain minute
clean water and
20-09-00
dry
as
with
well
as
all cracks and sheet
compressed
plastic, stainless steel, laps. Apply cleaner with a soft
air.
P126
Raytheon
Aircraft Company
BONANZA SERIES MAINTE~ANCE MANUAL
WARNING: Always
wear
rubber
gloves
and
with acids. A face mask may
protective clothing when working
be necessary, depending upon ventilation in the area. If acid accidentally contacts skin immediately flush with fresh water and seek medical advice.
or
eyes,
REMOVAL OF CORROSION FROM ALUMINUM SURFACES a.
Strip
all
paint from
the surface
directed under STRIPPING AND CLEANING URETHANE PAINT in
as
Chapter
20-08-00. corrosion
b.
Mechanically
c.
Inspect
d.
Clean the corrosion removed
e.
Treat all aluminum surfaces with MIL-C-5541 1.
the surface
carefully
Rinse the treated
NOTE: If cold 2.
remove
running
area
by sanding
or
rubbing
as
necessary.
to ensure that sufficient material remains to area
with
in COLD
water is not
a
satisfy
structural
chemical alkaline cleaner.
running
(1, Chart 1).
water and
dry
in
an oven or
by exposure
available, rinsing may be eliminated and the
area
(a minimum of 30 minutes apart) of epoxy primer (2, Chart l)on adequate penetration of primer into the treated area.
Brush 2 coats area.
Assure
requirements.
to hot air blast.
dried
as
stated above.
and around the reworked
ALUMINUM CORROSION TREATMENT After corrosion removal and surface treatment of aluminum
adhesion of the
alloys paint primer.
forms
cleaning, a
metals should be
given protective
treatment and
protective coating which resists corrosion and provides
a
painted. Alodine
good
surface for
Alodine 1200, 1200S, 1201 (1, Chart 1), or equivalent, when mixed 2 ounces per gallon of water, will be an acceptable treatment material. Mix only in rubber, plastic or stainless steel containers. Alodine 1200 series products
contain fluorides that should not be mixed in glass containers. Coat the area with the Alodine solution and allow the coating to dwell for approximately five minutes. After the dwell time has elapsed, wash the area with water and blow dry (do not wipe dry). Paint the coated area with epoxy polyamide primer (2, Chart 1) and allow to dry.
WARNING: Brushes and cloths should not be left in the Alodine solution. They should be washed
immediately after use.
If such items
are
left to
dry
in the open air,
they could create a fire hazard.
CAUTION: Keep the Alodine solution confined to the affected area. Mask or seal all cracks and crevices, all steel parts, and any mechanical components. Wash all brushes and cloths immediately after use to prevent inadvertent contact with the acid solution and to eliminate that
dry
without
a
possible
fire hazard from any such materials
being washed.
IVIAGNESIUM CORROSION REMOVAL a.
b,
Strip
all
paint
from the surface
as
directed under PAINT REMOVAL FROM MAGNESIUM SURFACES.
Mechanically remove corrosion by sanding or rubbing as necessary. grit and finish with 400 grit.
If
sanding,
use
aluminum
sandpaper. Start
with 240 c.
Inspect the surface carefully
d.
Clean the corrosion removed
e.
Apply
A26
to ensure that sufficient material remains to area
corrosion treatment to the
with
Methyl Propyl
Ketone
(MPK)
or
satisfy
structural
requirements.
naphtha.
unprotected magnesium.
20-09-00Page
5
Raytheon
Aircraft
Company
MAINIENAN~E i~lANUAL
BONANZA SERIES
MAGNESIUM CORROSION TREA TMENT Any bare magnesium component which will coatings and coated with Dow 19 formula.
I
be returned to service should be
lightly
The chemicals for Dow #19 formula may be purchased from a Raytheon Aircraft powder form or may be procured locally and produced as follows: Place
a.
approximately 314 gallon
water should be at
d.
a
a
plastic container which
oz.
Add 1
of calcium sulfate
of chromic acid
Add distilled water to make
for
one
to three minutes to
f.
Rinse with cold
g.
Apply
a
liberal
any oxide
Authorized Outlet in
measure one
gallon
of fluid. The
(H,CrO4).
(CaSO4) one
to the water.
gallon
of solution and stir
Brush the solution in and around the bare surfaces of the
e.
will
Company
remove
temperature of between 70 and 90"F.
Add 1 1/3 oz,
of distilled water in
sanded to
running
produce
water and
coating of epoxy
a
vigorously
for at least 15 minutes.
magnesium, keeping
the
area
wet with the solution
brown film. Do not exceed three minutes.
dry by
exposure to hot air blast.
based corrosion resistant
primer.
STEEL CORROSION REMOVAL
I
Remove corrosion from steel parts grit abrasive paper.
by
mechanical
means.
Use
a
steel wire brush,
a
steel scraper, steel wool,
or
400
If acid cleaning must be used, it is essential that all plated areas, operating mechanisms, braided lines, or material laps which could trap the acid be adequately masked. Mix one part of metal conditioner and rust remover (3, Chart 1) with one part of clean water in a stainless steel,- plastic or glass container. Apply solution to the corroded area using an acid resistant brush. Allow to stand one minute, then thoroughly rinse with hot water and wipe dry.
WARNING:
Always
wear
rubber
gloves
and
protective clothing
when
working
with rust removal. A face
mask may be necessary, depending upon ventilation in the area. It acid accidentally contacts the skin or eyes, immediately flush with fresh water and seek medical advice. In most cases, steel that has been cleaned shall be treated with protect against future corrosion.
a
minimum of
one
coat of epoxy
primer (2, Chart 1)
to
Sep
30/4Page
6
20-09-00
A26
CHAPTER
AIR
CON DITIOMING
aeechclarfi EONANZA SERIES MAINTENANCE MANUAL
CHAPTER 21
ENVIRONAIIENTAL SYSTEMS
TABLE OF CONTENTS SU&IECT
PAGE
21140´•´•00
Heating and Ventilating System Description Cabin Heating Heater and Defroster Operation
and
Operation
1 1
1
Cabin Ventilation
1
Pilot’s Fresh Air Ventilation
1
Overhead Fresh Air Ventilation
1
Cabin Air Exhaust
1
Fresh Air Blower
1
Heating and Ventilating Maintenance Practices Inspection of Heating and Ventilating System 100-Hour Inspection of Heating and Ventilating System 100-Hour Inspection of The Exhaust System Heater Removal (F38A, F33C, V95B and A36) Heater Installation (F33A, F33C, V35B and A36) Heater Removal (A36TC and B36TC) Heater Installation (A36TC and B36TC) Heater Pressure Testing .Fresh Air Blower Removal
7
7 7 7 7 7
7 7 8
10
Fresh Air Blower Installation
10
21150100
Cooling Description and Operation (Eftectlvlty: Optional) (Effectivity: All serials except E-2104, E-2111 and after and except EA-320, EA-389 and after) (Effectivity: Serials E-2104, E-2111 and after, EA-320, EA-389 and after)
Troubleshooting Cooling
Alr-Condltionlng System (Eftectivlty: Optional)
Maintenance Practices
(Effectivlty: Optional)
1
1 2 4 5
Maintenance Of Air-Conditioner
5
Precautionary Service Measures Air-Conditioning FunctionalTest
5
Leak Detection
System Compressor Belt Removal Compressor Belt Installation Compressor Belt Tension Adjustment Compressor Mounting Torques Compressor Belt Pulley Alignment
5 7 7 7 7 7 7
Condenser Removal
8
Condenser Installation
8
Condenser Control
Rigging
Uplimit and Downlimit Rigging Condenser Flight-Extension Limit Rigging Compressor Removal Installation and Alignment of Compressor Condenser
8 8
8 9 9 21 -Contents
A18
Page~ Aug 18/95
aeechcra~ft BONANZA SERIES
MAINTENANCE MANUAL CHAPTER 21
ENVIRONMENTAL SYSTEMS
TABLE OF CONTENTS SU&IECT Ventilation Blower Removal Ventilation Blower Installation
Evaporator Removal Evaporator Installation Evaporator Filter Replacement
(Continued) PAGE 11
11 12 12 12
21 -Contents
Page 2 Aug 18/95
A18
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 21
1
ENVIRONMENTAL SYSTEMS
LIST OF PAGE EFFECTIVIP/ CHAPTER-SECTION-SUBJECT
21-Effectivity 21-Contents
21-40-00
PAGE 1
Aug 18/95
1 2
Aug 18/95 Aug 18/95
1
Oct 16192
2
oct 16/92 Oct 16/92
3 4 5
6 7
8
9 10
21-50-00
1 2 3 4
5 6 7
8 9 10 11 12
A18
DATE
Oct16/92 oct16/92 oct 16/92 oct 16/92 Oct16192 oct 16/92 oct 16/92
Aug 18/95 Aug 18/95 Aug 18/95 Aug 18/95 Aug 18/95 Aug 18/95 Aug 18/95
Aug Aug Aug Aug Aug
18/95 18/95 18/95
18/95 18/95
21-Effectivity Page 1 Aug 18/95
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
AND VENTILATING SYSTEM DESCRIPTION AND OPERATION (Figures 1,2,3,4 and 5) HEATING
CABIN VENTILA TION In
moderate
temperatures, ventilation air can be same outlets used for heating by
obtained from the
CABIN HEA TING
pushing the CABIN HEAT control full forward.
A heat
to the
ever, in extremely high temperatures, it may be desirable to pull the red FIREWALL AIR control and
stack
to five outlets in the
exchanger connected provides for heated air
forward and ah outlets
of the cabin.
areas
right exhaust
The two forward
located above and forward of each set of
are
rudder
The two aft outlets are installed pedals. behind the right front seat and the right rear seat. The fifth outlet provides heated air for windshield defrosting. In
night,
ram
air enters
through the heater air intake
only the fresh air lowing paragraphs. use
ventilation described in the fol-
A duct in each
adjustable
wing
root is connected
outlet in the
directly to upholstery panel forward
trolled
by rotating the louvered
cover
air intake
OVERHEAD FRESH AIR VENTILATION
Models F33A, F33C, V35B and A36 is
an
of each front seat. Airflow from each outlet is controlled by a center knob. The direction of airflow is con-
knob
on
I
PILOT’S FRESH AIR VENTILATION
and passes through the heater, then into a mixer valve on the forward side of the firewall. The heater
right side of the nose. Models A36TC and B36TC have an airscoop on the left side of the engine
How-
on
with the small
the rim.
I
from the
compartment that furnishes air to the heater. In the mixer valve, the heated air is combined with a controlled quantity of unheated ram air picked up at the fresh air intake. The fresh air intake on Models F33A, F33C, V35B and A36 is in the engine rear baffle. The fresh air intake the
right
on
Models A36TC and B36TC is from
side of the
nose.
Air of the desired
temper-
ature is then ducted from the mixer valve to the out-
lets in the cabin. in the cold
When the forward cabin control is
position, unheated air circulates through
Fresh
air from the air intake on the upper side fuselage is ducted to individual outlets above each seat, including the optional 5th seat on Models F33A and V35B and the optional 5th and 6th seats on Models A36, A36TC and B36TC. Each outlet can be positioned to direct the flow of air as desired. The volume of incoming air can be regulated by rotating the outlet. A shutoff va’lve is installed in the I fresh air duct aft of the cabin compartment panel. I The valve is operated by turning a knob on the overhead panel. of the
ram
aft
I
the cabin. CABIN AIR EXHAUST
HEATER AND DEFROSTER OPERATION The
heater
controls
are
located
on
the
lower left
pilot’s subpanel. To obtain heated air to the cabin outlets, pull the CABIN HEAT control. The control regulates the amount of cold air that is mixed with the air from the heater. When the control is pulled fully out, the cold air is directed overboard and only heated
air enters the
located
on
cabin.
The
forward
the firewall forward of the rudder
deliver heated
air to the
CABIN HEAT control is
forward
pulled
out.
cabin To
vents,
pedals,
when the
provide
heated
air to the aft seat outlets, pull out the AFT CABIN HEAT control. For maximum heat, the control is
pulled fully
out.
To obtain heated air for
defrosting
the windshield, pull the DEFROST control out. It may be necessary to vary or close the AFT CABIN HEAT control to obtain maximum air flow for close off all air from the heater
defrosting. To system, pull the red
FIREWALL AIR control located to the extreme left of the
pilot’s
lower
subpanel.
Since the cabin is sealed, an air exhaust is required provide for circulation of cabin ventilation air. A
to
cabin air outlet is installed in the cabin aft
panel and is
connected to
an
upholstery
exhaust vent installed
in the left side of the fuselage. FRESH AIR BLOWER An
optional fresh air blower may planes CE-941 and after, CJ-156
be installed
on
air-
and after, D-10348, D-10364 and after, E-1809 and after and EA-192 and after. The fresh air blower utilizes the same ducts
and air outlets
as
the overhead fresh air
system. The
blower is located aft of the
baggage compartment the aft end of the overhead fresh air plenum.
wall at The blower’s circuit breaker/switch is located on the console near the fuel mixture lever on early airplanes. On airplanes CE-990 and after, CJ-156
andI
after, D-10390 and after, E-1954, E-1988 and after and EA-243, EA-273 and after, the circuit breaker/switch is located in the center of the subpanel.
21-40-00
Page A16
1
1
Oct 16/92
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
HEATER AIR INTAKE (NOSE)
MIXER VALVE (COLD
POSITION) HEATER
FRESH AIR INTAKE
\\\\tJ
(ENGINE BAFFLE)
_\
-HEATED AIR
LEFT FORWARD
VERBOARD VENT
RO T)~rOUTLE
FRESH AIR
(LEFT
WING
IRIGHT
FORWARD OUTLET
FRESH AIR FIREWALL
L~fJ
AIR\
/-~MIYtl
I~J
~(RIGHT WING ROOT)
CONTROL
OVERHEAD FRESH AIR SHUTOFF CONTROL DEFROSTER CONTROL
CABIN HEAT CONTROL~ AFT CABIN HEAT CONTROL/
I I
I~H II H/â&#x20AC;&#x2122;I
AFT OUTLET
~(RIGHT FRONT SEAT)
/Y~J
INDIVIDUAL OVERHEAD FRESH AIR OUTLETS AFT OUTLET
t~3/
~i
I
REAR
SEAT)
OL CABLE OPTIONAL 5TH AND 6TH SEATi INDIVIDUAL OVERHEAD FRESH AIR
OUTtCTS
tllll t
CABIN AIR CABIN AIR EXHAUST
WATER GRAIN THROVGH BOTTOMOFFUSELAGE
~nl
/~t
OVERHEAD FRESH AIR SHUT OFF VALVE OVERHEAD FRESH AIR SCOOP
(V35B) OVERHEAD FRESH AIR SCOOP
(F33A, F33C, and A36)
I~
GE-831 AND AFTER. 0-10200
AND AFTER AND E-1408 AND AFTER.
Heating (CE-748,
and
Ventilating System
CE-772 thru CE-918, CE-920 thru
CE-926 and
CE-928; CJ-149
thru
thru
C9200100
CJ-155; D-10097, D-10120
thru D-10347; and E-lll?, E-1241 thru
E-1550, E-1552
CE-922, CE-924,
E-1421, E-1423 thru
E-1568, E-1570 thru E-1580 and E-1582 thru
E-1593) Figure 1
21-40-00
Page 2 Oct 16/92
A16
BEECHCRAFT
BONANZA SERIES MAINTENANCE MANUAL
n
HEATER AIR INTAKE
(NOSE)
FRESH AIR INTAKE
(ENGINE BAFFLE) HEATER MIXER VALVE
(COLD
POSI
OVERBOARD VENT HEATED AIR
FRESH AIR (LEFT WING
ROOT)
I (I
tc~--FRESH
UIBII
AIR (RIGHT WING
ROOT)
LEFT FORWARD OUTLET
RIGHT FORWARD OUTLET
FIREWALL AIR
CONTROL~
OVERHEAD FRESH AIR CONTROL
DEFROSTER CONTROL CABIN HEAT CONTROL AFT CABIN HEAT
CONTROL-
I
OUTLET (RIGHT FRONT SEATI
nv
AFT OUTLET
(RIGHT REAR SEAT)
INDIVIDUAL OVERHEAD FRESH AIR OUTLETS CONTROL CABLE
OPTIONAL 5TH AND 6TH SEAT INDIVIDUAL OVERHEAD
FRESH AIR OUTLETS
AIR SCOOP
(V35B)
CABIN AIR OUTLET CABIN AIR EXHAUST
WATER DRAIN THROUGH BOTTOM OF FUSELAGE OVERHEAD FRESH AIR SHUT OFF VALVE
r--
OPTIONAL CABIN FRESH AIRBLOWER
i
1
g
OVERHEAD FRESH AIR SCOOP
(F33A. F33C and A-36)
j~
CE-941 AND AFTER. CJ-156 AND AFTER, D-1034B, D-10364 AND AFTER AND E-1809 AND AFTER. C9200101
Heating and Ventilating System (CE-919, 08-923, 08-925, CE-927, E-929 and after; CJ-156 and after; D-10348, D-10353 and after; and E-1422, 8-1551, 8-1569, E-1581, E-1594 thru E-1945, E-1947 thru E-2103, and E-2105 thru E-2110)
Figure
2
21-40-00
Page 3 A16
Oct 16/92
BEECHCRAFT
BONANZA SERIES
MAINTENANCE MANUAL OVERBOARD
VENT7
HEATER AIR INTAKE
(NOSE)
MIXER VALVE
(COLD POSITION)
I I
FRESH AIR INTAKE
HEATER
(ENGINE BAFFLE) HEATED AIR RIGHT FORWARD OUTLET
LEFT FORWARD OUTLET
1
7
FRESH AIR INLET
I
(RIGHT
WING
ROOT)
FRESH AIR INLET
(LEFT WING ROOT)
OVERHEAD FRESH AIR
DEFROST DUCT OUTLET
CONTROL
FIREWALL AIR CONTROL AFT OUTLET CABIN HEAT CONTROL
ln\ H/ 1--
1
I
(3RD
4TH
SEATS)
AFT CABIN HEAT CONTROL
DEFROSTER CONTROL
AFT OUTLET
(5TH
6TH
SEATS)
INDIVIDUAL OVERHEAD
FRESH AIR OUTLETS
CONTROL CABLE
CABIN AIR OUTLET
OVERHEAD FRESH AIR SHUT OFF VALVE CABIN AIR EXHALJST----â&#x20AC;&#x2122;
r
I I
I
OPTIONAL CABIN
FRESH AIR BLOWER WATER DRAINTHROUGH
BOTTOM OF FUSELAGE
~B
~Qf
OVERHEAD FRESH AIR INLET
C9200102
Heating and Ventilating (E-1946, E-2104 and E-2111 and after) Figure 3
21-40-00
Page
4
Oct 16/92
A16
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL EXHAUST GASES FROM ENGINE
(RIGHT
SIDE
ONLY)
FRESH AIR INTAKE (NOSE) HEAT EXCHANGER
HEATER HEATER AIR INLET
AIR EXHAUST
AIREXHAUST
(OUTLET BELOW)
AIR-SCOOP
MIXER VALVE
MIXER VALVE ´•L-
FRESH AIR
EXHAUST GASES TO
(LEFT WING ROOT) FRESH AIR
LEFT FORWARD OUTLET
(RIGHT WING ROOT)
DEFROST OUTLET FIREWALL AIR CONTROL --;-~53;
1
TURBOCHARGER AND
OVERBOARD
"RIGHT FORWARD OUTLET
DEFROSTER CONTROL CABIN HEAT CONTROL
AFT CABIN HEAT CONTROL
I
//II
1 I
AFT OUTLET
(RIGHT
INDIVIDUAL OVERHEAD FRESH AIR OUTLET
I
,YU 111
FRONT
SEAT)
INDIVIDUAL OVERHEAD
I
FRESH AIR OUTLETS AFT OUTLET
(RIGHT
REAR
SEAT)
24
CABIN AIR OUTLET
OVERHEAD FRESH AIR SCOOP
CABIN AIR EXHAUST
WATER DRAIN THROUGH
BOTTOM OF FUSELAGE
j
BEA-8ANDAFTER
CB?m103
Heating and Ventilating (EA-1 thru EA-20, EA-22 thtu EA´•ST and EA-29 through EA-32) Figure 4 21-40-00
Page A16
5
Oct 16/92
BEECHCRAFT BONANZA SERIES RIIAINTENANCE MANUAL FRESH AIR INTAKE
(NOSE)
EXHAUST GASES FROM ENGINE (RIGHT SIDE ONLY)
HEATER MUFF EXHAUST GASES
I
TO TURBOCHARGER--\
I
I~AIREXHAUST
AND OVERBOARD
MIXER VALVE HEATER AIR INLET
RIGHT FORWARD OUTLET c
LEFT FORWARD OUTLET~SI
FRESH AIR INLET
-e
FRESH AIR INLET
(LEFT WING ROOT)
(RIOHT WING ROOT)
t
OVERHEAD FRESH AIR
DEFROST DUCT OUTLET
AS
CONTROL
FIREWALL AIR CONTROL
DEFROSTER
AFT OUTLET
CONTROLI//
/n\
~--r
(3RD
4TH
SEATS)
CABIN HEAT CONTROL
AFT CABIN HEAT CONTROL
AFT OUTLET
(5TH
6TH
SEATS)
INDIVIDUAL OVERHEAD FRESH AIR OUTLETS
I
OL CABLE
CABIN AIR OUTLET
OVERHEAD FRESH AIR SHUT OFF VALVE
CABIN AIR EXHAUST--/
j~
I I
I
OPTIONAL CABIN FRESH AIR BLOWER
WATER DRAIN THROUGH BOTTOM OF FUSELAGE
js~F
OVERHEAD FRESH AIR INLET
~EA-21, EA-319.
EA-28. EA-33 THRU
FIREWALL AIR CONTROL-~
CABIN HEAT CONTROL
EA-320. EA-389 AND AFTER.
AFT CABIN HEA~ CONTAOL
DEFROSTERCONTROL--~´•
EA-321 THRU EA-388.
EA-192 AND AFTER
DETAIL
A
C920010~1
Heating and Ventilating (EA-21, EA-28, EA-33 and after) Figure 5
21-40-00
Page
6
Oct 16/92
A16
BEECHCRAFT
BONANZA SERIES MAINTENANCE MANUAL
MAINTE-
HEATING AND VENTILATING NANCE PRACTICES
INSPECTION OF HEATING AND VENTILATING SYSTEM
a.
internal screen
Check the duct for
Check the restrictions and/or collapsing. at the intake duct; remove and clean as nec-
defroster
and
cabin
heat
Seal
outlets.
openings around wires, tubes, through the firewall.
or
cables
or
tape
of the
b.
Install the heater in the
c.
Connect the
and
retaining
airplane.
exhaust
engine
to the
system
d.
Connect the heater ducts to the heater.
e.
Install the heater
HEATER REMOVAL
panel.
access
AND
(A36TC
I
B36TCJ
passing
around the removable web on the lower half cabin rear bulkhead for leaks. Openings,
stringer cutouts, or cracks must be kept sealed with sealing compound (17, Chart 1, 91-00-00) between the bulkhead and the skin by removing the upper upholstery panel of the bulkhead. Also plug the leveling lug holes in the baggage doorframe to prevent entry of cold air.
panel from the
Remove the heater
access
b.
Remove the heater
ducting.
c.
Remove four bolts
a.
right Inspect
shroud
heater
heater.
essary.
Inspect the heater control box for full stop-to-stop travel and proper sealing of the valve. Inspect the condition of the air ducts leading to the windshield
the
screws.
Inspect the air intake ducts leading to the heater; check all clamps and connections for tightness and the duct for holes and cracks.
Install
V35BI
(F33A, F33C,
HEATER INSTALLATION AND A36)
side.
d.
Loosen the
clamp
side of the
right
the
on
heater which attach it to the exhaust
system.
the left side of the
on
heate r.
100-HOUR INSPECTION OF HEATING AND VENTILA TING SYSTEM
the
heater
through
the
e.
Remove
f.
Remove the heater shroud from the heater.
access
hole. Check for corrosion, cracks loose clamps, loose or
areas
in ducts,
fasteners
or missing operation, travel and
Check for proper of valves.
obstructions.
sealing
or worn
Pressure test the heater g. HEATER PRESSURE TESTING in this
100-HOUR INSPECTION OF THE EXHAUST SYSTEM
INS TALLA TION
HEA TER
as
indicated
Chapter.
ANDI
(A36TC
sssTC) Check per POWER Chapter 5-20-00.
I~js4TER a.
right
PLANT
REMOI/AL
Remove the heater
in
EXHAUST SYSTEM
(F33*. F33C, access
V358 ANL)
panel from
the
side. b.
Remove both heat ducts from the heater.
Disconnect the heater from the system and remove it from the airplane. c.
in
exhaust
Remove the screws from the heater shroud d. and slide the shroud off the heater,
a.
Install the heater shroud
b.
Install the heater
c.
Tighten the clamp
on
the
through on
the heater.
access
hole.
the left side of the
heater. d.
Install the four bolts
on
the
heater which attach it to the exhaust to 100 to 110
right side of the system. Tighten
inch-pounds.
e.
Install the ducts to the heater.
f.
Install the heater
access
panel. 21-40-00
Page A16
7
Oct16/92
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
HEA TER PRESSURE TESTING The heater should be could
which
inspected
introduce
planes, pressurize
for cracks and leaks monoxide
carbon
into
the
heating system. On
all
(EA-1
except the turbocharged models after), perform a visual inspection each 100
Bonanzas
and
pressure test each 500 hours.
hours and
test
can
be
accomplished
as
follows:
Remove the heater
as
indicated in HEATER
Pres-
either
change. NOTE The
heat transfer
internal
baffle
place for a.
On A36TC
psig.
immerse in water or "paint" with a soap solution. If any leaks are apparent, replace the heater. This test is also recommended for the heater at every engine
On the
turbocharged models (EA-1 and after), visually inspect and pressure test each 100 hours. The pressure
the heater to 25
and B36TC, pressurize the heater to 5 psig. surize the heater with air or nitrogen and
a
warpage is
studs
and/or
along
cone
with
must
supply of heat. for replacement.
correct cause
the
be
in
Any
REMOVAL. c.
b.
Itest
Inspect
for leaks.
the heater
On
visually and pressure
F33A, F33C, V35B and A36 air-
If the
inspection
reinstall the heater
as
indicates
a
good heater,
indicated in HEATER INSTAL-
LATION.
21-40-00
Page 8 Oct 16/92
Ale
BEECHCRAFT
BONANZA SERIES
MAINTENANCE MANUAL
A
DUCT TO AIR INTAKE
ADAPTER
MOUNTING BRACKET
IC´•\\\\\
~f_,,,,,
DNUT 13~ WASH,ER
OVERHEADDUCT TO
SCREW
(4)
’p--
(3)
SCREW 14)
NUT
SPACER
OUTLETS
WASHER (3 CLAMP
g~/ SAFETY CLAMP
(2)/ Ad~
SPACER
(2)
\BLOWER
SCREW
BOLT
nETnlL
[j)
A~
DETAIL
I~
CE-941 THRU CE-1555; CJ-156 THRU CJ-179; D-10348, D-10364 THRU
D-10403; E-1809 THRU E-2592; EA-192 THRU
A~
CE-1457 THRU CE-1555, E-2532 THRU E-2592, EA-505 THRU EA-514. SAFETY CLAMPS AND SAFETY WIRE INSTALLED PER SERVICE BULLETIN NO. 2380.
EA-514.
CE-1556 AND AFTER, E-2593 AND AFTER, EA-515 AND AFTER.
C9200124
Fresh Air Blower Installation
Figure 6
21-40-00
Page 9 A16
Oct 16/92
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
FRESH AIR BLOWER REMOVAL
FRESH AIR BLOWER INSTALLATION
(Figure 6)
(Figure 6)
Remove
a.
the
fifth
and
sixth
seats
when
a.
Place the blower in
attaching mounting bracket.
installed,
screws
position adapter and
and install four blower
to
the
upholstery panel.
b.
Remove the cabin
c.
Disconnect the electrical connector.
d.
Remove the
rear
the
b.
clamps securing
the ducts to
Connect the air ducts with
clamps.
Install the screw, or bolt(s), and spacer(s) c. through the blower fiange and brackets.
the fan inlet and outlet. d. e.
comply
Remove the safety wire from with Service Bulletin No. 2380.
airplanes that
Remove the screw (or bolt/bolts) through f. Observe the blower flange and mounting bracket. spacer and washer installation so they can be installed in the original locations. g.
mounting
Remove four
screws
be
safety
Blowers that have the safety clamps must Use a minimum of three strands of
wired.
.041-inch safety wire looped through the safety clamps. The safety wire should be installed with a slight tension and each strand should have equal
tension.
through the adapter, housing. Remove
e.
Connect the electrical connector.
f.
Install the
g.
Install the fifth and sixth seats if used.
rear
upholstery panel.
bracket and the blower
the blower from the
airplane. "END"
CONTINUEB
21-40-00
Page
10
Oct 16/92
A16
~eechcraft BONANZA SERIES
MAINTENANCE MANUAL COOLING DESCRIPTION AND OPERATION (Effectivity: Optional) I
optional air-conditioning system is a recirculating 12,000-BTU cooling system. The air-conditioner is wired through the right landing gear uplock position switch, the left landing gear safety switch, and the normally closed full throttle switch. With the airconditioner operating on the ground, the control circuit is wired through the left landing gear safety switch, which fully opens the condenser air scoop door located under the airplane. With the gear extended and the throttle fully opened, action of the full throttle The
remove power from the compressor clutch and drive the condenser air scoop door closed. coil, When the airplane is airborne and the landing gear is retracted, power is transmitted from the normally open contacts of the full throttle switch (actuated closed
switch will
right landfully open), through when closed switch (actuated ing gear uplock-position the gear is up and locked) to the condenser air scoop the
when the throttle is
I
flight-position-limit switch located at the end of the door (actuated closed when the door is closed), causing the actuator to open the door to the Right position. When the door flightposition-limit switch is actuated, the power is then normally open
contacts of the door
directed to the compressor clutch coil.
light, independent of the air-conditioner circuit, is by the condenser air scoop door, through the
refrigerant line drops to a pressure low enough to indirefrigerant and/or oil loss (below 7 psi), the switch will open and prevent further operation of the compresser. When the refrigerant system is properly charged (approximately 7 psi or mote), the switch will b, activated closed allowing the compressor clutch cate
,il to be activated so the air-conditioner may operate. The purpose of the switch is to prevent damage to the compressor should oil and/or refrigerant loss occur.
The condenser air scoop door under the airplane automatically opens when the air-conditioner is turned on´• On the ground, the door opens to approximately 3 inches. In flight, the door opens to approximately 3/4 112 inch. The air scoop door-actuator-limit switches are preset; however if adjustment becomes necessary, refer to CONDENSER CONTROL RIGGING in this
chapter.
The belt-driven compressor, which is coupled with a magnetic clutch, compresses the refrigerant to a high pressure, high temperature gas. This gas passes the condenser where
through
cooling
air removes
heat from the gas, condensing it to a liquid state. The liquid then passes through the expansion valve where it is metered into the evaporator at a rate of 55 psi, (30
psi
on
serials E-2104, E-2111 and after; EA-320,
EA-440 and after;and CE-1037 and after) which allows most of the liquid to return to a gas. The heat
left
required for evaporation is absorbed from cabin air passing over the evaporator coils. After passing through the evaporator, the refrigerant returns to the
closed contacts
compressor at
A
actuated
landing gear uplock-position switch’s normally (closed with the landing gear will indicate a door-open condition which extended), while the gear is extended.
high-pressure-sensing switch monitors the presof the refrigerant from the compressor to the expansion valve. The normally closed high pressure
The
sure
switch will actuate, causing an open circuit to the compresser clutch coil when the pressure in the line reaches 390 a 10 psi, (340 a 10 psi on serials E-2121 and after; EA-320, EA-440 and after; CE-1030 and after) which disables the compressor. The high pressure switch automatically resets to the normally
closed
position
when the
refrigerant falls to a safe high-pressure-poppet relief
pressure. There is also a valve, located on the forward side of the firewall, which will relieve the system if the pressure reaches 450 psi, and will reseal again at 360 psi. The low pressure switch, normally open (actuated closed when the system is charged with refrigerant) senses system pressure. When the pressure in the
a
reduced pressure.
delay relay has been added to the compressor circuit at serials E-2104, E-2111 and after; EA-320, EA-440 and after; CE-1037 and alter. The time delay relay prevents the compressor from being energized while a high head pressure exists, which would cause unnecessary stress on the belt and other components. The time delay relay is located on the forward side of the front spar carry-through on the right side of the A time
airplane.
E-211 I
All Serials
except E-2104, and after and except EA-320,
(Effectivity:
EA-369 and
after)
The optional air-conditioning system is controlled by a switch on the powerplant control panel and by both high- and low-pressure-sensing switches. The switch which controls the system is located on the power-
plant
control
panel (console)
and is
placarded
AIR
21-50-00 A18
Page 1 Aug 18/95
ciS3eechcfaft BONANZA SERIES MAINTENANCE MANUAL and
placarded A/C
OFF and BLOWER HI LO
COND OFF HI LO. The system circuit breaker, located on the right hand subpanel, is placarded A/C
and OFF. The two circuit breakers which
CIR BKR.
system
The entire system is protected by a 15-amp circuit breaker. The compressor and condenser air scoop door are protected by two separate 5-amp fuses. The
panel. One circuit breaker (5 amps) protects the compresser wiring, while the other (15 amps) protects the blower wiring.
fuses
are
located
front of the
on
the forward side of the firewall in
copilot. This allows
the
evaporator fan
to
be operated after the compressor has been removed from the system by a blown fuse.
Serials 8-2104, 8-2111 and after, EA-320, EA-389 and after)
(Effectivity:
optional air-conditioning system is a recirculating cooling system. The two switches which control the system are located to the left of the pilots control col-
The
umn
are
are
protect the
located in the left sidewall circuit breaker
If the air-conditioner switch is in the A/C position, the air-conditioner will come on with the blower at low speed, even if the blower switch is off; however, moving the blower switch from OFF or LO to HI will result in blower speed increasing to its maximum. With the
air-conditioner switch off, the blower will operate at either high or low speed according to the switch position.
21-50´â&#x20AC;˘00
Page 2 Aug 18/95
A18
BONANZA SERIES MAINTENANCE MANUAL
I
i
15
r--
9 16
6 10 17
I. 2.
3. 4.
5. 6.
7. 8.
9. 10. I.
12. 13. 14. 15. 16. 17. ie.
Compressor High Pressure Line High Pressure Reltef Valve High Pressure Sense Switch Condenser
Receiver-Drrer and Sioht Class High Pressure Service Valve Expansion Valve Evaporator Pressure Service Valve Pressure Limit Switch Low Pressure Line Louvers-Atr Duct Air Duct Fan Fan Mater Condenser Actuator Compressor Clutch and Pullev Low Low
I
i
I
c95E~sleoon c
Alr-Condltloner
Figure
System
1
21-50-00 A18
Page 3 Aug 18/95
aeechcraft BONANZA SERIES MAINTENANCE MANUAL CHART 1 TROUBLESHOOTING AIR-CONDITIONING SYSTEM (EffectSvity: PROBABLE CAUSE
PROBLEM
cooling.
1. Insufficient
a.
Blower not
functioning.
b. Obstructed
or
disconnected air
Optional) i
CORRECTIVE ACTION a.
Repair.
b. Remove obstruction
or
repair.
duct.
Compressor slipping. c.
cooling.
filter
or
d.
Evaporator
e.
Refrigerant level low.
f. 2. No
clutch
a.
Expansion
belt
clogged,
valve malfunction.
Blown fuse, loose connection.
adjust.
c.
Repair
d.
Replace.
e.
Leak-test and
f. a.
or
recharge.
Replace. Check connections, fuse,
continuity. b. Blower not
3. Excessive vibration of unit.
unit,
c.
Leak-test and
d.
Compressor
d.
Repair
a.
Overcharged.
a.
Correct
b. Air in system.
b.
Purge
a.
Mount
or
valves
inoperative.
compressor bolts loose.
c.
d. Fan
a.
Add oil.
b.
Replace.
refrigerant level.
c.
Add
hitting shroud.
d.
Align
5.
Hissing
6. Chatter module. 7. Belt
or
knock in evaporator
slipping.
8.Excessive belt
wear.
a.
Low
a.
Defective
a.
refrigerant. and
e.
Replace.
tighten shroud.
a.
Add
a.
Replace.
Loose.
a.
Adjust.
b.
Overcharged.
b. Correct
c.
Air in system,
c.
Evacuate and
a.
Pulleys
not in line.
a.
Align pulleys.
tight.
b.
Adjust
c.
Replace.
d.
Replace.
charge.
b. Belt too c.
expansion
Pulley groove wrong
valve.
size.
d. Belt width wrong, 9. Broken belt.
recharge system.
Ic. Tighten.
oil level low,
Defective compressor,
replace.
and
Tighten.
e.
a.
Check all
causes
listed,
recharge.
refrigerant charge.
d.
Compressor Low
or
loose.
pulley
b. Defective belt.
in evaporator module.
Repair.
Leak in system.
d. Drive
Noisy
b.
c.
c.
4.
functioning,
refrigerant.
refrigerant
or
la. Replace
level.
recharge.
replace.
or
correct.
21-50-00
Page 4 Aug 18/95
A18
aeechcraft BONANZA SERIES MAINTENANCE MANUAL COOLING
MAINTENANCE PRACTICES
I
expansion valve, but can also cause hydrochloric or hydrofluoric acids in the system. The air-conditioning system must be purged if contaminated with foreign material or freeze into ice at the
the formation of
(Effectivlty: Optional) MAINTENANCE OF AIR-CONDITIONER
moisture.
Servicing the air-conditioning system consists of periodically checking the refrigerant level, checking compressor oil level and changing the system air filter. Recharge the system whenever the refrigerant level is low, air has entered the system
or
components carry-
replaced. Refrigerant leaks may be ing refrigerant detected by inspection with a flameless leak detector. are
PRECAUTIONARY SERVICE MEASURES regulations enacted in the United States, R-12 refrigerant cannot be vented into the atmosphere. When performing maintenance on the air-conditioning system where R-12 can Due to the air
a.
quality
control
escape from the system, evacuate the system with only a recovery or recycle servicing unit that will sal-
vage the
refrigerant,
The air-conditioning system is a high pressure b. system. Before disconnecting a refrigerant line, the
system must be discharged with a recovery servicing unit. Purge the entire system to a 125-micron level.
All precautions should be taken to prevent damage to fittings or connections. Even minute damage to a connection could cause it to leak. Any fittings getting grease or dirt on them should be wiped clean with a e.
cloth
dampened
solvents such agent, for they
with alcohol. Do not as
trichloroethylene
use
chlorinated
for
a
I
cleaning
contaminants. If dirt, grease or moisture gets inside lines and cannot be removed, the line will have to be replaced.
f.
For
are
airplane serials prior
to
CE-1792, E-2945 and
small amount of clean 500 viscosity refrigeration oil (8, Chart 1, 91-00-00) on all tube joints and dip the o-ring in this oil before assembling the
EA-579,
use a
I
joint. g. For airplane serials CE-1792 and after, E-2945 and after, and EA-579 and after, use a small amount of Ester Oil (65, Chart 1, 91-00-00) on all tube joints
dip the o-ring in this oil before assembling joint. This will help in making a leak-proof joint. and
1
the
1,,,,41 CAUTION
WARNING
Insufficiently torqued tubing connections can result in loose joints while excessively torqued connections can cause deformed joint parts. Either condition can result in refrigerant leakage.
A face shield should be worn when performing maintenance on the Ilnes because refrigerant coming In contact with the eyes can cause loss of
sight.
connecting aluminum fittings in the refrigersystem, torque all 5/8-inch fittings to 18 21 footpounds and all 1/2-inch fittings to 11 13 foot-pounds. h.
When
ant
Do not smoke when
servicing the
system with refrigerant because It converts to a
exposed
highly toxic gas
NOTE
when
to an open flame.
The
Before any service is attempted which requires opening of refrigeration plumbing or units, the person doing the work should be throughly familiar with c.
servicing the system. They should follow very carefully these instructions when performing the task that will maintain this system in a proper functioning order. instructions
I
d.
The
on
major
reasons
for these
measures are
for
valves
the system. Dirt contaminants may cause leaky or wear in the compressor. Moisture may not
only
receiver-dryer is the
last
assembly
to be connected. This is necessary to
reduce and/or eliminate the entry of moisture into the lines. For
charging the air-conditioner Chapter 12-10-00.
or
checking
the oil,
refer to
AIR-CONDITIONING FUNCTIONAL TEST With the engine running at 1,000 rpm and the system on, observe the sight glass. If refrigerant appears milky or bubbles appear, charge the system as noted 21-50-00
A18
Page 5 Aug 18/95
I
BONANZA SERIES MAINTENANCE I~ANUAL
ELECTRIC CLUTCH SUCTION
ENGINE-DRIVEN COMPRESSOR IDISCHARGE
HIGH PRESSURE SWITCH
LOW PRESSURE SWITCH
PRESSURE RELIEF VALVE
SERVICE VALVE [SUCTION) UNDER COPILOT’S SEAT RECYCLE/ RECOVERY UNIT
SERVICE VALVE (HIGH PRESSURE) UNDER COPILOT’S SEAT
O EXPANSION VALVE
RECEIVER DRYER 5 SIGHT GLASS UNDER COPILOT’S SEAT
t IN
tII
OUT
CONDENSER IN
OUT
EVAPORATOR
C91E1~185118
C
Air-Conditioning System Schematic Figure 2 21 -50-00
Page 6 Aug 18/95
A~8
aeechcraft BONANZA SERIES MAINTENANCE MANUAL under the heading CHARGING THE AIRCONDITIONING SYSTEM in Chapter 12-10-00. Check the system for leaks using a flameless leak detector.
belt should be retensioned to 50 to 65 pounds and maintained at this tension. To check the compressor belt tension, use a Burrough’s Model BT-33-73F-50 belt tension gage or equivalent. Position the belt ten-
SYSTEM LEAK DETECTION
sion gage as shown in Figure 3. If a belt tension gage is not available, a properly tensioned new belt will
A reduction of
system cooling ability or the presence of bubbles in the refrigerant, may indicate a partial loss of refrigerant. Check for bubbles in the sight glass on the receiver-dryer located under the copilot’s seat. The sight glass should be checked during operation at
require 4.1 to 5.0 pounds force for a midspan deflection of 0.14 inch. After 5 hours operating time, the belt should be retensioned. After 5 hours, a properly tensioned belt will require a force of 3.3 to 4.1 pounds for a midspan deflection of 0.14 inch. The belt should be
maximum available ambient and cabin temperatures. Streams of bubbles past the glass and/or milky appearance in the glass indicate an inadequate quantity of refrigerant. If a loss of refrigerant is suspected,
maintained at this tension. See sion by midspan deflection.
inspection of the system plumbing should be carried out to locate the source of the leak. Large leaks may be located by the appearance of oily spots where oil has been carried out by escaping refrigerant. Smaller leaks, which are much more difficult to locate, may be detected by detergent bubbles, or an elecan
Mounting Nut
Compressor
(Figure 4)
Drive to
gain
access to
the
compressor belt.
jamnut on the adjusting bolt. self-locking nut on the idler arm. adjusting bolt to remove tension from
b.
Loosen the
c.
Loosen the
d.
Use the
the
compressor belt. e.
Removethecompressor
to 325 in.lbs.
................................................275
Idler
engine cowling
Engine 220 to 260 in. Ibs.
COMPRESSOR BELT REMOVAL the
Bracket to
Bolts
Nut
Open
on
to Bracket
Bolt
...800 to 850 in. Ibs.
Pulley Bolt
Pulley Nut
Bolt Jamnut .........,,,.275 to 325 in. Ibs.
Idler Arm
Self-Locking
COMPRESSOR BELT PULLEY ALIGNMENT If it is determined that the compressor belt pulleys are alignment, they may be adjusted as follows:
NOTE
alignment gage is available (Burrough’s No. 8082 for 0.38 pulleys and No. 8082A for 0.50 pulleys) to check belt alignment.
An over
the compressor
pulley, and drive pulley. pulley, b. Use the adjusting bolt on the idler pulley bracket idler
to increase belt tension as indicated in COMPRESSOR BELT TENSION ADJUSTMENT in this chapter,
the idler
self-locking pounds. d. Torque the jam nut on the adjusting 325 inch pounds. e. Closetheengine cowling. Torque
nut
on
arm to
300
to 350 inch
a.
Opentheengine cowling.
b.
Removethe beltasindicated in COMPRESSOR
BELT REMOVAL.
Determine if the idler
c.
bolt to 275 to
COMPRESSOR BELT TENSION ADJUSTMENT New belts should be installed with a static tension of pounds. After 5 hours of operating time, the
65 to 80
Nut........,300 to 350 in. Ibs.
out of
belt.
install the compressor belt
the
to 800 in Ibs.
...........................700
Adjusting
(Figure 4)
c.
to 325 in. Ibs.
................................,.275
COMPRESSOR BELT INSTALLATION
a.
4 for belt ten-
COMPRESSOR MOUNTING TORQUES
tronic detector.
a.
Figure
of
pulley
or
drive
pulley
is out
alignment.
d.
remove e.
appropriate pulley and add required per Figure 5.
Remove the shims
as
Reinstall the
pulley and torque
as
or
indicated in Fig-
ure 5.
f.
If the drive
pulley
was
removed, install the cotter
pin. 21-50-00
A18
Page 7 Aug 18/95
~eechcraft BONANZA SERIES MAINTENANCE MANUAL NOTE
d.
Connect the hoses to the condenser.
If the cotter pin holes do not align within the prescribed torque range, a new nut may be installed or one AN960-C916L washer may be used under the nut.
e.
Install the
f.
fairing.
Install the beacon light.
CONDENSER CONTROL RIGGING The condenser is located
CONDENSER REMOVAL The condenser is located beneath the the main spar carry-through.
airplane
aft of
light.
a.
Remove the beacon
b.
Removethefairing aft ofthecondenser.
c.
Disconnectthe hosesatthecondenser. Remove actuator bolts.
e.
Remove the attach bolts.
conditioner turned
flight position flight.
the condenser will be open to any time the airplane is in normal on
The condenser is controlled f.
Remove the condenser.
the bottom side of the
airplane fuselage approximately even with the 3rd and 4th seats. With the airplane on the ground and the airconditioner turned on, the condenser will be fully open. Any tine the air-conditioner is turned off or the engine is at full throttle with the air-conditioner turned on, the condenser will be fully closed. With the airthe
d.
on
that controls the
air-scoop
by the electrical circuitry
actuator. Check the
con-
denser for proper operation. If the condenser fails to operate, check for an open circuit between the
CONDENSER INSTALLATION a.
Place the condenser in
position.
PRESS AIR COOL switch and control actuator.
b.
Secure condenser with
attaching bolts.
CONDENSER UPLIMIT AND DOWNLIMIT RIGGING
c.
Installtheactuator bolt.
For
complete
condenser
rigging,
full up travel of the
condenser should first be checked. a.
COMPRESSOR PULLEY
With the condenser actuator motor attached to the
condenser, and the condenser in the upper limit of travel, the forward edge of the condenser fairing should be
approximately
flush with the lower skin.
is not flush, operate the condenser motor to lower the condenser.
rT-T7 I
fairing
b.
If the
c.
With the condenser lowered, disconnect the bolt
that attaches the actuator to the condenser and
V BELT
the actuator eye bolt in to raise, condenser.
O
d.
or
screw
out to lower, the
Reconnect the condenser attach bolt, operate the and recheck for flush uptravel of the con-
denser.motor, IDLER PULLEY e.
When the proper
uptravel
of the condenser is
attained, the fully down travel (full extension), is
TTENSION GAGE
DRIVE PULLEY 36-425-3
auto-
through the action of the internal limit switch of the actuator and need not be adjusted. In the fully extended position, the forward edge of the condenser fairing is approximately 3 inches beneath the fuselage skin. matically
set
CONDENSER FLIGHT-UCTENSION LIMIT R1GG1NG Belt Tension Measurement
Figure
3
Both the
flight-extension
extended
warning-light
limit and the condenser-
switches
are
located
on a
21-50-00
Page 8 Aug 18/95
A18
aeechcraft BONANZA SERIES MAINTENANCE MANUAL bracket denser as
a.
the aft end on the right side of the conassembly. To rig both of the switches, proceed near
ARNING
follows:
Remove the 12
ing which
screws
The air-conditioning system Is a high pressure system. Before dlsconnectIng a reMgenmt line, the system must be discharged with a recovery servlc-
and washers from the fair-
the switches and pressure hoses aft
covers
of the condenser. b.
Remove the
unit. Purge the entire system to 125-micron level.
Ing
fairing.
Disconnect each of the two pressure hoses located on each side of the condenser assembly.
a
c.
d.
top
voltmeter to the
the switch and
f.
Connect the voltmeter
as
indicated in step
c
to the
con-
servicing the refrigerant because It a highly toxic gas when
Do not smoke when
Adjust
condenser-extended warning-light switch (inboard switch). Adjust the switch actuating bolt on the condenser to actuate the switch when the forward edge of the condenser is lowered 1.5 inches perpendicular to the fuselage skin at the airplane centerline.
lines
sight.
the bolt on the end of the condenser to actuate the switch when the forward edge of the condenser is lowered 1.25 inches perpendicular to the fuselage skin at the airplane centerline. e.
when
tact with the eyes can cause loss of
one lead to the bottom with the center screw. connection Do not make
screw on
screw.
a
worn
performing maintenance on the because refrigerant coming In
Right-extension-limit (outboard switch), by attaching one lead to the
Connect
switch
A face shield should be
system with converts to
exposed the
to an open flame
right engine cowling.
a.
Open
b.
Remove electrical leads from compressor clutch
terminals. Disconnect
c.
Cap refrigerant
refrigerant
lines at the compressor.
lines and compressor
fittings.
Remove the compressor belt as noted in COMPRESSOR BELT REMOVAL in this chapter.
d.
NOTE voltmeter to adjust the above switches is not necessary if the click of switches upon actuation is audible.
Using
a
g. Connect and tighten the pressure hoses, place the aft condenser fairing in position and install the 12 washers and
screws.
Purge and charge the air-conditioning system as indicated in CHARGING THE AIR-CONDIIIONING SYSTEM in Chapter 12. h.
e.
and
Remove the compressor remove compressor.
The starter drive pulley nut is torqued to 700 800 inch-pounds. If the cotter pin holes will not align, change the nut and/or use a washer under the nut. Do not overtorque the drive pulley nut. Install the cotter pin. a.
NOTE The use of AN960-C916L washer,
NOTE
nance on
the
where R-12
air-conditioning system
escape from the syssystem only with a recycle servicing unit that can
equivalent, as required for alignment, is permissibie. b.
cotter
or
pin
Remove the spacer from the bolt through the Inspect the o-ring for damage and replace if
necessary. c.
Install the compressor bracket assembly and align pulley with the drive pulley. The idler should
the idler
recovery or will salvage the
and washer
be
tightened snug within track. Install the existing nut on the through bolt, then install the two 21-50-00
A18
I
case.
tom, evacuate the
refrigerant.
nuts
INSTALLA TION AND ALIGNMENT OF COMPRESSOR
COMPRESSOR REMOVAL
Due to the air quality control regulations enacted in the United States, R-12 refrigerant cannot be vented into the atmosphere. When performing mainte-
mounting bolts and
Page 9 Aug 18/95
I
~eechcraft BONANZA SERIES MAINTENANCE MANUAL
ACCESSORY DRIVE PADS
COMPRESSOR BRACKET
G
I\.ro~-o7
MIDSPAN DEFLECTION CHECK
I
COMPRESSOR
O
ADJUSTING BOLT
STARTER
JAM NUT
IDLER PULLEY
DRIVE PULLEY
IDLER ARM SELF LOCKING NUT
UP
´•C
ENGINE CENTER LINE
LEFT
I)RIGHT
LOOKING FORWARD AT THE REAR OF THE ENGINE 36-425-5
Belt Tension
By Midspan Deflection
Figure
4
21-50-00
Page 10 Aug 18/95
A18
BONANZA SERIES
MAINTENANCE MANUAL
Charge
.375-inch-diameter, e-inch-long bolts with their wash-
j.
tighten all 3 bolts finger-tight. Beginning with the through bolt, tighten the bolts to 220-260 inchpounds in sequence counterclockwise.
Chapter
the system with
refrigerant
as
specified
in
ers, and
I
d.
and
Install the compressor utilizing the bolts, washers, self-locking nuts that are supplied with the bracket
equipment kit. Torque a.
k.
Loosen the
locking
jam
the nuts 275
nut
on
the
325
adjusting
a,
bolt and self-
Adjust adjusting bolt inward tension. Adjust the V-belt to
by rotating
to obtain the proper belt
the
the tension outlined in COMPRESSOR BELT TENSION ADJUSTMENT in this
I I
I
chapter.
g. Remove caps from lines and compressor and install lines to the fittings on the compressor,
magnetic
pilot’s
and
copilot’s
seats per
Chap-
b´•
Remove the spar
c.
Disconnect the electrical leads from the motor.
d.
Remove the bolts which attach the blower to the
cover.
remove
the blower.
VENTILATION BLOWER INSTALLATION
Torque the jam nut 275 to 325 inch-pounds, and self-locking nut 300 to 350 inch-pounds,
Install the electrical leads to the
Remove the
evaporator and
f.
h.
j
Closetheengine cowling.
ter 25.
nut on the idler arm. Install the V-belt.
the idler outward
12-10-00.
VENTILATION BLOWER REMOVAL
inch-pounds.
a.
Position the blower
b.
install the bolts
on
the evaporator.
attaching
the blower to the evapo-
rater. c´•
Connect the electrical leads to the motor.
d´•
I"stallthespar
e.
Installtheseats
clutch.
Service the system with oil as specified in CHECKING COMPRESSOR OIL LEVEL in Chapter 12-10-00,
i.
cover.
perChapter25.
IDLER PULLEY ASSEMBLY BOLT
(800 TO 850
IN. LBS.
TORQUE)
ADD OR REMOVE CONTINENTAL PIN
64395~20 SHIMS BFlWEEN BEARING AND SPACER FOR
~j
PROPERIVIGNMENT
SPACER
DETAIL STARTER/ACCESSORY
A
~iY
SPACER
DRIVER PULLEY NUT
(700 TO
800 IN. LBS.
TORQUE)
A
PIN
ADD OR REMOVE CONTINENTAL P/N
DETAIL
B
646064-20 SHIMS BFlWEEN PULLEY AND SPACER AS REQUIRED FOR PROPER ALIGNMENT 36425-4
Belt
Puiley Alignment Figure 5 21-50-00
A18
I
Page 11 Aug 18/95
BONANZA SERIES MAINTENANCE MANUAL
EVAPORATOR REMOVAL
b.
Connectthe
Depressurize the air-conditioning system with a recycle servicing unit as specified in DEPRESSURIZING THE AIR-CONDITIONING SYSTEM in Chapter
c.
Connect the electrical leads to the motor.
a.
12. b.
Remove the
and
pilot’s
copilot’s
seats per
Chap-
ter 25. c.
d.
Remove the
cover
cover
remove
the tape
Removethe sparcover.
g.
Removethe ducts.
h.
Disconnect the electrical leads from the motor, Disconnect the
with
refrigerant
as
specified
in
from over the ducts.
Disconnect the drain tubes and between the evaporator and duct.
i.
Charge the system
CHARGING THE AIR-CONDITIONER SYSTEM in
and filter.
e.
f.
Install the ducts and tape with duct tape (29, Chart 1, 91-00-00) to the evaporator and connect the drain tubes. d.
e.
Remove the filter
refrigerantlines.
refrigerant
lines and cap the open
f´•
I"stall the spar
g.
Install the filter and filter
h.
Install the
i.
cover.
cover over
Install the seats per
cover.
the ducts.
Chapter
25.
EVAPORATOR FILTER REPLACEMENT
ports.
j.
Remove the bolts
attaching the evaporator to the evaporator from the airplane.
floorboard. Remove the
The evaporator filter should be dirty or defective. Remove the cover
EVAPORATOR INSTALLAT/ON a.
located
copilot’s side
on
to
replaced screws
the underside of the
gain
access
if
clogged,
in the spat
airplane
on
the
to the filter,
Position the evaporator in the airplane and install attaching it to the floorboard.
the bolts
21 -50-00
Page Aug
12 Al8
I
CHAPTER
COMMUNICATIONS
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 23
COMMUNICATIONS
TABLE OF CONTENTS
PAGE
SUBJECT 23-10-00
Ground Communication
System Description and Operation (E-2104, E-2111 and After; EA-320, EA-389
Ground Communication
.....1
and
After)
....1
23-60-00
Discharging- Description and Operation Discharging- Maintenance Practices Static Wick Removal (Priorto D-10383; CJ-156; CE-978; E-1932; EA-273) Static Wick Installation (Priorto D-10383; CJ-156; CE-978; E-1932; EA-273) Static Wick Removal (D-10383; CJ-156; CE-978; E-1932; EA-273 and After) Static Wick Installation (D-10383; CJ-156; CE-978; E-1932; EA-273 and After) Static Wick Inspection.
Static
...........1
Static
...............1
nzl
23-CONTENTS
........1 .......1
......2 .....2
Ray~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 23
COMMUNICATIONS
LIST OF EFFECTIVE PAGES CH-SE-SU
PAGE
DATE
23-LOEP
1
Sep 30/03
23-CONTENTS
1
Sep 30/03
23-10-00
1
Sep
27/84
23-60-00
1 and 2
Sep
30/03
A24
23-LOEP
1
BEECHCRAFT BONANZA SERIES NIAINTENANCE #ANUAL
GROUND
COMMUNICATION
SYSTEM
communication while all other electrical
DESCRIPTION AND OPERATION
off. The switch for this
located
O~OUND COMMUNICATION (E-2104, E-2111 and afte~ EA-320, EA-389 and after) airplane may be equipped with an optional ground communication system. This system allows radio The
equipment is turned push-on, push-off switch instrument panel to the right of
system is
the top of the systemâ&#x20AC;&#x2122;s two 5-amp circuit breakers
near
center. The
below the
a
are
located
battery box. On airplane serials CE-1037 and optional equipment is available on the model
after, this F33A; however, there
are
no
standard locations for the
equipment.
"END"
23-1090 A9
Page 1 399 27/84
Ray~hean
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
STATIC DISCHARGING A static electrical
retained, the
may build up in the surface of the airplane while it is in flight. This electrical charge, if interference in radio and avionics equipment operation. Therefore, static wicks are installed on
charge
can cause
trailing edges
DESCRIPTION AND OPERATION
of the
flight
surfaces to aid in the
STATIC DISCHARGING On serials
elevator,
prior
installed in the
installed with
same manner.
(three
elevator and three same manner.
charge.
MAINTENANCE PRACTICES
each aileron and
one
of the electrical
D-10383; CJ-156; CE-978; E-1932, and EA-273, the static wicks
to
one on
dissipation
on
on
one on
the rudder. These five
(four
on
model
35)
are
installed with
static wicks
are
one on
each
I
removed and
On serials D-10383; CJ-156; CE-978; E-1932; EA-273 and After, the static wicks are B36TC) on each wing tip, two (none on the B36TC) on each aileron, three on each
I
the
the rudder. These fifteen
(twelve
on
the
V35B) static wicks are removed and installed in the flight surface and need not be removed in normal
The base of the later static wicks is riveted to the
service.
STATIC WICK REMOVAL
(PRIOR TO 0-10383; CJ-156; CE-978; E-1932; EA-273)
and lock washers
a.
Remove the two
b.
Removethewickfromthe surface.
screws
STATIC WICK INSTALLATION Clean around the static wick
area
securing
(PRIOR TO
the wick to the surface.
D- 10383; CJ- 156;
Removing all grease, oil, paints, metal finishes grit sandpaper, or equivalent. The mating surfaces
or
other
preventative
between the static wick base and the
use
high
resistance
properties
must be smooth and contoured
is in actual contact. Alodine treatment for aluminum to
CE-978;
E- 1932;
EA-273)
I
by:
a.
area
I
or
Dow treatment of
so
with Minnesota 3M No. 600
that the maximum surface
magnesium
is
a
suitable corrosion
airplane surface.
NOTE Dissimilar materials
are
not to be used in intimate contact unless
suitably protected against
electrolytic corrosion. Whenever it is necessary that any combination of such metals be assembled, an interposing material compatible to each should be used. b.
Install the wick,
using
the two
screws
and lock washers.
NOTE Check the
should be c.
continuity a
between the static wick base and the surface to which it is attached. There
resistance 05 2.5 milliohms
Refinish the surface
area
or
less.
around the wick attachment
point.
23-60-00
Sep
30/03Page
1
Ray~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
I â&#x20AC;&#x2122;STATIC
WICK REMOVAL
(0-10383;
CJ- 156;
a.
Unscrewthestatic wickfromthebase.
b.
Remove the static wick and the lock washer.
STATIC WICK INSTALLATION
(0-10383;
CE-978; E-1932; EA-273 AND AFTER)
CJ- 156; CE-978; E- 1932; EA-273 AND
The threads must be clean and free from grease, oil and a.
Install the static wick and lock washer.
b.
Torque
AFTER)
paint.
the static wick to 4.7 in.-lbs.
STATIC WICK INSPECTION Static wicks
are
of 500 volts to
inspected to
measure
ensure
correct
discharge capabilities.
Use
a
megohmeter with
a
minimum test
voltage
the resistance of the static wicks.
NOTE All static wicks
Use the
following procedure to
on
the
airplane
must be the same
type and manufacturer.
check the static wicks.
CAUTION 1 I CALmON Refer to the
megohmeter manufacturers operating
data to
correctly
use
the
megohmeter and
prevent electric shock. test lead from the
megohmeter to
a.
Connect
b.
Connect the other test lead of the
c.
Set the switch
a
on
the
If static wicks part number 35-5010-3
2.
For other static wicks the
wicks that
e.
Set the switch
on
Sep
30/Page
2
the
are
reading
are
23-60-00
the base of the static wick.
installed, the meter reading
must be between 1 and 100
outside the ranges
megohmeter to
of the static wick.
ON and read the meter:
1.
Replace static
tip
megohmeter to
megohmeter to
d.
the
given
in
Step
c.
must be 470 kilohms
20%.
megohms.
above.
OFF and disconnect the test leads from the static wick.
n24
CHAPTER
ELECTRICAL POVVER
Raytheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 24
ELECTRICAL POWER
TABLE OF CONTENTS SUBJECT
PAGE 24-30-00
DC Generation
-Descriptionand Operation
System. Generation -Troubleshooting Electrical
DC
DC Generation
........._____
........._____
~1
.........___
........._____
~2
........._
Maintenance Practices
................._
~5
........._
Alternator Removal Alternator Installation
Drive Gear and
Coupling Installation Voltage Regulator Removal Voltage Regulator Installation Voltage Regulator Adjustments. Battery Maintenance Program
on
New Alternators.
5
........._
~6 ~6 ~6 ~7
Battery Removal
Battery Installation. Battery Cleaning Battery Box Cleaning Battery Servicing. 24-31-00
Standby Generator Description and Operation (Prior to E-3306; Standby Generator-Maintenance Practices Standby Generator Functional Test
Prior to
................._
EA-652)
.1
~2
........._
~2
24-31-01
Standby Alternator Description and Operation (E-3306 Standby Alternator- Maintenance Practices Standby Alternator Function Test Standby Alternator Removal Standby Alternator Installation
and After; EA-652 and
After) ..................1 ~2 ~2
~2
................._
~3
................._
nzr
24-CONTENTS
Mar
31/05Page
1
MaYffraen
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 24
ELECTRICAL POWER
TABLE OF CONTENTS
(Continued)
SUBJECT
PAGE 24-40-00
External Power
Maintenance Practices
(CE-1024
and
After; CJ-156
and
After; E-2111 and
After; EA-339 and After) (CE-748, CE-772 thru CE-1023; CJ-149 thru CJ-154; E-1241 thru E-2110; EA-11 thru EA-338; D-1009â&#x20AC;&#x2122;1, D-10120 and After; Work Order or Airplanes with Kit 33-3008 Installed) Modified by Factory Airplanes
1
24-50-00
Electrical Load Distribution
Maintenance Practices
Electrical Utilization Chart
Page
ran~2
31105
24-CONTENTS
1 1
A2l
Ray~heon
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 24
ELECTRICAL POWER
LIST OF EFFECTIVE PAGES CH-SE-SU
PAGE
DATE
24-LOEP
1
Mar 31/05
24-CO NTE NTS
1 and 2
Mar 31/05
24-30-00
1 thru 9
Mar 31/05
24-31-00
1 and 2
Sep
30104
24-31-01
1 thru 3
Sep
30/04
24-40-00
1
Sep
30/04
24-50-00
1 thru 5
Sep
30/04
A27
24-LOEP
Mar
31/05Page
1
RBytheOn
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
DC GENERATION
DESCRIPTION AND OPERATION
ELECTRICAL SYSTEM airplane electrical system includes a 28-volt, 50-amp (prior to CJ-156; CE-929; D-10354 EA-159; E-1766) or 60-amp (CJ-156 and After; CE-929 and After; D-~0354 and After; EA-159 and After; E-~766 and After) alternator. A 1 OO-amp alternator is optional. The alternator and one 1 l.O-ampere-hour lead acid battery supply all the de power to the airplane. The battery supplies power for the airplane starter system and electrical system when the engine is not operating. The alternator provides the de voltage to the electrical system during engine operation. The
output is controlled by a combined transistorized voltage regulator/overvoitage relay. Current to normally derived from the airplane bus through a 10 amp switch/circuit breaker and the voltage regulator/overvoltage relay. The self excited alternator is designed to have a small amount of residual magnetism. In the event the battery is discharged to the extent that it will not excite the alternator field, the residual magnetism is strong enough to excite the alternator field if all the load is removed from the airplane electrical system until the bus is brought up to proper voltage. When attempting to excite the alternator and develop output without battery power, turn off all electrical load and operate the engine at near cruise speed. In the event the alternator is not producing electrical power, the alternator sensor will illuminate an annunciator light.
The alternator
excite the alternator field is
system repair methods used must be made in accordance with the Federal Aviation Agencyâ&#x20AC;&#x2122;s Aircraft inspection and Repair manual AC 43.13-1A andlor the Aircraft Alterations manual AC 43.13-2. Any components replaced and any wire, cable, or terminals used in the maintenance of the electrical system must be of airplane quality. Any solderless terminals or splices used must be applied with tooling specified by the vendor. Electrical
n27
24-30-00
1
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
DC GENERATION -TROUBLESHOOTING
Troubleshooting procedures in this section apply to a 50-amp (prior to CJ-156; CE-g29; D-10354; EA-159; E-l 766), 60-amp (CJ-156 and After; CE-929 and After; D-10354 and After; EA-159 and After; E-1766 and After) or optional 100-amp alternator and may be accomplished without special test equipment. All supporting systems or equipment must be operating. All circuit breakers, switches, etc. must be in the position required for proper operation before troubleshooting begins. The
following troubleshooting charts
are
general
in nature. Refer to the
appropriate subchapter for further
information
Chart
Troubleshooting
System
PROBABLE CAUSE
TROUBLE
1.
Alternator
No ammeter indication.
a.
Loose connection.
b. No alternator
output.
c.
Defective
d.
Overvoltage relay tripped,
voltage regulator,
REMARKS
a.
Check connections
b. Check alternator output. c.
Replace regulator.
d. Check
proper
2.
No alternator
output,
Defective arnmeter.
e.
Replace
a.
Circuit breaker
a.
Reset.
b.
Open circuit.
b. Check
c.
Defective control switch.
c.
Replace
switch.
d.
Replace
brushes.
e.
With alternator
d. Brushes e.
worn
out.
Dirty slip rings,
f. Brushes not
contacting slip
rings.
Page
raM2
31/05
low.
No. 400
or
finer
remove
grit.
running, clean slip rings with sandpaper. Use air jet to
f. Clean brushes and holders with
a clean, lintfree, dry cloth. Replace weak springs.
g. Test resistance of rotor. defective.
Open
or
shorted circuit in
h. Test resistance of stater.
a.
Replace
if
Replace
if
defective.
voltage regulator,
Defective rectifier diode.
24-30-00
for
of circuit.
shorted circuit in
stater.
Alternatoroutput
continuity
or
i. Defective
relay
ammeter.
g. Open rotor. h.
3.
regulator/overvoltage output.
e.
tripped,
throughout system.
i. a.
Replace regulator.
Replace diode.
nz7
Raycheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 2
Troubleshooting Battery System TROUBLE
1.
PROBABLE CAUSE
No power indicated with master switch ON.
battery
a.
Battery discharged
b.
Open
defective.
a.
battery
b. Check
or
circuit between
REMARKS
and
Test.
continuity.
master switch. c.
Master switch defective.
d. Defective
Check switch for
operation. Replace if necessary.
c.
relay.
d. Check
Replace 2.
Poweronwith masterswitch in OFF
3.
to
operate.
for
operation.
a.
Master switch defective.
a.
b.
Relay
b.
Replace relay.
a.
Loose
or
broken lead.
a.
Secure lead.
b. Loose
or
disengaged
b. Secure terminals.
Check switch for operation. Replace if necessary.
position.
Complete failure
relay
if necessary.
contacts stuck.
terminals in
battery.
4.
Excessive spewage (crystalline on outside of battery).
c.
Battery
a.
Excessive
not
charged. charge
rate.
deposits
c.
Charge battery.
a.
Clean the
electrolyte b. Excessive ambient
b. Clean the
temperature
during charge.
electrolyte
battery and adjust
the
level.
battery
and
adjust
the
level.
Chart 3
Troubleshooting Voltage Regulator System TROUBLE
1.
PROBABLE CAUSE
NoOutput.
a.
REMARKS
Output voltage adjustment set too
a.
Readjust output voltage.
b.
Replace
c.
Reset
low.
b. Field circuit fuse open. c.
Overvoltage protection
circuit
tripped. d. Defective 2.
Outputisnormalwhen engineis started but time.
nzT
ceases
after
a
short
fuse.
overvoltage protection
circuit.
voltage regulator.
a.
Overvoltage
b.
Output voltage
circuitsettoo low. set too
high.
d.
Replace regulator.
a.
Readjust overvoltage
b.
Readjust output voltages.
24-30-00
circuit.
3
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 3
Troubleshooting Voltage Regulator System (Continued) PROBABLE CAUSE
TROUBLE
3.
Overvoltage circuitinoperative voltage,
at any
a.
Check external
b.
Replace regulator.
Output voltage adjustment set too high.
a.
Readjust output voltage.
b. Defective
b.
Replace regulator.
a.
Replace lamp.
a.
External pin connections not
properly
5.
Continuous
high output,
Indicatorlampfailsto light.
Page
42â&#x20AC;&#x2122;3t,
voltage regulator.
a.
voltage regulator,
a.
Lamp burned
b.
Relay
c.
Bad
24-30-00
out,
contacts
b. Clean
dirty,
ground connection lamp.
indicator
pin
connections.
made.
b. Defective 4.
REMARKS
at
c.
Check
relay
contacts.
ground
connection.
RB~heOn
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
MAINTENANCE PRACTICES
DC GENERATION
AL TERNA TOR REMOVAL output terminal of the alternator is connected directly to the battery. Make sure the battery switch is removing the wires at the alternator or serious damage to the wiring harness and alternator accidental grounding of the output stud. result from may
CAUTION: The
OFF before
a.
Access to the alternator is
b.
Disconnect the electrical
c.
Remove the four
gained through
wiring
attaching
the
cowl door and
right
through
the forward
opening of the
cowl.
harness from the alternator.
bolts. Remove the alternator.
AL TERNA TOR INSTALLA TION
position or damage to the alternator or drive gears could result. Care that the alternator pilot enters the crankcase bore squarely, and the alternator
CAUTION: Do not force the alternator into must be taken to
resting flat on
is
gasket
assure
the
engine pad.
the alternator
d.
Install
e.
Position the alternator
f.
attaching nuts and diagonally opposite pairs.
a new
on
on
tightened
Connect the electrical
h.
Start the
NOTE: If
a new
bringing
to
a
switch ON until all
snug condition. Torque the nuts to 150 to 180 in-lb in
wiring
harness connections have been made and
serious damage to the wiring harness and alternator may result from accidental
g.
engine
washers
battery
CAUTION: Never turn the or
mounting pad.
the
Install the
flange.
wiring
properly grounding.
to the alternator.
and check for oil seepage and proper
operation.
alternator is to be installed, refer to DRIVE GEAR AND COUPLING INSTALLATION ON NEW change the drive gear and coupling to the new alternator.
ALTERNATORS to
DRIVE GEAR AND COUPLING INSTALLA TION ON NEWALTERNA TORS new alternator may be received with or without a the old alternator may need to be installed on the following the procedures as follows:
The
shipping
spacer and washer
a.
Remove the
b.
Install the woodruff key surface
c.
Install the nut and
pin
A27
not
new
drive gear and coupling. The drive gear and coupling from alternator. The drive and coupling may be changed by
(if installed)
from the
replacement
already installed), coupling assembly
alternator.
and thrust washer. Ensure the
bearing
of the thrust washer is installed toward the alternator.
tighten
to
a
torque of 400 in-lb. If the slots of the castellated nut do not align with the cotter tightened further, but not to exceed 500 in-lb. Do not back off the nut to
hole in the shaft, the nut should be
align d.
(copper color)
(if
new
holes.
Install
an
1\11824665-302 cotter
pin carefully
to
ensure
clearance when the alternator is installed in the
engine.
24-30-00Page
5
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
NOTE: Do not
clamp the alternator body
portion portion bent
the nut. The
mounting flange in a vise. The cotter pin must be installed and then housing must NOT touch the thrust washer when bent over the alternator housing must NOT reach beyond the threads on the end
or
bent toward the alternator
trimmed. The
away from
of the shaft.
VOL TA GE REGULA TOR REMOVAL a.
Ensure that the
battery
switch is OFF, the
battery
is
disconnected, and the external power
source
is
disconnected. b.
Locate the voltage
c.
Tag and
d.
Remove the
remove
regulator
installed
all wires from the
on
the
right
aft side of the firewall in the
flight compartment.
voltage regulator.
voltage regulator attaching
screws
and
remove
the
voltage regulator.
VOL TAGE REGULA TOR INSTALLA TION a.
Ensure that the
battery
switch is OFF, the
battery
is
disconnected, and the external power
source
is
disconnected.
regulator
b.
Place the voltage
c.
Install electrical wires
d.
Connect the
e.
Operate
on
in
the
position
and secure with
voltage regulator
and
attaching
remove
screws.
tags.
battery. engine and
the
confirm the
voltage regulator setting
under various loads.
VOL TA GE REGULA TOR ADJUS TMENTS CAUTION: Observe NOTE: The
engine operating
voltage regulator is
limitations.
set and sealed at the
the warranty. Should it become necessary to
following a.
factory. Breaking the seal prior to the warranty limitations voids adjust the voltage regulator, adjustments may be made in the
manner.
Bring the voltage regulator and the alternator up to operating temperature (preferably by flying), by operating engine at 1,800 rpm with approximately 50% load for a minimum of 15 minutes.
the
precision
b.
Connect
a
c.
Operate
the
engine
voltmeter to the circuit breaker bus. at cruise rpm
(2,500 rpm)
with the alternator ON, and the electrical load reduced to
a
minimum.
d. e.
f.
Check the bus
voltage. If it is not 28.50
0.25 vdc,
adjustment should
be made
as
indicated in the
following Step.
plastic plug labeled REG from the corner of the regulator and adjust the regulator by turning the potentiometer clockwise to increase the voltage and counterclockwise to decrease the voltage. Make any adjustments in small increments and allow 2 or 3 minutes operation time for the system to stabilize between adjustments. Remove the
adjustment, the engine should carrying approximately 50% load.
For final check and and
Page
62~L,
24-30-00
be
operated
at cruise rpm
(2,500 rpm)
with the alternator ON
n2l
Rayeheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
BA TTER Y MAINTENANCE PROGRAM The
battery
is accessible for
systematic battery a.
A
b.
The
log
in the services
battery
occurs
performed
on
the
battery
should be removed from the
first. If the ambient
right engine
temperatures are servicing may
as
cowl and
removing
the
box
battery
and serviced after 100
above 90"F
flight hours engine
the time between
or
or
30
days, whichever
starts averages less than
be reduced.
battery should be checked every 25 hours and when fully charged, should barely touch eyelet at the bottom of the vent well. if the fluid level is low, add distilled water to fill. battery after charging for a proper specific gravity.
The fluid level of the be
or
short of the
slightly
Recheck the
NOTE: Do not overfill the
battery.
When the
battery cells are overfilled,
water and acid will
accessory section and lower fuselage. Neutralize the acid solution of sodium bicarbonate (baking soda).
of the
A
cover.
follows:
should be maintained.
airplane
30 minutes, the time between c.
the
servicing by raising
maintenance program should be established
engine
Do not allow the fluid level to
drop
below the
top
of the
plates.
During periods when the ambient temperature is below 32"F, the battery prevent freezing. When distilled water is added, the battery should the water with the electrolyte as a precaution against freezing.
state to
CAUTION: Excessive spewage may result if the cell vents
are
spill on the lower portions spillage immediately with a water
not
should be maintained in
be
kept clean
charged sufficiently
fully charged thoroughly mix
a
to
and open.
peak performance, the battery must be kept clean and dry. If foreign materials are present in sufficient quantities, the resultant deposits may form conductive paths that permit a rapid self discharge of the battery. To prevent the collection of such deposits, the battery should be cleaned after each 100 hours of service or every 30 days, whichever occurs first.
d.
For
e.
The
log of battery service performed should be
above recommended intervals barometer to
use
or
evaluated to determine the need to service the
to extend the intervals if justified. Accurate water
battery
consumption
adjustment of the servicing intervals. For further servicing, information instructions battery.
for
furnished with each
at the
data is
a
valid
are
BATTERY REMOVAL in the OFF
battery switch
a.
Place the
b.
Locate the
battery
CAUTION: Always
in the
remove
c.
Remove the negative
d.
Disconnect the
engine compartment
the
ground
battery
positive
position and on
ensure
that the external power unit is disconnected.
the upper
right
hand side of the firewall.
cable terminal first and install if last to prevent accidental short circuits.
cable from the
cable from the
battery.
battery
and
position
it
so
it will not interfere with the removal of the
battery. e.
Remove the
battery box from
f.
Remove the
battery from
n27
the
the firewall.
airplane.
24-30-00
7
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
BA TTER Y INS TALLA TION
battery switch
a.
Place the
b.
Position the
c.
Install the
battery
battery
in the OFF
in the
position and
ensure
that the external
unit is disconnected.
ground power
box.
battery
box at the firewall.
POS, or painted red and the negative battery terminal painted black, use a voltmeter to determine the battery polarity before connecting the battery in the airplane. Reverse polarity will destroy the diodes and other electronic components in the electrical system.
CAUTION: If the positive battery terminal is not marked is not marked
NEG,
battery terminals
d.
Coat the
e.
Position the
positive
f.
Position the
negative
g.
Remove any
h.
Position the
i.
Secure the aft
cable
excess
battery
or
and cable terminal with
cable
battery
the
on
on
fuselage
on
the
access
battery
petroleum jelly.
secure.
battery and
the
petroleum jelly from
box lid
and
coat of
light
a
secure.
the terminals. box and
secure.
panel.
BA TTER Y CLEANING a.
Remove the
battery.
CAUTION: Never
use a
damage b.
Ensure that the
Refer to BATTERY REMOVAL wire brush
battery
cell filler caps
solvents to clean the
Scrub the
brush with
a
metal construction for this purpose
as
short
circuiting
or
other
may result.
CAUTION: Entrance of ammonia
c.
or
procedure.
or
are
in
place
and
soda solution into
battery,
for these may
tight.
Brush dirt off with
a
battery cell will neutralize damage the battery case. a
battery with a solution of ammonia or bicarbonate electrolyte sprayed or spilled out.
of soda
stiff bristle brush. the cell
tone part of soda
to
electrolyte.
a
gallon
Never
use
of water). This
will neutralize any d.
Rinse the
battery with clear water,
e.
Wash the
battery
caps to make
then sponge off the
filler caps with clean hot water and they are clear.
Inspect the battery for cracks, holes,
g.
Make
that all
battery hardware
Page
battery
to
air-dry.
soap, then examine the vent holes in the
or
burn
battery
filler
spots. Replace if necessary.
is clean and in
good
mechanical condition.
cleaning of the battery terminals and cable terminal is required, brighten up the terminals to ensure a good electrical connections.
NOTE: If additional tool and
no
water. Allow the
sure
f.
sure
excess
824-30-00
use a
battery
terminal
cleaning
n27
RBytheOn
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
BA TTERY BOX CLEANING
battery box is vented overboard to dispose of electrolyte and hydrogen gas fumes discharged during normal charging operation. To ensure the disposal of these fumes, the vent hose connections at the battery box should be checked frequently for obstructions. The battery box should be washed out thoroughly and dried each time the battery is removed and cleaned.
The
BA TTERY SERVICING
battery should be maintained in a fully charged state at all times and the electrolyte level checked at regular fully charged battery will provide peak performance. Never add anything but distilled water when the electrolyte level of the battery. If electrolyte is added each time the level in the battery is low, a high adjusting concentration of electrolyte may cause dissolution of the plates. Under high temperature conditions, this may be indicated by the presence of black particles in the electrolyte of the affected cells. The
intervals. A clean
NOTE: Do not over fill the
nzl
battery. Only lead-acid equipment should be used when servicing lead-acid type batteries.
24-30-00
9
RaytLdOn
AiKraft
company
BONANZA SERIES MAINTENANCE MANUAL
DESCRIPTION AND OPERATION TO E13306; PRIOR TO EA-652)
STANDBY GENERATOR
(PRIOR An
optional standby generator system
power
on
is
provided
to power essential
equipment
in the event of loss of electrical
I
the main system.
optional standby generator system is an independent electrical system incorporated into the main system in a manner as to furnish power only to essential engine instruments, fuel quantity, certain lights, turn coordinator and navigation and communication system. A diode in the circuit from the battery to the standby generator system prevents the generator from furnishing any power to the battery, but allows the battery (if serviceable) to supply power to the essential equipment in the event of inadequate output or failure of the standby generator. The
such
I
airplanes with 12 vdc battery, the circuits from the battery to the standby generator system and the I battery to the stall warning system are always alive, even though the battery switch may be in the OFF position
NOTE: For
The
optional standby generator system
electrical
system. prevent possible
should
only
be used when there is
a
loss of electrical power on the main battery switches OFF (this
loss of electrical power is evident, turn the alternator and damage to the main system if a short exists therein, and to save
As soon
as
battery power for lowering be After determined is to a alternator). faulty problem only turning the switches OFF, turn flaps the standby generator on. This optional generator is mounted aft of the right magneto aft of the engine baffle and is cooled by air that is picked up from the engine baffle. is to
the
and gear if the
The switch and voltmeter
are
located
on
the
right
side of the instrument
panel prior
to E-2111
(except E-1946
and
E-2104), and EA-389 (except EA-320). At the noted serials the switch is moved to the left subpanel and the standard voltmeter near the pedestal is used. The switch is placarded OFF-ON-GEN/RESET. The voltage regulator/
overvoltage relay
is mounted aft of the firewall and controls the generator output.
standby generator is self-exciting and requires no external electrical power for it to function, although it does require 2,925 to 4,050 rpm (engine rpm is 1,950 to 2,700) to function proper\y. At a minimum engine speed of 1,950 rpm, the generator will produce a continuous 6.5 amps at 28 volts or for intermittent (1 minute on 2 minutes off) operation 11 amps at 24 volts.
The
standby generator system is controlled and protected by a voltage regulator/overvoltage relay. The regulator voltage at 28.50 0.50 volts. The overvoltage relay will remove the standby generator from the circuit 0.5 volts. The overvoltage relay is not sensitive to small voltage spikes (at 33 volts should the voltage reach 32.0 it will not trip for 50 milliseconds). Should a transient voltage spike cause the overvoltage relay to trip removing the generator from the system, it may be reset in flight by moving the switch momentarily to the GEN/RESET position.
The
will control the
24-31-00
Sep 30/04Page
1
Ray~heon
nireraft
Company
BONANZA SERIES MAINTENANCE MANUAL
STANDBY GENERATOR
MAINTENANCE PRACTICES
STANDBY GENERA TOR FUNCTIONAL TEST generator switch OFF.
a.
Turn the
b.
Turnthebatteryswitch OFF.
c.
Turn the
d.
The volt meter should
e.
Place the switch
f.
The volt meter should
Sep
standby generator switch ON (do
not contact the GEN/RESET
register approximately
momentarily
24 volts.
in the GEN/RESET
position.
register approximately 28 volts,
24-31-00
position).
with the
engine operating
at 1,950 rpm.
426
Raylheon
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
STANDBY ALTERNATOR DESCRIPTION AND OPERATION (E-3306 AND AFTER; EA-652 AND AFTE~) The
standby
alternator is mounted
on
the aft side of the
engine,
behind the
right magneto, aft
standby alternator system is an independent electrical source that is connected to the supply power to any components in the airplane up to itâ&#x20AC;&#x2122;s load limitation of 20 amps.
The will
of the
main
engine baffle.
busing system
and
When the STBY ALT switch is set to ON, the
standby alternator will be regulated to approximately 26.0 volts with 32 The off volts. set at standby alternator will then automatically power the airplane bus in the event overvoltage trip the primary alternator fails and/or the airplane bus voltage drops below 26 volts. System activation is controlled by
standby alternator voltage regulator which monitors the airplane bus voltage. The automatic switching from the primary alternator to the standby alternator is indicated by the illumination of the amber STBY ALT ON annunciator. The primary alternator switch should be placed to the OFF position when the standby alternator is operating. If the existing electrical load is small, such as may occur during the preflight check, automatic switching of the standby alternator may be delayed until the bus voltage drops below 26 volts. Increasing the load, such as turning on the taxi or landing lights, will facilitate the lowering of the bus voltage allowing the standby alternator to power the battery bus more quickly. The standby alternator is not self exciting and requires that the battery master switch be left in the the
ON position.
operation, the standby alternator switch is turned on at the same time as the primary alternator switch. standby alternator switch should remain in the ON position for the duration of the flight. If the LOW BUS VOLT annunciator illuminates during the operation of the standby alternator, engine speed may be too slow for the alternator load or the load may exceed 20 amps. Annunciator illumination is a function of engine speed, load on the standby alternator and ambient conditions within the standby alternator. Maintaining an engine speed of 2,300 rpm or more and a standby alternator load of 20 amps or less, will keep the annunciator extinguished. In normal
The
The
standby
alternator load may be monitored by placing the loadmeter switch to STANDBY from PRIMARY. On with a 100 amp primary alternator, the maximum output of 20 amps will be indicated as 100%
airplanes equipped on
the loadmeter. On
be read in amps
Output voltage
airplanes equipped
directly from
with
standby alternator will engine at 2,300 rpm or
of the
26.0 volts with the
a
the loadmeter, i.e.
60 amp primary alternator, the output of the standby alternator may a 20 amp output will indicate 20 on the loadmeter.
be indicated
on the BUS VOLTS meter and will indicate approximately voltage drops below 25 volts, the electrical load should be standby alternator is capable of outputs greater than 20 amps
above. If
checked and reduced if above the 20 amp limit. The for up to 5 minutes. Extended operation above 20 amps may depletion of the battery reserve.
cause
immediate
or
premature alternator failure and
early versions of the voltage regulator used in the standby alternator system, the STBY ALT ON annunciator light will flash (light may go solid if left flashing for a period of time) if the STBY ALT switch is not selected ON with power on the bus of the airplane. This is an indication to the pilot that the standby alternator is not activated. The STBY ALT ON light should illuminate whenever the airplane bus voltage is 26 volts or below and the standby On
alternator switch is ON.
On later versions of the
voltage regulator,
if the
standby
alternator switch is OFF the STBY ALT ON
light
is
extinguished. standby alternator switch ON, the standby alternator light will be illuminated whenever the airplane bus voltage is 26 volts or below and extinguished anytime the bus voltage is above 26 vdc. During standby alternator operation, if the electrical load is over 20 amps, the STBY ALT ON annunciator light will flash. After reducing the electrical load to less than 20 amps the annunciator light will be on steady. Procedures for proper operation of the standby alternator system can be found in the supplement section of the Pilots Operating Hand Book. With the
A2e
24-31-01
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
MAINTENANCE PRACTICES
STANDBY ALTERNATOR
STANDBYALTERNATOR FUNCTION TEST a.
Set the throttle to 2,300 rpm.
b.
Set
primary
1.
The STBY ALT ON annunciator will illuminate.
2.
The loadmeter reads
NOTE:
alternator switch to OFF.
no
load.
Depending upon the battery bus voltage, the electrical load may the landing and/or taxi lights) to activate the standby alternator.
c.
Set the loadmeter switch to STANDBY.
d.
Check the loadmeter
e.
Check the voltmeter
f.
Set the throttle between 1,000 and 1,200 rpm
g.
Set the
h.
standby
reading (greater than O,
or
20
(such
as
turning
on
amps).
reading (26.0 volts). (LOW BUS VOLT
annunciator
light
should
illuminate).
alternator switch to:
the STBY ALT ON annunciator
i.
OFF
2.
ON
Set
primary
1.
STBY ALT ON annunciator
2.
LOW BUS VOLT annunciator
the STBY ALT ON annunciator
light
light
will
extinguish.
will illuminate.
alternator switch to ON.
light
will
Set the loadmeter switch to PRIMARY.
j.
Verify
normal indication for the
extinguish.
light will extinguish.
i.
a
less than 100%
need to be increased
primary
alternator load.
STANDBY ALTERNA TOR REMOVAL the alternator
a.
Gain
b.
Disconnect the electrical
c.
Remove the four
Page
access to
through
wiring
the
right
cowl door.
harness from the alternator.
attaching bolts. Remove the alternator.
24-31-01
~126
AiKraft Company BONANZA SERIES MAINTENANCE MANUAL
STANDBYALTERNATOR INSTALLATION a.
Install
a new
gasket
on
the alternator
flange.
CAU710N: Do not force the alternator into position
or
damage to the alternator or drive gears could result. Care pilot enters the accessory case bore squarely, and the
must be taken to assure that the alternator
alternator is
resting
flat
the
on
the
engine pad.
mounting pad.
b.
Position the alternator
c.
Install the
d.
Torque
e.
Connect the electrical wiring to the alternator.
f.
Start the
attaching
on
nuts and washers to
the nuts to 90 to 110 in.-lb in
engine
a
snug condition.
diagonally opposite pairs.
and check for oil seepage and proper
operation.
24-31-01
Sep
30/04Page
3
RayNheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
EXTERNAL POWER
MAINTENANCE PRACTICES
(CE-1024 AND AFTER; CJ-156 AND AFTER; E-2111 AND AFTER; EA-339 AND AFTER) (CE1748, CE-772 THRU CE-1023; CJ-l 49 THRU CJ-154; D-10097, D-10120 AND AFTER; E-llll, E-1241 THRU E12110; EA-11 THRU EA-338; AIRPLANES MODIFIED BY FACTORY WORK ORDER OR AIRPLANES WITH KIT 33-3008 The
INSTALLED)
airplane
electrical system is
protected against damage
from reverse
polarity by
a
relay
and diodes in the
external power circuit. The external power receptacle is located on the right side of the fuselage and just aft of the engine. The receptacle is designed for a standard AN type plug. To supply power for ground checks and for ground
power unit assisted engine starts, a ground power unit capable of supplying a continuous load of 300 amperes at 24 to 30 volts is required. Use of an inadequate ground power unit can cause a voltage drop below the drop-out
voltage
of the starter
continuous load in
Observe the a.
Use
relay, resulting
excess
in
relay chatter and welded contacts. By the same token, a maximum damage the external power relay and power cables of the airplane.
if 350 amperes will
following precautions when using
an
external power
source:
only an auxiliary power source that is negatively grounded. If polarity with a voltmeter before connecting the unit
determine the b.
the
polarity of the airplane.~
power
connecting the
battery
master switch on to
CAUTION: When the battery switch is turned off for extended ground power operation, place
c.
is unknown,
external power unit, turn OFF all radio equipment and alternator switches, but leave the protect transistorized equipment against transient voltage spikes.
Before
parallel
source
to the
with the output of the
externalpower unit before
operating
an
external
any transistorized avionic
battery in equipment.
If the
ground power unit does not have a standard AN plug, check the polarity of the plug. The positive lead from ground power unit must connect to the center post, the negative lead must connect to the front post and a positive voltage of 24 to 28 vdc must be applied to the small polarizing pin of the airplaneâ&#x20AC;&#x2122;s external power
the
receptacle. The power output of the external power receptacle must be capable of and should be checked periodically with a voltmeter of known accuracy.
n?e
maintaining
28.5
0.25 vde
24-40-00Pagel
I
Ral~heon
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
ELECTRICAL LOAD DISTRIBUTION
MAINTENANCE PRACTICES
ELECTRICAL UTILIZATION CHART
following specifies the electrical load for each piece of equipment, either standard or optional, airplane. Based on this information, the total electrical load for the airplane may be determined.
The
The electrical loads have been divided into 4
categories
as
Continuous Load
(Standard Equipment). Refer to Chart
2.
Continuous Load
(Optional Equipment).
3.
Intermittent Load
(Standard Equipment).
4.
Intermittent Load
(Optional Equipment).
Intermittent loads
figured
are
defined
into the total
as
on
the
follows:
1.
not be
available
1
Refer to Chart 2. Refer to Chart 3.
Refer to Chart 4.
those items which will be
figure
operated for two minutes or less. Intermittent items should since the short duration of their usage will not significantly alter the standard load.
Under
no condition shall the total continuous electrical load be more than 80% of the total alternator capacity. Total continuous load consists of loads listed continuous and the avionics receiving loads. Transient loads are intermittent loads.
NOTE: The loads listed
as continuous loads are for equipment which will be operated for periods of 15 minutes or longer; however, the intermittent loads and avionics transmitting loads should be considered for determining possible overloading during shorter periods of time, i.e., takeoff and landing.
Ate
24-50-00Page
1
Ray~heon
AiKlaft Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1 Continuous Load (Standard Equipment)
EOUIPMENT
NUMBER PER AIRPLANE
EACH AI~PS
TOTAL AMPS
1
0.06
0.06
Flap Indicator System Fuel Indicator
System
2
0.02
0.04
Inverter, Electroluminescent
1
0.50
0.50
Instruments, Engine
1
0.32
0.32
Clock, Panel
1
0.01
0.01
1
0.20
0.20
4
0.03
0.12
1
0.04
0.04
Relay, Battery Master
1
0.50
0.50
Sensor, Alternator Out
1
0.04
0.04
1
0.40
0.40
Clock, Digital Potentiometer, Light
Relay, Annunciator
Dim
Dim
Turn Coordinator
Voltage Regulator
1
3.33
3.33
Flight
1
0.01
0.01
1
5.00
5.00
1
4.80
4.60
2
0.30
0.60
2
0.30
0.60
Hour Meter
Power
Supply, Strobe
Heater, Pitot
LIGHTING 3rd
4th
5th
6th Seat
Cabin
Passenger Reading
Reading
Light
2
0.17
0.34
Map
2
0.30
0.60
Instrument, Wedge Light (Single)
14
0.024
0.67
Compass
1
0.04
0.04
ElevatorTab
1
0.04
0.04
Flap Position
1
0.04
0.04
2
0.04
0.08
12
0.17
2.04
f
0.04
0.04
Fuel Select
G[areshie[d Flood OAT
Page 2 Sep 30/04
24150100
A26
RayNeon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 1
Continuous Load
(Standard Equipment) (Continued) NUMBER PER
EACH
TOTAL
AIRPLANE
AMPS
AMPS
1
1.02
1.02
Lower
1
3.22
3.22
Rotating Beacon, Upper
1
3.22
3.22
Tail Nav/Strobe
1
1.02
1.02
Wing Tip Nav/Light
2
0.93
1.86
LIGHTING
(Continued)
Tail Position
Rotating Beacon,
Chart 2 Continuous Load
(Optional Equipment) NUMBER PER
EACH
TOTAL
AIRPLANE
AMPS
AMPS
1
1.70
1.70
1
13.50
13.50
(2 Blade)
1
10.00
10.00
(3 Blade)
1
15.00
15.00
Ammeter
1
0.01
0.01
Timer
1
0.10
0.10
1
0.04
0.04
Instrument, Post Light (Single)
26
0.04
1.04
Instrument, Post Light (Dual)
37
0.04
1.48
Instrument, Wedge Light (Dual)
16
0.024
0.77
EQUIPMENT Air
Conditioning
Compressor
Clutch
Evaporator Blower Electrothermal
Prop
Anti-ice
LIGHTING
Clock, Control Wheel 3-day
A26
24-50-00
3
Raydheon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 3 Intermittent Load (Standard
EQUIPMENT
Equipment) NUMBER PER
EACH
TOTAL
AIRPLANE
AMPS
AMPS
1
6.00
6.00
1
11.00
11.00
1
0.85
0.85
Cigarette Lighter Flap Motor Elevator Trim Actuator
Resistor, Shunt
1
0.37
0.37
Flasher, Gear Warning
1
0.04
0.04
Hem, Gear Warning
1
0.20
0.20
Horn, Stall Warning
1
0.20
0.20
1
40.00
40.00**
1
0.08
0.08
Pump, Auxiliary Fuel
1
3.00
3.00*
Pump, Auxiliary Fuel
1
3.00
3.00***
Pump, Auxiliary
1
4.00
4.00****
1
1.25
1.25
1
3.30
3.30
1
100.00
100.00
1
2.00
2.00****
1
0.04
0.04
2
0.17
0.34
2
0.024
0.048
3
0.04
0.12
1
8.93
8.93
1
8.93
8.93
Landing Gear Motor Relay, Ldg Gear Latch
Fuel
Relay, Dynamic Brake Relay,
Starter
Starter, Engine Starter Vibrator
LIGHTING Alternator Out
Courtesy Light Door Ajar
Landing
Gear Indicator
Landing Light Taxi
Light
NOTES:
Used
only
on
models A36, V358, F33A and F33C,
Peak current after initial
Used only Used
Sep
30/4Page
4
on
start-up load.
Model F33C.
only on Models A36TC
24-50-00
and B36TC.
A26
Raytheon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Chart 4 Intermittent Load
(Optional Equipment) NUMBER
EQUIPMENT Air
PER
EACH
TOTAL
AIRPLANE
AMPS
AMPS
1
0.77
0.77
2
0.024
0.048
Conditioning Actuator, Condenser Door
LIGHTING Condenser Door
A26
Open
24-50-00
C H A PT E R
EQUIPMENT/ FURNISHINGS
Ra)(thaan
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 25
EQUI PMENTIFU RNISHINGS
TABLE OF CONTENTS
PAGE
SUBJECT 25-00-00
Flight and Passenger Compartments Description and Operation Flight Compartment and Passenger Compartment Seating Flightand Passenger Compartments Maintenance Practices Pilotand CopilotSeat Removal Pilotand
Copilot
........._
..1 ..................1 ....1
Seat installation
...1
Passenger Seat Removal
Passenger
...1
.......2
Seat Installation
.......4
(CE-748, CE-772 and After; D-10097, D-10120 and After) (CE-748, CE-772 and After; D-10097, D-10120 and After) Fifth Seat Stowage (CE-748, CE-772 and After; D-10097, D-10120 and After) Fifth and Sixth Seat Removal (E-llll, E-1241 and After; EA-1 and After) Fifth and Sixth Seat Installation (E-llll, E-1241 and After; EA-1 and After) Fifth and Sixth Seat Stowage (E-llll, E-1241 and After; EA-1 and After)
......4
Fifth Seat Removal
....4
Fifth Seat Installation
......5
.........5 ........5 .5
Vertical Position
Horizontal Position Headliner Removal
(CE-919, CE-923, CE-925, CE-927,
CE-929 and After; CJ-156 and After;
D-10348, D-10353 and After; E-1422, E-1551, E-1569, E-1594 and EA-33 and
After; EA-21, EA-28,
After).
(CE-919, CE-923, CE-925, CE-927, CE-929 and After; CJ-156 and After; D-10348, D-10353 and After; E-1422, E-1551, E-1569, E-1594 and After; EA-21, EA-28, Header Installation EA-33 and
Forward Forward
After) Carry-Through SparCover Car~y-Through SparCover
Removal
............7
Installation.
..........7
25-60-00
Emergency Description and Operation. Emergency Locator Transmitter Communications Components Corporation ELTTR70-17 and TR70-13
.................1 ....1 ........1
NarcoELT10........................................................................1 Dorneand
Margolin
ELT.
......1
ArtexELT 110-4
Emergency- Maintenance Practices. Emergency LocatorTransmitter Maintenance Communications Components Corporation Battery Replacement Narco Batte~y Replacement Dorne and Atrex ELT
Margolin Battery Replacement 110-4 Battery Pack Replacement
.3
............3
................3 .......5
...............7 ...............9
P5-CONTENTS
RBytheOn
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 25
EQUIPMENT/FURNISHINGS
TABLE OF CONTENTS
(Continued)
SUBJECT
PAGE
Testingthe Emergency LocatorTransmitter Testing the Communications Components Corporation ELT TR70-13
Testingthe Testingthe Testing
30/Page Sep
2
Narco ELT 10. Dorneand
Margolin ELT
the Artex ELT 110-4.
25-CONTENTS
11
and TR70-17
11 11
12 12
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 25
EQUIPMENT/FURNISHINGS
LIST OF EFFECTIVE PA GES CH-SE-SU
PAGE
DATE
25-LOEP
1
Sep
30/03
25-CONTENTS
1 and 2
Sep
30/03
25-00-00
1 thru 7
Sep
30/03
25-60-00
1 thru 13
Oct 16/92
A24
25-LOEPPagel
Ray~heon
AiKra´•H Company
BONANZA SERIES MAINTENANCE MANUAL
FLIGHT AND PASSENGER COMPARTMENTS
DESCRIPTION AND OPERATION
I
FLIGHT COMPARTMENT AND PASSENGER COMPARTMENT SEA TING On all serials except CJ-149 and After, the pilot and copilot seat backs fold forward to facilitate passengers entering and leaving the airplane. Airplane serials CJ-149 and After have locking seat backs on the pilot and copilot seats which
be folded forward
can
An additional lever located
forward for
access
I
by rotating the seat back release lever, located on the lower inboard side of each seat. behind copilot’s seat on the upper right corner is also used to fold the copilots seat
to the passenger seats.
The passenger seat backs can be folded forward by rotating the seat back release lever located side of each seat. All passenger seats have locking backs.
adjust the pilot, copilot, and passenger seats forward or aft, an adjustment lever, seats, must be pulled up. The seat can then be slid to the desired position.
To
on
the lower inboard
located beneath the front of the
adjustment lever, located on the lower inboard side of the pilot, copilot, passenger, and on the fifth and (A36 Series), enables the seat back to be adjusted to several positions. It is controlled by a mechanical, three position cam lock. An optional seat installation is available whereby the adjustment of the copilot and passenger seat backs are controlled by a Roton lock lever located on the forward inboard side of the seat bottom. A seat back
sixth seats
serials E-2104, E-2111 and After, and EA-389 and After are equipped with vertically adjusting seats in the compartment (copilot’s seat is optional). The seat is raised and lowered by gas springs mounted underneath
Airplane
flight
I
adjustable through a range of 1.3 inches for improved visibility and crew comfort. The raising I by pulling up on a release lever located on the front RH side of the seat. When the release lever is raised, two ratchet type camlocks are disengaged from sector gears attached to the gas springs mounted on each side underneath the seat, allowing the gas spring piston rods to extend or retract to raise or lower I the seat. To raise the seat the pilot’s weight must be shifted forward. To lower the seat the weight must be shifted to the rear to overcome the gas spring tension.
the seat. The seat is
lowering action
and
is initiated
FLIGHT AND PASSENGER COMPARTMENTS
MAINTENANCE PRACTICES
I
PILOTAND COPILOT SEA T REMOVAL a.
Remove the seat stops at the aft end of the Pull up
b.
on
the fore and aft
adjustment lever
mounting
tracks.
located beneath the front of each seat, and slide the seat off the
mounting tracks. PILOT AND COPILOT SEA T INSTALLA TION NOTE If shims which a.
same
Pull up and
~124
they
Align the seat guide with in the
b.
installed in the seat support, they should be reinstalled in the same location from were removed to achieve proper seat locking engagement with the seat track.
were
on
location
as
the seat track. If shims
that from which
the fore and aft
ensure
they
were
were
adjustment lever and securely in place.
installed in the front seat
guide, they should
be reinstalled
removed.
slide the seat onto the seat track. Release the
adjustment
lever
that the seat is
25-00-00
S,pP83Be~:Pagel
Ray~heom
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
c.
with the holes in the center seat track, it will be necessary to reposition the with shims. Use shims as needed to center the locking pin with the holes in the seat track.
pin
If the lock
does not
align
guides
NOTE Shims
I
(three
The shims
long x 0.3 inch wide) may be fabricated from 0.016 6061-T6 Sheet aluminum. placed inside the seat guide and formed around the guide (Ref. Figure 2).
inches
are
d.
Pull up on the fore and aft adjustment lever and slide the seat through the full travel of seat that the locking pin has positive engagement in all holes of the seat track.
e.
Install the seat stops at the aft end of the seat track.
adjustment. Ensure
NOTE
airplane
When
I
serials CJ-149 and After
headrests for the
pilot
and
copilot
are
used for aerobatics and
parachutes
are
worn, the
seats must be removed and the seat back cushions rotated over
the seat backs and reattached to the bottom of the seat backs. The headrest
can
then be
reinstalled.
PASSENGER SEA T REMOVAL
I
a.
When
airplane serials CJ-149 and After are being operated in the aerobatics category, the gravity requirements.
passenger seats may
need to be removed in order to meet the center of b.
Remove the seat stops at the aft end of the seat tracks.
c.
Pull up
on
mounting
Sep
30/Page
2
the fore and aft
adjustment lever, located
beneath the front of each seat, and slide the seat off the
track.
25-00-00
nn4
Raytheom
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
SECTOR GEAR GAS SPRlNG
I
RELEASE LEVER
ACTUATOR ROD
TORQUE TUBE
ADJUST))NG LNER
EA258
Vertically Adjusting Seat Figure 1
A24
25-00-00
Sep
30/03Page
3
RBYLLheOn
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
SHIMS
MAKE FROM .016 6061-T6 ALUMINUM .3 INCHES
L
SE~GUOE
I
T~--31NCHES CENTER
SEAT TRACK
SHIM
CENTER FRONT SEAT LEG VIEW FROM FRONT
Seat Track Shims
Figure
2
PASSENGER SEA T INSTALLA TION a.
b.
c.
Align
the seat
guides
with the slots in the
adjustment lever and securely in place.
the fore and aft
Pull up
on
ensure
that the seat is
Reinstall the seat stops at the aft end of the
FIFTH SEAT REMOVAL a.
I"
(CE-748,
Remove the two bolts at the lower aft
the hat
shelf.Rmove
the seat
by removing
mounting tracks. Release
portion
the lever and
tracks.
CE-772 AND AFTER; D-10097, D- 10120 AND
AFTER)
of the seat bottom.
(CE-748
b.
Install the extrusion
c.
Install the seat bottom, seat belts, and the two
with the seat back
25-00-00
on
CE-772 AND AFTER; 0-10097, D- 10120 AND AFTER)
Remove the extrusion from the hat shelf.
Sep
slide the seat onto the
mounting
a.
along
tracks.
the extrusion at the forward top side of the hat shelf. Reinstall the extrusion
FIFTH SEA T INSTALLATION
I
mounting
retaining strap
on
the hat shelf.
securing bolts.
A24
Rarytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
FIFTH SEA T STOWAGE a.
Pull forward
b.
the lower
portion
CE-772 AND AFTER; D-10097, 0-10120 AND
of the seat back until the seat back is in
the seat bottom, rotate the seat bottom to with the seat bottom.
forward side
parallel
on
(CE-748,
on
Lower the seat back into
a
vertical
position
FIFTH AND SIXTH SEA T REMOVAL a.
Fold the bottom of the seat up to
b.
Removetheseatattach pins.
a
and snap the
(E- 1 I 1 1,
vertical
position
FIFTH AND SIXTH SEA T INSTALLA TION
vertical
a
a
position. Lift up on the position the seat bottom legs
horizontal
position,
retaining strap
into
and
position.
E- 124 1 AND AFTER; EA-1 AND
and fold the seat support in the retract
(E- I I I I,
a.
Position the seats.
b.
Installtheseatattach
c.
Fold the seat bottom and seat support down and snap the
AFTER)
AFTER)
position.
E 124 1 AND AFTER; EA-1 AND
AFTER)
pins.
FIFTH AND SIXTH SEA T STOWAGE
(E- 1 I 1 1,
The fifth and sixth seats may be folded either in This may be accomplished as follows:
a
support into the floor base.
E- 124 1 AND AFTER; EA- 1 AND
horizontal
or
vertical
position
to
A~-TER)
provide additional cargo
space.
VERTICAL POSITION a.
Fold the seat bottom up to
b.
Fold the seat support into the retract
c.
Position the seat
HORIZONTAL
a
against the
vertical
rear
position. position.
bulkhead in
a
vertical
position.
POSITION
a.
Fold the seat support into retract
b.
Fold the seat back forward and
position
position
and
on
position
top of the
the seat bottom
on
the floorboard.
seat bottom.
NOTE A club
seating arrangement
is available
(A36, A36TC
and B36TC series
only)
that enables the third
and fourth passenger seats to be turned facing aft. On A36 serials prior to E-1371, when this arrangement is used, the fifth and sixth seats must be moved four (4) inches aft to maintain proper
weight
and balance. If the seats
are
returned to
a
seating arrangement (facing forward), original position. Holes are located in the of the side mounting brackets and the seat
standard
the fifth and sixth seats MUST be moved back to their
floorboard under the carpeting to facilitate installation support base. It is recommended that both the third and fourth passenger seats face the
I
same
direction at all times.
A24
25-00-00
5
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
HEADLINER REMOVAL
(CE-919, CE-923, CE-925, CE-927,
CE-929 AND AFTER; CJ-156
AND AFTER; 0-10348, 0-10353 AND AFTER; E-1422, E-1551, E-1569, E-1594 AND AFTER; EA-21, EA-28, EA-33 AND AFTER)
I
a.
Perform the FIFTH SEAT REMOVAL and the FIFTH AND SIXTH SEAT REMOVAL procedures.
b.
Remove the aft bulkhead closure.
c.
Working through
the aft bulkhead,
remove
the
tape from around the air ducts that
connects the air duct to the
headliner duct. which hold the overhead console in
d.
Remove the
e.
Disconnect the wires to the
f.
Remove the window
g.
Remove the doortrim.
h.
Perform the GLARESHIELD REMOVAL
i.
Remove the windshield trim.
j.
Remove the garment
k.
Gently pull are
I.
screws
on
and
remove
the console.
moldings.
procedure
in
Chapter 39-10-00.
hanger.
the headliner to disconnect the fabric hook and
located wherever the
Separate
light
place.
airplane
frame and headliner
come
loop fasteners. together.
the forward air ducts from the air duct in the headliner. A
spatula
or
These hook and
loop
fasteners
similar tool may be used to work
between the ducts to work the sealer loose. m.
Disconnect the electrical toward the front,
n.
Remove the
or
wiring to the headliner lights. (This connector is pilotâ&#x20AC;&#x2122;s side window.)
located
near
the center of the headliner
aft of the
headlinerthrough
the door.
HEADLINER INSTALLA TION (CE-919 CE-923, CE-925, CE-927, CE-929 AND AFTER; CJ- 156 AND AFTER; D- 19348 0-10353 AND AFTER; E- 1422, E- 1551, E- 1569, E- 1594 AND AFTER; EA-21, EA-28, EA-33 AND AFTER)
I
a.
Placethe headlinerin
theairplane.
b.
Connect the electrical
wiring
c.
Connect the forward ventilation ducts. Seal ducts with adhesive
d.
Engage the
e.
Install the
f.
Install the windshield trim.
g.
Perform the GLARESHIELD INSTALLATION procedure in
h.
Install the
Sep
hook and
loop
to the headliner
lights.
fasteners to hold headliner in
(54,
Chart 1,
place.
garment hanger.
doormoldings.
25-00-00
Chapter
39-10-00.
91-00-00).
RayYheon
Aircraff Company
BONANZA SERIES MAINTENANCE MANUAL
i.
Install the window
j.
Connect the wires to the console
k.
Connect the duct aft of the
i.
Install the bulkhead closure.
m.
Perform the FIFTH SEAT INSTALLATION and the FIFTH AND SIXTH SEAT INSTALLATION
molding.
rear
light
and install the console.
bulkhead closure.
Tape the joint with two-inch wide tape (55,
Chart 1
91
-00-00).
procedures.
FORWARD CARRY-THROUGH SPAR COVER REMOVAL a.
Perform the PILOT AND COPILOT SEAT REMOVAL
b.
Remove emergency
c.
On aft side of spar cover,
d.
On forward side of spar cover,
e.
Remove RHaccesscover.
f.
From inside of RH
g.
Lift spar
cover
and
landing gear crank
access
cover
pull back carpet
from spar
clamp and
I
cover.
remove screws
pull back carpet and
cover, loosen
remove
and
procedures.
from spar
remove screws
remove
cover.
from spar
air duct from
cover.
plenum
and
grill assembly.
from forward spar.
FORWARD CARRY-THROUGH SPAR COVER INSTALLA71ON
I
CAUTION CAUTION
1
Improper installation of the forward carry-through spar cover may interfere with the landing gear emergency hand crank operation. Ensure the landing gear hand crank will engage and rotate without interference with the spar cover.
the forward spar.
a.
Center spar
b.
From inside of RH
c.
Install RH
d.
On forward side of spar cover, install
e.
On aft side of spar cover, install
f.
cover on
access
access cover
cover, install air duct
plenum and grill assembly and tighten clamp.
assembly. screws
screws
to
to secure forward end of spar cover and install
secure
landing gear hand crankto carry-through spar cover.
Check the emergency the forward
on
landing gear crank cover to
aft end of spar
ensure
and install carpet.
I
handle will engage and rotate without interference with
g.
Install emergency
h.
Perform the PILOT AND COPILOT SEAT INSTALLATION
spar
cover
carpet.
cover.
procedures.
I
25-00-00
,,~:Page
7
BEECHCRAFT
BONANZA SERIES
MAINTENANCE MANUAL
DESCRIPTION AND OPERA-
EMERGENCY TION
LOCA TOR TRANSMITTER
airplane is equipped with an automatically actuated emergency locator transmitter ~ELT) to assist in the tracking and recovery of the airplane and crew in the event of a crash or emergency landing. The ELT The
system consists of a battery-powered emergency locator transmitter (ELT), an antenna and a switch accessible through a spring-loaded door in the right side of the fuselage adjacent to the ELT. The output frequencies of the ELT are 121.5 and 243.0 MHz, simultaneously. Range is approximately line of sight. The ELT is mounted near the right side of the fuselage, at approximate, F. S. 230.00.
impact switch which will actuate the ELT automatically upon impact of the airplane. The TR70-13 also has a remote switch which is accessible through a The small door in the right side of the fuselage. placarded switch positions are REARM-ARM-XMIT. The XMIT position is momentary and is used to test the operation of the ELT. The ARM position is used to arm the impact switch for automatic actuation upon impact of the airplane. The REARM position is used to reset the impact switch after testing the ELT. NARCO ELT 10
(Figure 2) Narco ELT 10 is
The
EA-81
after,
th.â&#x20AC;&#x2122;e
ELT is mounted on top of the The antenna for fuselage at F.S. 195 on airplanes 0-10097, 0-10120 and after; E-llll, E-1241 thru E-2147; CE-748, CE-772
the XMIT
EA-411,
thru
CE-1646.
EA-1
thru
EA-411
on
thru
E-1687
E-2147
and
in the
placed in ARM posi-
operation upon impact
of the air-
The remote switch is
to test the ELT
or
plane.
after.
CE-1032;
position
tion for automatic
CJ-149 thru CJ-155. The antenna is mounted under the dorsal fin just forward of the vertical stabilizer on airplanes CJ-156 and after, CE-1033 and after and EA-412 and thru
thru
CE-906 thru CE-1032.
i
with a two-position airplanes 0-10347 and
installed
(XMIT-ARM)
remote switch
and
The Narco ELT 10 is installed with remote switch
(TEST-ARM-XMIT)
on
a three-position airplanes E-2424
E-2693, EA-480 thru EA-530 and CE-1241 thru The TEST and XMIT position are used for The ARM position is used for auto-
the ELT.
COMMUNICATIONS COMPONENTS ELT TR70-17 AND TR70-13
CORPORATION
(Figure 1) There ration on
are
two
Communication Component Corpoused. The TR70-17 ELT is installed
ELT~ being
airplanes D-10097, D-10120 thru D-10196; E-llll, thru
E-1241
E-1406; EA-1 and EA-2; CE-748, CE-772
thru CE-828 and CJ-149. The TR70-13 ELT is installed on airplanes D-10197 thru D-10346, E-1407 thru E-1686, EA-3 thru EA-80, CE-829 thru CE-905 and CJ-150 thru
testing matic operation
upon
of the
airplane.
The Narco ELT 10 has a control switch decaled The ELT can be removed from the ON-OFF-ARM. airplane and used as a portable unit. In this event, the ELT control switch would be placed in the ON
continuously. The OFF position prevents operation of the unit and the ARM position is used to arm the impact switch for automatic actuation upon impact of the airplane.
position
on
to transmit
the ELT
can be replaced with by Kit No. 101-3127-1.
can be Both, the TR70-17 and TR70-13, replaced with the Narco ELT 10 by Kit No. 101-3046-1 or the Artex ELT 110-4 by Kit No. 101-3127-1.
The Narco ELT 10
The TR70-17 ELT is mounted in the airplane so the control switch is accessible through a small door in the right side of the fuselage. The placarded switch
(Figure 3)
CJ-155.
impact
110-4
the Artex ELT
DORNE AND MARGOLIN ELT
position preposition is momentary and is used to test the operation of the ELT. The ARM position arms an impact switch which will actuate the ELT automatically upon impact of the airplane,
positions are ARM-OFF-ON. operation of the ELT.
vents
The OFF The
ON
Margolin ELT is installed on airplanes CE-1033 thru CE-1240, CJ-156 and after, E-2148 thru E-2423 and EA-412 thru EA-479.
The Dorne and
An AUTO-OFF-ON control switch located on the ELT controls the operation of the unit. When the switch is the ON position, the ELT will transmit for testing The AUTO position arms an manual operation. impact switch which will actuate the ELT automatically upon impact of the airplane. The OFF position A remote prevents operation of the ELT. TEST-AUTO-XMIT switch is used for testing and manual actuation of the ELT. The TEST position is a
on or
The TR70-13 has sible
from
a
control switch which is not accesIt is placarded the airplane.
outside
OFF-ON-ARM. The OFF position prevents operation The ON position can be used for manual operation of the ELT. The ARM position arms an of the ELT.
2160-00
Page A16
1
Oct 16/92
BEECH%RAFT BONANZA SERIES MAINTENANCE MANUAL
momentary switch which will mit.
The XMIT
operation
position
cause
the ELT to trans-
turns the unit
and the AUTO
position
on
arms
An ON-OFF control switch
the ELT controls the
operation of the unit.
the unit to
position, the ELT will transmit for testing or manual operation. Place the switch in the OFF position to
operate when the impact switch is actuated upon impact of the airplane. Margolin ELT can be replaced with the 110-4 Artex ELT by Kit No. 101-3127-1. The Dorne and
discontinue of
the
airplane.
switch is used to the ELT. When to
(Figure 4)
An
the transmission.
switch will actuate the ELT
transmit. ARTEX ELT 110-4
The Artex ELT 110-4 is installed
on
When the switch is in the ON
for manual
The arm
placed
internal
impact
upon impact ARMED/RESET-ON
automatically
remote
the ELT
to manually actuate position, the ELT will position arms the ELT
or
in the ON
The ARMED/RESET
operate automatically upon impact of the airplane.
To reset the ELT, cycle the control switch on the ELT to the ON position, then to the OFF position, and cycle on
airplanes
CE-1647
and after, E-2694 and after and EA-531 and after.
the remote switch to the
ARMED/RESET
ON
position,
then to the
position.
25-60-00
Page
2
Oct 16/92
A16
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
MAINTENANCE PRACTICES
EMERGENCY
or other condition
TR A NS MI TT~R
LOCATOR EMERGENCY MAINTENANCE
acceptable suppliers, and
life
useful
of
since the over-the-
batteries, such as those sold for flashlights, portable radios, etc., are usucounter
ally unknown. normally limited to replacing the battery. The following is a list of the various conditions which warrant battery replaceMaintenance
on
the
ELT
is
CAUTION
ment:
The ELT switch should not be turned ON unless the ELT is connected to its associ-
Visual inspection shows corrosion or unsecured leads. a.
signs
of
leakage,
Elapsed replacement date noted on the case (this date represents 50% of the useful battery life of the battery). b.
ated antenna
(Artex ELT 110-4) or Kit (Narco ELT 10) may be installed on these airplanes. Refer to the appropriate procedure when one of these kits is installed on your airplane. Kit No. 101-3127-1
battery is the length battery may be stored without losing its ability to continuously operate the ELT for 48 hours. of time which the
d.
After
one
use.
gain
cumulative hour of
use.
After
f.
if the transmitter is stored in
an area
where
temperature is normally above 1000F (380C), battery life will be shortened.
the
storing
the batteries at
of 1300F
a.
Remove the cabin aft
access
c.
TR70-13 d.
temperatures
e.
on
life
upholstery panel
to
fuselage.
Place the ARM-OFF-ON switch
on
the ELT
position. Disconnect
the
ELT, disconnect
cable.
antenna
the remote switch
On
the
wiring.
On the TR70-17 ELT, remove four screws On the to the mounting bracket.
TR70-13 ELT, rotate the release knob on the base to release the ELT. Remove the ELT from the airplane.
(550C).
replacement is battery included in the data furnished with each ELT, and is usually placarded on the battery.
Information
to the ah
attaching the ELT
CAUTION
excess
101-3046-1
b.
the
in
No.
in the OFF
operation of unknown duration.
e.
Avoid
dummy load.
NOTE
The useful life of the
After any emergency
50-ohm
COMMUNICATIONS COMPONENTS CORPORA TION BA TTER Y REPLACEMENT
NOTE
c.
or a
and
i"g base f.
Remove the on
screws
which hold the mount-
the transmitter and
remove
the base.
Remove the old battery and disconnect the Discard the old battery.
electrical connector.
NOTE
WARNING Replacement batteries should be obtained only from ELT and aircraft manufacturers
DO NOT discard the
battery in
a
fire.
25-60-00
Page A16
3
Oct 16/92
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
TR70-13 ELT
CONTROL SWITCH
A RELEASE KNOB
d
DETAIL
B
SWITCH ACCESS
CONTROL
SWITCH
SWITCH
TR70-17 ELT
(REMOTE)
DOOR
POSITION PLACARD
SWITCH
POSITION PLACARD
REMOTE SWITCH
REMOTE SWITCH FOR TR70-13 ELT
DETAIL
C
SWITCH ACCESS DOOR
DETAIL
A C9101610
Communications Components Corporation Installation
Figure 1
25-60-00
Page
4
Oct 16/92
A16
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
Inspect for, and properly treat, any corrog. sion that may be indicated in the area where the battery was installed. h.
Connect
a
battery
fresh
and install it in the
compartment.
Extend the
e.
To avoid
base and
j.
Install the transmitter in the airplane and On the TR70-13 ELT, con-
screws.
na
attach the antenna cable.
wiring.
nect the remote switch
tab
to the antenna
the
f.
the four screws attaching the battery casing and slide the control head and battery case apart. The battery connection leads are approximately 3-inches long.
Remove
control head to the
Do not
manufacturer.
of the
replacement
new
the ELT in
NOTE
a
remove
the sealant
battery pack
or a
on
Test the ELT
as
instructed in TESTING THE
the inside
watertight
not be made when the ELT
i.
or
on
and handling the control head.
date should be visible area. This wil\ aid in future inspections of the ELT. This date is 50% of the useful life of the battery as defined by the battery The
on
damage
the upper end, care must be exercised in extending the portable anten-
Replace the
k.
antenna.
CAUTION
plastic
i.
marked
portable
lip
seal will
unit is
reas-
sembled.
EMERGENCY LOCATOR TRANSMITTER. m.
Install the cabin aft
Disconnect the battery by unsnapping the g. battery terminals from the bottom of the transmitter PC board. Discard the old battery.
upholstery panel.
NARCO BA TTER Y RIFPLACEMENT
(Figure 2)
WARNING NOTE
Kit No.
101-3127-1
be installed
(Artex
DO NOT discard the
ELT 110-4) may
kit is installed a.
gain
these
on
upholstery panel
to
on
position.
Disconnect
the
antenna
cable
from
i.
d.
Unlatch the
airplane.
mounting strap
and
remove
fire.
Connect the terminals of the
new
battery
the
j. Using a spatula, apply a bead of sealant (supplied with each battery pack) around the area of the control head which is joined with the battery case when reassembled.
ELT. Disconnect the remote switch wiring from the terminals on the ELT.
ELT from the
a
to the bottom of the transmitter PC board.
fuselage.
Place the ARM-OFF-ON control switch
the ELT in the OFF c.
airplane.
Remove the cabin aft
access to the aft
b.
your
in
h. Inspect for and properly treat any corrosion that may be indicated in the area where the battery was installed.
airplanes. Refer to the Artex ELT 110-4 procedure when this on
battery
the
NOTE This
sealant
provides
a
watertight seal
when the unit is assembled.
25-60-00
Page A16
5
Oct 16/92
BEECHCRAFT
BONANZA SERIES MAINTENANCE MANUAL
SWITCH ACCESS DOOR REMOTE SWITCH
SWITCH POSITION PLACARD
A
CONTACT SEPARATOR
MOUNTING
CONTROL HEAD ATTACHING SCREW (4)
STRAP
PORTABLE
LATCH
PORTABLE
ANTENNA
ANTENNA
CONTACT FINGER
CONTACT
B
DETAIL
FINGER
PORTABLE ANTENNA BLADE NOT MAKING CONTACT
FIXED ANTENNA CABLE CONNECTOR
CONTACT
SEPARATOR
CONTROL SWITCH
I
â&#x20AC;&#x2122;"UYYT(\L, TO
ANTENNAPORTABLE STOP PIN
RESET
COAX CABLE TO AIRPLANE
le
HANDLE
SWITCH C91a1611
DETAIL
A
Natco ELT 10 Installation
Figure 2
2160-00
Page 6 Oct 16/92
A16
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
head
control
Insert the
k.
section
into the
case, being careful not to pinch the wires and install the four attaching screws. Wipe any excess
Install the cabin aft
s.
upholstery panel.
battery
sealant from the outside of the unit.
AND DORNE REPLACEMENT
MARGOLIN
BA TTER Y
(Figure 3) NOTE NOTE If the four the
screw
battery
case
Stow the
i.
holes do not line up, rotate 1800 and reinsert.
portable
Kit No. 101-3127-1
(Artex ELT 110-4) or Kit (Narco ELT 10) may be installed on these airplanes. Refer to the appropriate procedure when one of these kits is installed on your airplane.
antenna.
CAUTION Exercise extreme
in order to avoid
plastic
tab
gain
101-3046-1
a.
Remove the cabin ah upholstery panel to to the ah fuselage.
access
the upper end.
on
Install the transmitter in the
m.
secure
care
to the antenna or the
damage
No.
the
airplane
mounting strap.
Connect the fixed antenna cable to the ELT. (plastic) separator is inserted
n.
b.
Make certain the ELT is turned off.
c.
Disconnect the antenna cable.
d.
Disconnect the remote switch.
e.
Remove the
and
Ensure that the contact between the
I able
antenna
portable as
antenna contact and the
shown in
Figure
port-
NOTE With the contact
f.
separator not
in
place,
a
very weak signal may be transmitted, which is strong enough for a functional test, but too weak for emergency use. Connect the remote switch
o.
terminals
on
wiring
g. ELT and h.
Remove the remove
in
screws
from the bottom of the
the bottom.
Disconnect the
battery
and discard it.
WARNING
to the
Press
the
RESET on
button
and
battery
in
a
fire.
place the
the ELT in the ARM
position,
i.
and
Inspect for
properly
sion that may be indicated new replacement date should be the ELT in a visible area. This will aid in future inspections of the ELT. This date is 50% of the useful life of the battery as defined by the battery manufacturer.
The
battery
was
in the
treat any area
corro-
where the
replaced.
on
Connect the
j. k. marked
as instructed in TESTING THE LOCATOR TRANSMITTER in this chap-
Test the ELT
Iter.Eh71ERGENCY r.
ELT
the ELT.
ARM-OFF-ON switch q. marked
the
Remove the ELT from the airplane.
DO NOT discard the p.
holding
screws
place.
2.
future
The on
new
the ELT in
inspections
new
battery.
replacement a
visible
of the ELT.
useful life of the battery
date should be This will aid in
area.
This date is 50% of the defined
the
.rerutcafunamyrebyttab as
25-60-00
Page A16
7
Oct 16/92
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
A
SWITCH ACCESS DOOR
REMOTE SWITCH
CABLE TO ANTENNA DORNE AND MARGOLIN ELT
SWITCH POSITION PLACARD
CONTROL SWITCH (AUTO
OFF
ON)
REMOTE SWITCH WIRING
DEtAIL
A C9101612
Dorne And Margolin ELT Installation Figure 3
25-60-00
Page
8
Oct 16/92
A16
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
i.
Install
the
of the
bottom
ELT
and
WARNING
the
screws
Do not discard Install the ELT in the
m.
the
screws
which hold it in
airplane
Replacement battery packs should be only from ELT and airplane manufacturers or from other acceptable suppliers, since the condition and useful life
obtained
ter.
Install the cabin aft
ART~X ELT R~PLACEMENT
of
upholstery panel.
1 10-4
BA TTER Y
installed
101-3127-1
j.
Remove the cabin aft
a.
to the aft
access
b. the OFF
on
upholstery panel
to
fuselage.
(12)
on
c.
d.
the ELT in
Loosen the two thumb cap
(2)
(4)
from the
the
the ELT
(1´â&#x20AC;˘1).
(3)
(11).
o.
base
Remove the ELT
(11) from the mounting
cap
Insert
n.
through
Remove the
battery pack
screws
(li).
connector
(10)
(8) securing the bat-
(2) and
the
con-
ELT with the are
properly
cable
(4) through the (11).
connect to the ELT
remote
mounting
switch
frame cap
(2)
harness
(3)
and connect to
Install the ELT (11) in the mounting frame Position the ELT in the mounting frame that the arrow on the top of the ELT is pointed
so
in the direction of
(5).
to the ELT
electrical
(5).
p.
h.
Insert the antenna
m.
mounting frame
Disconnect the g. from the ELT.
tery pack
battery pack
Secure the battery pack to the (8). Make certain that ail gaskets aligned and in good condition.
(1) securing mounting frame
Disconnect the remote switch harness
frame base
Connect the
(10).
I.
base f.
new
screws
to the
Disconnect the antenna cable
from the ELT
as
on
screws
ELT.
e.
A
k. nector
Place the control switch
mounting frame base (5).
are
be marked
position,
the
such
battery pack replacement date must the outside of the transmitter. The date is 50% of the useful life of the battery pack as defined by the battery pack manufacturer.
airplanes
them.
gain
batteries,
flashlights, portable radios, usually unknown.
i. Inspect for and properly treat any corrosion that may be indicated in the area where the battery was installed.
must be used for
that have Kit No.
etc.,
PA CK
NOTE
procedure
over-the-counter
those sold for
(Figure 4)
This
f~re.
a
NOTE
place.
Test the ELT as instructed in TESTING THE n. EMERGENCY LOCATOR TRANSMITTER in this chap-
o.
battery pack in
and install
Install the
mounting frame screws ~1). q. the OFF
flight. mounting ~5) and
base
frame cap (2) onto the with the thumb
secure
Place the control switch
(12)
on
the ELT in
position.
25-60-00
Page Ale
9
Oct 16/92
BEECHCRAFT BONANZA SERIES MAINTENANCE NIANUAL 14
n~, O
15
0" 13
DETAIL
B
11
12
3
4
1.
THUMBSCREW
2.
MOUNTING FRAME CAP
3.
REMOTE SWITCH HARNESS
4.
ANTENNA CABLE
5.
MOUNTING FRAME BASE
6.
SCREW
7.
WASHER
3. 9
00
10.
9
i 10
B
Ytl
SCREW anrrERupncK BATTERY PACK CONNECTOR
11.
ELT
12.
CONTROL SWITCH
13.
SWISCH POSITION P~ACARD
14.
ACCESSDOOR
15.
REMOTE SWITCH
7
g
s_
O
iii
5
DETAIL
A
2
1
C9101613
Artex Elt 110-4 Installation Figure 4
25-60-00
Page 10 Oct 16/92
A16
BEECHCRAFT BONANZA SERIES MAINTENANCE ~1ANUAL
Test the ELT as instructed in TESTING THE r. EMERGENCY TRANSMITTER in this chapter.
Install the cabin an
s.
upholstery panel. LOCATOR
EMERGENCY
THE TESTING TRA NS MI TTER
TESTING THE COMMUNICATIONS COMPONENTS CORPORATION ELT TR70-13 AND TR 70-1 7
(Figure 1) Turn
a.
on
COMM-1 and tune
airplaneâ&#x20AC;&#x2122;s
the
it to 121.5 MHz.
Any time maintenance is performed on the ELT, the following operational test must be performed. The FAA/DOT allows free space transmission tests from airplane anytime within five minutes after each
b.
COMM-1
the
Turn
SPEAKER
and
position
place
audio
switch
to
the
the volume control in
the center of its range.
the
The test time is
hour.
warble
tone,
or
generally
ap~proximately
The control tower should be notified that about to be
NOTE
three sweeps of the a one-second test. a
test is
Monitor
frequency on COMM operating.
a
1
be
to
certain the radio is
performed.
Improper testing of the ELT could trigger false alerts and create frequency jamming of real emergency Be certain that all procedures are transmissions. closely followed and that monitoring of frequencies occurs to ensure the ELT switches are placed in the proper positions after testing is complete. If the test is performed with the ELT removed from the airplane, Federal Communications Commission regulations require the testing be done in a screened or shielded test room, or in a test enclosure that will self-contained ELT and an antenna.
hold the
switch to ON
Place the TR70-17 ELT
c.
or
approximately signal.
TR70-13 remote switch to XMIT for second and monitor the ELT
the one
NOTE A
distinctive
downward
sweeping
tone
should have been heard from the monitoring receiver during the test. if the tone was
heard, the ELT is functioning properly.
If
that
(assuming operating properly), the battery is probably disconnected, outdated or discharged. there
was
no
audible tone
the VHF transceiver is
CAUTION The ELT switch must not be ON
position
placed
in the
unless the ELT is connected to
its associated antenna
or a
50-ohm
dummy
d. to the OFF
After the test, place the TR70-17 ELT switch position or the TR70-13 ELT remote switch
to the REARM
load.
appear
position. completely.
The audio
signal
should dis-
NOTE e.
Tests
should
not
be
longer
than
three
audio sweeps. One audio sweep may be defined as amplitude modulating the carrier
with
an
audio
frequency
sweeping
over a range of not less than 700 Hz, within the range 1600 to 300 Hz, and a sweep repetition rate between two
Place the ELT switch in the ARM
There should be f.
audible~signal
no
If the ELT continues to
the remote switch is in the ARM
position.
present.
operate, check that position.
downward
and four Hz. Tests should be conducted
only in the first five minutes of any hour. If the
operational
tests must be made at
a
time not included within the first five min-
On the TR70-17 ELT, place the control g. switch to ON, then place it firmly in the ARM position. On the TR70-13 ELT, gain access to the ELT control
place it signal should stop. ARM position. switch and
in the OFF
position.
utes after the hour, the tests should be coordinated with the nearest FAA tower or
TESTING THE NARCO ELT 10
night service station.
(Figure 2)
Operational testing of installed ELTs must be accom; plished by the following appropriate procedure:
a.
Turn
on
The audio
Reset the.TR70-13 ELT to the
the
airplaneâ&#x20AC;&#x2122;s
COMM-1 and tune
it to 121.5 MHz. 25-60-00
Page 11 A16
Oct 16/92
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
Place the remote TEST-AUTO-XMIT switch
b. Turn the COMM-1 audio switch to’the SPEAKER position and place the volume control in
in the TEST
the center of its range.
mately
c.
NOTE
NOTE Monitor a frequency on COMM certain the radio is operating,
1
cond and monitor the
distinctive
A
to be
ing
(TEST-AUTO-XMIT, approximately one ELT signal.
receiver
there
tone
sweeping
(assuming that operating properly), the battery is probably disconnected, outdated or discharged, was no
audible tone
the VHF transceiver is
was no
After
After
the
place
test,
the
TEST-AUTO-XMIT switch to the AUTO
position position. The disappear completely.
or
signal
should
was
If
audible tone
the
the
place
test,
remote
position.
access
the
audio
ensure
remote
to the ELT and check that the control switch
remote
XMIT-ARM switch to the ARM
if the tone
If the ELT continues to operate, be certain Gain switch is in the AUTO position.
f. the
is in the AUTO d.
test,
Monitor the emergency channel to e. the ELT has discontinued operation.
If
heard, the ELT is functioning properly.
during the
TEST-AUTO-XMIT switch in the AUTO
should have been heard from the monitoring receiver during the test. If the tone was there
tone
(assuming that the VHF transceiver is operating properly), the battery is probably disconnected, outdated or discharged. d.
downward
distinctive
sweeping
heard, the ELT is functioning properly.
NOTE A
downward
should have been heard from the monitor-
Place the remote ELT MIT-ARM) switch to XMIT for c.
the switch for app
position and hold second.
one
position also.
If the ELT still continues to send a signal, g. switch on the ELT to the ON position control the cycle and then to the AUTO position to reset the ELT impact switch.
If the ELT continues to
e.
operate, check that
the remote XMIT- ARM switch is in the ARM or
position posi-
the TEST-AUTO-XMIT switch is in the AUTO
TESTING THE ARTEX ELT 110-4
(Figure 4)
tion. a.
If the ELT continues to send
f.
a
signal, gain
to the ELT and firmly press the reset switch the front of the ELT and listen to ensure that the audio signal disappears from the COMM 1. The ELT’s
Turn
on
the
COMM 1 and tune
airplane’s
it to 121.5 MHz.
access
b.
on
control
switch
must
position when
on
COMM-1
and
the
audio
place the
switch
to
the
volume control in
NOTE Monitor a frequency on COMM certain the radio is operating.
(Figure 3) Turn
the
position
the center of its range.
TESTING THE DORNE AND MARGOLIN ELT
a.
Turn
procedure.
the test
completing
be in the ARM
SPEAKER
airplane’s
COMM 1 and tune
it to 121.5 MHz.
c.
the
Place
switch in the ON
remote
position
for
1
to
be
ARMED/RESET-ON
approximately
one sec-
end. b. SPEAKER
Turn
the
position
COMM-1
place
and
audio
switch
to
the
the volume control in
NOTE
the center of its range.
NOTE Monitor
a
frequency
certain the radio is
on
COMM
operating,
1
to be
A distinctive downward sweeping tone should have been heard from the monitoring receiver during the test. if the tone was heard, the ELT is functioning properly. If there
was no
audible tone
(assuming
that
25-60-00
Page 12 Oct 16/92
A16
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
the VHF transceiver is
f.
operating properly),
d.
After
the
ARMED/RESET-ON
place
test,
switch
in
the
the
access to the ELT and check that the control switch is in the OFF position also.
remote
ARMED/RESET
cycle
If the ELT still continues to send a signal, g. the control switch on the ELT to the ON and
then OFF Monitor the emergency channel to that the ELT has discontinued operation,
operate, be certain position.
Gain
position. e.
If the ELT continues to
the remote switch is in the ARMED/RESET
the battery is probably disconnected, outdated or discharged.
ensure
position
and the remote switch to the ON
and then ARMED/RESET
position
to
reset the
ELT
impact switch. "END"
25-60-00
Page A16
13
Oct 16/92
C H A PT E R
FLIGHT CONTROLS
RBYtheOll
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 27
FLIGHT CONTROLS
TABLE OF CONTENTS SUBJEC T
PA GE 27-00-00
FlightControls -Description
and
Operation.
~1
........._
ControlSurfaces...............................................................
..........1
EffectofTemperature Upon Taper Pins
CableTension
..............2 ................._
27-10-00
Maintenance Practices (CE-748, CE-772 and After; CJ-149 and After; D-10097, After; E-llll, E-1241 thru E-2110, except E-1946 and E-2104; EA-~1 thru EA-388, except EA-320). Single Throw-Over Control Column
Aileron and Tab
D-10120 and
Control ColumnArm Removal
.1 ~´•1
........._
Control Column Arm Installation.
~1
Rigging theControl
~1
Dual Control Arm.
Arm Chain.
........._......._
Dual Control Arm Removal
~3
Dual ControlArm Installation
~3
Rigging
The Dual ControlArm Chain.
~5
Aileron Removal
........._......._
Aileron Installation
RiggingtheAileron Control System ControlTrimmer(Single Control ColumnAirplanes).
............_.._._
Aileron
.6 ~7
Trimmer Removal
Trimmer Installation
.........~7
Aileron Tabs
27-11-00 Aileron and Tabs
Maintenance Practices
(E-1946, E-2104, E-2111
Dual Control Column.
and After;
EA-320, EA-389 and After) ..1
........._____
Control Column Chain Removal
ControlColumn Chain Installation
........._____
.........__...._
................._
.1
..................2
Control Column Chain
Rigging. RollerAdjustment FoMlard OuterTube Rollers (Roll onthe InnerSquare Shaft) Control Column Support RollerAdjustment (Attached to the Instrument Subpanel)
Control Column
.3 ..3
................._
................._
........._3
.........___...4
Aileron Removal Aileron Installation
........._......._
AileronControlCable Removal
....5
Aileron Control Cable Installation
A27
...9
27-CONTENTS
Mar
31/05Page
1
PaYtheery
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 27
FLIGHT CONTROLS
TABLE OF CONTENTS
(Continued) PAGE
SUBJECT
Rigging
theAileron Control
System.
9
Aileron Tab Aileron Trim Tab Cable Removal.
11
AileronTrimTab Cable Installation
11 12
Rigging
Aileron TrimTab
Aileron Trim Tab Actuator Removal.
12
Aileron Trim TabActuatorlnstallation
12
Disassembly Aileron Trim TabActuatorAssembly CheckingAileron TrimTabFree Play AileronTrimTab Free Play Inspection. Aileron Trim Tab Actuator
................._
13 14
15 16 27-20-00
RudderandTab -Maintenance Practices
1
Rudder(F33A, F33C, A36, A3GTCand B36TC)
1
Rudder Removal
Rudder Installation.
Rigging
the RudderControl
System
6
27-21-00 Ruddervator and Tab
Maintenance Practices
1 1
Rudder(V35B)....... Rudder Rigging Procedure
1
Ruddervator Removal Ruddervator Installation ElevatorTrim Tab Removal
4
Elevator Trim Tab Installation
6
Elevatorand Tab
(V35B) Rigging Procedure. inspection of ElevatorTabs Electric ElevatorTrim (Optional) ElevatorTab Rigging Rigging ElevatorTrim Tabs to CorrectforYaw Elevator
Right Yaw (Nose of Airplane tends to move to the Right with Wings Level) ForLeftYaw(Nose ofAirplanetends to moveto the Leftwith Wings Level) ElevatorTab Indicator Cable Replacement Inspection of Tab Hinges TrimTabActuator Removal (V35B) TrimTabActuator \nstal\ation(V35B) For
........._._._.._
Page
raM2
31105
27-CONTENTS
6
10 10 10 12 12
12 12 14
14
.................14
Ral~heon
AiKraft
company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 27
FLIGHT CONTROLS
TABLE OF CONTENTS
PAGE
SUBJECT 27-30-00 Elevator and Tab
Maintenance Practices
(F33A, F33C, A36, A36TC, B36TC)
...............___
......1
Elevator Removal
Elevatorlnstalla~on.
Rigging
the Elevator Control
System (CE-748,
CE-772 and After; CJ-149 and After; Prior to E-2111,
.................1 except E-1946 and E-2104; Priorto EA-389, exceptEA-320) .6 and EA-389 and After) E-2111 Control After; EA-320, System (E-1946, E-2104, Rigging the Elevator CJ-149 and Prior to CE-772 and Cable Indicator After; E-2111, After; Elevator Tab Replacement (CE-748,
exceptE-1946 EA-389 and
Rigging
exceptEA-320) Replacement (E-1946, E-2104,
.................6
and E-2104; Priorto EA-389,
Elevator Trim Tab Forward Cable
E-2111 and After; EA-320,
After). 68
the ElevatorTrimTab.
68
ElevatorTrim TabActuator
Disassembly (F33A, B36TC, A36TC and A36, except E-llll; F33C Priorto CJ-156, except thoseAirplanes with Kit 33-4002-1 Installed)
Elevator Trim Tab Actuator
68
Assembly (F33A, B36TC, A36TC and A36, except E-llll; F33C Priorto CJ-156, exceptthose Airplaneswith Kit 33-4002-1 Installed) ElevatorTrim TabActuator Disassembly (E-llll Only) Elevator Trim Tab Actuator
ActuatorAssembly (E-llll Only) Disassembly Model F33C (CJ-l 56 and After, and Earlier Airplanes Kit 33-4002-1). Incorporating Elevator Trim Tab Actuator Assembly Model F33C (CJ-156 and After, and Earlier Airplanes Incorporating Kit 33-4002-1). Checking Elevator Tab Free Play (CE-748, CE-772 and After; E-llll, E-1241 and After; CJ-149 and After) Elevator Trim Tab Actuator Removal (F33A, F33C, A36, A36TC and B36TC) Elevator Trim Tab Actuator Installation (F33A, F33C, A36, A36TC and B36TC) ElevatorTrim Tab Actuator Color Coding (F33A, F33C, A36, A36TC and B36TC) Electric Elevator Trim (Optional)
6C .7 .8
ElevatorTrim Tab
Elevator Trim Tab Actuator
.8 .9
......11
.........___
....12
........._.._._
12A
ModelA36, A36TC and B36TC
12A
Electric ElevatorTrimTab Servo Removal Electric ElevatorTrimTabServo Installation Electric ElevatorTrim Ground Checks
12A
12A
(Airplanes withoutAutopilot)
128
Model F33A, F33C andVB58. Electric Trim Tab Actuator Removal
128
ElectricTrim TabActuator Installation
128
NewTabCable Installation.
128
Magnetic Magnetic Magnetic
128
Clutch Removal
128
Clutch Installation.
Electric Trim Tab Actuator Brush
n2l
.12
...12
Clutch
Torque
Replacement
Schedule
...............13 13
Test
27-CONTENTS
3
Raycbeon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 27
FLIGHT CONTROLS
TABLE OF CONTENTS
(Confinued)
SUBJEC T
PA GE 27-31-00
WarninglSafe FlightSystem -Description Warning System Stall Warning -´•Maintenance Practices Stall Warning System Adjustments Stall
and
Operation
1
Stall
1
........._
27-50-00
Flaps-Description and Operation Flaps- Maintenance Practices Flap Removal Flap Installation Flap TrackWear Limits Flap Limit Switch Adjustment. Two-Position Flaps (CE-748, CE-772 thru CE-815; CJ-149; D-10097, D-10120 E-llll, E-1241 thru E-1370) Three-Position Flaps (CE-816 and After; CJ-150 and After; D-10179 and After; EA-1 and After) Flap Position Indicatorand Adjustment Flap Motor Removal. Connecting Flexible Flap Drive Shaftto Flap MotorShaft. Flap Motor Installation Flap Shaft Removal Flap Shaft Installation. Flap Actuator Removal Flap Actuator Installation Flap InnerflexShaft Removal. Flap Inner FlexShaft Installation Flap Actuator Disassembly Flap ActuatorAssembly.
1 1
................._
2
........._......._
thru D-10178; 2
E-1371 and After;
................._
5
5
........._._...._
9 9 10 11
27-70-00
GustLockAnd
Damper
ControlLock.
Page
27-CONTENTS
1
ntl
Ral~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 27
FLIGHT CONTROLS
LIST OF EFFECTIVE PA GES CH-SE-SU
PAGE
DATE
CH-SE-SU
27-LOEP
1
Mar 31/05
27-30-00
27-CONTENTS
1 thru 4
Mar 31/05
27-00-00
1 and 2
Sep
30/03
27-10-00
1 thru 11
Mar 31/05
27-11-00
i thru 18
Sep
27-20-00
1 thru 6
Feb 26/99
27-21-00
A27
1
Mar 29/96
Aug
18/95
3 thru 15
Mar 29/96
DATE
1 thru 6C
Aug
7
Jun 20/91
18/95
8 and 9
May
10
Oct 7/83
31/85
11
May
12 thru 128
Jun 20/91
13
Oct 7/83
27-31-00
1
May
27-50-00
1 thru 13
Sep 30103
27-70-00
1
May
30/03
2
PAGE
27-LOEP
31/85
9/80
9/80
Mar
31/05Page
1
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
FLIGHT CONTROLS
DESCRIPTION AND OPERATION
CONTROL SURFACES All Model F33A, F33C, V35B and A36TC airplanes and earlier Model A36 and B36TC airplanes are equipped with either a single throw-over or dual T control column. At serials E-1946, E-2104, E-2111 and After; EA-320, EA-389 and After, dual control columns were installed as standard equipment. The flight controls are cable conventional surfaces which require no power assistance for normal control by the pilot or copilot. The
optional
electric elevator trim
are
electrically
operated flaps and
I
driven.
primary flight control surfaces are manually controlled through cable bell crank systems. Each system incorporates surface travel stops and linkage adjustments. The ailerons, elevators and rudder may be secured with i control locks (gust locks) in the flight compartment. When these locks are installed, the elevator is at approximately 11" down and the control wheel is approximately 12" to the right. The rudder pedals are interconnected by a linkage below the flight compartment floor. The rudder pedals are adjustable to two positions by pressing the spring-loaded lever on the side of the pedal. If brakes are not installed on the copilot’s pedals, this same lever may be used to place the copilot’s pedals against the floor. All
One
flap installed
wing is operated by an electric motor-driven gearbox on the rear side of the front spar at airplane. The gearbox drives two flexible drive shafts, each connected to an acme thread type each flap. The flaps are controlled by a lever in the subpanel, and their position indicated by an I the left of the control column. The lever (switch) must be pulled out of a detent to change positions. on
each
the centerline of the
jackscrew
at
instrument to
airplane serials CJ-149; CE-748, CE-772 thru CE-815; D-10097, D-10120 thru D-10178; E-llll, E-1241 thru E-1370, the flaps may be stopped at any desired position by moving the flap switch to the OFF position when the flaps are at the desired position. The switch is placarded UP, OFF and DOWN. The markings on this position On
I
indicator will be 10", 20" and DN.
NOTE On serials E-1946, E-2104, E-2111 and After, the
approach position
is 12".
airplane serials CJ-150 and After; CE-816 and After; D-10179 and After; E-1371 thru E-2110 except E-l 946 and E-2104; EA-1 and After, the flaps have three positions: UP (O"), APPROACH (15") and DOWN (30"). The switch is placarded UP, APPROACH and DOWN. There is no way to stop the flaps in other positions without using the circuit
On
transmitter
(if installed)
is located
the left
flap
breaker. The
flap position
On
serials E-1946, E-2104, E-2111 and After; EA-320, EA-389 and After, the
airplane
near
actuator.
position of the flaps is 1
indicated by three lights, located near the flap control handle, in the subpanel. The lights will indicate down, approach and in-transit positions. All lights are out when the flaps are up. Trim tabs
are
installed
using jackscrew The
optional
on
each elevator. The tabs
are
position indicators
are
actuators. Tab
electric elevator trim tab is
wheel. A down
spring
and bob
weight
manually provided
controlled on
by the pilot through
drum-cable
systems
the tab controls.
operated by a control switch on the outboard handle of the pilot’s control incorporated into the elevator control system for improved stability.
are
On earlier serials, aileron trimming was performed by bendable tabs on each aileron and a spring tension trimmer in the control column. The bendable tabs were adjustable only on the ground. The spring tension trimmer was
adjustable
nz4
in
flight.
27-00-00
Sep
30/03Pagel
I
Rayfheon
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
I
The
spring
tension trimmer and left bendable tab
were
replaced by
an
inflight adjustable
trim tab at serials E-2111
and After, except E-1946 and E-2104, and on serials EA-320, EA-389 and After. This system is system with a jackscrew actuator and a trim wheel in the pedestal. Positive stops
on
the
primary flight
a
cable control
control surfaces limit their travel, and traveling stops secured to the cables limit are connected at turnbuckles, each cable has one left hand and one right
trim tab movement. Because the cables
hand threaded cable end.
I
crossing
I
and force, and down
the cables, and
Refer to the
Proper routing of the cables as shown in the applicable sub-chapter will aid against causing improper movement after the cables have been removed and reinstalled.
applicable rigging procedures for details regarding spring force and system friction.
chain and cable tension, control wheel movement
EFFECT OF TEMPERATURE UPON CABLE TENSION
I
Graphs specifying the correct maximum and minimum cable tension permissible for the various controls appear on the individual control system illustrations. The graphs provide rigging limits at temperatures varying from O" to 1100 F. The horizontal scale on the graphs designates the temperature in degrees Fahrenheit at which the control cables may be rigged, and the vertical scale designates the correct tension in pounds for each temperature reading. TAPER PINS Refer to the
I
applicable rigging procedures
for details
regarding
chain and cable tension, control wheel movement
and force, and system friction. Any time the control column has been removed and disassembled, the precautions should be observed:
following
CAUTION 1 I CAUTION The taper pin may crack the torgue tube if driven excessively. a.
When taper the
tapered
pins
are
to be
installed,
use a
shank should be flush with,
or
light weight rawhide extend
no more
or
nylon
mallet to set the
than 0.06 inch
over
pin.
The small end of
the surface.
WARNING IWARNINQ)
airplane serials 6-1946, 6-2104, color on all parts when replacing On
After; EA-320, 6-389 and After, observe the reinstalling control cables, bellcranks and/or other
6-2111 and or
control system components. DO NOT connect coded parts of different color.
Sep
27-00-00
one
color to coded parts of
n24
Ray~heon
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
MAINTENANCE PRACTICES
AILERON AND TAB
(D-~0097, D-10120 AND AFTER;
CE-748, CE-772 AND AFTER; CJ-~49 AND AFTER; E-llll, E-~241 THRU E-2110, EXCEPT THRU EA-388, EXCEPT EA-320) E-1946 AND E-2104; SINGLE THROW-OVER CONTROL COLUMN CONTROL COLUMN ARM REMOVAL a.
Remove the four
that
b.
Disconnect any electrical
c.
Remove the aileron trimmer. Perform the AILERON CONTROL TRIMMER REMOVAL
d.
Pull the T handle located
e.
Rotate the control column
screws
the retainer collar
secure
assembly
to the control column
housing (Ref. Figure i).
wiring.
on
the forward side of the control
arm
to the
nearly
vertical
procedure.
arm.
position
and slide the control column
arm
off the
housing.
CONTROL COLUMN ARM INSTALLATION a.
Position the control column
approximately parallel opposite
each other
arm
vertical
(Ref. Figure 1). Make
to the sides of the
the
near
access
that the slot in the lower
sure
and that the turnbuckles between the
arm
long
sprocket
is
and short chains
b.
The ailerons MUST be in the neutral
c.
Pull the T handle located
d.
Slide the control column
e.
Connectall
f.
Install the retainer collar and attach it with the four
g.
Install the aileron trimmer. Perform the AILERON CONTROL TRIMMER INSTALLATION procedure.
h.
Check the control column for full movement and the control surfaces for proper direction of movement.
on
position.
the forward side of the control
arm on
are
opening.
the control column
arm.
housing.
electricalwiring. screws.
RIGGING THE CONTROL ARM CHAIN a.
Position the control arm, control wheel and sprockets (Ref. Figure i). The long and short chains must be centered on the sprockets within one link. The turnbuckles must be near the access opening. The slot in the lower
b.
sprocket
Remove the
NOTE:
should be
safety
approximately parallel
to the sides of the
wire from the turnbuckles and loosen
Tighten
the chain until friction
remove
the
binding
or
or
binding
is felt
on
d.
After the
n27
the chain
as
necessary.
the control wheel, then loosen the chain
Check the control wheel and control surfaces for proper
e.
tighten
just enough
to
friction from the control wheel.
c.
as
or
arm.
adjustments are complete, (Ref. Figure 1).
operation
and freedom of movement.
check that the location of the control wheel,
sprockets
and turnbuckles
are
shown
Safety
wire the turnbuckles.
27â&#x20AC;&#x2122;1 0-00
1
I
RBYtheOll
Aircraft
tompany
BONANZA SERIES MAINTENANCE MANUAL
’;A
I
:;i c-´•
r:
LONG ACCESS
CHAIN
OPENING TURNBUCKLE
CHAIN
SLOT
IN
SPROCKET
C9201 738
Single
Throw-Over Control Column
Figure
Page
2Mar31/05
27-~ 0-00
A27
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
DUAL CONTROL ARM DUAL CONTROL ARM REMOVAL a.
Remove the four
that
screws
secure
the retainer collar
NOTE: Some installations may have and omit the following step. and washer
b.
Remove the
c.
Disconnect all electrical
d.
Slide the control
screw
arm
a
T handle
on
assembly to
the
right
retaining the pin assembly
the control column
housing (Ref. Figure 2).
forward side of the control
on
the
arm.
Pull the T handle
forward side of hub of the control
right
arm.
wiring.
off the installation.
DUAL CONTROL ARIVI INSTALLATION a.
Position the control
b.
Make
sure
arm as
the slot in the center
and the short chains c.
shown
are
The ailerons MUST be
(Ref. Figure 2).
sprocket
opposite
positioned
Slide the control column
arm on
NOTE: On installations with
pin assembly
a
the
approximately vertical and the turnbuckles openings.
a
T handle
on
the control column
the
right
forward side of the control
T handle, omit the next
chains
arm.
Pull the T handle.
right side of the control
step. hub.
Install the
f.
Install the retainer collar and attach it with the four
g.
Check for full control movement and for proper direction of movement.
A27
long
housing.
e.
on
between the
at neutral.
NOTE: Some installations may have d.
is
each other near the access
arm
screws.
27-1 0-00
3
RaY(iheOn
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
TURNBUCKLES MUST OPPOSITE
BE
SLOT
IN
´•j;IONG
A Q
SPROCKEI CHAIN
Al
C
Z:SHORT
CHAIN
TURNBUCKLES OPPOSITE
MUS~
-BE
RIGHT
LEFT
VIEW
LOOKING
RIGHT
AFT
LEFT
DETAIL
A
FWD
C920
Dual Control With
Single
Figure
Page4Mar31/05
271~ 0100
759
C
Control Column
2
A27
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
RIGGING THE DUAL CONTROL ARM CHAIN a.
Position the control arm, control wheel and sprocket
b.
Center the
c.
The slot in the center
d.
Remove the
e.
Adjustthechainsas necessary.
long
and short chains
safety
NOTE: The chains
sprocket
on
their
must be
sprockets
as
shown
within
approximately
(Ref. Figure 2). link.
one
vertical
as
shown.
wire from the turnbuckles.
are
properly adjusted by tightening the chains until binding is noticed on just enough to remove the binding or friction from the control
then loosen the chains f.
After the
adjustments
turnbuckles
are as
are
complete, check that the location of the
the control wheel;
wheel.
control arm, control wheels,
sprockets
and
shown.
g.
Safety
h.
Check the controls for freedom of movement and the control surfaces for proper direction of movement.
wire the turnbuckles.
AILERON REMOVAL the aileron and
a.
Support
b.
Pull the aileron
c.
Remove the
straight
screws
remove
the two
away from the
attaching
the
attaching
wing
bonding
screws
to avoid
from the top and bottom of each
damage
to the
attaching
hinge
bracket.
areas.
cable to the aileron.
AILERON INS TALLA nON a.
b.
Attachthebonding
cabletotheaileron.
Place the aileron in
position
aileron skin and the c.
Install the upper and lower
d.
Pull
on
on
reinforcing
the
hinge brackets.
The
hinge
brackets must be in the correct
place
hinge
bracket
screws.
the aileron in
correctly.
between the
structure.
a direction straight away from the wing to make sure that the hinge brackets If there is any movement of the aileron, recheck the position of all hinge brackets.
27-1 0-00
are
positioned
5
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
RIGGING THE AILERON CONTROL SYSTEM NOTE:
Raytheon Aircraft Company recommends the use of the aileron travel gage. Refer to Chapter 12-20-00, SPECIAL TOOLS. The front of the travel gage should be located over the leading edge skin splice with the aft portion over the number 8 wing rib (just outboard of the inboard aileron hinge). flap surfaces
must
align
a.
Aileron and
with the upper and lower surfaces of the
b.
Adjust the aileron downstops in the wing until the bellcrank just clears the gusset on the wing rib. upstep in the wing so that the aileron bellcrank just misses the aileron pushrod (Ref. Figure 3).
c.
Adjust the link connecting the aileron and downstop.
d. e.
Adjust the
parallel
wing
trailing edge aligns with flap.
the
trailing edge
to the control column cables. The turnbuckles
Secure the control column wheel in neutral the control wheel with
a
tension
bubble level. as
by securing
change
position
Take the cable f.
g.
and its inboard
wing,
a
bar
across
the
top
of the control wheel
reading
are
in the wheel wells.
of the control wheel and
leveling
installed, the control wheel is rotated 12" to the (With shown on the aileron temperature cable tension graph (Ref. Figure 3).
airplane. If the airplane is using a spirit level protractor.
not
level, make
in the wheel well where the control column cables attach to the
Rotate the control wheel to ascertain reaches its
of the
upstep
the control locks
NOTE: The control wheel must be level in relation to the to the
Set the aileron
with the outboard end of the
cables from the
right). Adjust the
within 1/16 inch.
to the bellcrank to allow full travel of the ai leron surface between the
NOTE: The aileron is in neutral when the aileron end is
wing
corresponding
a
wing
by feel that the wing bellcranks reach their stops before the
cables.
control column
stops.
If there is less travel of the control wheel in the lower cable and
one
direction than in the other direction, loosen one turnbuckle on which way the travel is off.
on
tighten the opposite lower cable turnbuckle, depending
Maintain the correct cable tension. h.
Secure the control wheel in neutral after the correct travel of the wheel is obtained. Adjust the link connecting wing bellcrank to obtain the aileron in neutral. Neutral position of the aileron is determined by
the aileron to the
aligning i.
the inboard end of the aileron with the outboard end of the
Set the bellcrank
stops
to
give
a
deflection of 20
flap
2" up and/or down
with the
flap
in the up
position.
(Ref. Figure 3).
NOTE: The aileron bellcrank stops should make contact 1/16 inch before the control column stops
j.
Be
sure
each aileron bellcrank contacts its upstep at the
contacts its k.
same
time
as
the bellcrank in the
reached.
opposite wing
downstop.
Check the control stop (secondary stop) in the control column for 1/16 inch clearance in each direction. If the clearance is not correct, recheck the entire aileron control system for correct chain and cable rigging.
NOTE: The control stop clearance provides a slight movement of the control wheel and the aileron bellcranks make contact.
PageGMar
are
31105
27-1 0-00
(a cushion) after the
travel
stops
n21
Ray~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
I.
Recheck cable tension and
m.
Tighten alljam
safety
wire the turnbuckles.
nuts.
WARNING: Check the ailerons for correct direction of movement. When the control wheel is moved to the left, the left aileron must move up and the right aileron must move down. When the control wheel is moved to the move
right,
the
right aileron
must
up and the left aileron must
move
down.
Check to make
sure
that cabin floorboards, floorboard insulation and other interior
parts
do not contact the control cables.
AILERON CONTROL TRIMMER
(SINGLE CONTROL COLUMN AIRPLANES)
The aileron control system is equipped with an aileron control trimmer which functions by applying tension on the aileron control cables to level the wings as needed. The holding pressure exerted by the aileron control trimmer can be
easily overridden at the discretion of the pilot. checking the cable tension.
The trimmer does not
change
the
system rigging
but should be
removed before
TRIMMER REMOVAL a.
Unscrew the two
(inner half) b.
Separate
body
halves
counterclockwise
the two
body
by holding the clutch body housing touter half) (Ref. Figure 4).
halves
by pulling
out
on
the clutch
and
turning
the clutch
body
nut
body housing.
TRIMMER INSTALLATION insert the shaft
through
a.
Carefully
b.
Screw the two halves of the unit
tightening c.
the felt seal into the hub
together by holding
bearing, being
the clutch
body
and
careful not to shear the felt seal.
turning
the clutch
body
nut. Hand
the two halves should be sufficient.
tangs of the drive shaft engage properly with the sprocket as the unit is being tightened by hand. position indicator on the face of the unit is right side up as the shaft engages with the sprocket tRef. Figure 4).
Check that the
Also note that the
nlr
27-~ 0-00Page
7
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
This
PageS~"3105
27110100
Page Intentionally Left
Blank
A27
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
TMPERATURE CABLE TENSK)S ~RAPH
50
50
CABLES
I
CABLE TENSM3N
I
SURFACE TRAVEL
20´UP AILERON
40LBS
-2
+-S LBS AT 59"F
BUNGEE SPRINGS CONNECTED
10
10
20
30
40
66
50
70
Se
90
100
20"
+2 -2
DOWN
110
fEkdPERATURE- ’F
RIGHT AILERON UP CABLE
T~RNBOCI(LES IN WHEEL WEU
DOWNSTOP
UPSTOP
Illll~llre
LEFT UP THAWGH
d%-
‘L-
RK;HT UP
LEFT AILERON UPCABLE
i~B*
I
,i
\1
36-151-17 oO~
RUDDER INTERCONNECT BUMGEE
Rigging
the Aileron Control
Figure
A27
System
3
27-1 0-00
Mar
31/05Page
9
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
This
27-11 0-00
Page Intentionally
Left Blank
nzT
Raytheon
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
AILERON TABS The ailerons
tabs
are
are
equipped with
sheet metal tabs which may be
adjusted by bending them in opposite setting by flight test.
adjusted
while the
airplane is only a
directions to each other. Bend the tabs
on
the
ground.
The
small amount each
time and check the
I.
Aileron Trimmer
A27
THROW-OVER
2.
DUAL
"T"
3.
AILERON
CONTROL
CONTROL
ARM
ARM
TRIMMER
(Single Control Column) Figure 4
27-~ 0-00
Mar
31/05Page
II:
Raytheon
AiKra´•H Company
BONANZA SERIES MAINTENANCE MANUAL
AILERON AND TAB
(E-1946, E-2104,
MAINTENANCE PRACTICES
E-2111 AND
AFTER; EA-320, EA-389 AND AFTER)
WARNING I WARNING) Make certain that insulation, tie wraps, etc. do not interfere with control components such as
cables, chains,
etc.
DUAL CONTROL COLUMN
WARNING IWARNING) On
airplane serials E-1946, E-2104, E-2111 and After; EA-320, EA-389 and After, observe the coding on all parts when replacing or installing control cables, bellcranks and/or other
I
color
control system components. DO NOT connect parts of color.
one
color to coded parts of
a
different
CONTROL COLUMN CHAIN REMOVAL a.
Paint
one
of the control wheels at b. c.
sprocket and installation (Ref. Figure 1).
tooth of each control column’s
its
corresponding
chain link to
ensure
proper
alignment
Loosen the turnbuckles of the control column chain and the aileron turnbuckles in the wheel well. Remove the
safety wire
from the four bolts
(two
on
each
end),
and
remove
the six bolts from the channel
remove
the stop link
between the control columns.
d.
Remove the channel from the
e.
Disconnect the turnbuckles from the chain of the control column.
f.
Remove the four connector links from the stop link
airplane.
assembly,
then
assembly.
I
NOTE It may be necessary to g.
Slide the
n24
remove
sprocket support assembly
aft
the stop block before
over
the
joint
then
removing
remove
the stop link
assembly.
the chains from the control columns.
27-11-00
Sep 30/03Page
1
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
TURNBUCKLE
STOP
TORQUE SHAFT
GUARD PIN
LINK CHAIN ASSEMBLY
ASSEMBLY SPROCKFT ASSEMBLY
CONNECTOR LINK
AILERON CABLE ASSEMBLY
Q AIRCRAFT 36´•1558
Dual Control Column Chain
Figure
Adjustment
1
CONTROL COLUMN CHAIN INSTALLATION the control column
sprockets (Ref. Figure 1).
a.
Install the chains
b.
Install the stop link
c.
Install the aileron cable chains. The inboard holes of the stop link
over
assembly.
The outboard holes
are
used with the control column chain.
assembly are
used with the aileron cable
chains.
NOTE Make certain the conn~ctor links
I
d.
Install the stop block if removed.
e.
Connect the turnbuckles
f.
Slide the columns.
g.
Tighten
(do
not
are
properly installed.
tighten).
sprocket support assemblies Safety wire the four bolts.
forward and install the six bolts to the channel between the control
the control column chains. Refer to the CONTROL COLUMN CHAIN RIGGING
procedures.
WARNING Check the ailerons for proper motion. When the control column is turned to the move down and the right aileron move up.
right,
the left
aileron should
Sep
30/ Page
2
27-11-00
A24
RaylheQn
AiKlaft Company
BONANZA SERIES MAINTENANCE MANUAL
I
CONTROL COLUMN CHAIN RIGGING
Rigging a.
Rig
of the control column chain may be neutral
may be b.
It
on
d.
by placing a straightedge across the top of the control wheels. straightedge (Ref. Figure 1).
the control wheels
0.06 inch off the
Ensure that the ends of the control column chain around the
from the centerline of the c.
accomplished by the following:
right sprocket
are
within
a
link of
grips
I
equidistance
sprocket.
If the stop link assembly is not centered within f 0.02 inch with respect to its stop, center the link. Place
one
One of the
adjust
the turnbuckles to
I
vertical load of two pounds on the top chain near the airplane centerline. The chain should deflect 0.25 Adjust the turnbuckles as necessary to obtain this deflection.
I
0.06 inches. e.
After
rigging the control column chain, are properly rigged.
refer to RIGGING THE AILERON CONTROL SYSTEM and make certain
the ailerons
CONTROL COLUMN ROLLER ADJUSTMENT FORWARD OUTER TUBE ROLLERS There
are
four rollers
on
(ROLL
ON THE INNER SQUARE
I
SHAFT)
the forward end of each control column which transmit torque to the square inner shaft. are installed with eccentric bolts which allow for adjustment of roller
Two of the rollers of each control column
clearance. These two bolts may be identified follows: a.
Wipetheshaftsclean anddry.
b.
Hold
c.
The roller
d.
If the conditions of
e.
Turn the bolt until the conditions of
f.
Tighten
g.
Check the other
h.
If the
one
of the on
nonadjustable
the
opposite
Step
rollers
by
their 10-32 threads. Refer to
firmly against the
side of the shaft should turn
c. are
adjustment
rollers
2 and
adjust
the rollers
as
shaft.
freely
while
having
no more
than 0.002 inch clearance.
not met, loosen the nut on the roller which has the bolt with 10-32 threads.
Step
c. are
complied with.
the nut, then recheck the roller clearance in accordance with
pair of
Figure
as
indicated in
is needed, follow
Steps d.,
Repeat this procedure for the other control
Steps
e.
b. and
Steps
b. and
c..
c..
and f. for the second set of rollers.
column.
27-11-00
Sep
30/03Page
3
I
RMJlheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
O
FORCE
THIS ROLLER SHOULD ROLL FREE
.002 OR LESS
381506
Forward Control Column Rollers
Figure
I
CONTROL COLUMN SUPPORT ROLLER ADJUSTMENT The top two rollers (22) of each control column support adjustment as follows (Ref. Figure 3):
2
(ATTACHED
are
TO THE INSTRUMENT
SUBPANEL)
installed with eccentric bolts which may be used for
Pull the control column fore and aft until the position of least clearance between the control column and support rollers is located. Keep the control column in this position while checking and/or adjusting the clearance. Each control column will
probably
have its
own
position of
least clearance.
firmly against the two top
a.
Hold the control column
rollers.
b.
The clearance between the control column tube and the lower roller should be 0.005
c.
If the correct clearance is not indicated, loosen the nuts
d.
Rotate the bolts to obtain the proper clearance.
e.
Tighten
f.
Recheck for proper clearance
g.
Repeatforthe
on
0.002 inch.
the two top rollers.
the nuts.
(Step b.).
othercontrol column.
AILERON REMOVAL flaps and disconnect
a.
Lower the
b.
Support
c.
Pull the aileron
Sep
30/Page
4
the aileron and
remove
the
push-pull
the two
straight away from
27-11-00
the
rod to the aileron tab.
attaching
wing
screws
to avoid
from the top and bottom of each
damage
to the
attaching
areas.
hinge
bracket.
RaJlheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
d.
Remove the
screws
attaching
the
bonding
cables to the aileron.
AILERON INSTALLATION a.
b.
bonding
Attach the
Place the aileron in
cables to the aileron.
position on the hinge brackets. reinforcing structure.
Be
sure
the
hinge
bracket is in the proper
place between the
aileron skin and the c.
Install the upper and lower
d.
Pull
on
bracket
screws.
a direction straight away from the wing to assure that the hinge brackets If any movement of the aileron is noted, recheck the position of all hinge brackets.
the aileron in
positioned. e.
hinge
Lower the
flap
and connect the aileron tab
push-pull
rod and install the cotter
are
properly
pin.
AILERON CONTROL CABLE REMOVAL
I
pilot’s and copilot’s seat, and the floorboards
in the
pilot’s compartment.
a.
Remove the
b.
Remove the forward passenger seats and the floorboards between the main and
c.
Remove the
access
trailing edge
of the
d.
plates wings.
as
Remove all necessary cable
necessary to
retaining pins
gain
access to
from the cable
the aileron cables and
pulley
rear
spars.
pulley
brackets
on
the lower
brackets.
assembly at the connector link below the control (Ref. Figure 4).
Disconnect the forward aileron cables from the chain and cable
e.
column. Install lead lines to both aileron cables
Disconnect the forward aileron cables and the forward outboard
f.
Connect
a
lead line to
one
end of the cable and
remove
Disconnect the balance cable at the turnbuckle in each
g.
remove
wing
cable at the turnbuckles in each
wing.
Connect
a
lead line to
one
end of the cable and
the cable.
Disconnect the forward outboard and the aft outboard cables at the bellcrank in each
h.
wing.
the cable.
wing. Identify and
remove
the cables.
Pi24
27-11-00
5
1
Raytheon
nircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
WHEEL COLLAR ASSEMBLY COLUMN TORQUE TUBE ELEVATOR TORQUE ARM ELEVATOR TORQUE TUBE ELEVATOR BELtCRANK 7. ELEVATOR TORQUE TUBE SUPPORT 8. BOB WEIGHT ASSEMBLY S.COUAR 10. COLLAR ASSEMBLY 11. ELEVATOR PUSHROD 12. CONNECTOR 13. INNER COLUMN GUIDE 14. INNER COLUMN TORQUE TUBE 15. UJO1M 16. SPROCI<FF SUPPORT 17. TAPER PIN 18. SPROCKFT FORWARD SUPPORT 20. 21. COTTER PIN 22. SUPPORT ROLLERS 1~ 2. 3. 4. 5. 6.
20 21
!j
19
1
.91TUN
1
16
4---~
1
K
12
11
q
15
17
BJj Q~k 4
17
~B
ii
3
8
5 22 17
17
j
c
3&(55´•(4
Control Column
Figure 3
Sep
30/Page
6
27-11-00
A24
RayIheon Airuaft Company BONANZA SERIES MAINTENANCE MANUAL
e
1
a
F.S. 96.00
RIGHT A1LERON UP F.S. 84.358
DETAILC
oE´•rAI1B
N
RIGHT AILERON
BALANCE CABLE
LEFT AILERON UP ~c-
‘2.
BALANCE
B
A
C
DETAIL
F.S. 117.187
D F.S. 112.000
LEFT AILERON UP AILERON TAB
ACTUATOR
B BALANCE CABLE
E
QD
TEMPERATURE CABLE TENSION GRAPH
~m
~-TRAVEL STOPS
g
AILERON
CABLE
I
CABLE
TENBIDN
SURFACETRAVU
BEUCRANK
DETAIL
DETAIL
A
35
AILERON
AT
5 Las
59"5 BUN~EE
SPRINGS CONNECTED
20~ 20"
2" ilP 21 DOWN
E
~AB.
B z~ W~ 10
20
.30
´•40
50
60
TEMPERATURE
AILERON
~O LBS +5 LBS
TAB
F.S.
APPROXIMATE FUS~LAGE STATION
-0 LBS
AT
9’e 0 9"~ 0
1" 1"
80
70
90
100
HO
120
"F
UP WWN
59’F
~6151-18
Aileron
System
(2-1946, E-2104, E-2111 and After; EA-320, EA-389 and After) Figure 4
A24
27-11-00
Sep
30/03Page
7
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
This
Page Intentionally
27111100
Left Blank
A24
RayYheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
AILERON CONTROL CABLE INSTALLA TION a.
b.
I
Connect the foMlard outboard and the aft outboard cables to the bellcrank in each inboard and disconnect the lead lines (Ref. Figure 4). Route the balance cable
through
one
wing,
the
fuselage, then through
the
wing.
Route the cables
opposite wing.
line and connect the balance cable and the aft outboard cables to the turnbuckles in each
Disconnect the lead
wing.
one end of the aileron cables outboard in each wing, and the other end forward to the control column. Connect the cables to the turnbuckles at the forward outboard cable in each wing.
c.
Route
d.
Connect the chain and cable
e.
Install all
f.
Rig
g.
Install the
h.
Install the floorboards and the forward passenger seats.
i.
Install the floorboards and the
retaining pins
the aileron control access
in the
assembly to pulley
both aileron cables at the connector link below the control column.
brackets.
system.
plates
on
the lower
pilotâ&#x20AC;&#x2122;s
trailing edge of
and
copilotâ&#x20AC;&#x2122;s
the
wings.
seats.
WARNING I WARNI~NQ) Make certain that insulation, tie wraps, etc. do not interfere with control components such as
cables, chains,
etc.
Check for correct direction of movement by moving the control wheel. When the control wheel is moved to the left, the left aileron should move up and the right aileron move down. When the control wheel is turned to the right, the right aileron should move up and the left aileron down.
Check to make sure that cabin floorboards, floorboard insulation and other interior parts do not contact the control cables.
I
RIGGING THE AILERON CONTROL SYSTEM NOTE Raytheon Aircraft Company recommends the use of the aileron travel gage. Refer to SPECIAL TOOLS in Chapter 12-2q-00. The front of the travel gage should be located over the leading edge skin
splice
ac eptable.hinge).
with the aft
Alternate
portion
rigging
Aileron and tab surfaces must
b.
Place the aft
the locknuts c.
~224
Tightenthe
on
the number 8
wing rib (just outboard of
with TE-100TB Universal Travel Board and KS6005
a.
arm
over
align
with the upper and lower surfaces of the
wing
I
the inboard aileron
Digital
Protractor is
I
within 1/16 inch.
parallel to the adjacent wing rib. If the aileron is not in neutral, loosen adjust the push-pull tube until the aileron is in neutral. push-pull
of both aileron bellcranks
both ends of the
tube and
locknuts.
27-11-00
Sep
30/03Page
9
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
d.
neutral
Rig
e.
by placing straightedge.
the control wheels
0.06 inch off of the
may be
I
on
a
Assure that the ends of the chain around the
straightedge
right control
across
column
the
top of the two control wheels. One grip
are
within
link of equidistance from the
one
centerline of the sprocket. f.
If the link stop
g.
Place
Adjust
on
the top chain
as
necessary to obtain this deflection.
Connectthe bungee
i.
With
airplane
to center the link.
centerline. The chain should deflect 0.25
pounds
near
the
adjust the turnbuckles
the turnbuckles
h.
I
is not centered with respect to its stop,
vertical load of two
0.06 inch.
I
I
a
assembly
springs.
a straight rig pin installed between the pilotâ&#x20AC;&#x2122;s rudder pedals and with a simulated (10 Ibs.) cable tension, adjust the turnbuckle above the forward aileron bungee spring until both bungee springs are extended equally rt
0.06 inch.
j.
Adjust the turnbuckles
k.
Remove the
i.
Adjust the
m.
Tighten
n.
Rig
o.
Be
in the wheel wells to
straightedge from
on
(primaly stops) for a deflection
(O").
of 20
zt
20 UP, and 20
2" down from neutral.
the bellcrank stop bolts.
the aileron cables to the tension indicated in sure
ailerons to neutral
the control wheels.
aileron bellcrank stops
the locknuts
bring the
each bellcrank contacts its upstep at the
Figure same
4. Use the turnbuckles in the wheel wells.
time the bellcrank in the opposite
wing
contacts its
downstop. p.
Set the secondary stop bolts (the stop link atthe forward end of the control column) to maintain 0.06 to 0.12 inch clearance from the stop with the ailerons at full travel (both right and left).
q.
straight rig pin installed between the pilotâ&#x20AC;&#x2122;s rudder pedals, the control wheels should center within 5" of neutral. If necessary, readjust the vertical turnbuckle above the forward bungee spring and the aft turnbuckle in the wheel well as required to center the control wheels. With
a
Recheck cable tension and s.
With the ailerons 10"
t.
right
or
safety the
turnbuckies. Make certain all locknuts
fully rigged (bungee springs disconnected), inch-pounds.
the torque
tight.
are
required
to move either control wheel
left of neutral shall not exceed 15
Connect the bungee
springs.
I WARNING W~RNING) Check for correct direction of movement by moving the control wheel. When the control left, the left aileron should move up and the right aileron move down.
wheel is moved to the
When the control wheel is turned to the aileron down. u.
Removeallrigging pins.
Sep
27-11-00
right,
the
right aileron
should
move
up and the left
Raylheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
AILERON TAB A trim tab has been installed in the left aileron which is controllable from inside the
tab is controlled
through
normal cable and chain
linkage to a control
airplane while in flight.
wheel located in the
The aileron
pedestal with the indicator.
AILERON TRIM TAB CABLE REMOVAL seat and the left floorboard.
pilotâ&#x20AC;&#x2122;s
a.
Remove the
b.
Remove the lower forward
c.
Remove the forward left passenger seat and the floorboard.
d.
Remove necessary
e.
Remove the cable
f.
Disconnect the tab cables at the turnbuckles in the left
g.
Remove the cable stops at WS 43.375.
h.
Remove the outboard cable from the actuator sprocket. Remove the cable through the actuator access
opening.
i.
Remove chain master link at the
opening.
upholstery panel
plates
access
retaining pins
to
gain
at the
on
the left side of the
access
pulley
sprocket on
to the trim tab
pedestal.
cables, actuator, and cable pulley brackets.
brackets.
the
wing. Identify
and connect lead lines
pedestal. Remove cable through
on
the actuator
the cable ends.
access
AILERON TRIM TAB CABLE INSTALLATION a.
Position the chain of the forward tab cable around the
b.
Route the cable ends aft in the
c.
Position the chain of the outboard cable around the actuator sprocket and route the cable ends inboard.
d.
Install the cable stops at WS 43.375 and connect the cables at the turnbuckles in the
e.
Install the cable
f.
Rig
g.
Install all
h.
Install the floorboard and the left forward passenger seat.
i.
Install the floorboard and the
j.
Install the
retaining pins
the aileron trim tab control access
plates
fuselage
wing
and disconnect the lead lines.
I
system, refer to AILERON TRIM TAB RIGGING procedure.
I
in the
pulley
brackets.
wing.
pilotâ&#x20AC;&#x2122;s
on
and outboard into the left
and install the chain master link.
wing.
in the left
upholstery panel
pedestal sprocket
seat.
the left side of the
pedestal.
WARNING lwnREllNaI Make certain that as
cables, chains,
insulation, tie wraps,
etc. do not interfere with control
components such
etc.
The aileron tab should stay in the same plane with respect to the aileron when the aileron is moved. When the tab control wheel is turned to indicate left wing up, the aileron tab should move
nz4
up. If the aileron and aileron tab do not
move
in the proper
direction, recheck rigging.
27-11-00
Sep
30/ 3Page
11
RayMheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
AILERON TRIM TAB RIGGING
NOTE Place the aileron in neutral. a.
Place the aileron trim tab control in neutral
b.
Place the aileron in neutral
c.
d.
and connect the trim tab to the tab actuator.
By tu ming the sprocket on the actuator, adjust the trim tab to both extremes of travel; measu re both settings and return the tab to the midpoint of the two extremes of travel. This will place the actuator in the neutral position. If the trim tab is not in the neutral
neutral
I
position
position.
position upon completion of Step
c.,
adjust the pushrod
to
place
the tab in
position. the
sprocket
and
tighten the cable.
e.
Center the chain
f.
Set the aileron tab stop (at WS stops to 40 to 60 inch pounds.
g.
Rig cable tension and adjust travel (Ref. Figure 4).
h.
Check trim tab travel,
on
43.375)
to obtain a surface deflection of 9"
all turnbuckles and
safety
0"
1" up and down.
Torque
the
stops.
ARNINO I WARNINQ) After
rigging
the aileron and aileron tab control
system, check for
correct movement of the
control surfaces with respect to the movement of the controls. The aileron tab should stay in the same plane with respect to the aileron when the aileron is moved. When the tab control
wing up, the aileron tab should move up. If the aileron and in the proper direction, recheck the rigging.
wheel is turned to indicate left aileron tab do not
move
AILERON TRIM TAB ACTUATOR REMOVAL
plates
at the actuator.
a.
Remove the
b.
Disconnect the outboard cable at the turnbuckles in the
c.
Remove the outboard cable from the actuator
d.
Disconnect the actuator from the trim tab
e.
Remove the bolts
access
attaching
wing.
sprocket.
linkage.
the actuator to the
wing
structure. Remove the actuator.
AILERON TRIM TAB ACTUATOR INSTALLATION
against the wing
a.
Position the actuator
b.
Connectthe actuatortothetab
c.
Install the outboard cable
Sep
30/03Pagel2
on
structure and install the
attaching
bolts.
linkage.
the actuator
27-11-00
sprocket.
n24
RayMheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
d.
Connect the cables at the turnbuckles in the
e.
Rig
f.
Install the
wing.
the aileron trim tab control system. access
plates
at the actuator.
AILERON TRIM TAB ACTUATOR DISASSEMBLY a.
Remove the pins from the assembly (Ref. Figure 5).
ring (10)
b.
Remove the snap
c.
Remove the actuator
d.
Remove the
Remove the check nut
f.
Remove the
(8)
The
(2),
bearing (4)
and
from the actuator from the nut
the actuator
screw.
e.
assembly (5)
sprocket (1)
and
remove
the
sprocket from
the actuator
1
screw
pins from
from the actuator
nut
I
screw
bearing (4)
and
screw
from the nut
housing (6),
and
pull
the nut
assembly (5)
out of the
housing.
assembly (5).
(8)
and the actuator rod end
and the
out the
bushing (9)
can now
adjusting bushing (3)
(11)
and
remove
the actuator rod end
be removed from the actuator
with
a
screw.
spanner wrench.
assembly (5).
nn~Pagel3
1
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANGE MANUAL
1. 2. 3. 4. 5.
Spracket
8. 9. 10. 11. 12. 13.
Check Nut
Adjusting Bushing Bearing Nut Assembly
8. Actuator Rousing 7. Bracket
Actuator Screw
I
Bushing Snap Ring
a
7
Actuator Rod End Tube End Actuator Tube
V/
9
5
4
f 13
1?
2
ta
11
s
TH27B 98~BS9AA
Aileron Trim Tab Actuator
Figure
5
AILERON TRIM TAB ACTUATOR ASSEMBLY
NOTE During assembly bearing (4)
a.
Install the
b.
Install the other
c.
Install the actuator
d.
Push the nut
Sep
on
lubricate all
the nut
bearing (4) screw
assembly (5)
and
(8)
moving parts with
grease
(11, Chart 1, 91-00-00).
assembly (5). bushing (9)
in the nut
the actuator
screw
(8).
assembly (5).
into the actuator
27-11-00
on
housing (6),
and install the snap
ring (10)
in the actuator
housing (6).
A24
RayMheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Use
e.
the
a
spanner wrench to install the adjusting bushing (3) into the actuator housing (6) until the end play between housing and nut assembly (5) is less than 0.025 inch. If the end play cannot be reduced to within limits,
screw
replace
the actuator.
f.
Install the check nut
g.
Install the actuator rod end
h.
Align
i.
Install the
j.
Align the
(2)
on
the
adjusting bushing (3).
(11)
on
the actuator
the holes in the actuator screw
sprocket (1)
holes in the
on
(8)
the actuator
(8).
screw
with those of the actuator rod end
(1 1)
and install the two
pins.
assembly.
sprocket (1) with
those in the nut
assembly (5)
and install the two
pins.
CHECKING AILERON TRIM TAB FREE PLAY
Visually inspect
the aileron trim tab for
for
damage, security of hinge attach points, and checking the free play of the tab.
tightness
of the
actuating
system. Inconsistencies must be corrected before A check fixture
loading a.
b.
Securely lock the control surfaces Use shot tab
c.
(P/N 45-135030-9/810) or equivalent, a dial indicator, and a push-pull scale required for making the inspection for tab free play (Ref. Figure 6).
for
applying
bags to
hinge
Apply
a
prevent
movement of the ailerons. Set the aileron trim tab in neutral.
hold the dial indicator check fixture
line and
small
to
on
the outboard
edge
so
that the
another
piece of masking tape (for paint protection)
piece of masking tape
in the
Apply
e.
Set the dial indicator at
f.
With the
g.
Release half of the load to obtain
h.
On the
i.
Release half of the load to obtain
a
j.
Enter the recorded
copy of Chart 1 and
push-pull
scale
masking tape
on
on
masking tape, apply a
1.5
pound
the bottom surface,
readings
against
on a
1.5
3.0
SubtractAfrom2Band recordasX.
2.
MultiplyBby2and
recordases.
3.
MultiplyDbyeand
recordas2D.
4.
Subtract C from 2D and record
during
pound
on
the
by
the
apply
a
3.0
downward load. Record the dial
Record the as
reading
as
load. Record the dial
reading
as
reading
D.
follows:
NO~E can
be
negative
reading
as
B.
Y.
X and Y
the
checking procedure.
pound upward
proceed
hinge line and along push-pull scale.
the bottom surface of the tab.
downward load. Record the dial
pound upward load.
1.
as
a
the tab
location
Do not reset the dial indicator
the
of the dial indicator is 2.0 inches aft of the
4.0 inches aft of the tab
corresponding
d.
zero.
point
of the aileron tab.
centerline of the tab actuator. This is the point of pressure
Pi24
accurate
to the tab are
numbers.
27-11-00
as
C.
A.
I
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
5. k. i.
Add X and Y and record 0.094 INCH
(E
If the free
play
determine the
is
E.
as
MAXIMUM) over
cause.
the maximum
All
worn
parts
specified in Chart 1, inspect replaced.
all components of the tab actuator system to
must be
AILERON TRIM TAB FREE PLAY INSPECTION
This check should be
performed
at least once a year to ensure that the trim tab free
play falls
within the
prescribed
limits. A check fixture
I loading a.
(P/N 45-135030-9/810) or equivalent, a dial indicator, and a push-pull scale for applying required for making the inspection for free play of the tab (Ref. Figure 6).
accurate
to the tab are
Securely
lock the control surfaces to prevent movement of the ailerons. Set the aileron tab in the neutral
position. b.
Using shot bags, affix the dial indicator check fixture so hinge line and on the outboard edge of the aileron tab.
c.
Apply
a
small
that the dial indicator
point
is 2.00 inches aft of the tab
piece of masking tape (for paint protection) 4.00 inches aft of the tab hinge line and along the point of pressure against the tab by the push-pull scale.
centerline of the tab actuator. This will be the d.
Apply another piece of masking tape
in the
corresponding position on the
bottom surf ace of the tab for the
same
purpose. e.
Zero the dial indicator at
f.
With the
reading
I
I
push-pull
as
no
load
scale at the
Do not reset
during
point of masking tape, apply
the
a
full
checking procedure. 3-pound downward load. Record
the dial
A.
g.
Release half the load until
h.
Apply
i.
Release half the load until
a
j.
Enter the recorded values
on a
a
initially.
full 3
a
pound
1.5
pound upward load 1.5
at the
downward load is obtained. Record the dial
masking tape
pound upward
on
as
the bottom surface. Record the dial
load is obtained. Record the dial
copy of Chart 1 and
reading
proceed
as
reading
as
B.
reading
as
C.
D.
follows:
recordas2B.
1.
MultiplyBby2and
2.
Subtract A from 28 and record
3.
MultiplyDby2and
4.
SubtractCfrom2Dand recordas\(.
as
X.
recordas2D.
NOTE The results of X and Y 5.
Add X and Y and record
as
All
Sep
wom
30/03PagelG
be
negative
numbers.
E.
play exceeds 0.094 inch, inspect parts should be replaced.
If the free
k.
can
27-11-00
all components of the tab actuator system to determine the
cause.
nz4
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHART1
AILERON TAB FREE PLAY LIMITS 1.5 POUND READING
3 POUND READING
2B
-A
=X
2D
-C
=Y
X
+Y
=E
(E=O.Og4-inch maximum)
A24
27-11-00
Sep
30/03Pagel7
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
9
12
~o
678
13
1I
5
.8 IN
~1â&#x20AC;&#x2122;----------.25 IN
I TAP
J
5/8-11
O
1.25 1
I
HL
_,,TYPI
I_
i
I
2.9 IN
It
TAB
tnAI
14 1.30 IN
t~ ITEM
QUANT.
1
DESCRIPTION
1----C-C i
NO. .68 IN
i
8 aluminum or
2
3/4
2
2
1 x 1 9/8 x i 3/4 aluminum or
3
1
1/2
4
i
C81P Indicator"
5
1
3/4
7
i
1/4 Dia.
8
1
114-28 nut
6
x
x
x
7 1/2
x
10 aluminum
equlv.
1 corrosion res, sH.
9
1
3/8
x
5
x
10 rubber
10
1
3/8
x
2
x
10 rubber
11
i
1/4
x
2
x
12
2
1M
x
13
13
2
14
2
KNB13 Keensert or tap 1/2 1/8 x 1 x 3/4 rubber
"P/N or Federal Products
equlv. equiv.
or
x 2 1/2 x 14 aluminum or 114 Dia. x 2 oarrosion res. stl. ~e
30/Page
18
1.6 IN
.31 IN
SEC710N,t
10 corrosion res. sil, x
3 VLIER
Corp., Proddence,
Torque
sorew
13
R. I.
Fabricating Clamp for Tab Figure 6
Sep
7
equlv.
1
27-11-00
4k THIS GROOVE TO BE A SNUG FIT TO THE SCREW 5RACKET ON THE DIAL INDICATOR ioo-,,5-e
Deflection
A24
RayIIheoIlt Aircraft BEECH BONANZA SERIES MAINTENANCE MANUAL
MAINTENANCE PRACTICES
RUDDER AND TAB
RUDDER
AND
(F33A, F33C, A36, A36TC,
B36TC)
WARNING I I WARNING 06-1566 and after; 6-1946, 6-2104, 6-2111 and after; EA-320, EA-389 and after, observe the color coding on all parts when replacing or installing control cables, bellcranks and /or other control system components. DO NOT connect parts of one color to On
airplane serials
coded
parts of
a
different color.
RUDDER REMOVAL
navigation light
a.
Detach the tail cone, disconnect the tail
b.
Remove the tail section
c.
Remove the four attach bolts from the rudder bellcrank.
d.
Disconnect the rudder
e.
Removethe rudder.
access
hinges
doors
wire and
remove
the left hand side of the aft
on
and rudder
bonding
the tail
cone.
fuselage.
cable.
RUDDER INSTALLATION
rudderinposition.
a.
Placethe
b.
Connect the rudder
c.
Install the rudder bellcrank attach bolts
d.
Install the
e.
Connectthenavigation lightwires.
f.
Install the tail
nm
access
hinges
and
bonding
cable.
(torque
to 50 to 70
inch-pounds).
doors.
cone.
27-20-00
Feb
26/99Pagel
RayZhe8888 Aircraft BEECH BONANZA SERIES MAINTENANCE MANUAL
Rig
Pin
CL
CL
0.38" to 0.45"
8-8
i., B
j
A-A
Rig Pin~: 3/8" die. x 2-)/8" Long 8loek: 1/2" r 1" x 2" Long
56-1~46
Rudder Pedal
Figure
Page
beF2
26/99
27-20-00
Rig Tool 1
A20
RayEheon Aircraft BEECH BONANZA SERIES MAINTENANCE MANUAL
LEFT RUDDER
mAnA
RUDDER RFII.CRAM( STOPS
C*BLE~_ CABLE
AH9 AFTER) 6336 (eE-74~ F33C tC3-149 CUI) AFTER) RU~DER PEDAL STOPS
D
A
LEFT RUDDER CABLE
RIGHT RUDDER
CABLE
RUDOER PEDAL sToas
WB (9-1111. E-tUI AH) AFTER) U-2~) A;3CSTC ~EA-I THRII U-~2´• 836Tl: (EA-2~´• EA-273 C1~9 AFTER) ATTACH BOLTS
DerA~a E
DETAPLD
mAI~B
m~C
/I
~e,
Rudder
System Figure 2
A20
27-20-00
Feb
26/99Page
3
Ray~heon Aircraft BEECH BONANZA SERIES MAINTENANCE MANUAL
THIS PAGE INTENTIONALLY LEFT BLANK
Page
beF4
26/99
27120100
A20
Raytheon Aircraft BEECH BONANZA SERIES MAINTENANCE MANUAL
CABLES
CABLE
RUDDER
25
SURFACE
TENSION
5 LBS LBS AT 59’ F
TRAVEL
LEFT RIGHT
ALL F33A AND A36TC. F33C PRIOR TO CJ-156 WITHOUT KIT 33-4002-1, A36 PRIOR TO E-2111 EXCEPT E-1946 AND E-2104
+0 AND
-I LEFT RIGHT
B36TC
25 ii 20 cO
LEFT -I RIGHT
F33C, CJ-156 AND AFTER. AND EARLIER
25 AND i
20
F33C’S WITH 33-4002-1 23 +O -1 LEFT AND RIGHT OF NEUTRAL
TEMPERATURE
CABLE
KIT
E-2104 AND E-2111 AND AFTER
E-1946,
TENSION GRAPH
50
,40
a30 n
4
20
io
10
20
30
40
60 50 70 TEMPERATURE- "F
80
90
100
110
120
EA278 sadaol*a
Rudder Cable Tension and Surface Travel Data
Figure
A20
3
27-20-00
Feb
26/99Page
5
Raytheon Aircraft BEECH BONANZA SERIES MAINTENANCE MANUAL RIGGING THE RUDDER CONTROL SYSTEM
I
FIGURES 2 AND 3
NOTE
rigging of the rudder pedals a rigging tool may be fabricated from a steel block 1/2 inch X 1 inch X 2 inches; and two 3/8-inch- x 2-1/8-inch-long pins. The rig pins are located parallel and forward of the block, one on each side, and welded. The rig pins should be spaced as noted in
To facilitate
Figure
1.
pedals
in the aft
a.
Place the rudder
b.
Install
c.
With the bellcrank in the neutral
graph
in
a
rig
tool in the holes
Figure 3,
then
remove
position.
provided the
in the
pilot’s
position, rig rig pin.
rudder
pedals.
the cables to the tension shown
on
the temperature cable tension
NOTE Installation of the
justment The d.
right
Adjust the
as
the
rig pin in the pilot’s pilot’s pedals.
hand rudder
pedals
are
rudder
rigged
pedals
0.38
as
Adjust the rudder pedal travel at the rudder pedal stops immediately prior to contact with the rudder pedal stops.
f.
Make
Page
sure
that the rudder movement
627-20-00
corresponds
bring
the
copilot’s pedals
0.45 inch forward of the neutral
rudder travel at the rudder bellcrank stops
e.
will
indicated in so
Figure
to the same ad-
position.
2.
that contact with the rudder bellcrank stops
to the movement of the rudder
pedals.
occurs
aeechcraft BONANZA SERIES MAINTENANCE MANUAL RUDDERVATOR AND TAB MAINTENANCE PRACTICES RUDDER
jig assembly position the differential mechanism in the neutral position. The jig assembly will position the differential mechanism of the right tail e.
Install the differential mechanism
(refer
(V35B)
to
control
I
Figure 1, Detail E)
arm
aft of the differential mechanism for the arm with the elevator and rudder sys-
RUDDER RIGGING PROCEDURE
left tail control
(Flgure
tems in neutral.
1
NOTE
NOTE
All rudder rigging should be accomplished with a travel board installed. A bubble protractor should not be used for any rudder rigging procedure.
The 35-590087 differential mechanism is to be used with the 35-590087-9 stop installed.
jig assembly
With the rudder, elevator and tab systems correctly adjusted and in neutral,
The rudder system and elevator system are separate systems forward of the
the differential mechanism tail control (rudder) arms are lightly contacting the
empennage. The control surfaces for both the rudder and elevator are the same parts. The rudder and elevator control surfaces will be referred to as
aft side of the 35-590087 differential mechanism jig assembly and the out-
board ends
(legs) of the jig assembly are lightly contacting the forward side of the fuselage station 256.9 bulkhead. The nut
ruddervator,
Adjust the stops on the aft fuselage bulkhead to permit a maximum combined ruddervator travel as shown on the overall travel tables. Refer to Figure 1. a.
b.
With the
adjusting
on
just
as
inside the hole in the jig assembly.
link at the rudder
quadrant, rudder pedals, lengthen or
Straighten the nose wheel and position the pedals in neutral position with an aligning (rig) the pedals. Refer to Figure 1, 27-20-00. c.
The elevator and rudder system are in neutral when the differential mechanism control column block
the cable tensions set to the tempe~ature cable tension graph. The trim tab
system is in neutral
position with 4-1/2 inches (4-3/4 inches on D-10359 and after) between the collar on the instrument panel and split the control column. This
can
be
accom-
plished by cutting a block 4-1/2 (or 4-3/4 for D-10359 after) inches long and taping it to the control coi-
and
umn.
with
the ruddervators in the 0"
tool in
Position the control column in the neutral
on
are
rudder
The left rudder pedal is rigged .38 to .45 inch aft of the neutral position. To facilitate rigging of the rudder pedals to these dimensions, a rigging tool may be fabricated from a steel block 1/2 x 1 x 2 inches, and two 3/8 x 2-1/8-inch-long rig pins. See Figure 1, 27-20-00. The rig pins are located parallel and forward on the block, one on each side, and welded. Rig pins are spaced per Figure
collar
tool and the installed with
jig assembly, the rudder rig
NOTE
d.
the differential mechanism elevator (center) arm is to be positioned
control
aft of the necessary to align the copilotâ&#x20AC;&#x2122;s pedals with the pilotâ&#x20AC;&#x2122;s pedals. When aligning the pedals, be sure both sets of pedals are in the same position,
located
shorten
to
position
when the
cockpit
indicator is at 0", the cable tensions are set to the temperature cable tension
graph and the tabs are at O" or symmetrically split. The tabs are at 00 when their trailing edges align with the trailing edges of the ruddervators.
Adjust the short, lower elevator cable to a total length of 23.62 ~t.06 inches as measured from the center of its attachment points at the reduction bellcrank and the differential mechanism. Refer to Figure f.
side of the barrel after adjustment. Safety the turnbuckle. No further adjustment of this cable is required. g. Adjust the main rudder cable tensions to the tension shown on the temperature cable tension graph. Refer to Figure 7. (The cables can be adjusted simultaneously with the rudder balance cable.) The balance cable is adjusted by adding or removing washers 27-21 -00
Page A19
1
Mar 29/96
I
BONANZA SERIES MAINTENANCE MANUAL
TEMPERATURE CABLE TENSION GRAPH so
CARL" TENSION: H
RUDDER TRAVEL
OVER-ALL TRAVEL
(COMBINE
50
"~tI
23’
i
UP
260
i 1" DOWN
26"+
RUDDER AND
LEFT
RIGHT
LEFT
RIGHT
44"+ 2’ UP
1’ UP
23e i 10 DOWN
370
ELEVATOR)
f 20 DOWN
350
20 UP
400
i20 DOWN
z H
g i
RUDDER
I
30
RUDDER PEDAL SETLlNGS
a
O
BALANCE CABLE
r
LH. PEDAL
R.H. PEDAL
NEUTRi~L POSITION
.38 TO .45
INCHES AFT OF NEUTRAL POSITION
10 20
30
40
50
60
70
80
90
100
110
TEMPERATURE-FO
fD 35-590087 AND 35-590087-9 DIFFERENTIAL MECHANISM JIG ASSEMBLY FUSELAGE STATION 151.0
STOP BOLTS
DETAIL
STATION
AC
170.FUSELAG
RIGHT RUDDER
PEDAL
CABLE
POSITION LEFT RUDDER
ADJUSTING
Y
CABLE
LINK
B DETAIL
LA
D DIFFERENTIAL :i:::
DETAIL DETAIL
DETAIL
MECHANISM
E
C
B 35-153-17 003
Rudder
System (V35B) Figure 1
27-21-00
Page
2
Aug 18/95
Ai8
Baeechcraft BONANZA SERIES MAINTENANCE MANUAL behind swivel bolt on the balance cable pulley bracket. The differential mechanism, control column and rudder pedals are still to be in their neutral positions after cable tensions are adjusted.
RUDDERVATOR REMOVAL
NOTE The rudder system and elevator system are separate systems forward of the empennage. The control surfaces for both the rudder and elevator are the
Set the ruddervators in the neutral position (00) by adjusting the length of the control push-pull rods, h.
sure the rod ends remain screwed the required length into the push-pull tubes. They should extend past the inspection hole, i.e. a wire should not pass through the inspection hole.
Make
i.
Remove the differential mechanism
and
remove
the rudder
parts. The rudder and elevator control surfaces will be referred to as ruddervator. same
jig assembly
tool. Leave the
pedal rig
Before
con-
influence
on
(or 4-3/4- for D-10359 and after) place to prevent elevator system rudder rigging.
appropriate ruddervator travel values. b through h should result in the ruddervator
travels and the
Steps travel minor
correct. Make any final
being nearly adjustments by lengthening or shortening the control push-pull tubes. Make sure the rod ends remain screwed the required length into the push-pull tubes. They should extend past the inspection hole, i.e. a wire should not pass through the inspection hole. correct
or
When ruddervator travels
are correct, tighten the jamnuts, the rudder stop jamnuts, safety the turnbuckles, safety the nut on the swivel bolt on the pulley bracket of the balance cable and recheck travel.
k.
hinge
in
j. Set the rudder travel by adjusting the stop bolts (refer to Figure 1, Detail A) just aft of the pilot’s rudder pedals. Refer to Figure 1 for the applicable table of
rod end
Remove the elevator column 4-1/2D-10359 and after) inch-long block.
Changing rudder rigging ging. Check elevator rigging ging. i.
may after
(or 4-3/4-
I -´•I´•´•I WARNING
the
line. If any movement exists, find of the looseness. If any hinge
cause
bolt, bearing wear,
they
Remove the
a.
or
bushing shows signs replaced.
of
must be screws
holding the tail
cone
in
posi-
tion. b.
Remove the tail cone and disconnect the
tion
light
c.
Remove the aft
naviga-
wire.
fuselage
side and bottom
Remove the 5/16-inch bolt from the tube. d.
panels.
push-pull
Working inside the open left side inspection hole, release the tab cable tension, then fasten the ruddervator tab cables so that no slack in the cables will be e.
transmitted
beyond
the affected tab.
NOTE
for
change elevator rigchanging rudder rig-
disassembly check the ruddervaperpendicular to the
tor for movement
trol column 4-1/2-
inch-long block
I
(Figure 2)
Identify the cables so that they may be reinstalled in the proper location. f.
g.
Disconnect the elevator tab cables at the tab. Remove the
guide
block located
on
the tab cable
at the front of the ruddervator.
h. i.
Remove the cotter
pins
from the
Remove the nuts from the three
hinge
hinge
bolts.
bolts.
NOTE Check the ruddervator for the correct direction of movement by working the
Support the ruddervator fall
rudder pedals. When the left rudder pedal is depressed, the left ruddervator should move down and the right
down.
twist when the
so
that it will not bolts are
hinge
removed.
position of the washers in each hinge assembly. Tag each hinge assembly as to the location of the washers. Refer to Figure 2. Note the
ruddervator should move up. When the right rudder pedal Is depressed, the left ruddervator should move up, and the right ruddervator should move
or
j.
Remove the bolts from the
hinges. 27-21-00
Page A19
3
Mar 29/96
aeechcnnft BONANZA SERIES MAINTENANCE MANUAL Remove the two
k.
attached near the
i.
bonding jumpers hinges.
which
d. Install the nuts bolts.
are
the center and outboard
on
Remove the ruddervator.
NOTE
RUDDERVATOR INSTALLATION
The center and outboard hinge bolt each require two AN960-10 washers under the nut.
(Figure 2)
If the bolt
1´•U´•1~1 Airframe vibration may be caused by worn elevator hinges, mlsthreaded trim tab hinges, loose stablll~er attachment or any Improper Installation which will allow free play.
grip length,
Torque the nuts tightened up cotter pin holes.
to 20 to 25
may be
to 40
f.
Install the cotter
pins
Any hinge bolt, bearing or bushing showing signs of wear must be replaced. for the inboard
bearing is.001-inch radial
and .025-inch
axial.
bonding jumpers
at the center and out-
hinges (two
board
between the
screw
hinge
bolts.
Connect the tab cables to their respective tab
The bolt connecting the cable to the tab horn should be tight enough to prevent
rattle, but loose enough to swivel. If the bolt is too tight, the tab control system will bind.
NOTE
Install the
in the
NOTE
the ruddervator in its proper position. Make sure the hinge bushings are installed in the hinge halves on the stabilizer,
b.
one
horn.
Support
wear
long
inch-pounds; they inch-pounds to align the
e.
h.
The elevator/rudder control surfaces will be refered to as ruddervator.
The maximum
is too
additional washer may be added under the nut.
g. Install the guide block for the tab cable at the front of the ruddervator.
NOTE
a.
hinge
105090D032-1D washers go head and skin).
i.
Remove the fasteners which
vent cable slack from
being
were installed to pretransmitted to the rest of
the tab system.
j. k´• i.
Using the notes made during removal (refer to Figure 2), install the proper washers and bolts in the hinges as follows:
Install the 5/16-inch Install the aft
push-pull
tube bolt.
fuselage inspection panels.
Connect the tail
light
wire and install the tail
cone.
c.
NOTE Check for proper ruddervator and trim tab travel after installation is complete. When the control column is pulled back, the correct ruddervator movement is up. When the elevator trim tab control is
NOTE Install the bolts with the nuts toward the
fuselage.
moved toward the nose-up position, the trim tab should move DOWN. When the elevator trim tab control is moved toward the nose-down position, the trim tab
The inboard hinge requires two AN960-416L and one AN960-416 washers. Install one AN960-416L washer under the bolt head and one between the torque fitting and the ruddervator inboard hinge support, One AN960-416 washer should be installed under the 1.
nut.
move
UP.
ELEVATOR TRIM TAB REMOVAL 2,
be
should
Torque
tightened
pin holes.
the nut to 30 to 40
up to 70
inch-pounds, It may inch-pounds to align the cotter
(Figure 3) a.
Remove the
screws
from the tail
cone.
27-21-00
Page
4
Mar 29/96
A19
Qeechcraft BONANZA SERIES
MAINTENAN~E iVIANUAL
2 3 4 5 6 7 8
STABILIZER BOLT WASHER ELEVATOR (RUDDERVATOR) NUT WASHER WASHER TOROUE FITTING
INBOARD
HINGE SUPPORT
23
‘c~´• I
~Y?
a
~O 4
8765
C950X2783131
Ruddervator Installation
Figure
2
27-21-00
Page A19
5
Mar 29/96
BONANZA SERIES MAINTENANCE MANUAL Disconnect the electrical wires and
b.
the tail
remove
ELEVATOR RIGGING PROCEDURE
cone.
NOTE
pin from the control cables
Remove the cotter
c.
All elevator rigging must be accomplished with a travel board installed. A bubble protractor should not be used for any elevator rigging procedure.
devises and trim tab. Remove the nuts, washers and bolts from the
d.
control cable devises.
Support the trim tab so that hinge pin is removed.
e.
it will not fall
or
twist
when the f.
Remove the
pin. the
g.
Unclip
h.
Pull the
hinge pin. out and remove the elevator
hinge pin
Adjust the stops on the aft fuselage bulkhead to permit maximum combined elevator/rudder (ruddervator) travel as shown in the table of travels under OVERALL TRAVEL in Figure 4. a.
safety wire from the trim tab hinge
b´•
Position the control column in the neutral
position
trim tab.
with 4-1/2 inches (4-314 inches on D-10359 and after) between the collar on the instrument panel and the
ELEVATOR TRIM TAB INSTALLATION
split collar on the control column. This can be accomplished by cutting a block 4-1/2- (or 4-3/4- for D-10359 and after) inches long as applicable and taping it to
(Figure 3) a.
Support
the elevator trim tab in
position
on
the
ruddervator.
the control column.
Straighten the nose wheel and adjust the pilot’s pedals (fore and aft) to the same position. Install the rudder pedal rig tool in the pilot’s rudder pedals to place them in the neutral position and to prevent rudder system influence on´•elevator rigging. The left rudder pedal is aft of the right rudder pedal with the system in neutral. Use an offset rig tool as shown in Figure 1, Chapter 27-20-00. c.
b.
Install the trim tab
c.
Clipthe hingepin
d.
Connect the control cable devises to the trim tab
hinge pin. in
Refer to
Figure
3.
positionandsafetywire.
with the bolts, washers and nuts.
NOTE The devises should be tight enoi~gh that will not rattle but loose enough so
they that too e.
f.
they will swivel. If the devises tight, binding may occur.
Install the cotter
pins
are
in the clevis bolts.
Connect the electrical wires and install the tail
cone.
NOTE Check that the trim tab
moves
rect direction as indicated of the controls.
ELEVATOR AND TAB
by
in the cormovement
(V35B)
NOTE The rudder system and elevator system are separate systems forward of the empennage. The control surfaces for both the rudder and elevator are the
parts. The rudder and elevator control surfaces will be referred to as ruddervator. same
rudder
d.
Install the differential mechanism
jig assembly
to
position the differential mechanism in the neutral position. This is accomplished with the 35-590087 differential mechanism jig assembly with the 35-590087-9 stop (refer
position
Figure 1, Detail E) right tail control arm
to
installed. This will
of the differential mechanism aft of the left tail control arm with the elevator system and rudder system in neutral.
the
Adjust the short, lower elevator cable to a total length of 23.62 ~.06 inches as measured from the center of its attachment points at the reduction bellcrank and the differential mechanism. Refer to Figure e.
5. No threads on turnbuckle ends should be visible
outside of the barrel after buckle. No further
adjustment. Safety the turnadjustment of this cable is required.
Adjust the upper and lower (forward of the reducbellcrank) elevator cable turnbuckles simultaneously until cable tensions are as shown on the temperature cable tension graph in Figure 4. The
f.
tion
differential mechanism, the control column and rudder pedals are still to be in their neutral positions after cable tensions are adjusted.
27-21-00
Page
6
Mar 29/96
A19
BONANZA SERIES MAINTENANCE MANUAL
i.
2. 1â&#x20AC;&#x2122;
DETAIL B
DETAIL A
RIGHT
TAB HINGE PIN TAB HORN CABLE BOLT
I o
./Q\I
OI I
lo
o
o
o
RIGHT
DETAIL D
DETAIL C
_
Be
TAB HINGE PIN
~e RUDDERVATOR
DETAflH
#TAlL G
WRONG O
O
O
O
O
O
O
WRONG
DETAIL E
DETAIL F C91011785155 5
Elevator Trim Tab Installation
Figure
3
27-21-00
Page A19
7
Mar 29/96
Beec~M´•dft BONANZA SERIES MAINTENANCE MANUAL 50
5
I
ELEVATOR TRAVEL
OVERALL TRAVEL UP IRCIYEL
WWN TRLIVEL
V"L
3
G
(C~OMBINU) CL~YATOR *N~RvDDER)
_
g
,E
a P
i
~2ipr F-
,,_,;~
i
,,,,,.-iuPli~-raowN (R.H.) 35.
2~
UP
DOWN
_
F i
~C,
F
1
~I i’
~D
0 20
30
40
50
60
70
TEMPERATURE
80
90
100
110
-"F
ELEVATOR TAB TRAVEL ELEVATOR DOWN CABLE UP TRAVEL
ELEVATOR TAB NEUTRAL POSITION FROIO" ELEVATOR
DOWN TRAVEL
LEFT TAB 5’/i"
+1/20
--10
230
2~
I FAIRLEAD
ELEVATOR UP CABLE
HINGE LINE
RIGHT TAB
O~ O"
i
1"
00
i
DETAIL
1"
G
TAB CABLE STOPS
STOP PLATE
y-~SPRING TAB "UP" CABLES TAB "DOWN" CABLES
C
FWD
A
4i
STA.
B
272
ADJUST ACTUATOR SCREW TO 23 8 RIG WITH TAB DOWN
.44
;.06
2
ELEVATOR DOWNS. SPRING O
0
DETAIL
E
ELEVATOR DOWN SPRING
UP ELEVATOR CABLE
TAB UP CABLE
TAB DOWN CABLE
U
ij ELEVATOR DOWN
ELEVATOR UP
DOWN ELEVATOR
CABLE
----C~
DETAIL
A
TAB NOSE UP
8’’
ii
NOSE WWN
DETAIL
B
DETAIL
C DETAIL
D
DETAIL
F 35-152-38 001
Elevator
System (V35B) Figure 4
27-21-00
Page
8
Mar 29/96
A19
~eechcraft BONANZA SERIES MAINTENANCE MANUAL NOTE
the
With the rudder, elevator and tab cable systems correctly adjusted and in neutral, the differential mechanism is in its
jig assembly
are
is at 0", the cable
set to the
are
temperature
cable tension 0"
or
graph and the tabs are at symmetrically split to correct for
yaw. The tabs
neutral position when its tail control (rudder arms) are lightly contacting the aft side of the 35-390087 differential mechanism jig assembly (with -9 stop installed) and the outboard ends (legs) of the
cockpit indicator
tensions
are
ing edges align
at O" when their t~ail-
with the
trailing edges
of
the ruddervators. g.
Set the ruddervators in the neutral
adjusting the
lightly contacting
sure
the forward side of the fuselage station 256.9 bulkhead. The nut on the differential mechanism elevator (center) control arm is to be positioned inside the hole in the jig assembly.
control
push-pull
tube
the rod ends remain screwed the
position (O") by lengths. Make required length
into the
push-pull tubes. They should extend past the inspection hole, i.e. a wire should not pass through the inspection hole. h.
Remove the differential mechanism
and
remove
the cable tensions set to the temperature cable tension graph. Refer to Figure
jig assemblies 4-1/2-inch-long block (4-3/4-inch-long on D-10359 and after) on the control column. Recheck (reset if necessary) the elevator cable tensions. The elevator trim system may be repositioned to minimize the downspring/bob weight effect on the elevator arm and elevator cable tensions. After the downspring effect is minimized, the up-and-down cable tension
system is in neutral when
average must fall within the maximum and minimum
The elevator and rudder system is in neutral when the differential mechanism
jig assembly,
the rudder
control column block
rig tool
are
the ruddervators in the 0"
4. The trim tab
and the
installed with
position
and
the
DIFFERENTIAL MECHANISM
ELEVATOR REDUCTION BELL CRANK
23.62 ?1 ´â&#x20AC;˘06
INCHES
FS 256.9
SHORT, LOWER FS 233.5
ELEVATOR CABLE
35-152-41
Elevator Short Lower Cable
Figure
I
Adjustment
5 27-21-00
Page A19
9
Mat 29/96
aeechcraft BONANZA SERIES MAINTENANCE MANUAL
designated by the temperature cable tension Figure 4.
values
graph.
Refer to
Check the elevators for correct up-and-down travel limits: 22-1/2 degrees +0 -1 degree up and 19 +2 -1 degrees down. The stops are nonadjustable stops forward of the instrument panel and underneath the control column. Steps b through h should result in the ruddervator travel being correct or close to correct. i.
Make any final minor adjustments by lengthening or shortening the ruddervator push-pull tubes, but make sure the rod ends remain screwed the required length into the push-pull tubes. They should extend past the inspection hole, i.e. a wire should not pass through the inspection hole. j. Adjust the elevator downspring cable turnbuckle
Check the up and down travel of the elevator tabs. The travel should be 5-1/2" +1/2" -1" up and 23" +2" a.
â&#x20AC;&#x2122;00 down.
Check the main and the aft tab cables for proper
b.
tension
as shown on the temperature cable tension Refer to Figure 4. The same number of termigraph. nal threads should be visible on each end of the turnbuckle barrels (a maximum of three threads may be
visible). ELECTRIC ELEVATOR TRIM
For the Model F33A, E33C and V35B electric trim syssee Chapter 27-30-00.
teml
ELEVATOR TAB RIGGING
with the ruddervators 9" up and the tabs 20" down (nose up) to remove all slack from this cable system; then check the force on the elevator control column.
NOTE The
the
bubble protractor is not
However, with the ruddervator set at neutral, a tab travel board or a bubble protractor may be used to set elevator
through neutral. If necessary, elevator downspring cable turnbuckle to
obtain the value.
tab travel.
k.
When the elevator travels and forces are correct, tighten the rod-end jam nuts, safety the turnbuckles and recheck the travels. Remove the rudder rig tool.
Changing elevator rigging may change rudder rigging. Check rudder rigging after changing elevator rigging.
a
to set the ruddervator travels.
A travel board must be used for this.
the ruddervators
adjust
of
use
adequate
With the trim tabs set at neutral (O"), a force of 19 ~3 pounds applied on the control column is required to move
(OPTIONAL)
Elevator tabs should be rigged with the travel board or bubble protractor perpendicular to the chord
I.
lizer a.
Install
or a
tab
plane respectively.
of the stabi-
4-1/2-inch-long block (or 4-3/4-inch-long
D-10359 and after) on the control column and install the rudder pedal rig tool (Figure 1, 27-20-00) to
on
I
ARNING
maintain the ruddervators in neutral. Rotate the elevator tab wheel in the cabin so the indicator dial is set on
Check for correct direction of ruddervator travel by moving the control column. When the control column Is pushed forward, the correct ruddervator movement Is down. When the control column Is pulled back, the correct ruddervator movement Is up. When the elevator trim tab control Is moved toward the nose-up position, the trim tab should move DOWN. When the elevator trim tab control is moved toward the nose-down posltlon, the trim tab should move UP.
INSPECTION OF ELEVATOR TABS
surface.
an
NOTE Both elevator trim tabs should be at neutral (tab trailing edge aligned with ruddervator trailing edge; see the procedure for RIGGING ELEVATOR TRIM TABS TO CORRECT FOR YAW). Trim tab actuator stops on the cables should be moved away from the stops in the fuse-
lage. b.
Rotate the elevator trim tab control wheel to full
nose
up
on
the indicator
(tabs down). Check
the tab
actuator at F.S. 233.5. for a distance of.38 to .50 inch
NOTE The trim tabs have
zero.
upper contoured
between the face of the actuator and the centerline of the bolt in the clevis end of the actuator screw as
shown in
Figure
6.
27-21-00
Page
10
Mar 29/96
Ai9
aee~hcraft BONANZA SERIES
MAINTENANC~ ~ANUAL Adjust the length of the actuator screw by disconnecting the bellcrank at the actuator bolt and turning the screw to the dimension shown in Figure 6. Recon-
f.
nect the bellcrank to the tab actuator.
g. Move the tab control wheel toward nose-down a"d establish trim tab up-travel per the chart on Figure
Move the tab system to neutral (0") position. Check and readjust cable tension per the temperature
c.
d.
Adjust
cable tension
the four trim tab cables aft of the bellcrank
to obtain 23" +2" -0" tab down
position,
the fixed stop in the
(a
h.
threads).
preceding procedure
Check the clevis bolts which attach the tab cables
enough to allow free binding the tab cables.
i. Move the trim tab wheel toward nose-up and establish the trim tab down-travel per the chart on Figure 4, and move the trim tab cable adjustable down
stop against the fixed stop in the fuselage. Move the tab control wheel to neutral
to obtain these dimensions.
ity
adjustable upstep against fuselage.
movement of the horn without
fully nose down on the indicator (tabs up). The trim tab up-position should be 5-1/2" +1/20 -1" without altering the tab cable adjustment. Loosen the tab cable stop, if necessary, The
4 if necessary.
rosion and dirt and be loose
Move the tab control wheel to
e.
Figure
to the tab horn. The clevis bolts should be free of cor-
stop if necessary. The same number of terminal threads should be visible on each end of the turnmaximum of 3
in
4. Move the trim tab cable
and establish
the initial trim tab cable tension per the temperature cable tension graph on figure 4. Loosen the tab cable
buckle barrel
graph
trailing edge i"g edge of the
(O")
on
of the trim tabs should
has established the
capabilthrough its has correctly oriented
of the elevator tab actuator to
j.
move
maximum available range and the tab indicator, the tab actuator and trim tabs to
one
another,
the indicator. The
align
with the trail-
ruddervators.
Reinspect and safety
all turnbuckles, nuts, bolts
and cable stops affected tab cable stops are to be
during this procedure. The tightened to 20 +5 -O inch-
pounds
of torque and safetied.
CLEVIS END BELLCRANK
ACTUATOR
BELLCRANK LINKAGE
O
SCREW
ACTUATOR
FACE OF ACTUATOR CABLE OPENING
ut~ I I
BOLT ACTUATOR
~BOLT CENTERLINE
ACTUATOR
.50.38
1
\O
TO
ACTUATOR BOLT CENTERLINE TO ACTUATOR FACE DISTANCE 35-152-040
Trim Tab Actuator and Bellcrank
0/358)
I 27-21-00
Page A19
11
Mar 29/96
~S)eechcraft BONANZA SERIES MAINTENANCE MANUAL Adjust the left elevator tab down approximately by lengthening the upper left cable and shortening b.
1"
r left ewoleht
WUNING ARNING
cable.
After rigging the ruddervator and elevator trim tab control system, check for correct movement of the control surfaces with respect to the
c.
Set cable tension to the
Figure d.
Safety
control column is moved forward, the ruddervators should move DOWN. When the control column Is moved ah, the ruddervators should move UP. When the elevator trim tab control Is moved toward the nose up position, the trim tab should move DOWN. When the elevator trim tab control Is moved toward the nose down position, the trim tab should move UP. Close all
inspection panels
and test
fly the
yawing occurs in neutral, adjust the tabs
In the event the above in
level
inspection pan-
procedure results
overcorrecting, partial readjustment
to
reduce the rudder effect can be accomplished on one tab only. The maximum allowable amount of split between trim tabs is 6". The average degree of tab travel at fully up or down cannot exceed the limit of travel.
air-
ELEVATOR TAB INDICATOR CABLE
REPLACEMENT
with the ailerons in under RIGinstructions the per GING ELEVATOR TRIM TABS TO CORRECT FOR If
the two turnbuckles, close fly the airplane.
NOTE
plane. i.
on
els and test
movement of the controls. When the
k.
graph specifications
4.
flight,
(Figure 7) a.
Place the proper tension on the trim cables in position. Both turnbuckles aft of Fuselage Sta-
neutral
YAW.
tion 185 should be
RIGGING ELEVATOR TRIM TABS TO CORRECT
To install the dial indicator cable, thread the cable through the hole in the head of the cotter pin and out
FOR YAW The elevator tabs
rigged to function as a rudder tab by making minor adjustments up and down from neutral position. can
FOR RIGHT YAW
be
(NOSE
LEVEL)
Adjust the right elevator tab down approximately by lengthening the upper right trim tab cable and shortening the lower right trim tab cable. a.
1"
Adjust the left elevator tab up approximately 1" by shortening the upper left trim tab cable and lengthening the lower left cable. b.
c.
Set cable tensions to the
Figure d.
graph specifications
on
4.
Safety the two turnbuckles, close inspection panfly the airplane.
els and test
FOR LEFT YAW
(NOSE
OF AIRPLANE TENDS TO
MOVE LEFT WITH WINGS
LEVEL)
Adjust the right elevator tab up approximately 1" by lengthening the lower right tab cable and shortening the upper right tab cable.
a.
even.
b.
through c.
the holes in the indicator drum.
With the dial at 0
degrees, slip
both ends of the cable
are
of
the cable
so
that
equal length.
Wrap the cable around the drum one full turn in each direction. The end that wraps to the right will be wrapped clockwise around the drum, and the end that d.
OF AIRPLANE TENDS
TO MOVE TO RIGHT WITH WINGS
approximately
wraps to the left will be
wrapped counterclockwise,
as
viewed from the left side. e.
Route the cable
over
the
appropriate
idler
pulley
down to the shaft of the tab control wheel. With the dial still in O degrees position, take the cable coming off the top of the elevator tab dial sheave and bring it down to the forward side of the tab wheel shaft to the left of the small hole. f.
g. Wrap the cable (counterclockwise) around the shaft toward the hole three turns. Insert the cable through the hole. Wrap the surplus cable around the shaft. h.
With the dial set at 0
take the cable
com-
ing
off the bottom of the trim tab dial sheave and
bring
degrees,
it down to the aft side of the tab wheel shaft, to the
2â&#x20AC;&#x2122;1-21-00
Page
12
Mar 29/96
A~9
Beechcraft BONANZA SERIES MAINTENANCE MANUAL
COTTER PIN WRAP ONE FULL TURN IN BOTH
1 1
11111 1111,
DIRECTIONS INDICATOR DRUM
ROVTATEDU
(SHEAVE)
900 DETAIL
A
O
ANDIDLER
PULLEY
TIE SOLDER
A
INDICATOR DRUM ~SHEAVE) r-
B
II/// W/ ----~yylL--
WRAP 3 FULL TURNS--/
DETAIL
TRIM TAB CONTROL WHEEL SHAFT ROTATED 900
TRIM CONTROL WHEEL
B
.36-152-39
Elevator Trim Tab Indicator Cable Figure 7
Replacement
27-21-00
Page A19
13
Mar 29/96
BONANZA SERIES MAINTENANCE MANUAL
right of the hole in the shaft, and wrap the cable (clockwise as viewed from the left end of the shaft) three turns toward the hole in the shaft.
Insert the cable through the hole in the shaft and wrap it around the shaft.
k.
Check the tab dial to
stop
see
Remove the access panel on the left side of the forward of the ruddervator.
Install identification tags to the cables and disconnect the cables which are routed aft to the elevator trim tabs. c.
i.
j. Twist the cables together and solder only rosin core solder.
b.
fuselage, just
them. Use
that it will roll from
one
to the other.
i. Set the tab dial at O degrees. Place tension on the tab cables in the tail section to hold the tabs in line with ruddervators.
d.
Install identification tags to the cables on each side of the first turnbuckle and disconnect the actuator cables routed forward to the flight compartment. Secure the cables so they do not come off of the forward pulleys. Secure the cables to the actuator so the actuator screw
position
can
be maintained.
r~ CAUTION
NOTE With the ruddervators set in the neutral position, the left elevator tab should be set at 2" ~1" above neutral ruddervator position. The right elevator tab should be set at 0" ~10 ruddervator position.
Safety the turnbuckles and set the stops fuselage cables to maintain proper travel in dance with the travel table in Figure 4. m.
Do not
damage,
kink orput bends in the
cables.
Identify the cables on the actuator being removed that the cables on the replacement actuator are reconnected correctly. e.
so
on
the
accor-
f.
Remove the three bolts securing the actuator to the bracket and remove the actuator and attached bellcrank from the
airplane.
I --,´•´•I
NOTE
~ING
After rigging the elevator and elevator trim tab control system, check for correct movement of the control surfaces with respect to the movement of the controls. When the elevator trim tab control wheel Is moved toward the NOSE DOWN position, the elevator trim tab should move UP.
It may be necessary to remove the two tab cable pulleys located directly below the actuator, in order to provide clearance for the cable ends on the actuator
cables
through
the
pulley
bracket.
TRIM TAB ACTUATOR INSTALLATION
(V35B) a.
Position the actuator
assembly attaching bolts.
in the bracket and
INSPECTION OF TAB HINGES
install the three
Improper cable tensions, either above or below the recommended limits, will cause excessive wear on the tab hinges. If excessive wear is noted on the rudder-
drum, be certain the cable is at the end of its actuator
vator half of the
The bolt
hinge,
securing
it should be
replaced.
should swivel in the horn at all times, if the bolt binds, it will cause cracks to develop in the tab horn. The bolt
just tight enough to prevent rattle, tight enough to cause binding in the horn. TRIM TAB ACTUATOR REMOVAL a.
Using the
ment, tion
move
as
noted
on
the cable at the forward side of the actuator
Rotate the actuator drum upward until the pin no longer visible
securing the cable to the drum is through the actuator cable opening. NOTE
but not
If the bellcrank-to-actuator screw linkage is disconnected, install the actuator bolt,
(V35B)
washers, nut and cotter pin to attach the bellcrank to the actuator.
trim tab control in the
the trim control to the
Using
drum travel. c.
the cable to the elevator tab horn
should be
b.
flight compartfully nose-up posi-
the elevator trim tab indicator.
d.
With the actuator bolt
actuator screw
connecting the bellcrank to linkage installed, position the trim tab
27-21-00
Page
14
Mar 29/96
A19
~eechcraft BONANZA SERIES MAINTENANCE MANUAL actuator screw
by rotating the
actuator drum to obtain
the actuator bolt-centerline-to-actuator-face of.38 to .50 as shown in Figure 6. e.
distance
h. in
pilotâ&#x20AC;&#x2122;s instrufully nose-up position
The elevator trim tab indicator
should indicate the
panel degrees as
ment
noted in
Figure
on
the
4.
Connect the actuator cables to the cables routed
aft from the
flight compartment.
CAUTION
If the two tab cable pulleys, located directly below the actuators, were removed to provide clearance for the ends of the actuator cable, install the two pulleys f.
Be certain that all cables are hooked up correctly. Operate the elevator system
through the full travel to ensure complete and proper degrees of travel of the
at this time.
trim tabs. Check for proper direction of travel. For a nose-up condition on the airplane, the trim tab should move down. For a full nose-down condition, the trim tab should move up.
clwnohlt Do not cables.
damage,
kink
or
put bends in the
g. Connect the bellcrank cables routed aft to the elevator trim tabs,
i.
Install the
lage, just
access
panel
on
the left side of the fuse-
forward of the ruddervator.
27-21-00
Page A19
15
Mar 29/96
c~T)eechcraft BONANZA SERIES MAINTENANCE MANUAL
MAINTENANCE F33C, A36, A36TC
ELEVATOR AND TAB
(F33A,
PRACTICES AND
B38TC)
I -´•I´•´•I WARNING
d.
Connect the
ting
for the elevator.
e.
Connect the tail
f.
color
on all parts when replacInstalling control cables,
tem components. DO NOT connect parts of one color to coded parts of a
preceding airplane serials and airplanes in compliance with
forward of the
or
~t
1"
on
actuator will be coded with
d.
Disconnect the elevator neutral elevators
Rig positioning
Detach the tail cone, disconnect the tail light and remove the tail cone.
a.
c.
d.
doors
on
the left-
fuselage.
Disconnect the elevator
torque tube fittings
access
navigation
push-pull
tubes from the
of the elevator.
Disconnect the actuator rod at the actuator for the
f.
Removethe
~t
hingebolts.
Disconnect the elevator
bonding
remove
or
25"
a
deflection of
downspring.
on
the control column
by
With the column fastened at neutral adjust the turnbuckles to obtain neutral elevators with a cable tension as indicated in Sheet 2 of Figure 1. f.
elevatordownsprings.
g.
Connectthe
h´•
With the elevators
fully rigged
on
A36, A36TC,
only, the control column should have a 1/16- to 1/8-inch cushion when in the full forward position.
Employing a hand-held force gage on wheel, adjust the elevator downsprings as
Connect the elevator bonding cable and position on the stabilizer, install the hinge bolts
tighten and safety.
Connect the rod to the trim tab actuator
on
the
the control
follows:
A36, A36TC and B36TC:
a)
the elevator
elevator.
bolt for
i.
cable and
ELEVATOR INSTALLATION
b.
A36,
support.
1.
and nuts then
on
downward
the control column so the gust lock hole is 0.03 inches aft of the hole in the control column
the elevator.
a.
a
B36TC
elevator trim tab. e.
2.00
rod for
F33A, 20" ~tl"
B36TC.
e.
hand side of the aft
on
F33A).
push-pull
Adjust the elevator upstep 23"~10 up (25" ~10 on F33A).
red.
Remove the tail section
the elevator
on
c.
ELEVATOR REMOVAL
b.
straightedge
deflection of 15"
uator will be ooded with a blue color.
right
Adjust
b.
actuators may have colored stripes or may be of a solid color. The left act-
The
doors.
downstop bolt so the aft side of the bellcrank just touches a straightedge held vertically against the back of the bulkhead (or is .62 .05 inch
Service Bulletin No. 2399, the elevator tab actuators are color-coded. The
black
access
Set the
a.
different color. On the
Install the
CJ-149 AND AFTER, PRIOR TO E-21 I I EXCEPT E-1946 AND E-2104, AND PRIOR TO EA-389 EXCEPT EA-320)
bellcranks, and/or other control sys-
earlier
wires and install the tail
light
R/GGING THE ELEVATOR CONTROL SYSTEM (CE-748, CE-772 AND AFTER,
coding
or
tubes at the torque tube fit-
push-pull
cone.
On airplane serials CE-I566 and after; 8-1946, 8-2104, 8-2111 and after; EA-320, 84-389 and after, observe the
ing
attaching nut at the inboard point for the torque to 50-70 inch-pounds.
Install the
c.
elevator and
23 maximum
pounds
of breakout force at
20" DOWN elevator.
b)
25 to 26
pounds
of force
through NEUTRAL
23 to 24
pounds
of force
as
elevator.
c)
23" UP elevator
is reached.
2790-00
A18
Page 1 Aug 18/95
4aeechcraft BONANZA SERIES MAINTENANCE MANUAL CABLE
CABLES
ELEVATOR
5 LBS.
22
SURFACE
TENSION TOP
CABLE
(DOWN ELEVATOR) AT
59"F
23
t
MODEL
TRAVEL
25"~
1"
UP
F33A
I
15’f
1"
DOWN
F33C
I
I
I
NOTE
I
I ELEVATOR DOWN
LOWER CABLE
5 LBS.
STOP
(UP ELEVATOR) 24
5 LBS.
TOP
CABLE
(DOWN ELEVATOR) AT
26
23’~
1’
UP
A36
20’+
1’
DOWN
A36TC
I
IIII
I
I
ON MODELS F33A. F33C, A36. A36TC AND B36TC WHERE THE TAB CABLES DIVIDE INTO TWO CABLES EACH. THE TWO CABLES SHALL BE ADJUSTED FOR EOUAL TENSION WITHIN TWO POUNDS OF TOTAL VARIATION.
59"F 5 LBS.
LOWER CABLE
(UP ELEVATOR) 25
5 LBS.
TOP
CABLE
(DOWN ELEVATOR) AT
15
23’~
1"
UP
25"~
1’
DOWN
59"F 5 LBS.
C,
B36TC
ON SERIALS CE-881 AND AFTER. CJ-156 AND AFTER. E-1588 THRU E-2111 EXCEPT E-1946 AND E-2104. EA-I THRU EA-388 EXCEPT EA320. r~ IN-LINE FORCE REOUIRED TO MOYE THE TRIM TAB SYSTEM CABLES SHALL NOT EXCEED 20 POUNDS. WITH OR WITHOUT ELECTRIC TRIM.
o\ o
I
1
I
I
1131
MO
LOWER CABLE
(UP ELEVATOR) ELEVATOR
15
LBS.
AT
59’F
TABS
5
LBS.
10"~
1’
UP
O
LBS.
27"~
1’
DOWN
I
F33A
I
A36
1
II II
IIIY
1111
A36TC
ELEVATOR DOWN
A II
ELEVATOR UPSTOP
ELEVATOR DOWN
B36TC 15
5
F33C
LBS.
E
O LBS. AT
59"F
10"+
1"
UP
21’~
1"
DOWN
ELEVATOR UP
ELEVATOR UP
uv~--
r~
DETAIL
D
o
e
DoO
fA
5YS
O
8
C C
MTIAILA
B
7 ELEVATOR ELEVATOR TAB
Elevator
System (CE-748, CE-m and after; ~149 and atter: prior to E-2111, except E-1948 and E-2104; prior to EA-389, except EA-320) (Sheet 1 of 2) Figure 1
c\SC
a
?1
UP
DOWN
NOSE DOWN
TAB
NOSE UP
DETAIL
E3
DETAIL
C
DETAIL
E
C9aE~783010
27-30´•00
Page 2 Aug 18/95
A18
C
aeechcraft BONANZA SERIES MAINTENANCE MANUAL TE#PERATURE CABLE TENSION GRAPH ALL ELEVATOR TAB CABLES
3
f 10
0
10
20
30
40
50
60
TEMPERATURE
70
80
90
100
110
120
80
90
100
110
1X)
"F
40
I~
i
TOP’ELE~P
0
10
00
30
40
50
60
TEMPERATURE-
B i B
70
"F
ANS!
;;6~* ~E;
MU~
~e
r´•AL)LS_
4 ~WER. 16
0
10
20
30
40
50
60
TEMPERATURE-
Elevator
70
80
90
100
110
120
’F
System (CE-748, CE-772 and after; CJ-149 and after; prior to E-2111, except E-1948 and E-2104; prior to EA-389, except EA-320) (Sheet 2 of 2) Figure 1 27-30-00
A18
Page 3 Aug 18/95
Beechc~ft BONANZA SERIES MAINTENANCE MANUAL
ELEVATOR NEUTRAL ELEV.
UP
ELEV.
DOWN
ELEV.
UP
ELEV.
I \‘NOSE
DOWN
NOSE
UP
’.35"
1
DOWN UP
NOSE
DETAIL
DOWN
NOSE
TOOL
FABRICATE FROM 5/)6-INCH-DIAMETER STEEL ROD
c
z
RIG PIN
C A36 2.50 t.03 INCHES B36TC 3.45 +.03 INCHES
L
ELEVATOR DOWN
~47
TAB
DETAIL
CABLE STOPS
~TnILB
A F.s.
ELEVATOR UP
179
I
CABLES ELEVATOR
CABLE 24
TOP
LBS.
5
SURFACE
TENSION
CABLE
25’
(DOWN ELEVATOR)
OP~
E
AT
59"F
26
L
(UP
I
AT
5
TOP
LBS.
5 LBS.
(UP 15
CABLE
23’
AT
25"
LOWER
UP
B36TC
CABLE
LBS
5 LBS. o LBS.
25’ 27’
t i
I’
DOWN RH
I’
DOWN LH
A36 B36TC
59"F 10"
´•e
8"
ELEV.
I’
+I"DOWN
ELEVATOR)
TABS
A
A36
59"F
26
ELEVATOR
DOWN
CABLE
(DOWNELEVATOR)
ELEVATOR BELLCRANK STOPS
I"
ELEVATOR)
24
B
i
MODEL
UP
I"-0
20"
LOWER
5 LBS.
TRAVEL
10
UP
RH
I"
UP
LH
UP
E-2104. E-2111 AND AFTER: EA-320. EA-389 AND AFTER. THE REOUIRED TO MOVE THE TRIM TAB SYSTEM CABLES SHALL NOT
ON SERIALS E-1946.
ELEV.
DOWN
NOSE
ELEV.
DOWN‘--"
IN-LINE
DOWN
EXCEED
FORCE 16
POUNDS.
WITHOUT ELECTRIC
WITH OR
TRIM.
7
NOSE
UP
L--;.3
ON
1111
MODELS
EACH. THE POUNDS. ELEV.
E
Elevator
System (8-1948, E-2104,
E-2111 and
TENSIONMETER
BLES WITH
DETAIL
D
AND
B36TC
CABLES
WHERE
SHALL
BE
TAB CABLES
THE
READINGS SHALL BE
ELEVATOR
IN
THE
DIVIDE
EOUAL
TAKEN
ON
INTO TWO CABLES
TENSION WITHIN 2
THE
NEUTRAL POSITION.
THE GOWN-SPRINGS DISCONNECTED.
F.S.
THE
ADJUSTED FOR
.5
UP THE
DETAIL
A36. TWO
TOP
AND
AGAINST
BOTTOM CA-
THE
STOPS
AND
C9aEn21BX)09
233.50
after;
EA-320, EA-389 and after)
(Sheet 1 of 2) Figure 1A 27-30-00
Page
4
Aug 18/95
A18
~aeechrraft BONANZA SERIES MAINTENANCE MANUAL
TEMPERATURE CABLE TENSION GRAPH AU ELEVATOFI TA8 CABLES
q20 &ikiMUM
0
10
20
30
50
40
70
60
80
90
100
11O
120
80
90
100
110
190
80
90
100
110
TEMPERATURE- "F
40
8
o’’ TbrZ
a
0
10
20
30
50
40
70
60
TEMPERATURE-P
50
t~
0
10
20
30
40
50
60
70
120
TEMPERATUAE- ~F
E(e~ator
E´•2104, E-2111 and atter; and after) EA-389 EA´•320, 2 of 2) (Sheet
System
Ngure
1
2’1-30-00
Page A1B
5
Aug 18/95
aeechcraft BONANZA SERIES MAINTENANCE MANUAL F33A and F33C:
2.
a)
17 to 18
g.
Remove the
h.
Connect the elevator
pounds of force through NEUTRAL
rig
tool.
downsprings.
elevator. i.
b)
15 to 16
pounds
of force
as
25"
fully
UP
elevator is reached.
j.
The gage
at NEUTRAL elevator and 23"
reading
(A36, A36TC, and B36TC)
or 25" (F33A, F33C) UP elevator (.06 inch off fully upstep) must be taken while the control wheel is in motion.
k.
With the elevators
fully rigged (including autopilot installed), the force required to pull the control wheelaft through neutral must be 25 to 29 POU"dS. The force required to return the wheel through neutral shall be 20 to 24 pounds. The difference (friction of the system) between the two readings shall never exceed 9 pounds (7 pounds is desired) nor be less than 4 pounds. and electric trim if
Adjust each spring by transferring the upper end spring-attaching hole providing increased or decreased tension, as applicable. The elevator sys-
j´•
tem should have sufficient freedom to allow free return
guide assembly (both
of the elevator from
down elevator
to
a
fully
UP to
fully
DOWN.
Maintain a minimum clearance of .06 inch between the control wheel adapter and the inner control column on
After
RIGGING THE ELEVATOR CONTROL SYSTEM (E-1946, E-2104, E-2111 AND
bolt
so
hole in the bellcrank is .38 inch
straightedge held against
that the center of the .05 inch forward of
a
the back of the bulkhead at
F.S. 257.606. b.
Adjust
the elevator
deflection of 20" ~tl" c.
Adjust
d.
push-pull rod for an elevator down ton B36TC 25" ~1").
the elevator
25" +1" -00
on
upstep bolt for
A36 and 23" ~10 up
Disconnect the elevator
on
a deflection of B36TC.
downsprings.
Rig neutral elevators on the control column by positioning the pilot’s control column so the gust lock hole is 2.50 1.03 ton B36TC 3.45 ~.03) inches aft of the hole in the control column support and install rig tool (Sheet 1 of Figure 1A). e.
NOTE The short end of the tool is inserted into the control column support and the long end is inserted into the control column, The weight of the control column will hold the tool in place, f.
Adjust the turnbuckles to obtain neutral elevators with a cable tension as indicated in Sheet 2 of Figure 1A.
copilot’s)
at
fully
rigging
NOSE DOWN position, the trim tab should move UP.
AFTER, EA-320, EA-389 AND AI-ltH) downstop
and
the elevator and trim tab check for correct movement of system, the control surfaces with respect to the movement of the controls. When the trim tab control wheel is moved toward the
After rigging the elevator and elevator trim tab control system, check for correct movement of the control surfaces with respect to the movement of the controls.
Set the
pilot’s
NOTE
NOTE
a.
the
the A36 and B36TC.
ELEVATOR TAB INDICATOR CABLE REPLACEMENT (CE-748, CE-772 AND AFTER, CJ-149 AND AFTER, PR/OR TO E-2111 EXCEPT E-1946, AND E-2104,
PRIOR TO EA-389 EXCEPT a.
Place the proper tension
neutral
on
EA-320)
the trim cables in
position.
b.
To install the dial indicator cable, thread the cable through the hole in the head of the cotter pin and out
through c.
the holes in the indicator drum.
With the dial at 0
both ends of the cable
degrees, slip the cable are equal length.
so
that
d. Wrap the cable around the drum one full turn in each direction. The end that wraps to the right will be wrapped clockwise around the drum, and the end that
wraps to the left will be wrapped counterclockwise, viewed from the left side. e.
Route the cable
over
the
appropriate
idler
as
pulley
down to the shaft of the tab control wheel. f.
With the dial still in O
degrees position, take the cable coming off the top of the elevator tab dial sheave and bring it down to the forward side of the tab wheel shaft to the left of the small hole.
27-30´•00
Page 6 Aug 18/95
A18
aeec~craft BONANZA SERIES MAINTENANCE MANUAL g. Wrap the cable (counterclockwise) around the shaft toward the hole three turns. Insert the cable
through
the hole.
Wrap the surplus
cable around the
shaft. h.
ing
upholstery panel
from the back of the
baggage
Remove the area.
d~
identifying and tagging
the cables for rein-
c.
After
stallation, disconnect the forward trim tab cables
With the dial set at 0 degrees, take the cable off the bottom of the trim tab dial sheave and
com-
bring
turnbuckles in the aft Tie
e.
small knot.
right of the hole in the shaft, (clockwise as viewed from the
f.
and wrap the cable left end of the shaft)
three turns toward the hole in the shaft. i.
Insert the cable through the hole in the shaft and wrap it around the shaft,
j. Twist the cables together only rosin core solder. k.
Check the tab dial to to the other.
see
and solder them. Use
Remove the
Set the tab dial at O
panel (actuator door) which pulleys below the pedestal.
access
located under the g.
Removb the panel
h.
Remove the
engine
that it will roll from
autopilot panel (if installed) propeller controls.
and
degrees.
Place tension
on
the i.
Place the elevator tab control in neutral and mark
the neutral
position
the
on
Safety the turnbuckles and set the stops fuselage cables to maintain proper travel in
k.
Pull the cables and
through
the
from the
fuselage
out
pedestal.
on
Note which color (blue and black) goes over the top, forward side of the
the
accor-
sprocket. i.
Tie the
new
cable to the
NOTE
strings.
NOTE
After rigging the elevator and elevator trim tab control system, check for correct movement of the control surfaces with respect to the movement of the controls. When the elevator trim tab control wheel is moved toward the NOSE DOWN posi-
tion, the elevator trim tab should
(color
The shorter goes
over
the
top
Pull the
m.
blue) cable
strings
and cables back
through
the fuse-
lage.
move
NOTE Make sure that the trim tab cables do not interfere with the engine and propeller controls located adjacent to them.
ELEVATOR JRIM TAB FORWARD CABLE REPLACEMENT (E- 1943 E-2104, E-2111 AND Ar-rtn, EA-320, EA-339 AND AFI;ER) Remove the fifth and sixth seats
coded
forward side of the
sprocket.
UP.
(if installed)
n.
Check the
pulleys
mine that the cables
below the
are
properly
pedestal
to deter-
installed.
as
shown in FIFTH AND SIXTH SEAT REMOVAL in
O´â&#x20AC;˘
Make certain that the correct number of chain are on each side of the mark on the sprocket.
links
25-00-00.
and remove the floor.
strings
NOTE
dance with the travel table.
screws
sprocket and chain.
Count the number of chain links on each side of the mark and note the number for later reference.
m.
Remove the
below the
j.
With the elevators set in the neutral position, the left elevator tab should be set at 2" +1" above neutral elevator position. The right elevator tab should be set at O" +1" elevator position.
b.
pedestal.
a
NOTE
Chapter
the left side of the
Station a man in the aft fuselage to keep small amount of tension on the strings as they are pulled through the fuselage.
one
tab cables in the tail section to hold the tabs in line with the elevators.
a.
on
is
NOTE
stop i.
to each of the cable ends. Use a
nylon strings
it down to the aft side of the tab wheel shaft to the
at the
fuselage.
from the
baggage
area
floor
P.
Co""ect the turnbuckles in the aft
q.
Tension the cables per Sheet 2 of
fuselage. Figure
1A.
27-30-00
A~8
Page 6A Aug 10195
aeechcraft BONANZA SERIES
MAINTENANCE MANUAL Check for proper elevator tab travel.
r.
Set the tab travel
s.
as
indicated in Sheet 1 of Figure
Installtheaft Install the
u.
upholstery panel.
baggage
floor
panel.
Sheet 1 of Figure 1A.
Install the back seats. See FIFTH AND SIXTH SEAT INSTALLATION in Chapter 25-00-00. v.
Install the
w.
access
panel (actuator door) below the
pedestal.
d~
access
panel(s)
on
the
pedestal.
2rb,
I
WARNING w~.,
chains,
the
stops
on
the cables to allow surface
etc.
DISASSEMBLY
RIGGING THE ELEVATOR TRIM TAB
a.
posi-
tion.
ing b.
to the tension shown on the eleva-
temperature cable tension graph in Sheet
c.
Place the elevator in neutral
the trim tab
2 of
Remove the snap ring (6) from the actuator houspull the nut assembly (10) out of the housing.
and
Remove the actuator
pushrod
to
screw
(9)
from the nut
assembly.
Fig-
applicable.
1 or 1A,
A36TC AND A36,
INSTALLED) (Figure 2)
up.
Place the elevator tab indicator in the neutral
(F33A, B36TC,
EXCEPT E-llll, F33C PRIOR TO CJ-156 EXCEPT THOSE AIRPLANES WITH KIT 334002-1
trol Is moved toward the "NOSE DOWN’ position, the tab should move
ure
inch-pounds.
ELEVATOR TRIM TAB ACTUATOR
respect to the movement of the controls. When the elevator tab con-
as
the stop bolts to 40 to 60
ELEVATOR TRIM TAB ACTUATOR
with
Rig the cables
Torque
Figure 1 except on airpreceding note.
the serials listed in the
After rigging the elevator and elevator tab control system, check for correct movement of the control surfaces with respect to the movement of the controls. When the elevator tab control is moved toward the "NOSE DOWN" position, the tab should move up.
tab control system, check for correct movement of the control surfaces
b.
indicator is to read 9" ~2" up and
NOTE
After rigging the elevator and elevator
tor
cockpit
I
Make certain that Insulation, tie wraps,etc. do not Interfere with control components such as cables,
a.
Adjust
planes with e.
I
The
4.
26" ~2" down.
travel as shown in Sheet 1 of
Install the
x.
positions.
Set the cable stops to provide 8" +1" up on LH 3. tab and 10" ~tl" up on RH tab, and 27" ~1" down on LH tab and 25" +1" down on RH tab as indicated in
1A. t.
The normal total difference between the tab
2.
Surfaces is to be 2"+ .5" for all
CAUIION
bring
position and adjust
the tab into the neutral
Do not damage the rod end when
position.
drilling
out rivets.
NOTE Remove nut (2), washer (3) and shoulder pin c. then drill out rivet (1). Remove actuator rod end
the LH and RH trim tabs are rigged to a different setting in the neutral position on serials E-1946, E-2104, E-2111 and after, To
improve
elevator
centering,
EA-320 and EA-389 and after.
airplanes 1.
Rig
per steps 1
through
Rig
these
neutral tab surfaces with LH down 1"
and RH up 1"
.5" with indicator at O".
screw.
can now
be removed from the
d.
4.
The
bearing (7)
from the
Remove check nut
adjusting bushing (14) .5"
(15)
screw.
and
with
and the
(5) (4) bushing (8)
screw
out the end
appropriate spanner
w’e"ch. e.
RemovetheO-ring (13).
27-30´•00
Page 66
Aug 18/95
A18
aeedacraft BONANZA SERIES MAINTENANCE MANUAL f.
Remove the
bearing (12)
from the
housing (11).
ELEVATOR TRIM TAB ACTUATOR ASSEMBLY
(f33A, B36TC,
deterioration. Lubricate all parts with MIL-G-23827 grease (11, Chart 1, 91-00-00) prior to assembly.
A36TC AND A36, U<CEPT E-llll,
F33C PRIOR TO CJ-156, U(CEPT THOSE AIRPLANES WITH KIT 33-4002-1 INSTALLED
(Flgure 2) Clean all parts in PD680 solvent (16, Chart 1, 91-0000) and inspect for cracks, corrosion, and distortion.
Replace bushings
and any parts
showing
evidence of
27-30´•00
Page A18
6C
Aug 18/95
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
14
15
:-B i 12 13
8
11
9. 10. 11.
1.
Rivet
2.
Nut
3.
Washer
4.
Actuator Rod End Shoulder Pin
5. 6. 7. 8.
13. 14.
NutAssembly Housing Bearing O-Ring Adjusting Bushing
15.
CheckNut
12.
SnapRing Bearing Bushing
ActuatorScrew
33-164-3
Elevator Tab Actuator
Figure Install
a.
2
clockwise
bearing (12) into housing (11).
when
screwed
into
the
nut
assembly (10). b.
O-ring (13) into adjusting bushing
Install
~14).
Install nut
g. secure
not
d.
ring (6) e.
adjusting bushing (14) and check tighten.)
Install
c.
(15). (00
bushing (8), bearing (7) (9).
Install on
Install and
actuator
secure
rod
with rivet
nut
end
NOTE Lubricate
all
parts
Install
screw
(9)
Screw adjusting bushing (14) into housing h. (11) until the end play has been removed from the nut assembly, and tighten the check nut(l5). An end play of 0.003 inch is permissible. ELEVATOR
except
O-ring
with
into nut
(10).
WARNING
the actuator
screw
(9) that
rotate counter-
ACTUATOR
DISASSEMBLY
Remove
the
b.
retainer
the nut
ring (2) from the assembly (6) out of the
Remove the actuator
screw
(4)
from the nut
assembly (6). Drill out rivet
c.
pin (9).
will rotate clockwise when screwed into the nut assembly (10). The trim tab actuator that will be installed on the right hand horizontal stabilizer shall have threads on
TAB
housing (5) and pull housing.
d.
The trim tab actuator that will be installed on the left hand horizonal stabilizer shall have threads on its actuator screw (9) that
TRIM
(E-llll ONLY) (Figure 3) a.
MlL-G-23827 grease (11, Chart 1, 91-00-00) Lubricate the O-ring prior to assembly. with MIL-S-8660 (50, Chart 1, 91-00-00). f.
snap
(4) on actuator (1) and shoulder pin
(2).
assembly (10) into housing (11); ring (6).
nut
actuator screw
(9) (5), washer (3) and
screw
and
with snap
Remove nut (10), washer (11) and shoulder The collar (3) can now be removed. Remove check nut
e.
ing (7)
(12).
with the
Clean all
appropriate
parts with replace parts that
(8)
and
screw
out bush-
spanner wrench.
solvent
(16, Chart 1, 91-00-00) and cracked, corroded and distorted. Lubricate all parts with lubricating grease (11, Chart 1, 91-00-00) prior to assembly. are
27-30-00
Page A14
7
Jun 20/91
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL 1.
Actuator Rod End
2.
Retainer
Ring
7.
Bushing
8.
Check Nut
9.
Shoulder Pin
3.
Collar
4.
Actuator Screw
10.
Nut
5.
Housing Nut Assembly
11.
Washer
12.
Rivet
6.
7
3
5
1~
36153´•8
II’ Only)
Elevator Tab Actuator Figure 3
Install
g.
ELEVATOR TRIM TAB ACTUATOR ASSEMBLY
bushing (7)
(E-llll only) (Figure 3) (3)
and retainer
ring (2)
Install actuator rod end to
align
assembling the actuator, screw the bushing (7) into the assembly (5) until end play of the nut assembly (6) has been removed, then lock in place by tightening the check nut (8). The nut assembly (6) must be free to rotate and provide smooth operation through its full travel with a maximum end play of 0.0015
(1)
on
actuator screw
(4)
the holes.
pin (9) washer (11) and (12), P/N MS20613-3C10.
c.
Install shoulder
d.
Install rivet
nut
(10).
inch.
NOTE Lubricate all parts with lubricating grease Chart 1, 91-00-00) prior to assembly. Install actuator
screw
(4)
into nut
(11,
assembly (6).
ELEVATOR TRIM TAB ACTUATOR DISASSEMBLV Model F33C (CJ-156 and after, and earlier airplanes incorporating Kit 33-4002-1)
(Figure~3A)
WARNING
a.
housing The trim tab actuator that will be installed
on
its actuator
screw
(4)
b.
the
left hand horizontal stabilizer shall have threads on
Remove the snap ring pull the nut assembly
and
Remove the actuator
assembly (6). The trim on the right hand
horizontal stabilizer shall have threads
(4) that
with retainer
on
the
screw
housing. (6) from the nut
CAUTION
ac-
Do not
rotate counterclockwise
when screwed into the nut
assembly (6) ring (2).
Install nut
from the actuator out of the
assembly.
tab actuator that will be installed
tuator screw
(4) (7)
that will rotate clockwise
when screwed into the nut
f.
(8).
threaded
being careful
e.
withl check nut
When
actuator
on
(4).
b.
secure
NOTE
Place collar
a.
screw
and
damage
rod end when
drilling
out rivet.
assembly (6).
into
housing (5) and
c.
secure
The
Remove nut
bushing (5)
(1), washer (2)
can now
and shoulder
be removed from the
pin (3).
screw.
27-3090
PageB May
31/85
A10
BEECHCRAFT BONANZA SERIES MAINTENANOE UANUAL
112
1!
9
b)
’I
b 4
10
1. Nut
8,
3. Shoulder Pin 4.
5.
Assembly Housing 9, Bearing 10, O-Rng 7. Nut
2. Washer
Snap Ring Bushing
6. Actuator Screw
11.
Adjusting Bushing
12, Check Nut
F33C-164-6
Elevator Tab Actuator Figure 3A d.
(12) and screw out the end appropriate spanner wrench. Remove O-ring (10). Remove the bearing (9) from housing 18).
Remove check nut
adjusting bushing (11) e.
f.
with
Clean all parts in PD680 solvent
(16, Chart 1, 91-00´•00) and inspect for cracks, corrosion, and distortion. Replace bushings and any parts showing evidence of deterioration. Lubricate all parts with Mll-G-23827 grease (If, Chart 1, 91-00-00) prior
to
Install adjusting bushing (11) and check nut (12). tighten.) d. Install bearing (5) and snap ring (4) on actuator screw (6). Install shoulder pin (3), washer (2) and nut (1) on e. c.
(Do
not
actuator
screw
Install
f.
(61. screw
assembly.
(6) into
nut
(7).
WARNING
ELEVATOR TRIM TAB ACTUATOR ASSEMBLY Model F33C
(CJ´•156 and after, incorporati~ng Kit 33´•4002-1) (Ftgure 3A).
and earlier
airplanes
The trim tab actuator that will be installed on the left hand horizontal stabilizer shall have threads on
its actuator
screw
(6)
that will rotate clockwise
when screwed into the nut
assembly (7). The trim on the right hand
tab actuator that will be installed
Clean all parts in PD680 solvent
(16, Chart 1, 91-00-00) and inspect for cracks, corrosion, and distortion. Replace bushings and any parts showing evidence of deterioration, Lubricate all parts with MlL-G-23827 grease (11, Chart 1, 91-00-00) prior to assembly. a.
Install
b.
Install
bearing (9) O-ring (10)
into
into
housing (8). adjusting bushing (11).
horizontal stabilizer shall have threads on the ac(6) that rotate counterclockwise
tuator screw
when screwed into the nut
Install nut g. with snap ring (4).
assembly (7).
assembly (7) into housing (8),
secure
27-3090
Pageg A10
IMBy31/85
BEECHCRAFT BONANZA SERIES ~IIAINTENANCE MANUAL
9
12
io
678
13
1I
5
.8 IN
F~
-t
.5 IN
:S .25 IN
Tbll
TAP5/8-ll
I
_____TYPI
2.9 IN
I_A
A~a
1.61
IN
4
I
TAB
14 1.30 IN
ITEM
QUANT.
IN
--e
DESCRIPTION
NO. 1
2
3/4
2
2
1
3
1
1/2
4
1
C81Q Indicator’*
5
1
3/4
x
x
1
6 aluminum or
x
1 3/8 x
x
7 1/2
2 1/2
equiv.
1 3/4 aluminum or
x
x
x
10 aluminum
or
6
1
1/4 Dia.
2 corrosion
res.
stl.
1
1/4 Dia. xl corrosion
res.
stl.
8
1
1/4-28 nut
9
1
3/8
10
1
11
i
12
5
3/8
x
2
x
10 rubber
1/4
x
2
x
10 corrosion
2
1/2
x
13
13
2
KN813 Keensert
14
2
1/8
x
1
x
equiv.
II I II
1
.311N
x
x
.6811N I\t
14 aluminum or
7
x
equiv. equiv.
10 rubber
x
3 VLIER or
res.
Torque
stl.
C
screw
tap 1/2
3/4 rubber
13
SECTION A A ~e THIS GROOVE TO BE A SNUG FIT
*’P/N of Federal Products
Corp., Providence,
R. I.
TO THE SCREW BRACKET ON THE DIAL INDICATOR 100-1)5-8
Fabricating Clamp for Tab Deflection Figure 4
27-30-00
PagelO Oct 7/83
A6
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
NOTE Lubricate
all
except O-ring with prior to assembly. Lubricate MIL-S-8660 (50, Chart 1,
parts
MI L-G-23827 g rease
the
O-ring
with
1.
Multiply
2.
Subtract "A" from "28" and record
"B"
"D"
by by
2 and record as "28". as
"X".
2 and record as "2D".
3.
Multiply
4.
Subtract "C" from "20" and record
5.
Add "X" and "Y" and record
as
"Y".
"E".
as
91-00-00). CHART 1 ELEVATOR TAB FREE PLAY LIMITS Screw
h.
the end
play
adjusting bushing (11)
into
housing (8)
has been removed from the nut
tighten the check permissible.
nut
(12).
An end
play
until
assembly, and
of 0.003 inch is
CHECKING ELEVATOR TAB FREE PLAY (CE-748, CE-772 and after; E-llll, E-1241 and after; CJ-149 and
after)
play of
READING
28
-A
=X
+Y
=E
D 2D X
systems. Inconsistencies should be the free
3-POUND
rity of actuating corrected prior to
Visually inspect the elevator tabs for any damage, hinge attach points, and for tightness of the
checking
1.5-POUND READING
secu
0.050 inch
(E
maximum)
the tabs.
(P/N 810 45135030-9) or equivalent, a dial indicator, and a push-pull scale for applying accurate Ioading to the tabs are required for making the inspection for free play of the tabs.
NOTE
A check fixture
Lock the control surface to prevent movement of a. the elevators. Set the elevator tabs in the neutral position. b. Using shot bags and tape, affix the dial indicator
The results of "X" and "Y"
be
can
negative
numbers.
k.
Repeat steps
"b"
through "j"
on
the
opposite
elevator tab.
that the dial indicator point is positioned on edge of the elevator tab at a point 3.30 inches aft of the hinge line as measured along the top of the tab. c. Apply a small piece of masking tape to the upper surface (for paint protection) 4.50 inches aft of the tab hinge line and along the centerline of the tab actuator. This will be the point of pressure against the tab by the push-pull scale. d. Apply another piece of masking tape in the corresponding position on the bottom surface of the tab for
ELEVATOR TRIM TAB ACTUATOR REMOVAL F33C, A36, A36TC AND B36TC)
the
the
check fixture
so
the outboard
same e.
purpose. Zero the dial indicator at
no
load
initially.
Do not
checking procedure, With the push-pull scale at the point of the f. masking tape, apply 9pound downward load. Record the dial reading as "A". Release half the load until a 1.5-pound downward g. load is obtained. Record the dial reading as "8". h. Apply a full 9pound upward load at the masking tape on the bottom surface. Record the dial reading as "C". Release half the load until a i.&pound upward i. load is obtained. Record the dial reading as "D". Enter the recorded values on a copy of CHART 1 j. and proceed as follows: reset
during
the
a.
Remove the
access
the horizontal stabilizer to
gain
panel
near
access
the
(F33A,
trailing edge
of
to the elevator trim tab
actuator
b.
light
Detach the tail cone, disconnect the tail remove the tail cone.
navigation
wire and c.
Remove the
fuselage just d.
access
Remove the
access
the horizontal stabilizer to actuator e.
on
the left hand side of
panel
gain
near
access to
the
leading edge of
the elevator trim tab
sprocket. Remove the elevator
00 under the f.
panel
forward of the horizontal stabilizer.
heading
as
outlined in
Chapter
27-30-
ELEVATOR REMOVAL.
Disconnect the elevator trim tab cables at the turn-
buckles in the aft
fuselage. Secure the forward elevator trim unwinding at the universal.
tab cables to prevent them from
CAUTION Do not damage the cables. Use a material such as phenolic to protect the cables.
27-30-00
Page 11 â&#x20AC;&#x2122;A10
May 31/85â&#x20AC;&#x2122;
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
Remove the chain and cable assembly g. from the elevator trim tab actuator sprocket. h. tor
trim
Remove the hardware tab
to
actuator
the
Remove the actuator from the
Install the access panel located g. leading edge of the horizontal stabilizer.
attaching the eleva-
horizontal
stabilizer.
Install the
h.
access
panel located
near
the
near
the
of the horizontal stabilizer.
trailing edge
airplane. i.
ELEVATOR TRIM TAB ACTUATOR INSTALLATION (F33A, F33C, A36, A36TC AND
Install the
side of the
panel on the left hand forward of the horizontal
access
fuselage just
stabilizer.
sssrc) install the tail
The elevator trim tab actuators must not be interchanged between the right and left horizontal stabilizers when they are reinstalled after removal. Reversing the actuators reverses the direction, and plane nose-up trim would actually rescilt in an inadvertent nose-down trim condition that
probability
of
B36TC) airplanes serials CE-1566 and after, CJ-180 and after, E-2111 and after, and EA-389 and after, elevator
On
trim tab actuators have been color coded LH blue and
an
unintentionally switching
Actuators may be inspected for proper by removing the actuator inspection hole cover and visually inspecting that the appropriate color coded actuator is installed (LH blue and RH black). RH black.
installation
the
actuators upon installation.
the
Position the elevator trim tab actuator in a. horizontal stabilizer and install the attaching
On earlier
airplanes,
actuators
Position the chain and cable assembly on the actuator sprocket so that the ends of the chain b.
equidistant
within
+.20 inch at the
sprocket
cen-
terline.
installed
can or
elevator trim tab actuators
were
coding of the elevator trim tab be accomplished with the actuators
not color coded.
hardware.
are
navigation light wire and
cone.
ELEVATOR TRIM TAB ACTUATOR COLOR CODING (F33A, F33C, A36, A36TC AND.
uncontrollable airplane attitude. Refer to ELEVATOR TRIM TAB ACTUATOR COLOR CODING to reduce the could result in
Connect the tail
j.
WARNING
Color
before installation.
This will reduce the
unintentionally switching the actuators. Use BEECHCRAFT Mandatory Service Bulletin No. 2399 for painting instructions on how to color code probability
of
elevator trim tab actuators. c.
Install the elevator
heading INSTALLATION d.
outlined under the
OF THE ELEVATOR.
WARNING
Connect the elevator trim tab cables to the
turnbuckles in the ah
e.
as
Remove
Do not install
fuselage. used
material
to
protect
the
cables.
TRIM TAB.
actuator
blue-coded stabilizer.
on a
or
a
The
control
movement
respect
the elevator and elevator trim
system, of the
check
control
for
correct
surfaces
with
to the movement of the controls.
When the elevator trim tab control wheel is moved toward the NOSE DOWN position, the elevator trim tab should
a
(OPTIONAL)
optional electric trim system offered on airplanes allows the pilot to correct
Bonanza
it will actuate the
rigging
on
black-coded
the the
elevator trim without removing his hands from the controlwheel. The switch requires 2 actions before
NOTE
tab
blue-coded actuator
stabilizer
ELECTRIC ELEVATOR TRIM
f. Rig the elevator trim tab control system as outlined under the heading RIGGING THE ELEVATOR
After
a
black-coded
move
UP.
depressed ~enable (down-trim) or rearward (up-trim). On the control wheel left hand grip is a quick-interrupt switch (placarded TRIM INTER) which opens the circuit to the servo and stops the action of the electric trim system. The PITCH TRIM OFF-ON switch),
system:
first
then moved forward
switch is located in the lower left
corner
of the float-
ing instrument panel and the circuit breaker (plac-
27-30-00
Page 12 Jun 20/91
A14
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
is
TRIM)
arded
circuit breaker
located
in
electroluminescent
the
below the instrument
panel
panel.
ELEVA TOR TRIM ELEC TRIC GROUND CHECKS (AIRPLANES WITHOUT
AUTOPI-I
LOT) MODEL
A36, A36TC, AND
B36TC
TRIM
ELEVATOR
ELECTRIC REMOVAL
TAB
SERVO
Gain access to the servo by removing the a. fifth and (if installed) sixth seat (refer to Chapter 25 under FIFTH AND SIXTH SEAT REMOVAL AND INSTALLATION) and the partition between the baggage
compartment and ah section
of the
airplane,
After inspection of the electric trim instala. lation for loose wires, obstructions safetied cables, etc., turn "ON" airplane master switch. Turn ON the trim master switch b. engage the "TRIM" system circuit breaker. c.
and
move
Simultaneously press the pilot’s control wheel switch
that the trim wheel b.
the turnbuckle
Unsafety
on
the
left
trim
moves
enable
and
switch Note
forward.
toward "DOWN" trim
posi-
tion.
cable and loosen the cable.
gram of the
pulleys
(make a note and diacable routing for reinstallation) from the capstan.
Remove the cable
c.
and
Remove the 4 bolts, nuts, and 8 washers which secure the servo to the brackets in the aird.
plane. e.
d. With pilot’s control wheel switch still engaged, grasp the manual trim wheel and check for manual override capability; the clutch will slip. e.
and
move
that the trim wheel
Remove the
~note on which side of mounted) from the airplane.
servo
is
servo
TAB
TRIM
ELECTRIC ELEVATOR INSTALLATION
SERVO
Place the
servo
in
position
and install the
4 bolts, 8 washers, and 4 nuts (make certain the servo is installed in the same position from which it was
removed). Install the cables trim
(outboard)
cable
on
the
should
be
servo.
routed
The left
forward
around the outside groove of the capstan and back to pulley, then forward to the other pulley; wrap around the forward pulley and aft around the inside
the aft
groove of the c.
capstan and forward
Install
cable to the
the
pulley
as
to the turnbuckle.
right (inboard) elevator trim step "b".
indicated in
d. Adjust the capstan cable guard to within 1/32 inch of the capstan and secure with the attaching screws. Tighten the attaching bolts of the 2 idler
Note
toward the "UP" trim
posi-
Press the enable switch
the elevator trim
system through
of of travel to check for any bind-
only; trim
must not run.
i.
The control wheel
mounting
includes
an
trim-interrupt switch. This switch has the primary purpose of stopping all trim action by interand ground. The interrupt rupting both the trim A switch is a momentary type pushbutton, which may
electric
be Checked i.
as
follows:
With the trim system still turned on,
actuate the trim switch to drive the trim
system. While system is being driven, push the interrupt switch and note that the trim system stops running while the switch is
depressed. If the trim
system operates while the
interrupt switch is depressed, the trouble should located and corrected before flying the airplane. j.
Operate its complete range ing or restrictions,
Move the trim switch fore and ah
h.
system
2.
e. Adjust the cable tension per RIGGING THE ELEVATOR CONTROL SYSTEM and Figure 1.
only; trim system
must not run.
pulleys.
f.
switchl
f. With pilot’s control wheel switch still engaged, grasp the trim wheel and check for manual Ove"ide capability; the clutch will slip. g.
b.
moves
enable
rearward.
tion.
the brackets the
a.
Simultaneously press the pilot’s control wheel switch
without
If the circuit breaker both the
enable
trips
switch
or
and
the trim
the
be
runs
direction
switch actuated, pull the trim circuit breaker, turn the trim master switch OFF and leave disconnected until 27-30-00
Page 12A A14
Jun 20/91
I
BEECHCRAFT
BONANZA SERIES
MAINTENANCE MANUAL
the trouble is located. breaker out, do not k. the
If the trim
runs
with the circuit
NEW TAB CABLE INSTALLATION
fly the airplane.
After the electric trim
system check-out,
airplane manual trim system should be free of normally.
Note the position of the old cable in relation to the cable drum and forward end cable fittings. Install the new cable in the same positions
excessive friction and should function
MAGNETIC CLUTCH REMOVAL MODEL F33A, F33C AND V358
(Figure 5)
ELECTRIC TRIM TAB ACTUATOR REMOVAL Remove the access door on the fuselage a. just below the leading edge of the L.H. stablizer, Disconnect the actuator wire
b.
the disconnect
harness
Tape the cable unwinding of the cable. buckle.
to the actuator to
prevent
the
ELECTRIC LA TION
Loosen the set
screw
in the clutch
c.
Remove the motor from the clutch
d.
Slide the cable drum and shaft
TRIM
from the clutch
a.
b.
Install
the bolts
mounting
securing
the
location,
actuator
assembly
housing.
(Figure 5) a.
Install the clutch in the clutch
b.
Slide the cable drum and shaft
into the clutch
in
shaft.
housing. assembly
housing.
Tighten
c.
until there is
place.
housing.
MAGNETIC CLUTCH INS TALLA nON
TAB ACTUATOR INSTAL-
Place the actuator in its
rotor
housing.
Remove the clutch from the clutch
e.
Remove the three bolts securing the actuThe actuator may now be bracket. removed from the airplane. to
b.
housing.
and armature hubs.
at
d.
ator
Remove the lid from the clutch
splices.
Disconnect the actuator cable at the turn-
c.
a.
no
the
clutch
visible end
Slide the clutch rotor
armature
set
screws
play
in the cable drum
on
the motor shaft to
c.
Connect the cables at the turnbuckles
obtain .010 to .015 inch clearance between the friction
d.
Connect the wire harness.
screws.
surfaces
of the
clutch
Stake both set
before
tightening
the
set
screws.
21-30-00
Page
128
Jun 20/91
A14
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
CLUTCH
CLUTCH HOUSING
ROTOR
.010 to .015
SETSCREWS
CLUTCH
ASSEMBLY"n L_J~J WE´•C~ARMATURE
CLUTCH
SETSCREW CABLE DRUM SHAFT
CABLE RETAINING PIN
CABLE DRUM 60-364-1
Electric Trim Tab Actuator Figure 5
CAUTION
tool
that will fit the
shaft
which
on
the
cable drum is
mounted. With
no
visible end
play
in the cable drum shaft,
3.
the clutch faces must not make contact while
the clutch is
de-energized
or
damage
fabricate
to the
450
clutch will result.
Replace
’/2
rpm)
screwdriver
BRUSH
ELECTRIC TRIM TAB ACTUATOR REPLACEMENT SCHEDULE the brushes at intervals of 2000
fright
following check should magnetic clutch is replaced.
be
inch
drill
performed
any time the
28 vdc power source, connect the red Using lead of the magnetic clutch to ground and the white lead to the power source. Using a torque wrench, check that the clutch holds with 30 inch-pounds of torque applied at the actuator shaft,
If the static torque of the clutch is less than 30 inch-pounds, burn the clutch as follows: b.
1.
rigidity assembly
plate
plate
to match the actuator
the actuator to the 2.
may
be
attached to the
Secure the screwdriver in the ’/2 inch drill
5.
Remove the
and blow the
access
housing
plate from the clutch
and clutch clean with clean
ground clips.
and the white lead to the power
drill off and
source
with
alligator
With the screwdriver in the slot in the drum
unclip
on
and
run
for 15 seconds. Turn the
the leads to the clutch.
the clutch cool for approximately one reattaching the lead for another 15 second interval. Repeat the foregoing sequence until the clutch will hold with 30 inch-pounds of torque as indicated in step "a", then blow the clutch and housing clean with clean dry compressed air. Install the access plate on the clutch housing. 8.
Let
minute before
a
attached. Anchor the
holes in the
or
speed (approximately
metal plate of sufficient thickness for enough to fit in a vise with the actuator
Find
large
motor
low
4.
7.
a
and
a
similar tool.
shaft turn the drill motor a.
that
6. Using a regulated power source set at 14 to 16 vdc, connect the red electrical lead of the clutch to
MAGNETIC CLUTCH TORQUE TEST The
or
so
motor.
housing dry air.
hours,
Remove the handle from the screwdriver
similar tool
a
in
a
Exceeding
plate.
Locate
a
CAUTION
vise and drill 3
mounting holes. Bolt
blade type screwdriver
or
similar
the 15 second burn-in
overheat and
periods may damage the magnetic clutch.
"END"
27-30-00
Page A6
13
Oct7183
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
STALL WARNING/SAFE FLIGHT DESCRIPTION AND OPERATION
SYSTEM
rule of thumb,
moving the vane 1/4 inch will change the warning actuates by about 5 mph of indicated airspeed. The only way to test the accuracy of the setting is to fly the airplane into a stall, noting the speed at which the warning horn comes on and the speed at which the full stall As
a
time the stall
STALL WARNING SYSTEM
occurs.
waming system is designed to give the pilot advance warning of an impending stall. The stall warning switch is located on the bottom leading edge of the left wing. Air moving over the vane of the switch will cause the switch to open or close depending an the air velocity. The opening or closing of the stall warning switch indicates the lift capabilities of the wing and subsequently indicates to the pilot the approaching of a stall condition.
The stall
STALL WARNING
ADJUST UP TO ACTUATE SOONER
i
O o
8~mmli, VIN~OISU)t
MAINTENANCE PRACTICES
i
to
STALL WA~NING SYSTEM
ADJUSTMENTO SCREWS?
ADJUSTMENTS
(Figure 1)
airplane is test flown readjusting, proceed installation the two
at as
the
factory.
follows:
Should it
Locate
the under surface of the left
on
Phillips-head screws, the stall warning has
one
on
wing
o.
O
require switch
ADJUST DOWN TO ACTUATE LATER
and loosen
60-251-11
either side of the
vane.
If
move
the vane back and down. If the stall
been
the
OO
:~O
warning switch is carefully adjusted when Ihe
me sta~l
O
coming
on
too
early,
warning
Stall Vane
Adjustment Figure 1
has
coming on too late, move the vane up and forward. Moving the vane, with the Phillips-head screws loosened, moves the entire unit up or down inside the wing causing the switch to be closed earlier or later. Retighten the screws after making each adjustment. NEVER TRY TO been
ADJUST THE SWITCH BY BENDING THE VANE. The stall should be made with the
flaps and gear up and off. Prior to decelerate no faster than one stalling power mph per second. It may be necessary to make several
NOTE
alternate If
a new
(lift detector) is being installed it positioned (with vane full down) so
switch
should be
upper surface of the vane is in alignment with the index line on the cover plate. The airplane should then be flown and that
the
adjusted following procedure.
the
switch
as
indicated
in
the
setting ideally,
adjustments
and test
flights before the warning should
desired
be reached. The stall
actuate, at 7 to 9 mph ahead of the complete stall. The switch setting should be checked and adjusted as can
a wing or wing leading edge is extensively repaired, or if a new switch is installed. The switch should require no adjustment in normal
necessary whenever
replaced
or
service.
"END"
27-3140
Page i May 9/80
RaylSleon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
DESCRIPTION AND OPERATION
FLAPS
This
flaps are hinged in specially designed tracks. When extended, the flap moves gives a large, effective wing area, which produces additional lift and drag.
One
flap
The
is installed
on
each
wing.
The
flaps
are
operated by
an
rearward
electric-motor-driven
it
pivots downward.
on
the aft side of the
as
gearbox
front spar at the centerline of the airplane. The gearbox drives two flexible drive shafts, each connected to an acme-thread-type jackscrew at each flap. The flaps are controlled by a lever in the subpanel, and the flap position
by an instrument to change positions. On airplane
the left of the control column. The lever
(switch) must be pulled out of a detent to serials E-llll, E-1241, thru E-1370; CJ-149; CE-748, CE-772 thru CE-815; D-10097, and D-10120 thru D-10178, the flaps may be stopped at any position by moving the flap switch to OFF when the flaps reach the desired position. The switch is placarded UP, OFF, and DOWN. The markings on the position indicator will be UP, 10", 20", and DN. On airplane serials CJ-150 and After; CE-816 and After; D-l 0179 is indicated
and After; E-1371 thru E-2110 except E-1946 and E-2104; EA-1 thru EA-388 except EA-320, the indicator is marked UP, 15", and DN. Serials E-1946, E-2104 and E-2111 and After; EA-320, EA-389 and After have lights to indicate
flap position.
out when the
the
flap switch.
The
lights are marked to indicate the down, in-transit, and approach positions of the flaps. All lights flaps are up. The flaps can be stopped only on the up, approach, or down position as indicated by
These
are
flap position
(if installed) is located near the left flap by the flap relay and limit switches.
transmitter
of later serials is controlled
actuator. Power to
operate the indicator lights
NOTE After
emergency extension at speeds above the normal extension speeds, damage or distortion before the next flight.
FLAPS
an
inspect
the
flaps
for
MAINTENANCE PRACTICES
FLAP REMOVAL a.
Remove the bolt from the
b.
Remove the
c.
Remove the bolts from the
bonding
flap actuating
cable from the
flap
flap
arm.
tracks.
track brackets and
remove
the
flaps.
FLAP INSTALLATION a.
Hold the
flap
in
position
and install the rollers and the bolts in the
flap
track bracket.
NOTE
b.
p~,
flap track rollers (four rollers per flap and two rollers per track) flanges of the rollers in one track facing the flanges of the rollers
Install the
in the
with the
in other track.
Connect the
bonding
cable and install the bolt in the
flap actuating
flap
track brackets
arm.
27-50-00
Sep
30/03Page
1
I
Ray)lheon
Air~raft Company
BONANZA SERIES MAINTENANCE MANUAL
FLAP TRACK WEAR LIMITS
I
The allowable track
wear on
the
the track slot. The allowable
bearing
wear
surface is 0.032 inch
resulting
in
a
maximum dimension of 0.785 inch in
into the track side surface is 0.050 inch. Track
wear
within the
preceding (49
limitations may be dressed smooth with light emery cloth to prevent roller binding. Lubricant mixed with solvent and 26, Chart 1, 91-00-00) may be brushed on the flap tracks during servicing of the airplane.
FLAP LIMIT SWITCH ADJUSTMENT
NOTE Battery voltage is not sufficient to properly cycle the flaps during rigging. An auxiliary power supply capable of maintaining 28.25 0.25 volts should be used. If an external power receptacle is not available on the airplane, jumper cables may be used between the battery and the power supply. Be sure of the polarity before making the connection.
I
I Excessive a
The
flap
left wing limits of
CAUTION CAUTIOW
1
operation of the flap motor withoutproper cooling may cause damage to the motor cycle.
Allow
short cooling time after each extension and retraction
limit switches are mounted on a bracket and installed on the outboard side of the inboard flap track in the panel. The limit switches control the travel of the flaps by breaking the circuit to the flap motor at the extreme travel. They are accessible by lowering the flaps.
TWO-POSITION FLAPS 05-772 THRU
(05-748,
05-815; CJ-149; 0-10097, 0-10120 THRU 0-10178; E-llll, 5-1241 THRU 5-1370)
uplimit position, and one for the downlimit position. To adjust assembly so that the assembly can pivot on the fomard position, flaps to switch the the hole. as flaps in neutral position. Actuate the flap switch to the stop Adjust necessary elongated 0" 2"). Adjustment of the down down position and measure the degrees of travel (proper degree of travel is 300 the downlimit made switch. is the on of flaps position
There
are
two limit switches for this
to neutral
the
system,
loosen the
one
screws
for the
of the switch
THREE-POSITION FLAPS
(05-816
AND AFTER; CJ-150 AND AFTER; 0-10179 AND
AFTER; 5-1371
AND
AFTER; EA-1 AND AFTER)
The limit switches, one for up, two for the approach position and one for the down travel, control the travel of the flaps by breaking the circuit to the flap motor at the extreme limits of selected travel. The switches are accessible by
lowering The
the
flaps.
flap travel is adjusted by moving the Rig as follows:
with it.
Sep
27-50-00
limit switches. The left
flap
is
rigged first,
then the
right flap
is
synchronized
RByeheOn
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
NOTE the
Rig
flaps
under
a
simulated
flight
load to reduce overtravel to
a
minimum after the limit switches
have been actuated.
When the
flaps are in the 0" position, a clearance of 1/16 inch flap roller and the forward edge of the flap track slot.
1/16 inch
1/32 inch must exist
I
between the a.
Adjust
uplimit
the
switch
so
the
flaps
will
at the 0"
stop
position.
NOTE At serials E-1946,
E-2104, E-2111 and After, the flap switch approach position is
12".
Adjust
the
(outboard) flaps positioned flaps fully up position to the approach position. Adjust the 13" limit switch (inboard) switch the flaps are at the 13" to 12.5" position after the flaps have been actuated from fully down to
11" limit
switch until the
at 11" to 11.5" after the
are
have been
actuated from
until the
b.
approach position. 14" limit switch
(inboard) in its mounting slot until the flap is positioned at 14" to 14.5" after the flap fully up to the takeoff position (15" range). Adjust the 16" limit switch (outboard) in its mounting slot until the flap is positioned at 16" to !5.50 after the flap has been actuated from fully down to the takeoff position (15" range). Adjust the
has been actuated from
downlimit switch in its
c.
Adjust the
d.
Remove the bolt
e.
Turn the
f.
Install the bolt
attaching
the
right
jackscrew on the right connecting
mounting
slot until it actuates at 28" to 300 of
actuator to the
right flap.
actuator in or out to
the actuator to the
flap travel.
align the right flap
with the left
flap.
flap.
CAUTION I I cnuTlou If the
flaps are
removed for any
reason
the main power switch should be in the OFF position.
NOTE
flap is completely rigged, adjust the rubber bumper (flap down) installed on the flap and dividing rib. Turn the adjusting screw in or out, as required, to take out play or stop vibration when the flap is in the up position. A distinct change in the sound of the flap motor near the completion of the flap-up travel may indicate an excessive outward adjustment of the bumper. After the aileron
g.
Operate the flaps through rubber bumper.
0124
full travel to
ensure
that the
flaps
contact the limit switches before
they
27-50-00
contact the
Sep
30/03Page
3
RaYHleOll
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
FLAP SYSTEM
FLAP SETTING FLAP ACTUATOR
CE-748, CE-772 THROUGH CE-815; 01-149 0-10097, 0-10120 THROUGH 0-10178; E-lll1, E´•1241 THROUGH E-1370
00 FULL UP FULL DOWN
30"
0"
2"
FLAP SHAFT AND HOUSING FLAP ACTUATOR
MOTO;I
CE-816 AND AFTER, CJ-150 AND AFTER 0-10179 AND AFTER, 5-1371 THRU E-2110 EXCEPT E-1946 AND E-2104, EA-1 AND AFTER O" FULL UP 15" APPROACH 30" FULL DOWN
LIMIT
SWITCHES FLAP SHAFT AND HOUSING
0"
FLAP ACTUATOR
2"
5-1946 E-2104, 5-2111 AND AFTER FULL U)E O" 12" APPROACH 30" FULL DOWN
FLAP POSITION INDICATOR 0"
2"
FLAP PSSTION TRANSMITTER
INDICATOR
INDICATOR
o~--FLAP ACTUATOR
TRANSMITTER~
CE-748, CE-n2 THROUGH
CE-816ANDAFTER
CE-B15; 01-149, D-~0097,
CJ-150 AND AFTER D-10179 AND AFTER E-1371 THRU 5-2110 EXCEPT E-1946 AND E-21D4’ EA-1 THRU EA-388 EXCEPT EA-320
0-10120 THROUGH D-10178 E-llll, 5-1241 THROUGH E-1370 TO ADJUST, LOOSEN MOUNTING BOLTS AND MOVE FORE AND AFT, OR ROTATE SLIGHTLY.
IC9
WH’CH HAVE LIGHTS fO INDICATE POSITION
POSITION
SWITCHES
SWITCHES DOWNLIMIT SWITCH
""C"’S
UPLIMIT SWITCH
CE-748, CE-n2 THROUGH CE-815, 01-149; 0-10097, 010120 THROUGH D´•10178; E-llll, E-1241 THROUGH E-13f0
FLAP LIMIT SWITCHES
CE-816 AND AFTER CJ-150 AND AFTER D-lOlm AND ARER 5-1371 AND AFTER EA-1 AND AFTER 33-161-15
Flap System Figure t
Sep
27-50-00
A24
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
FLAP POSITION INDICA TOR AND ADJUSTMENT The
flap position indicator gage is installed in the instrument panel. An adjustable flap position indicator transmitter on the flap actuator in the left wing just forward of the rear spar to coordinate gage reading with flap travel.
is installed a.
Adjust the flap travel
provide the
limit switches to
correct up and down travel of the
flaps.
Refer to FLAP LIMIT
I
SWITCH ADJUSTMENT procedure. b.
c.
Run the
flaps
down and check the
pilotâ&#x20AC;&#x2122;s compartment flap position
indicator for 100%
flaps.
not
indicated, loosen the transmitter attachment bolts and adjust transmitter fore and aft
the
reading
Run the
is correct, then
flaps
tighten
the transmitter
up and check the indicator for up
or
If down
rotate
flaps are slightly until
bolts.
attaching
flaps reading.
FLAP MOTOR REMOVAL
CAUTION ICAUTIONI If the be
flap motor fails or if major overhaul is required for it to operate properly, No attempt should be made to overhaul the motor in the field.
the
flap motor should
replaced.
a.
Remove the front seat assemblies.
b.
Removethe sparcover.
c.
Detach the
d.
Disconnect the motor electrical
e.
Loosen the two set
f.
Rotate the cable retainers 90".
g.
Loosen the nuts
h.
Pull the flexible drive shafts from the
i.
Remove the
clamp supporting the electrical wiring from the right-hand flap-shaft housing.
flap
on
wiring
at the
disconnect.
each cable retainer.
screws on
the inboard side of the
motor
quick
attaching
flap
mounting supports.
motor shafts and retainers.
bolts and
remove
the
flap
motor.
CONNECTING FLEXISLE FLAP DRIVE SHAFT TO FLAP MOTOR SHAFT Connect the LH and RH flexible component locations:
flap
drive shafts to the
a.
Install the outboard nut and washer
b.
Start set
shaft
as
screws
far
as
(2)
far
as
they
drive motor shaft
will go onto the threaded
into retainer. Insert the retainer
as
follows, refer to Figure 2 for I
portion
of the
flap shaft housing.
through the flap shaft mounting support and
onto the motor
it will go.
c.
Align retainer keyway with key slot
d.
While
inserting
as
flap
the
in
flap shaft through
flap the
motor drive shaft and
mounting support,
tighten
one
set
screw
temporarily.
install the inboard washer and nut.
27-50-00
Sep
30/03Page
5
I
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
e.
Install the
flap shaft through
the retainer and into the motor drive shaft until the
keyway
is
just past
the
key
slot
ensure
that
in the retainer.
I
I
that
tightened
f.
Loosen the set
g.
Ensure that the retainer is still installed
h.
Keep inboard pressure
i.
Secure the
screw
on
was
in
Step
c..
the motor shaft
on
the retainer and
tighten
as
far
as
both retainer set
it will go and rotate retainer 90". screws.
flap drive shaft to the mounting support by tightening the two nuts. Tighten
inboard nut to
there is sufficient clearance between the outboard edge of the retainer and the cable housing to allow the retainer to rotate without coming into contact with the cable housing. In threaded part of cable housing is not
long enough to install length is attained. j.
Tighten
outboard nut
the two nuts and washer,
use a
die to add 5/8-24 UNEF threads until 0.88 inch thread
against the mounting support.
FORWARD
TAINER
LOUTBOARD
(50-361131)
MOUNTING SUPPORT r---,
FLAP MOTOR
SET
SETSCREW KEY SLOT IN MOTOR SHAFT
iiâ&#x20AC;&#x2122;
OUTBOARD NUT
SET
SCREW
SCREW
RETAINER KEYWAY
OUTBOARD WASHER
INBOARD TNBOARD WASHER NUT
ENSURE THAT THERE IS SUFFICIENT CLEARANCE BETWEEN THE OUTBOARD EDGE OF THE RETAINER AND THE CABLE HOUSING TO ALLOW THE RETAINER TO ROTATE WITHOUT COMING INTO CONTACT WITH THE HOUSING.
f INBOARD END VIEW OF RETAINER (50-361131)
OUTBOARD RETAINER
END
VIEW
OF
(50-361131) C93DX04B0116 C
Flap Cable Retainer Figure 2
Sep
27-50-00
A24
Ray)heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
FLAP MOTOR INSTALLATION
CAUTION i Icnunou Should the flap motor fail or should major overhaul be required for the flap motor to operate properly, it should be replaced. No attempt should be made to overhaul the motor in the field.
flap
a.
Place the
b.
Connect the
c.
motor in
position
and
motor electrical
flap
secure
wiring
with the
at the
quick
flap
motor attach bolts.
disconnect.
Install flexible flap drive shafts into the flap motor shafts, refer to CONNECTING FLEXIBLE FLAP DRIVE SHAFT TO FLAP MOTOR SHAFT procedure.
d.
Attach the clamp that supports the electrical
e.
Run the
f.
Install the spar
g.
Install the front seat assemblies.
wiring
from the
up and down, to check
flaps through full travel,
right flap
shaft
I
housing.
flap rigging.
cover.
FLAP SHAFT REMOVAL a.
Place the
airplane
on
jacks and
use
the circuit breaker to retract the
landing
gear until the inboard doors
are
open. b.
Remove the front seat assemblies.
c.
Remove the spar
d.
Loosen the two set
e.
Rotatethecable retainer90".
f.
Remove the nut
g.
Pull the flexible drive shaft from the
h.
Disconnect all
i.
Remove the dust
j.
Disconnect the
k.
Pull the actuator and flexible shaft
cover.
on
screws on
each cable retainer.
the inboard side of the
clamps securing cover
flap
in the
flap
motor shaft and retainer.
the shaft
rear
mounting support.
housing
to the
wing
structure.
section of the wheel well.
actuator from the
wing flap
housing
and the
out of the
wing
spar section.
wing.
FLAP SHAFT INSTALLA TION a.
Pull the flexible shaft and
housing through
the
wing
and attach the actuator to the
wing flap and wing
spar
section.
27-50-00
7
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
b.
Settheflapsinthe upposition.
c.
Push the flexible shaft into the
d.
Rotatethe retainer90".
e.
While
f.
Tighten
g.
Install the
h.
Install the dust
i.
Run the
j.
Lower the
k.
Install the spar
i.
Install the front seat assemblies.
holding the retainer the nut
on
flap
motor shaft and retainer.
onto the motor shaft
the inboard side of the
clamps securing cover
the shaft
in the
and
possible, tighten
as
the two set
screws
in each retainer.
mounting support.
housing
to the
wing
structure.
section of the wheel well.
rear
up and down, to check
flaps through full travel,
landing gear
far
as
remove
the
airplane from
flap rigging.
the
jacks.
cover.
FLAP ACTUA TOR REMOVAL
airplane
a.
Place the
b.
Remove the dust
c.
Lower the
on
jacks
cover
and retract the
in the
gear until the inboard door is open
section of the wheel well to
rear
flaps and disconnect
landing
the actuator from the
gain
access
(use the
circuit
breaker).
to the actuator.
flap.
NOTE To retain the so
original rigging
of the flaps, mark the extension of the
that it may be installed in the
same
flap position transmitter from
d.
Remove the
e.
Remove the snap
f.
Remove the
ring
flap
the
from the
flap
actuator before it is removed
actuator.
and disconnect the flexible drive
pivot bolts
flap
position.
mounting
actuator
housing. bracket and
remove
the
flap
actuator.
FLAP A CTUA TOR INS TALLA TION
position
actuator in
a.
Place the
b.
Connect the flexible drive
c.
Install the
flap
and
secure
housing and
flap position transmitter to
it to the
flap
install the snap
the
flap
actuator
mounting
bracket with the
pivot bolts.
ring.
actuator.
NOTE The d.
Connect the
30/Page Sep
8
flap
flap position
actuator to the
flaps
27-50-00
transmitter is
on
in the extended
the left-hand
flap
actuator
position marked during
only.
removal.
na4
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
in the
e.
Install the dust
f.
Check the
flap rigging.
g.
Lower the
landing
cover
section of the wheel well.
rear
gear and
remove
the
airplane from
the
jacks.
FLAP INNER FLEX SHAFT REMOVAL
airplane
jacks and
retract the
a.
Place the
b.
Removethe frontseatassemblies.
c.
Remove the spar
d.
Loosen the two set
e.
Rotatethecable retainer90".
f.
Remove the dust
g.
Remove the two bolts
on
landing
gear
(using
the circuit
breaker)
until the inboard door is open.
cover.
screws on
cover
in the
holding
the cable retainer
rear
(Ref. Figure 2).
of the wheel well to
gain
1
access
the forward end of the actuator in
to the actuator.
place.
NOTE The first
clamp which
flexibility
to the flex drive.
The h.
position
secures
transmitter
Remove the snap
on
the flex drive to the
the left
flap may
ring holding the flex drive
wing may
have to be removed to allow
more
need to be removed.
to the actuator
NOTE Do not lose the spacers located under the i.
To facilitate installation, note how far the shaft
j.
Pull the flex inner shaft from the
protrudes past
flange
the
of the flex drive.
flange
of the
housing.
housing.
FLAP INNER FLEX SHAFT INSTALLA TION a.
Lubricate the inner flex shaft with grease
b.
Install the inner flex shaft into its
c.
(11,
Chart 1,
91-00-00).
housing (Ref. Figure 2).
1
Rotate the inner flex shaft until the key on the inner end of the shaft slides into place. (When this is accomplished, the measurement noted in FLAP INNER SHAFT REMOVAL procedure Step i. should noted at this
flap shaft
into the
d.
Push the
e.
Rotatethe retainer90".
f.
While
nns
again
be
time.)
holding
flap
motor shaft and retainer.
the retainer onto the motor shafts
as
far
as
possible, tighten
the two set
screws
in the retainer.
27-50-00
Sep
30/03Page
9
I
Raylheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
NOTE Be certain the spacers
g.
Install the
flap
in
are
shaft into the actuator and install the snap
in the actuator.
place
ring.
NOTE A screwdriver may be used to make small adjustments to the actuator does not align with the key of the flex shaft.
h.
Secure the actuator in
place with the
two
bolts, washers, and
screw
of the actuator if the slot in the
nuts.
NOTE The on
position
transmitter will have to be installed
the shaft if it
i.
Install the dust
j.
Lower the
k.
Cycle
the
the left
flap
if it
was
removed. Install the
clamp
cover.
landing gear and flaps
on
removed.
was
remove
to determine that
the
they
are
jacks.
from the
airplane
properly rigged. NOTE
For correct
and
adjustment
rigging of
INDICATOR AND ADJUSTMENT
I
flap position procedure. the
transmitter refer to the FLAP POSITION
FLAP A CTUA TOR DISASSEMBL Y
I
a.
Remove the snap
b.
Tap
c.
Slide the
d.
on
to disconnect the flexible shaft
piston plug (11)
piston (6)
Check that the end to 50
e.
the
ring (2)
pounds
to drive out the seal
out of the
play
piston (6) and the
compression
With the actuator
2.
Withtheactuatorscrew 1/2extended.
3.
With the actuator
screw
(3)
and
(Ref. Figure 3).
bearings (4).
actuator
(5) does not exceed following positions:
screw
and tension at any of the
0.012 inch under 25
full in and backed out 1 turn.
1.
screw
spacers
the actuator
housing (8).
between the
of force in both
(17),
(I)from
fully
extended and backed in 1 turn.
If the 0.012 inch tolerance is exceeded, replace the piston and plug with a new one. If the tolerance is still unacceptable replace the screw. Check the end play of the new piston and screw per the preceding step.
NOTE Mark the are
Sep
30/03PagelO
piston and
screw so
that the
same
threads will be in contact when the
piston
and
screw
assembled.
27-50-00
~24
Raylheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
Remove the
g.
Remove the actuator
housing (8).
from the
O-ring (12)
f.
screw
(5)
from the
1
piston (6). NOTE
The
following step should damage or wear.
piston (6)
if the
accomplished only
be
piston plug (1 1) is to
or
be
replaced
due to h.
Drill out the
pin (14)
out of the
piston plug (11)
and take the
piston (6).
;1
FLAP ACTUA TOR ASSEMBL Y
NOTE
replacement plug (11)
A
replacement piston (6) may
the a.
may be
A
be
supplied without supplied
with
an
the hole for the
pin (14).
under sized hole for the
pin (14),
side of
on one
piston only.
If necessary drill a 0.185 to 0.189 inch diameter hole through the piston Countersink the hole on both sides of the piston 100" to 0.250 inch.
b.
Clean all parts with solvent (16, Chart 1, 91-00-00) and wear. Refer to Chart 1 for tolerances and wear limits.
c.
Replace the O-ring (12)
d.
Coat the
piston plug (11)
e.
Peen the
pin (14)
i.
Pack the
g.
Pour
lubricating
h.
Slide
a
and seal
and
oil
bearing (4)
with
(51, on
pin (14)
piston plug (1 1) for the pin (14).
inspect for cracks, corrosion,
with adhesive
Chart 1,
(68,
91-00-00)
before
screw
distortion and excessive
assembly.
I
piston (6).
lubricating grease (50, Chart 1, 91-00-00) before inserting
Chart 1,
the
and
(17).
and file it flush with the
bearings (4) housing (8).
(6)
91-00-00)
into the
housing (8)
the
piston (6)
until it is about two inches from
in the
being full.
I
(5). NOTE
When the
screw
and
piston
are
assembled, be
disassembled. Check the piston and ACTUATOR DISASSEMBLY procedure.
were
i.
Start the
j.
Install the
screw
pressure,
(5)
in the
remaining bearing (4) or use a
and slide the
and seal
(17).
suitable drift and mallet ii
(3),
shaft
k.
Install the spacers
I.
Tap the piston plug (11)
p~,
piston (6)
with
(1) a
and snap
a
sure
the
screw
piston
same
threads
assembly
into the
end
are
play
in contact
per
Step
as
when
they
d. of FLAP
I
housing (8).
Seat these parts in the press is not available.
housing (8)
with
approximately
100 Ibs.
ring (2).
rawhide mallet to seat the parts
against the
snap
ring (2).
27-50-00
Sep
30/03Pagell
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
m.
Check that the end
play
between the
piston (6) and housing (8)
is between 0.002 inch and 0.010 inch.
NOTE
play between the piston (6) and actuator screw (5) plus the end play between the housing (8) and piston (6) shall not exceed 0.022 inch. Subtract the piston-to-screw end play (determined in Step d. of FLAP ACTUATOR DISASSEMBLY procedure) from the total to get the piston-to-housing end play.
The total end
piston-to-housing end play is not within tolerance, the spacers (3) correct the end play.
If the to
Spacers (3)
are
maximum of
one
o.
or
installed
made up of 3 different spacers (35-251230-2, 35-251230-4 and 35-251230). A 35-251230-2, five 35-251230-4 and seven 35-251230 spacers may be used to
make up spacers n.
may be removed
(3).
Run the actuator in and out several times to assure proper operation in its full travel. Excess lubricant will be forced out of the vent hole the first time the actuator is run all the way up. Install the actuator with the vent hole up.
CHART1 FLAP ACTUATOR MANUFACTURING TOLERANCES AND WEAR LIMITS
ITEM
(Refer to Figure Piston
3 for Item
No.)
MANUFACTURED AND/OR ACCEPTABLE DIMENSIONS
ALLOWABLE WEAR LIMITS
(6)
Pivot Bolt Holes
Inside Diameter 0.3432 to 0.3442
(7)
0.3452
Housing (8) Inside Barrel Dimension
Hole
Piston
Plug
Piston
Plug (11)
Housing
Piston Collar
Page
(10)
End Hole
Piston Shaft
(9)
(13)
(15) (16)
27-50-00
Inside Diameter 0.875 to 0.878
0.879
Inside Diameter 0.3120 to 0.3130
0.314
Inside Diameter 0.688 to 0.690
0.694
Outside Diameter 0.685 to 0.687
0.684
Outside Diameter
0.859
0.861 to 0.864
a24
Ray~heon
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
I.
FLEXIBLE
2.
SNAP
3.
SPACERS
4.
BEARINGS
5.
ACTUATOR
6.
PISTON
RING
HOUSING
4
SHAFT
8.
HOUSING
9.
HOIJSING
SCREW
PIVOT
BARREL
10.
PISTON
PLUG
II.
PISTON
PLUG
12.
O-RING
13.
HOUSING END
14.
PTN
15.
PISTON
SHAFT
16.
PISTON
COLLAR
17.
SEAL
BOLT
HOLES
INSIDE
HOLE
DIMENSION
(CONNECTS FLAP
TO
ACTUATOR)
HOLE
17
16 10 15
12
14
13 C94EA2782829
Flap Actuator Figure 3
A24
27-50-00
BEECHCRAFT BONANtA SERIES MAINTENANCE MANUAL
b.
GUST LOCK AND DAMPER hole
c.
pin is provided
placing
for the control column
and the aileron control wheel. The lock pin secures both the aileron control wheel and the elevator control. A cover is
provided
on
a.
column
the control lock to
cover
to
so
positive retention of the lock pin by assembly over the throttle control, boost propeller control.
cover
the throttle control,
Rotate the control wheel to the
align
the the
Ensure the
pump, and the
boost pump, and the propeller control, install the control lock assembly in the following sequence:
the column forward
in the control column
control column.
CONTROL LOCK A control column lock
pin through guide and into
Push the control column lock
provided
right
and
move
the hole in the bracket and the
accept the pin.
WARNING
Always completely remove the control lock assembly before engine start, taxiing, and flight.
"END"
27-70-00 Page 1 May 9/80
CHAPTER
FUEL
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
CHAPTER 28
FUEL
TABLE OF CONTENTS PAGE
CHAPTER
SUBJECT
28-00-00 General
1
Description And Operation
Fuel
System Auxiliary Or Fuel Boost except E-1946 8 E-2104) Auxiliary Or Fuel Boost Auxiliary Or Fuel Boost Auxiliary Or Fuel Boost Fuel System Drains
General
Pump (CE-748, CE-772
after, D-10097, D-10120 8 after, E-llll, E-1241 thru E-2110 1
Pump (CJ-149 and after) Pump (EA-I thru EA-272 except EA-242) Pump (E-1946, E-2104, E-2111 and after, EA-242, EA-273
1 1
2
and after)
2 2
Maintenance Practices
2
Fuel Handling Practices
2
Cleaning Fuel Strainers Airplane Defueling (Priorto EA-273 except EA-242) Airplane Defueling (EA-242, EA-273 and after)
4
5
28-1 E-OO
Storage
1
Maintenance Practices
(Prior To EA-273 Except EA-242) (Prior To EA-273 Except EA-242) Reservoir Installation ~CJ-149 and after) Fuel Cell Removal (40 Gallon) (EA-242, EA-273 and after) Fuel Cell Installation (40 Gallon) (EA-242, EA-273 and after) Fuel Cell Removal (14 Gallon) Fuel Ceil Installation (14 Gallon) Inspection Of Fuel Cell Fiapper Valve Fuel Cell Leakage Test
1
Fuel Cell Preservation
9
Fuel Cell Removal
1
Fuel Cell installation
2 3 3 4 4
6 6 9
Goodyear Uniroyal
9 9
Fuel Cell
Repair Goodyear Fuel Cells Uniroyal Fuel Cells
9
9
28-20-00 1
Distribution- Maintenance Practices
Auxiliary Fuel Pump Removal (CE-748, CE-772 and after, CJ-~49 and after, D-10097, D-10120 and after) Auxiliary Fuel Pump installation (CE-748, CE-772 and after, CJ-´•149 and after, D-10097, D-~0120 and after) Auxiliary Fuel Pump Removal (E-llll, E-1241 and after, EA-1 and after) Auxiliary Fuel Pump Installation (E-llli, E-1241 and after, EA-1 and after)
1
Fuel Selector Valve Removal Fuel Selector Valve Installation Fuel Strainer Removal (Selector Valve)
2
1 1 1 2 2
28-CO NTE NTS Page i A16
Oct16192
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
TABLE OF CONTENTS CHAPTER
SUBJECT
(Contâ&#x20AC;&#x2122;d) PAGE
Fuel strainer Installation
2
Fuel Strainer Removal
4
(Seiector Valve) (Wing Fuel Cells) Fuel Strainer Installation (Wing Fuel Cells) Inspection Of Fuel Cell Vent Lines And Fuel FillerCaps Flared Fittings
4
4
5
28-40-00
Indicating
1
Maintenance Practices
1
-(80 Gallon System) -(108 Gallon System) Quantity Fuel Quantity Indicators (80 Gallon System) Fuel Quantity Sensor Removal Fuel
Quantity
Fuel Fuel
Sensors
1
Sensors
Fuel
1 1
1
Sensor Installation
Quantity Quantity Indicator
2
Calibration "END"
28-CONTENTS
Page 2 Oct 16/92
A16
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 28 LIST OF PAGE EFFECTIVITY CHAPTER SECTION
SusJECT
28-EFFECTIVITY 28-CONTENTS
28-00-00
1
Oct 16/92
1
Oct 16/92
2
Oct 16/92
5
Aug Aug Aug Aug Aug
1 2
3 4
28-10-00
28-20-00
28-40-00
DATE
PACE
29/85 29/85 29/85 28/87 28/87
1
Aug 28/87
2
Aug 28/87
2A
Aug 28/87
3
Jan 20/82
4
Jan 20/82
5
Jan 20/82
6
Jan 20/82
7
Jan 20/82
8
Jan 20/82
9
Jan 20/82
1
Oct 16/92
2
Oct 16/92
3
Oct 16/92
4
Oct 16/92
5
Oct 16/92
1
Aug 28/87 Aug 28/87
2
"END"
5&EFFECTIVITY
Page Ale
1
Oct 16/92
BEECHCRAFT BONANZA SEAIES MAINTENANCE MANUAL
DESCRIPTION AFID OPERATION
GENERAL
AUXILIARY OR FUEL BOOST PUMP
(CJ-149 FUEL SYSTEM
and
after)
The fuel boost pump system utilizes 2 separate boost pumps (a high pressure and a low pressure pump) mounted in front of
(Figure 1)
the forward spar carry-through. The switch which controls these pumps is located on the fuel control panel and is plaThe standard fuel system
CE-748, CE-772 thru CE-883;
on
CJ-149 thru CJ-155; D-10097, D-10120 thru 0-10302; E-llll, E-1241 thru E-1593; and EA-1 thru EA-32 consists of a 25
gallon (22 gallons usable) fuel cell located in each wing leading edge, which provides the airplane with a total fuel capacity of 50 gallons (44 gallons usable) of fuel. The standard fuel system on CE-884 and
after; CJ-156 and after; 0-10303 and after;
carded MIGH BOOST, OFF, and ACROBATIC BOOST. The high boost pump may be used if the engine driven pump fails,
if
starting the engine during high ambient temperatures or if engine is hat. The switch must be in the acrobatic boost position during acrobatic maneuvers. Both pumps are for intermittent use only. The boost pump pressures should be as the
indicated in Chart 1.
E-1594 and after, and EA-33 thru EA-272 except EA-242 consists of a 40 gallon (37 gallons usable) fuel cell in each wing
leading edge which provides the airplane with an 80 gallon (74 gallons usable) fuel capacity. On EA-242 and EA-273 and after, the fuel system consists of a 40 gallon and a 14 gallon cell in each wing. This provides the airplane with 108 gallons (102 gallons usable) of fuel. The cells
located
are
on
filled through
each
an
wing. On
after, each wing contains
uninterrupted
fuel
23.0
psi.
16.0
Acrobatic Boost
1
11.5
psi.
42
psi, gph.
7.0
psi.
at
No Flow at
1
at
at 55
gph.
No Flow
independent flush type filler cap airplanes except CJ-149 and
a
an
The
The fuel selector
with
baffled fuel cell to deliver
flow of fuel to the
A visual
quantity.
High Boost
all
engine.
handle, located forward and to the left of the pilot’s seat, is placarded OFF-LH TANK-RH TANK for fuel management. Float operated sensors located in each wing tank system measure
Chart 1 Fuel Boost Pump Pressures
measuring
by-pass cracking pressure of each pump is 3.0 in, of water a maximum by-pass pressure drop of 0.35 psi. at 40 gph.
AUXILIARY OR FUEL BOOST PUMP
(EA-1
thro EA-272
Except EA-242)
tab in each cell is
attached to the filler neck of the 80 of the tab indicates 27 the detent
on
gallon system. The bottom gallons of usable fuel in each tank and
NOTE
the tab indicates 32 gallons of usable fuel in each
On
tank.
airplanes equipped with kit no. 36-9008-18 the
EMERGENCY FUEL PUMP switch is removed At EA-242 and EA-273 and after,
sight gage is installed taking on a partial load of fuel. This gage will indicate a partial load of 25, 30, or 35 gallons in its respective wing. When the gage is indicating in
(inboard
of
wing station 113.172)
Ihe black zone, do not
use
a
to aid in
the gage,
AUXILIARY OR FUEL BOOST PUMP
I
(CE-748, CE-772 and after; D-10097, D-10120 and after; E-llll, 6-1241 thru E-2110 except E-1946 and E-2104) The single speed auxiliary fuel pump is mounted in front of the forward spar carry-through on the left side of the airplane. The auxiliary fuel pump provides pressure for starting and emergency operation in case the engine-driven pump fails. Immediately after starting, the auxiliary fuel pump can be used to purge the system of vapor caused by an extremely high ambient temperature or a start with the engine hot. The auxiliary fuel pump is controlled by a switch located on the fuel control panel and placarded AUX FUEL PUMP OPERATION, ON OFF:
and the
high
placard
covered with black
boost fuel boost
relay
under the
paint. The pilots floor-
board is removed and the manifold pressure switch in the manifold pressure gage line has the electrical connector unplugged and the exposed terminals covered with electrical tape. The vent plumbing outboard of the fuel cell has not been
changed
but the fuel
that of
B36TC
supply system is essentially (EA-242, EA-273 and after). The fuel selector valve drain requires the use of the same type tool (see special tools) as the B36TC. Refer to the B36TC(EA-242, EA-273 and after) for the description and operation. a
NOTE The auxiliary Fuel Pump Switch is placarded OFF-LOW-AUTO on Serials EA-1 thru EA-53. The auxiliary Fuel Pump Switch on Serials EA´•54 and
after, and airplanes prior to EA64 complying with
28-00-00
Page All
Aug
1
29/85
BEECHCRAFT
BONANZA SERIES hlAINTENAMCE IliANUAL
check for contaminants in the fuel; the other drain with its Adapter, P/N 1078, is for draining the fuel system.
BEECHCRAFT Service Instructions No. 1093 is
placarded OFF-LOW-HI/LOW.
Each fuel cell drain is located The two
speed auxiliary fuel pump is located in front of the forward spar carry-through on the left side of the airplane. The pump is controlled by three switches located in the cabin. One of the switches is located on the fuel control panel and placarded AUX FUEL PUMP
to 30 in.
HIILOW
position
is determined
by a switch
by manifold pressure. Another switch is located in the subpanel just to the left of the fuel control panel and placarded EMERGENCY FUEL PUMP OFF ON. This switch will override high pressure side of the
the other switches and actuate the
pump for emergency operation, such as with a failed engine driven fuel pump. The third switch´• is located forward of the instrument panel and plumbed into the manifold pressure gage line. This switch is actuated by manifold pressure, and closes between 29 to 30 in. Hg on increasing pressure (to
high
root.
GENERAL
MAINTENANCE PRACTICES
FUEL HANDLING PRACTICES
actu-
ated
actuate the
pressure side of the
pump), and opens beHg on decreasing pressure (to return the pump to low pressure operation). This switch actuates the high pressure side of the pump, but only functions if the switch on the fuel control panel is in the AUTO or HIILOW position. tween 27 to 30 in.
When
filling following:
the
airplane fuel tanks, always
The two
E´•2111
and
speed auxiliary fuel pump
observe the
Service the airplane fuel tanks with Grade 100LL a. (Blue) aviation gasoline, or Grade 100/130 (Green) aviation gasoline (1, Chart 1, 91-00-00). If these fuels are not available, Grade 115/145 (Purple) aviation gasoline (1, Chart 1, 91-00-00) may be used. b. Be certain the airplane is statically grounded to the servicing unit. Do not fill fuel cells near open flame or within 100 c. feet of any open energized electrical equipment capable of
producing sparks.
AUXILIARY OR FUEL BOOST PUMP
(8-1946, 8-2104, and after)
root.
The system low spot drain at the bottom of the fuel selector valve is accessible through a door inboard of the left wing
manifold
Hg pressure) it operates power settings (27 at high boost. The mode at which the boost pump operates in or
the lower surface of the
OFF; LOW, AUTO or HIILOW. In the
AUTO or HI/LOW position the pump is operating at all times. At low power settings it operates at low boost, and at higher
the AUTO
on
wing, forward of the main spar, just outboard of the
NOTE
after; EA-242, EA-273 Care should be exercised while filling the fuel denting, or otherwise
cell to prevent scratching, damaging the surface or
is mounted in front of the
forward spar carry-through on the left side of the airplane. The auxiliary fuel pump provides pressure for starting and emer-
wings.
leading edge of the
Do not allow the fuel nozzle to
come
in
contact with the rubber fuel cell.
gency operation in case the engine-driven pump fails. Immediately after starting, the auxiliary fuel pump can be used to
purge the system of vapor caused by an extremely high ambitemperature or a start with the engine hot. The auxiliary
CLEANING FUEL STRAINERS
fuel pump is controlled by a switch located on the and placarded AUX FUEL PUMP Hr LO OFF
Most fuel inlection system malfunctions can be attributed to contaminated fuel. Inspecting and cleaning the fuel strainers
ant
subpanel
should be considered to be of the utmost
importance
as a
regular part of preventive maintenance. FUEL SYSTEM DRAINS
Normally the The fuel system prior to EA-273, except EA-242, is equipped with one snap-type drain in each wing. At serial EA-242 and EA-273 and after, there are two drains in each
wing. One
drain with its tool is to be used in
a
preflight
every
inspected on
fuel strainers should be
100 hours.
inspected and cleaned However, the strainers should be
and cleaned at
operating
frequent intervals depending handling equipment and when
more
service conditions, fuel
in localities where there is an excessive amount of
28-00-00
Page
Aug
2
29/85 All
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
THIS LINE IS REPLACED BY A FUEL TRANSDUCER ON SERIALS AFTER CE´•928. CJ-(55. D-(0353 AND E´•1155 FUEL
MANIFOLD
,JFUEL
V-
FILTER DRAIN
E-1313
AND AFTER EOUIPPED WITI1
I
FUEL
ALITOMATIC POWER CONTROL
TRANSDUCER
METERING CONTROL
SUPPLY
UNIT
I
RETURN
I
i
FUEL
FLOW
VENT
GAGE
DRAIN
I
I
I INJECTION PUMP
1L
FUEL TRANSMITTER
FWD
FILLER
I
SEAL
t
DRAIN
TRPINSMITrER USED WHEN OPTIONAL FUEL CELLS
CHECK VALVE
ARE INSTALLED
AT SERIALS E-1946. 61104. AND E´•2111 AND AFTER A DUAL PRESSURE AUXILIARY PUMP IS INSTALLED L,CJ SERIALS ARE EOUIPPED WITH AN ADDITIONAL BOOST PUMP PLUMBED IN
Il
SERIES WITH THIS PUMP
-I--´•´•1
c´•1
nUx. 5
PVMP
1~----11-1 I~
(Cp
~I L.H
it
i R.H
FUEL TANK
~SELECTOR
250AL.IZZGAL.VSPIBLEI 40 GAL
oHalN
VENT
26CAL I~SGPIL.USARLE) 40cnL.137cnL.usnsLE,oPT
VALVE
137 GAL. USABLEI OPT
(STRAINER&
ODRI\IN
DAI\INI
O
FUEL. TANK
STRAINER
STRAINER CHECK
It
L(X1´•
VENT
CHECK VALVE
VALVE
SEAL
f
DRAIN
FLUSH VENT
VENT
VENT
FLUSH VENT
36 Itll 11
(CE-748, CE=n2 and after; CJ-149 and after; 0-10097, D-10120 and after; E-llli, 0-1241 and after)
SUPPLY RETURN
FUEL MANIFOLD
VENT
CONTROL UNIT
DRAIN FUEL TRANSMITTER FILLER Ia
1
1
TRANSMITTER USED WHEN OPTIONAL FUEL CELLS ARE INSTALLED
INJECTION
FUEL FLOW
PUMP
GAGE
ti ~d
SEALDRAIN
CHECK VALVE ~´•j
~iCII´•l´•l
PRESSURE
~´•)´•I
RELIEF VALVE
AUX.PUMP
I
PRESSURE RELIEF
11.~
ii
V~LVE
ii !SELECTOR
j i
t NVD
3
DRAIN O
VALVE
(STRAINER &DRAIN)
ODRAIN
VALVE
R.H. FUEL TANK (22 GAL. USABLE) 40 GAL. (37 GAL. USABLE) OPT
L.H. FUEL TANK 25 GAL. (22 GAL. USABLE) 40 GAL. (37 GAL. USABLE) OPT
25 GAL.
SEAL
i
!VENT
VDRAIN VENT
VENT
A36TC-2B(´•32
(EA-1
thru EP~´•272 Excapl
84-242)
System Figure 1
Fuel
28-00-00
All
Page 3 Aug 29/85
BEECHCRAFT BONANZA SERIES MAIN~ENANCE MANUAL
FUEL FLOW TRANSDUCER ENGINE FUEL DISTRIBUTOR VALVE FNT~INF THROTTLE BODY
ENGINE DRIVEN PUMP
FUEI. SUPPLY LINE 7
FUEL OUANTITY
SIGHT GAGE
BOTTOM MOVNTED FUEL OUANTITY TRANSMITTER
I
1
I
/--FUEL RETURN LINE FIREWALL
SYSTEM
DRAIN lFOR MAINTENANCE ONLVI
STA
STA 191
FUELCAPR
OUICK
ANTI-SIPHON ASSY
40 GALLON
14 GALLON CELL
CELL
FLVSHALTERNATE
h FLAME ARRESTOR r
c-y
VACUUM RELIEF VALVE
Fuel
valve,
INTERCONNECT R ANTI-SURGEVALVE
is
recommended
that
the
of 50 hours of operation and condition should the period be hours. The 100 over finger strainers in the fuel cell outlets should be solid removed and cleaned whenever materials are found in the cells, or if the airplane has been in storage for an extended period of time.
intervals under no extended
CAUTION
The strainer of the non-baffled and cell the with reservoir baffled cell are not interchangeable. Ensure that the correct fuel proper
cells
inspection.
28-00-00 Page 4 Aug 28/87
WING
SUMP STRAINER R FUEL CELL OUTLET
CHECK VALVE
FUEL CELL ANTI´•SLOSH BAFFLE 836TC´•603-40
System (EA-242, EA-273 and after) Figure 2
located in the fuel selecbe inspected and cleaned at
are
FUEL RETURN TO R H
’FLVSH FUEL DHAIN VALVE
TOP MOUNTED FUEL OUANTITY TRANSMITTERS
strainer,
strainers
ROOST PUMP
FUEL RETURN TO L H WING
MAIN VENT
tor
t I/
VENT
EXTEkNAL
It
1 I
O
VENT/
dust.
I
FROM RH WING
PRESSURE RELIEF VALVE
or
23
DUAL PRESSURE ELECTRIC
FUEL SELECTOR VALVE. STRAINER 8 DRAIN VALVE
VENT LINE SHUTOFF VALVE
sand fuel
STA
reinstalled in after cleaning
the and
AIRPLANE DEFUELING
(PRIOR
TO EA-273 EXCEPT
EA-242) WARN ING
Do not defuel near an open within 100 feet of any or gized electrical equipment ble of producing sparks.
flame ener-
capa-
To ensure tha’t all fuel is removed from the system and to expedite the defueling fuel should be drained the operation
through steps must
gizing the
boost The following pump. be accomplished before enerpump:
a. Apply external power plane electrical system.
to
b. Place the fuel selector the ON position and the mixture IDLE CUT-OFF.
the
air-
valve lever
in in
A12
BEECHCRAFT BONANZA
SERIES
MAINTENANCE MANUAL
gized
Remove the filler caps to vent the
c.
ble of
system, Disconnect the fuel line at the d. Provide firewall and attach a drain hose. a suitable container for the fuel.
Energize the
e.
boost
equipment producing sparks.
Provide a. the fuel.
a
suitable
capa-
container
for
b. Remove the access cover under the drain valve located under the wing near the fuselage.
pump,
f. When the fuel is no longer pumped the airplane, open the sump drains complete the defueling operation.
from to
electrical
Remove the filler caps to vent the
c.
system. d.
CAUT I ON
plied fuel cell the engine each fuel tank with the airon plane on the ground to ensure that all air has been purged from the fuel cells and the fuel lines to the engine upon refueling.
as
Insert loose
the
tool)
drain adapter (supinto the drain valve.
After
defueling or replacement, operate
After draining the fuel, e. the drain adapter and install the
remove access
cover.
CAUTION
fuel cell the engine each fuel tank with the airon plane on the ground to ensure that all air has been purged from the fuel cells and the fuel lines to the engine upon refueling.
After
AIRPLANE
DEFUELING
(EA-242,
EA-273
AND
AFTER) WA.RNING Do or
not defuel within 100
near
an
open
flame
feet
of
any
ener-
defueling or replacement, operate
"END"
28-00-00
Page A12
5
Aug 28/87
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
STORAGE
after incorporate a fuel cell with cell reservoir a collapsible fuel in place of a baffled fuel cell. To avoid damage to the fuel cells, cell cavities MUST be the fuel of clean debris before any installing a replacement cell.
MAINTENANCE PRACTICES CAUTION
is fuel system fuel cell replaced, air may enter the system. If the possibility that air has entered the system does exist, start and operate the engine on the ground until all air is removed from the system. Operate the engine for several minutes on each tank until is operation engine proper Pilotâ&#x20AC;&#x2122; s assured. Refer the to
Any
time drained or
the a
Return the a. outboard fuel cell it into place.
(PRIOR
Before
the closing zipper, inspect the fuel cell for any foreign material. If the cell is it should not thoroughly clean,
Drain and purge the fuel
a.
cells.
the outboard fuel cell and fuel quanti ty sensor, (The outboard fuel quantity sensor is installed only in the optional 80 gallon
Remove
b.
plate
access
system).
fuel
Remove
c.
and fuel d.
the
inboard
quantity
sensor.
Disconnect
all
access
fuel
be cleaned with a lint-free cloth alcohol or in moistened water, kerosene. No other solvent should be used to clean the fuel cell.
EA-273
TO
cover
and
The molded nipple fittings used on the fuel cell are lightweight fittings developed for ease of installation in certain locations in the airplane. To get the best from this type service fitting, it is procedures necessary to exercise certain at the time of installation. The specific precautions other than the general care in handling are as follows:
vent
1.
plumbing. it
e. Unsnap the fuel cell and through the outboard fuel cell
remove
2: Locate the hose clamp on the fabric-re7nforced area of the nipple; it should clear the end of the fitting by 1/4 inch.
CAUTION
Tape the edge of the access hole to prevent damage to the fuel cell, CELL INSTALLATION EXCEPT EA-242)
Insert the flow tube into the of the tube
fitting until 3/8 inch or more extends through the fitting.
access
hole.
FUEL
cell through the hole and snap
access
CAUTION
Operating Manual before starting and operating the engine, FUEL CELL REMOVAL EXCEPT EA-242)
fuel
(PRIOR
EA-273
TO
3. Torque hose clamps as indicated in Chart 1 in this chapter. They should be drawn up in one operation; if rel e a s e the retightening is n e c e s s a ry clamp completely and wait at least 15 minutes before retightening.
CAUTION
4.
should be taken when replacing fuel cells to ensure that the correct type fuel cell is used as All Bonanza Series a replacement. Airplanes except CJ-149 and after use baffled fuel cells. CJ-149 and Care
Use
no
sealing paste
or
gasket
compounds.
wax
to
5. Ap_qly metal tlow
No other
thin film of Simonize tubes as a lubricant. lubricant should be used. a
28-10-00 Page 1 A1Z
Aug 28/87
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
the d. Insert connector assembly into the reservoir while tilting both the reservoir and connector assembly upward.
Chart 1 Fuel Cell
Nipple Clamp Torques
Inside diameter of
tin inches) nipple.
Inch-pounds
of CAUTION
torque for fuel
nipple clamps. should be exercised to avoid the connector threading Also avoid the reservoir. into bending or distorting the fuel strainer which is attached to the end of the connector, for it may foam become entangled in the inside the reservoir.
Outside diameter
Care
tin inches)
cross
of tube.
.25 thru ,62 .75 and 1.00 1.00 1.50 3.00
12 15 25 30 35
16 20 to 30 to 35 to
to
to
40
Tighten the nipple clamp.
e.
nector
If fuel Goodyear replacement cells have clear/yellow nipples, torque the fuel cell nipple clamps to 25 +5 inch-pounds, RESERVOIR INSTALLATION
(CJ-149
h.
AND is the
Install the reservoir after the fuel cell is in the wing and before the access plate is installed. Installation may be accompi i shed as fol lows: a.
the
Tape
reservoir flapper valve the reservoir.
installing
b.
Compress
pass
it
into
through
the fuel c.
to
a
the reservoir (squeeze small circumference and the fuel access ring into
cell, Release the reservoir
assume
its
original shape.
allowing
it
Check to
make
positioned properly i.
sure on
the the
reservoir bottom of
cell.
fuel
Close all access openings used for reservoir.
installing the
CAUTION The
parts of the non-baffled fuel
the baffled fuel cells be interchanged. When installing a new fuel cell, use only those items pe rtaining to cell that being particular installed. The strainer for the
cells are
by hand)
con-
assembly.
Remove the tape from the flapper g. valve and check the valve for free play and good sealing.
AFTER) (Figure 1)
shut before
line to the
Connect the fuel
f.
CAUTION
and
not
to
non-baffled cell with reservoir, is for considerably example, longer that the one for baffled cell and may damage the cell if installed in the baffled cell.
28-10-00 Page 2
Aug 28/87
A?2
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
FUEL RETAINING MODULE WITH SPECIAL SPONGE CORE
FLAPPER VALVE -::::´•::_:::
TO FUEL LINE
EXISTING FUEL CELL
FUEL CELL NIPPLE
CLAM P 36-28~-33
Non-Collapsible Fuel Cell Reservoir (CJ-149 and after) Figure 1 28-10-00 Page 2A
A12
Aug 28/87
BEECHCRAFT BONANtA SPiRIES MAlNTENANCE MANUAL
FUEL CELL REMO1/AL (40 2f3 and
GALLON) (EA-242, EA-
after)
CAUTION
Drain and purge the fuel cells. Remove the outboard fuel cell access cover, fuel quantity sensor, and fuel sight gage and mounting plate. Remove the inboard access cover and fuel c. a.
b.
quantity d.
other solvent should be used to clean the fuel
sensor.
Remove the Remove the
e.
sump in f.
Before closing the zipper inspect the fuel cell for foreign material. n the cell is not thoroughly clean, it should be cleaned with a lint-free cloth moistened in water, alcohol or kerosene. No any
under the fuel sump. wire and bolts holding the
access cover
safety
cell.
place.
Lower the sump assembly and disconnect the hose from the fuel outlet. Remove the sump and hose
Close zipper in fuel cell dam.
b.
assembly. Remove the clamp from the drain valve nipple.
g. h.
Remove the drain valve.
i.
Remove the
in PILOT AND
CA UTION
copilotâ&#x20AC;&#x2122;s seats as outlined COPILOT SEAT REMOVAL(Chapter 25-10-
pilotâ&#x20AC;&#x2122;s
and
00).
quantity
have to be removed from the 14
Remove the
i. k. i.
wing
The access cover and fuel
royalite covet over the main spat. Disconnect the fuel line from the fuel cell fitting, Remove the two bolts holding the fuel cell to the
root rib.
Remove the cotter pin from the flapper valve and interconnect tube at the outboard end of the fuel cell. m;
n.
remove o.
loosen the bolt to the the
fiapper
fiapper valve clamp,
the small interconnect nipple may be held inplace during installation of the 40 gallon cell. A light film of petrolatum tech (VV-P-236) 142, Chart 1, 91-00-00) may be used as a lubricant on the nipples and under the clamps. so
c.
clamps from the
may
and
valve,
Remove the
sensor
gallon fuel cell
two interconnect
tubes.
Install the fuel cell nipples on the interconnect Torque the nipple clamps per Chart 1 in this chapter.
tubes.
Unsnap the fuel cell and p. outboard fuel cell access hole.
remove
it
through the CAUTION
CAUTION
Tape damage
edge of the access hole to pevent to the fuel cell.
the
nipple flttings used on lightweight fittings developed
The molded
the fuel eel
are
for
ease
of
installation in certain locations in the airplane. To gel the best service from this type fitting, it is necessary to exercise certain procedures at the time of installation. The specific precautions other than the
FUEL CELL INSTALUI TION (40 EA-273 and after)
GALLON) (EA-242,
general
care
in
handling
1. Insert the flow tube into the
CAUTION
are as
follows:
inch
or more
fitting until
of the tube extends
through
3/8 the
fitting. Care should be taken when replacing fuel cells to ensure that the correct type fuel cell is used as a
replacement. To
avoid
damage
to the fuel
cells, the fuel cell cavities MUST be clean of any debris before installing a replacement cell.
2. Locate the
reinforced
a.
Install the fuel cell
through
hole and snap it into place.
the outboard fuel cell
hose
of the
clamp nipple; it
on
the fabric-
should clear the
end of the 3.
fitting by 1/4 inch. Torque hose clamps as indicated
in this
chapter. The hose clamps
tightened
access
area
in
one
operation;
if
in Chart 1 should be
retightening
is
necessary, release the clamp completely and wait at least 15 minutes before retightening. 4. Use no
sealing paste
or
gasket compounds.
2810-00
Page A4
3
Jan 20182
BEECHCRAFT BONANZA SERIES MAINtENANCE YANUAL
Install the flapper valve.
d.
1.
Install the cotter
pin through
flapper valve clamp, 2. Tighten the fiapper
tube and
the interconnect
h.
remove
Unsnap
outboard fuel cell valve
nipple clamps from the
Remove the
g.
tubes, and
interconnect
nipples from the tubes. fuel cell and remove it through the
the
the
access
hole.
clamp. CAUTION
CAUTION Use
new
Tape the edge of the access hole damage to the fuel cell.
gaskets.
to
prevent
NOTE
FUEL CELL INSTALLATION (14 On
Uniroyal
cells
remove two screws to
installation of the bolts which to the
wing
secure
the fuel cell
CAUTION
root rib.
Care should be taken to avoid Install the two bolts which
e.
GaIIon)
allow
secure
damage
to the
fuel cells, the fuel cell cavities MUST be clean of any debris before installing a replacement
the fuel cell to
the wing root rib. Torque to 20 to 30 in.-lbs. and lockwire. f. Install the drain valve in the fuel cell nipple (make
cell.
certain the hat section support is in place). install the nipple clamp. Torqueper Chart 1 in this g. a.
Return the fuel cell
access
hole and snap it into
Section.
Connectthesump assembly hose to the fuel outlet. Torque per Chart 2 (91-00-00). i. Install the sump. Torque the bolts to 45 to 55 in.ibs. and safety wire the bolts and drain valve assembly. Install the fuel quantity transmitters (2 in the 40 j. gallon fuel cell and 1 in the 14 gallon cell if removed). Torque the transmitters to 20 to 30 inch-pounds and the transmitter mounting plate to 45 to 55 in.-lbs. h.
i.
mounting plate. Torque
Install the access covers.
n.
Connect the fuel line to the fuel outlet. Torque per
2
the outboard fuel cell
place.
If the cell is not
i
alcohol
or
thoroughly clean,
it should be
lint-free cloth moistened in water, kerosene. No other solvent should be
cleaned with
a
used to clean the fuel cell.
to 45 to 55 in.-lbs.
m.
i Chart
through
CAUTION
Connect the electrical wire to the transmitter~ Install the fuel cell cover plates and fuel sight
k.
gage
I
and
b. Install the cell nipples on the interconnect tubes, tighten the nipple clamps per Chart 1 in this chapter.
(91-00-00). Install the
royalite cover over the main spar. Install the pilot’s and copilot’s seats as outlined in p. PILOT AND COPILOT SEAT INSTALLA710N!:in Chapter o.
i
CAUTION B
nipple fittings used on the fuel cell lightweight fittings developed for ease of installation in certain locations in the airplane. To get the best service from this type fitting, it is necessary to exercise certain procedures at the time of installation. The specific precautions other than the general care in handling are as The molded are
FUEL CELL REMOVAL (14 a..
b.
GaIIon)
Drain and purge the fuel cells. Remove the access cover under the
wing tip,
Disconnect the vent plumbing from the fuel cell.´• Remove the filler cap, adapter assembly, and
c.
d.
1. Insert the interconnect tube into the
anti-siphon assembly. Remove the two
e.
gallon
access
covers
under the 14
Remove the two
until
3/8
through
fuel cell,
f.
follows:
cover
assemblies from the fuel
the
or
more
fitting
of the tube extends
fitting.
2. Locate the
reinforced
cell,
inch
area
hose of the
clamp on the fabricnipple; it should clear the
a&1000
page
4
Jan 20/82
44
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
NOTE
fitting by 114 inch. Torque hose clamps as indicated in Chart 1 in this chapter. This should be drawn up in one operation; if retightening is necessary, release the clamp completely and wait at least 15 minutes before retightening. 4. Use no sealing paste or gasket compounds. 5. A light film of petrolatum tech (VV-P-236) (42, Chart 1, 91-00-00) may be used as a lubricant under the clamps and nipples. end of the 3.
c.
the
Connect the vent
clamps per Chart
plumbing in the wing tip. Torque chapter,
1 in this
Use all d.
new
gaskets.
Install the anti-siphon assembly. Torque the bolts in.:lbs. and lockwire.
to 45 to 55 e.
Install the
adapter assembly. Use Permatex
No. 2
between the skin and adapter. f. Install the fuel cap. Install the two cover assemblies, the one with the g. fuel quantity transmitter is the inboard one. Torque to 45 to 55 in.-lbs. and lockwire. Connect the electrical wire to the transmitter. h. i
i.
Install the three
access covers.
28-10QO
Page A4
5
Jan 20/82
BEECHCRAFT BONANZA SERIES klAINTENANCE MANUAL
INSPECTION OF FUEL CELL FLAPPER VAL~E
full travel. There should be
no binding and the element securely against the valve plate. 2. If the flapper element binds and/or does not seat properly, the upper rear side of the flapper element may be binding against the valve plate. 3. The flapper valve element may be relieved from binding by filing a small radius on the upper rear side
should seat
On airplanes that are equipped with baffled fuel cells, the flapper valves (metal or phenolic) should be inspected periodically (Beech Aircraft recommends that the inspection
accomplished at each 100 hr. inspection) operation and proper seating, be
for freedom of
of the element. The
inspection may be accomplished Drain all fuel from the
a.
as
follows:
NOTE
airplane.
Remove the rectangular access plate located just outboard of the fuselage on the upper skin of each wing
i
leading edge,
i
b.
Cut the
c.
safety
from the fuel cell
wire and
access
the
remove
attaching bolts
i
plate. 4. After determining that the flapper valve is functioning properly, thoroughly wipe the area in the vicinity of the flapper valve with an oil saturated shop towel.
NOTE
Clean the
removing
area
the
A shop towel saturated with light oil may be placed directly below the flapper valve to absorb the phenolic dust during rework.
around the
access
plate before h.
plate.
fuel ceil Remove the fuel cell
d.
access
plate and open
the
Locate the flapper valve in the lower outboard e. section of the baffle and determine if the flapper valve is metal or phenolic. f. If the flapper valve is metal, it should be inspected and
repaired, if necessary, 1.
through its full
Move the
as
flapper
element
travel. There should be
no
FUEL CELL LEAKAGE TEST
of the valve
binding and valve plate.
securely against the If the flapper element binds andlor does
(Figure 2)
the not
properly, the flapper element arm could be bent. The arm can be straightened by placing a screwdriver between the arm and the element and pressing the element toward the closed position, 3. If after straightening the arm, the flapper element still binds and/or does not seat properly, the flapper element should be removed and replaced with a new flapper element assembly. The flapper element assembly may be replaced by removing the two attaching bolts from the upper part of the flapper valve. The same attaching parts should be used to install the new flapper element assembly. The new flapper element assembly should be inspected after installation to determine that the assembly did not receive damage during installation that could cause it to bind and/or not seat properly.
i
seat
g.
If the
flapper
inspected and reworked, 1.
Move the
the fuel cell and
follows:
element should seat
2.
area on
plate. i. Close the zipper in the baffle. Install a new gasket and secure the fuel cell i. access plate in place. k. Tighten the fuel cell access plate attaching bolts to a torque of 45 to 50 inch-pounds and safety wire. i. Reinstall the rectangular access plate on the wing leading edge skin.
in the baffle,
zipper
Clean the gasket contact access
valve
is
phenolic,
it should be
valve element
through
cell to 1/4
then
psi with
checking
saturated with
j
be hooked up
a.
The
1.
mixture of
shop
its
air and ammonia gas, leakage on a cloth
phenolphthalein solution. To leakage test, proceed as follows:
i t
donduct the
a
for visible indications of
following equipment as
is
set
up and
required and should Figure 2.
indicated in the schematic in
Closure
plates for the fuel cell openings.
Such plates may be fabricated of aluminum sheet cut to a size sufficient to cover the cell openings. Drill holes in the
i
closure plate to match the hole pattern around the opening in the fuel cell. 2.
Rubber stoppers to
plug the fitting openings
in the fuel cell. One of the stoppers should have a hole for insertion of the plastic tubing used to connect the fuel cell
into the test setup. 3. A manometer for
if necessary,´•as follows:
flapper
Rubber bladder type fuel cells may be bench tested for leakage by sealing off all openings and inflating the empty
measun’ng
6 inches of
water differential. The manometer can be fabricated from
UI-10´•00
Rage
6
Jan 20/02
A4
BEECHCRAFT BONANZA SERIES MAIMENANCE MANUAL
EMPTY FUEL CELL
(ALL OPENINGS PLUGGED)
OPTIONAL
OVERFLOW
COLLECTOR
SHOP AIR
PLASTIC
AMMONIA GAS
TUC~ING
(NH3)
STD. RULER
I I
OR
YARDSTICK
LEAK PROOF MOISTURE
,rrtn
STOPPERS
COLLECTOR REGULATO R GLASS
SET TO ’/4 PSI
TUBES
i
AMMONIU~
HYDROXIDE
GLAsSFLASK
(NH40H)
OR
SOLUTION
BOTTLE
MANOMETER 6" of WATER
1/4 PSI 33´•281-30
Setup
glass
or
clear
plastic tubing; frame and
Leakage Figure 2
4. A regulator that can be set to provide 1/4 psi (6 inches of water) from a supply of shop air. 5. Two flasks (or bottles) approximately one liter (or quart) in capacity. A third container may be hooked into the test setup to provide an optional overflow collector if
provided
The Pressure Test Baffle Restrainer (Figure
9.
scale similar to the
illustration shown.
desired. The two containers should be
Test
for
3) is made of 3/4 inch thick plywood. Sand all edges to remove sharp corners and/or splinters that may damage the fuel cell. b.
Place the fuel cell and test
(glass
metal)
as
shown in the schematic in
(NH40H)
per
Plastic
gallon of
water,
clean
CAUTION
Figure
2.
tubing of a size to provide a leak-free fit over the tubes and of a length sufficient to interconnect the test components as shown in figure 2. 7. Make up a solution of phenolphthalein as follows: Add 1/3 ounce phenolphthalein crystals to 1/2 gallon ethyl alcohol, mix, then add 112 gallon water. 6. Make up an ammonia solution by adding 100 cc (3 fluid ounces) of concentrated ammonium hydroxide 6.
on a
with rubber
stoppers that have holes for the insertion of 1/4-inch tubes or
equipment
work bench.
Make
sure
shavings
or
the work area is clean of metal other debris that could damage the
fuel ceil.
Install the closure plates over the fuel cell c. openings and torque the retaining screws as specified in this chapter of this manual for the openings, then insert the rubber stoppers into the open fittings.
2810-00
Page All
f
Jan 20/02
BEECHCRACT BONANZA SERIES MAlNtENANOE MANUAL
8.0"
20.0"
6.00(NP)
TYPi-6.0"
15.0"
27.0"1~
LOCATE BAFFLE RESTRAINER OVER VELCRO TAPE AREA PRIOR TO INFLATING TO MAXIMUM 1/4 PSI.
83 INBD
~y/ /8~a
AFT
Pressure Test Baffle Restrainer
Figure
36-281´•34
3
2&10´•00 Paga 8 Jan 20182
A4
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
d. The flask (or bottle) containing the ammonium hydroxide solution should be 1/3 to 1/2 full as shown in the
NOTE
illustration.
Refer to BEECHCRAFT Service Instruction No.
shop air supply to the regulator and interconnect the regulator, beakers, fuel cell, and
or subsequent and Goodyear Aerospace Corporation Fuel Tank Repair
manometer as indicated in
Manual AP368 far further information
Connect
e.
area
Figure
2.
Place the baffle restrainer
f.
to inflation as
prior
0632-280, Rev. I
a
FUEL CELL P~ESERVATION
WARNING
result in
can
irrepairable damage
000bYEAR
.i
inflation of the fuel cell without the baffle restrainer
on
inspection of fuel cells for leakage.
the velcro tape indicated in Figure 3. over
to
the baffle.
Goodyear fuel cells (Construction No. BTC-39, BTC-54A ETC-67) installed in the airplane do not require
I
and
preservation when the cell is Inflate the fuel cell to 1/4 psi with a mixture of g. shop air and ammonium gas. A 6inch difference in the two water levels of the manometer will indicate that the fuel cell is inflated to 1/4 psi. It is not necessary to restrain the cell other than to
keep
it from
rolling off
empty for
an
indefinite
the bench. The
the ceU will be rather slow at the 1/4
rushed
to be
period of time. The fuel cell should not be open to the atmosphere except for the normal vent lines in the airplane. The cell is assumed wet from a previous filling.
filling of psi, but should not be
UNI#OYAL
overpressure of the cell could result. Saturat~ a large, clean cloth with phenolphthalein.
as
h.
(Immerse
it in
a
container and squeeze out excess
Uniroyal
fuel cells must be filled every 10 days or the walls a thin coat of light engine-oil if they are to be
coated with
liquid.)
preserved for periods that
CAUTION Wear rubber
gloves
to
are
of up to one year. Uniroyal fuel cells periods of one year or longer should
to be stored for
be coated with a thin coat of light engine oil and then removed from the airplane as outlined under FUEL CELL REMOVAL in this
protect against skin
irritation when handling the cloth. As
a
from the
further
protection against possible penetration of the phenolphthalein solution through the gloves, wash your hands thoroughly after finishing the
a
airplane,
chapter.
After the fuel cell is removed
it should be
box, and stored in
a
cool
wrapped in plastic, placed dry area.
NOTE
test.
The fuel cell should not be removed i.
in
Lay
the cloth
over
the various
portions of the fuel
or
until 24 hours after the oil has been
handled
applied.
cell until the entire exterior of the cell has been covered. With each
application of the cloth, watch for the formation of
a
reddish pink stain
a
leak. Encircle the
with
a
on
chalk mark to pinpoint the locations of leaks.
use
of the testing cloth will require
saturations with
repeated rapid evaporation
phenolphthalein
since
renewed.
UNIROYAL FUEL CELLS
of the alcohol from the cloth
reduces the sensitivity of the test unless the solution in the cloth is frequently
progressively
GOODYEAR FUEL CELLS For repairs of Goodyear fuel cells, refer to Goodyear Fuel Cell Repair Manual AP368, Vithane Fuel Cells.
NOTE
Continued
FUEL CELL REPAIR
the cloth to indicate the presence of the fuel cell beneath such steins
area on
For repairs of Uniroyal fuel cells, refer to Uniroyal Handbook Handling and Storage Procedures for Bladder Type and Oil Cells" P/N FC 1473-73. "Recommended
"END" 2~1M10
Page 9 A4
Jan 20/82
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
DISTRIBUTION- MAINTENANCE PRACTICES
selector
fuel
the
Secure
c.
mounting bracket with
valve
to
the
to the
fuel
the four attach bolts.
CAUTION Reconnect the fuel
d.
Any time the fuel system plumbing is opened, air may enter the system. This condition may cause rough engine opera-
the
Replace
e.
loss of power. If the possibility that air has entered the system does exist, start and operate the engine for several minutes
tion
plumbing
selector valve.
royalite
truss
cover.
or
operation Operating Handbook and Airplane Flight Manual before starting and operating the engine. each tank until proper engine is assured. Refer to the Pilot’s
fuel selector handle and the
Replace the
f.
post light
covers.
on
lined
a.
Drain and purge the fuel
b. in
Remove the PILOT
TION
as
out-
royalite
unscrew
Remove the
the
postlight
fuel
covers
Remove the
cover over
the main
in
lined
PILOT
AND
Disconnect the fuel
and
copilot
seats
as
pilot and copilot COPILOT
seats
as
out-
REMOVAL
SEAT
(25-10-00).
selector
handle
and
from the
royalite
truss
c.
Remove the
d.
Disconnect
plumbing from the fuel
royalite
cover over
the main
SPa’.
cover, then remove the truss cover.
e.
pilot
Drain and purge the fuel system.
a.
b.
Remove the
the
PILOT AND COPILOT SEAT INSTALLA-
(25-10-00).
REMOVAL
spar. d.
Reinstall
outlined in
(25-10-00). c.
h.
the main
cover over
AUXILIARY FUEL PUMP REMOVAL ~-1111, E-1241 AND AFTER, EA-l AND AFTER)
seats
SEAT
COPILOT
AFTER,
system.
pilot and copilot
AND
Replace
spar.
(CE-748,
AUXILIARY FUEL PUMP REMOVAL CE-772 AND AFTER, CJ-149 AND D-10097, 0-10120 AND AFTER)
royalite
the
g.
the
fuel
plumbing
from
the
auxiliary fuel pump.
selector valve. e.
f.
Remove the bolts
tor valve to the
securing
mounting bracket and
the fuel selecremove
the fuel
auxiliary h.
Disconnect
the
fuel
the
plumbing
from
the
Tuel pump.
auxiliary fuel pump. The carry-through on
AUXILIARY FUEL PUMP INS TA LLA TION (E-llll, L~-1241 AND AFTER, EA-1 AND
securing the auxil-
iary fuel pump to the mounting bracket and the auxiliary fuel pump.
a.
remove
PUMP INS TALLA TION FUEL AND CE-772 AFTER, CJ-149 AND (CE-748, AFTER, D-10097, 0-10120 AND AFTER)
to the
b.
iary fuel
auxiliary fuel pump and mountairplane with the attach bolts.
Secure the to the
Reconnect the fuel pump.
plumbing
to the auxil-
auxiliary fuel pump and bracket the four attach bolts.
Secure the
airplane with
b.
AUXILIARY
a.
pump is located in front pilot’s side.
the
AFTER)
Remove the four bolts
ing bracket
Remove the four bolts securing the auxilmounting bracket and remove
fuel pump to the
of the spar
selector valve.
g.
ia’y
Reconnect the fuel
plumbing
to the auxil-
iary fuel pump. the
royalite
the main
c.
Replace
d.
Install the pilot and copilot seats
cover over
spar. as
out-
lined in PILOT AND COPILOT SEAT INSTALLATION
(25-10-00). 28-20-00
Page A16
1
Oct 16/92
BEECHCRAFT
BONANZA SERIES MAINTENANCE MANUAL
FUEL SELECTOR VALVE REMOVAL a.
Drain and purge the fuel
b.
Remove the
lined
PILOT
in
pilot
and
system.
copilot
COPILOT
AND
seats
as
out-
REMOVAL
SEAT
(25-10-00). royalite
Remove the
c.
the main
cover over
spar.
post light
the
selector
handle
and
from the
royalite
truss
fuel
the
Remove
d. unscrew
covers
cover, then remove the truss cover.
the
Disconnect
e.
fuel
I from
plumbing
l.j5
the
IL
selector valve. bolts
Remove the
f.
valve to the
mounting bracket
the
securing and
selector
the selec-
remove
I\
tor valve.
\450
L 3e-2ao2
10"
FUEL SELECTOR VALVE INSTALLATION Fuel Vent the
Lubricate
a.
VV-P-236
fuel
line
threads
petrolatum (42, Chart 1, 91-00-00) before
installation. Secure the selector valve to the
b.
mounting
bracket with the attach bolts. Connect
c.
the
fuel
plumbing
to
the
Figure
with
fuel
selector valve.
FUEL
STRAINER
1
REMOVAL
VALVE) (Flgure 2)
(SELECTOR
Access to the fuel selector valve fuel strainer may be made by opening the access door located under the airplane below the front edge of the pilot’s side window.
Remove the safety wire around the two mounted on the bottom of the fuel selector valve, then remove the screws. a.
d.
Replace
the
royalite
truss
cover
around the
fuel selector valve,
valve and
royalite
the
Replace
e.
screw
truss
the
post light
on
the fuel selector
covers
back
on
the
cover.
Replace
f.
handle
the
royalite
cover over
the main
b. Remove the bottom of the selector valve and pull the fuel strainer screen from the fuel selector valve.
FUEL STRAINER TOR VALVE)
INSTALLATION
spar.
(Frgure 2)
Install the seats as outlined in PILOT AND s´• COPILOT SEAT INSTALLATION (25-10-00).
Install the screen in the a. selector valve with the flange up.
Test the fuel selector valve to
h. it
ensure
that
properly in all positions and that the correspond to the placard markings.
b. valve and
(SELEC-
bottom
of
the(
the bottom of the fuel selector with the two attach screws.
Replace secure
functions
detents
c.
Safety
wire the
screws.
28-20-00
Page 2 Oct 16/92
Ale
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
FUEL STRAINER SPRING AND ATTACHING HARDWARE FIT INTO BOTTOM OF FUEL STRAINER HOUSING
FLANGE
FUEL STRAINER
SPRING
t UP
~3
GISI(ET
d~/"-â&#x20AC;&#x2122;
C9201514
Fuel Strainer
Figure
2
28-20-00 Ale
Page 3 Oct 16/92
BEECHCRAFT
BONANZA SERIES MAINTENANCE MANUAL
LUBRICATE
LUBRICATE
LUBRICATE
TAPERED PIPE THREADS
DO NOT LUBRICATE FEMALE THREADS
STRAIGHT THREADS NEVER ALLOW LUBRICANT TO CONTACT THIS SURFACE
60-604-5
Lubrication of Flared Fittings Figure 3
REMOVAL
STRAINER
FUEL
FUEL
(WING
CELLS)
Remove the
a.
fuel cell from the lower Drain and purge the fuel
a.
plate
for each
wing
surface.
Disconnect the fuel cell vent line from the
b.
system.
access
wing
fuel cell. Remove the
b.
finger strainer portion of
located between the lower
access
the
cover
wing and
Disconnect the fuel line from the connector
c.
assembly,
air pressure to the fuel cell end of
vent
discon-
nipple clamp; finger strainer and slide the fuel finger
the
Alternately plug each vent opening to passing through all branches of the system for the cell. Continue to blow air through d.
that air is
assure
Loosen the fuel cell
d. nect
Apply
c.
the vent line.
fuselage.
each
branch
until
any
obstructions
have
been
removed.
strainer from the fuel cell.
FUEL FUEL
STRAINER
INS TALLA TION
(WING
CELLS) assembly nipple clamp,
in the fuel
the
connector
Install the connector
a.
cell and
tighten
b.
the
Connect
the
fuel
line
to
f.
Reconnect the fuel cell vent line to the fuel
g.
Reinstall the
h.
Visually check each fuel cell filler cap for
cell.
access
plate
below each fuel
cell.
assembly. c.
Remove the siphon break check valve and e. blow air through the siphon break line from the check valve end, then reinstall the valve.
Install the
access cover on
the
airplane.
looseness
INSPECTION OF FUEL CELL AND FUEL FILLER CAPS
VENT LINES
or
deterioration of the seal which could
leakage. If seals are deteriorated in any way, they should be replaced.
cause
or
damaged
(Figure 1) i.
recommended
The following procedure is inspection of fuel tank vent lines and
filler caps:
for
Check the extended vent to ascertain that a minimum of 1.75 inches below the
the vent extends lower
wing
skin
surface. The vent tube should be
28-20-00
Page
4
Oct 16/92
A16
BEECHCRAFT
BONANZA SERIES MAINTENANCE MANUAL
scarfed at
a
450
angle
on
the forward side and should
be canted forward 100 from
perpendicular
to the skin.
NOTE
FLARIFD FITTINGS
(Figure 3) When
fittings and hoses, make sure properly (see Figure 2) with VV-P-236 petrolatum ~42, Chart 1, 91-00-00). When previously installed fittings are removed, they should be wiped clean and relubricated before they are reinstalled. Torque all fittings in accordance with the FLARE FITTING TORQUE CHART (Chart 2, 91-00-00).
installing
the threads
Any configuration of the vent other than as noted in step "i" may create a negative vent pressure. A negative vent pressure will pull the air, or air and fuel from the fuel tank.
are
flared
lubricated
"END"
28-20-00
Page A16
5
Oct 16/92
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
MA IN TENANCE
INDICATING TICES
PRAC-
resistance will be 3 +3 ohms empty and 140 +6 ohms full.
fuel is the time system drained air may enter the system. If the possibility that air has entered the system does exist, start and operate the engine on all the air is ground until removed from the system. Operate the engine for several minutes on tank each until engine proper operation is assured. Refer to the pilot’s Operating Handbook and before Airplane Flight Manual and the starting operating
(80
INDICATORS
FUEL QUANTITY LON SYSTEM)
CAUTION
GAL-
Any
engine. FUEL
QUANTITY
SENSORS
(80
GALLON
level in a flight the tanks filled as indicated in Chart 1. Measure the input voltEach the indicater terminals. at age reading should be within +2 millivolts of the value shown in Chart 1, except that should be within ~1 the empty reading millivolt of the chart value. Position
the
attitude
with
airplane
CHART 1 Fuel
Quantity
E
1/4
1/2
3/4
Millivolts
61
36
60
86
F
1
103
SYSTEM) Fuel
is measured by float type units located in each wing tank system. Electrical signals are transmitted from the sensors to the individual indicators, which indicate fuel remaining in the tank. Resistance between the stud and case of each fuel sensor must be O to 0.5 ohms in the empty position and 43 +2 ohms in the full position for the outboard fuel sensor and 0 to 0.5 ohms in the empty position and 76 ~2 ohms in the full position for the inboard fuel sensor.
quantity
sensor
FUEL
QUANTITY SENSORS
(108
GALLON
FUEL QUANTITY SENSOR REMOVAL a.
Turn off electrical
b.
Drain and purge the fuel
c.
Remove the access panel which is to be removed.
sensor
d.
Disconnect
sensor
Cut safety e. transmitter support
wire
power.
system. at
the
remove
the
wiring. and
screws.
SYSTEM) NOTE Fuel
measured by float type units located in each wing tank sensor system. Electrical signals are transmitted from the sensors to the individual indicators, which indicate fuel remaining in the tank. Resistance between the stud and case of each fuel sensor must be 0 to 0.5 ohms in the empty position and 43 +2
quantity
is
ohms in the full position for the outboard fuel sensor and 0 to 0.5 ohms in the empty position and 76 ~2 ohms in the full posithe tion for the inboard fuel sensor of cell. 40 The resistance gallon fuel fuel between the stud and case of the is O to sensor in the 14 gallon fuel cell 5 ohms in the empty position and 19 ´•t2 full total ohms in the The posi ti on
Clean the area around the before removing the sensor.
f. the fuel
Remove the cell.
sensor
and
sensor
gasket from
FUEL QUANTITY SENSOR INSTALLATION a. Inspect the fuel cell for wrinkles other obstructions that might impede sensor float travel.
or
Set the new gasket and sensor in and ensurethat the float is unrestricted through its full travel from The float arm may be bent, stop to stop. if necessary, to provide clearance. b.
position
28-40-00 Page 1
A12
Aug 28/87
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
Install
c.
torque
screws,
to
the 25
sensor
support
inch-pounds,
FUEL
QUANTITY INDICATOR CALIBRATION
and
safety,
Remove
a.
instrument
d. power
on
Connect sensor and check fuel
wiring. gage
Turn the for empty
reading.
b. Locate boards located
panel just
ment
the
glareshield
the
over
panel. the two printed ci rcui t the back of the instru-
on
the
to
left of center.
NOTE If
the
gage
does
not
Locate the calibration in c. screw the back of each printed circuit board.
read empty,
reinspect the sensors to ensure the float arm is on the down stop and the float clears the bottom of the fuel cell. Check all wiring for faulty connections.
d. cater
as
Calibrate the follows: 1.
Fill the tanks and check the fuel gages for full readings. e.
quantity indi-
Ensure that the fuel
the calibrated is full.
corresponds
fuel
to
fuel
tank that
quantity
being
See
Turn the calibration screw in 2. back of the corresponding printed circuit board until the needle onthe fuel quantity indicator points to the "F" (full)
0925,
mark.
NOTE Instructions Service No. I or subsequent for Rev. information on more replacement of fuel quantity sensors,
e.
Reinstall
the
glareshield.
"END"
28-40-00
Page 2 Aug 28/87
A12
CHAPTER
ICE AND RAIN
PROTECTION
BEECHCRAFT BONANZA SERIES
MAINTENANCE MANUAL
CHAPTER 30
ICE 8 RAIN PROTECTION
TABLE OF CONTENTS CHAPTER SECTION
SUBJECT
SUBJECT
GENERAL
30-00-00
PAGE
.......1
Description and Operation 30-60-00
PROPELLERS
..................1
Description and Operation Electric Propeller Deicing Troubleshooting
........1 ........1
........5
Maintenance Practices
........5
Propeller Deicer Boot Removal Propeller Deicer Boot Installation Brush Module Replacement (B.F. Goodrich)
........5
.................9
Deicer Timer Check
........9
Heat Test
.......10
Brush Module Resistance Check
(B.F. Goodrich)
.......10
Slip Ring Alignment (8.F. Goodrich) Slip Ring Machining (B.F. Goodrich). Brush Wear Limits (McCauley) On the Airplane Removed from the Airplane Brush Replacement (McCauley)
........11 ........11 ........11 ........11
..............11 ........13
Brush Block Removal Brush Block installation
Slip Slip Slip Slip
.......10
........13
(McCauley)
........13
Ring (McCauley) Ring Alignment (McCauley) Ring or Brush Block Cleaning (McCauley). Ring Machining (McCauley)
13
.........´•.13 13
"END"
A6
30-CONTENTS Page 1 Oct 7/83
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 30 LIST OF PAGE EFFECTIVITY CHAPTER
SECTION SUBJECT
PAGE
DATE
30-EFFECTIVlfY
1
Oct 7/83
90-CONTENTS
1
Oct 7/83
30-00-00
1
Oct 10/80
30-60-00
1
Oct 7/83
2
May 9~0 May 9/80
3 4
5
Oct 7/83 Oct7/83
8
Oct 7183 Oct 7/83 Oct 7/83
9
Oct 7/83
6 7
10
Oct 7/83
11
Oct 7/83
12
Oct 7/83
13
Oct 7/83
14
Oct 7/83
"END"
30-EFFECflYITY
Page A6
1
Oct 7/83
BEECHCRAFT BONANZA SERIES MAINtENANCE MANUAL
GENERAL
DESCRIPTION AND OPERATION
airplane electrical system for protecting opening from becoming clogged with ice.
the
The airplane is equipped with a variety of ice and rain protection systems that can be utilized during operation under inclement weather conditions.
Air from the cabin
heating system prevents the windshield from fogging. The propellers are protected against icing by optional each blade that, when activated, to aid in dispersing the formation of ice.
electrothermal boots
on
automatically cycle pitot mast contains
The
a
heating
element connected to
the
pitot
optional weather radar system is available for the Bonanza series airplanes starting at serials GO-878 and after, D-10284 and after, E-1534, E-1537 and after, and An
EA-11
and
after. The indicator is located
section of the instrument in the outboard
panel and
leading edge of
the
in
the radio
the antenna is located
right wing. (See
34-40-
00.)
"END"
30-00-00
Page
1
Oct 10180
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
PROPELLERS
DESCRIPTION AND OPERATION
phase
the timer is in.
PROPELLER SYSTEM
DEICER
TROUBLESHOOTING
ELECTRIC PROPELLER DEICING deicer system. includes an on-off switch ion the LH instrument subpanel), an ammeter, a timer, a brush assembly, slip rings, and an electrically heated boot for each propeller blade. When the on-oh
The electric
propeller
The ammeter of the deicer system can be used to indicate the general nature of most electrical problems.
Consequently,
switch is turned ON, the ammeter (near the center of the panel) registers the amount of current (Bbladed,
A
8-12 amps; 3bladed, 14-18 system. If the current rises
instrument
it is recommended that, to determine which
involved, troubleshooting be preceded by the ammeter test outlined in step "a." of the 50-hour inspection (Chapter 5), and the HEAT TEST described in this chapter.
circuits
are
reading of two-thirds
the nonnal amount of current
(or
an
one-half on two-bladed props) is an indication that one of the circuits is open between the slip ring assembly and
breaker will cut off the power to the timer. The current flows from the timer (forward of instrument
deicer heater. If the ammeter registers excess current, the power lead is shorted to ground. It is possible that the
panel)
excess current
amps) passing through beyond the switch limit,
the
integral circuit to
the brush
assembly (mounted
in front of the
has welded the timer contacts in
one
phase.
engine case) and is conducted by the brush assembly to the slip rings installed on the spinner backing plate. At serials D-
Under these circumstances, the timer will either feed current to the welded contacts continuously, or not cycle. If the
10404 and after, CE-1024 and after, E-2069 and after, and EA-378 and after, the slip rings became part of an assembly
former is true, the heat test wil\ show heating throughout the two phases. Unless the grounded power lead is located and corrected, any new timer that is installed may suffer the
attached between the engine hub and the propeller. The slip rings distribute current to the deicer boots on the propeller blades. Heat from the boots reduces the grip of the ice,
by the centrifugal effect of propeller by the blast of the airstream. The timer cycles power to the heating element on each blade. It takes 3 minutes for the timer to complete a cycle of 90 seconds on,
which is then removed
internal damage during the first use of the system. In general, for most effective use of the troubleshooting chart, all of the "indication" entries should be read to locate that same
rotation and
which matches conditions of the particular system being checked. The numbered "probable cause" and "remarks" then indicate the proper sequence of checks. It should be
90 seconds off. Whenever the system is turned on, the ammeter in the instrument panel or subpanel and registers
noted, however, that such numbers
the proper amerage,
or zero
amperage,
depending
on
the
respect
to the
approximate likely sequence of
than to the most
are
assigned
with
usefulness of the check rather occurance.
30-60-00
Page 1 A6
Oct 7/83
BEECHCRAFT BONANtA SERIES MAINTENANCE MANUAL
TROUBLESHOOTING PROPELLER DEICER SYSTEM P~OBABLE CAUSE
INDICA TION i.
Ammeter shows
(8oth phases cycle.)
zero
current.
a.
Switch circuit breaker
tripped.
a.
Locate and correct short before
resetting by turning switch OFF,
circuit breaker
of the 3 minute
then ON. b.
c.
Switch faulty.
No power from
b.
airplane.
â&#x20AC;&#x2122;c.
If
voltage at switch output with voltage input, replace the switch. If voltage is OI< at switch output, go to step no
at
switch
If
no
into
voltage
switch, locate and
correct open circuit. d.
Ammeter
faulty. (If
some or
all
d.
zero,
Test for
If low
Deicers heat with ammeter at
voltage
or
replace
replace ammeter.)
zero
up to and out of ammeter. output but proper input,
ammeter.
If
voltage
no
to
ammeter, locate and fix open between switch and ammeter.
a.
Open
between
circuit
a.
ammeter and timer,
Disconnect hamess at timer and check
voltage pin
B
(of harness)
to
ground.
If
none, locate and correct open circuit.
i
1.
Open in wl~ng balween timer
t
Rater to
Ihepara~raphon heattesttofind
Deicers not
and firewall connector.
on
that
over
heating and test for voltage pin of firewall connector. If zero
3 minutes, locate and fix open in tirner to firswall.
wiring from g.
Open between firewall
and
g.
Deicer lead straps,
h.
No
ground
voltage OK to firewall plug, try voltage junction of Deicer lead and slip ring lead. If no voltage, find and correct open in wiring to brush block, open within brush block, or no contact brush to slip ring. If
at
h.
circuit,
If
voltage
at Oeicer leads, locate and fix
open from Deicer to 2.
Ammeter current
current
shows
normal
a.
part of cycle, low rest of cycle,
Open in Deicer assembly.
or
slip ring
a.
ground.
Disconnect Deicer straps to check heater resistance. If resistance is within specified
limits, locate and fix open in slip ring leads. If not, replace Deicer with open circuit. b.
High resistance low current.
in circuit with
b.
If
not
in contact of brush to
(including ground brush),
slip ring wiring to partially broken trace
Deicer and to timer to fix wire, loose or corroded connection.
3060-00
Page 2 May 9/80
BEECHCRAFT BONANZA SERIES MAINtENANCE MANUAL
TROUBLESHOOTING PROPELLER DEICER SYSTEIIII (Contlnued) INDICA TION 3.
PROBABLE CAUSE
Ammeter shows low current.
a.
Airplane voltage
b.
Ammeter
c.
High
REMARKS
low,
faulty,
resistance up to timer,
a.
Check bus
b.
Refer to step "l-d."
c.
Check for
partially broken wire, loose or in wiring from airplane supply to timer input. corroded
4.
Ammeter
shows
excess
faulty,
a.
Ammeter
b.
Ground between ammeter and timer.
voltage.
connection
a.
Refer to step "l-d."
b.
Disconnect harness at timer and, with ohmmeter, check from pin B (of harness) to ground. If ground is indicated, locate
current.
and correct. c.
Ground between brush block
c.
and timer.
Disconnect leads at brush block and check from power leads to ground with ohmmeter. If ground is indicated, locate and correct.
d.
Ground between brush block
and
Deicers.
ground
brush
d.
(Excluding
If
no
short exists
at
brush-slip ring
contact, check for ground from slip ring lead to prop while Deicer leads. If a
circuit.)
flexing slip ring and ground is indicated,
locate and correct. e.
Timer
faulty,
e.
Test timer
as
indicated in
paragraph
on
timer check. 5.
Ammeter does
not
"flick"
a.
Timer
ground open,
a.
each 90 seconds,
Disconnect harness at timer and check with ohmmeter from
pin G tot harness) to ground. If no circuit, refer to Bonanza Wiring Diagram Manual P/N 35-590012-9. b.
Timer contacts
are
welded
b.
(caused by short circuit in system.)
Test timer
as
in
paragraph
check. If timer does not
cycle
at pin B, replace timer but causing original failure has
on
with
be
timer
voltage
sure
short
been located
and conected.
5.
Ammeter flicks second
between 90
a.
phase periods.
Loose connection between
airplane power supply timer input, b.
a.
and
Loose or poor connection timer to Deicers.
If trouble occurs over entire
b.
Check for rough brush to
"skip."
Timer
cycles erratically.
trace
or
dirty slip rings causing
If not this, trace circuits to
locate and fix loose c.
cycle,
from power source to timer input to locate and tighten loose connection.
wiring
c.
Test timer
as
or
poor connection.
indicated in
paragraph
on
timer check. d.
Electrical
wiring
breakdown.
d.
Replace
the
faulty
deicer boot.
3060-00
Page 3 May 9/80
BEECHORAFT BONANZA SERIES MAIWTENANCE MANUAL
TROUBLESHOOTING PROPELLER DEICER SYSTEM (Continued)
7.
Radio noise
REMARKS
PROBABLE CAUSE
INDICA TION or
interference
a.
Blushes
"arcing."
a.
alignment as in step "h" of inspection (Chapter 5). Look for rough or dirty slip rings. If this is the cause, clean, machine or replace slip ring assembly. Check for slip ring alignment. Check brush 100-hour
with Deicers on.
b.
b.
Loose connection,
Refer to step
"g",
of 100-hour
inspection
(Chapter 5). c.
Switch faulty.
c.
Try jumper wire across switch. If radio noise disappears, replace the switch.
d.
Wiring
d.
Replace wiring to
than
8
located within less inches of radio
at
least 8 inches from
radio
input
equipment.
equipment wiring. 8.
Rapid brush breakage.
wear or
frequent
a.
Brush block out of
alignment.
a.
alignment as in step inspection (Chapter 5).
Check brush 100-hour
b.
Slip ring
wobbles.
b.
Check
slip ring alignment
"h." of
with
dial
indicator.
c.
Rough slip ring surfaces,
c.
Replace
d.
Dirty slip rings.
d.
Clean the
e.
Brushes
e.
See "8a".
arcing.
or
machine.
slip rings.
3060-00
Page
4
Oct7183
A6
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
MAINtENANCE PRACTICES
PROPELLERS
h. Remove the remaining adhesive from the boot propeller blade with toluol or methyl ethyl ketone (19 or 31, Chart 1, 91-00-00).
and
PROPELLER DEICEfl BOOT REMOVAL a.
Remove the
propeller spinner.
Disconnect the deicer boot leads from the spinner b. bulkhead and slip ring.
PROPELLER DEICER BOOT INSTALLA T7ON
Remove the clip securing the lead strap to the c. spinner bulkhead and the clamp securing it to the propeller
NOTE
hub. is installed, the drying time of (52, Chart i, 91-00-00) must be extended per 8. F. Goodrich Service If
a new
CAUTION
propeller
1300L adhesive
the
Bulletin No. E-75-51.
Place the blade so the solvent will run away from the hub. The solvent may damage the
propeller seals.
a.
boot
on
On B.F. Goodrich installations position the deicer propeller blade so that its center line at the
the
inboard end is
split in the propeller blade clamp, and the center line at the outboard end falls an the blade leading edge. Be sure the lead strap is in the proper position to be clamped to the blade retaining clamp. clamp and
NOTE
strap is retained by a strap rather by a clamp, remove the boot lead strap retaining strap as follows: 1. Using methyl ethyl ketone of toluol (31 or 19, Chart i, 91-00-00) to soften the adhesive of It the lead
to the
adjacent
1 inch outboard of the
than
the strap, loosen
one
corner
of the strap
NOTE
sufficiently to grasp it with pliers or similar tool. 2. Apply a slow steady pull to the strap while using the solvent to soften the adhesive,
On
McCauley
installations
of the deicer boot
propeller. For
on
other
dimensions refer to
place the center line leading edge of the McCauley installation
the
Figure
tA.
applicable remove the boot lead strap retaining strap. Using methyl ethyl ketone or toluol (31 or 19, Chart i, d.
91-00-00)
If
to soften the adhesive of the
of the strap similar tool. corner
sufficiently
strap, loosen
to grasp it with
b.
one
pliers
or
Mask off
an area
approximately 1/2 inch from boot. (See Figure 1).
the
outer end and each side of the
CAUTION Unless the boot
scrapped,
being removed is jaws of any pulling
cushion the
to be
NOTE
tool to
prevent damaging the boot surface.
On installations
using rubber lead straps mask approximately 112 inch from the area which will be occupied by the lead strap retainer strap (around the blade shank). off
e.
Apply
a
slow, steady pull to the strap while using
an area
the solvent to soften the adhesive. f. Using methyl ethyl ketone or toluol (31 or 19, Chart 1, 91-00-00) to soften the adhesion line between the boot and the blade, loosen one corner of the boot
c.
Remove the deicer boot and clean the blade in area from the retaining clamp outboard. Clean
the masked
sufficiently to grasp it with vise grip pliers or a similar tool. Apply a slow, -steady pull on the boot to pull it off g. the propeller surface while continuing to use the solvent to
19, Chart i, 91-00-00). For final cleaning, wipe the solvent off quickly with a clean, dry, lint-free cloth to avoid leaving a
soften the adhesive.
film.
the
area
thoroughly
with
methyl ethyl
ketone
or
toluol, (31
or
3060-00
Page5 A6
Oct7/83
BONANZA SERIES MAINTENANCE MANUAL
OEICERBOOT -:--:::::I I
t
1/2"
/2"
MASKING TAPE
ecal´â&#x20AC;˘~1
Deicer Boot Installation
Figure
1
CAU770N If the blade is
paint
painted
with
within the masked off
painted
with
NOTE
laquer
area.
remove
When solvent is used to soften cement, methyl ethyl ketone (MEK) provides approximately 10
all
If the blade is
polyurethane, lightly sand within using 400 grit sand paper.
application, while provide approximately 40 seconds
seconds time for de-icer Toluol will
the masked off area,
working
time.
CAUT/ON g. The metal and rubber parts must be thoroughly clean to assure maximum adhesion.
on the propeller, starting retaining clamp, making sure the lead in position to clamp to the blade retaining clamp. the cement lightly with methyl ethyl ketone or toluol
Position the deicer boot
1 inch from the blade
strap is Moisten
(31
19, Chart 1, 91-00-00) and tack the boot center line to
or
leading edge. If the center line of the boot leading edge, pull up with a quick motion and replace properly. Roll firmly along the center line with a rubber roller (see Figure 2). the blade
deviates from the blade
d. toluol
(31
Moisten or
a
clean cloth with
methyl ethyl
ketone
or
19, Chart i, 91-00-00) and clean the unglazed
surface of the deicer boot and both sides of the rubber retainer strap if applicable, changing the cloth frequently to avoid contamination of the clean a.
Thoroughly
cement may also be
CAUTION
area.
mix EC-1403 cement
used) and apply
(EC
one even
1300L Never
brush coat
above when the relative
hours if the
humidity
humidity
is less than 75%,
or
is between 75% and 90%. Do not
the cement if the relative
humidity
is
higher than
90%
use
a
metal
or
wooden roller for this
purpose, for they would damage the elements in the deicer boot.
propeller blade and to the unglazed back side of the boot. Allow the cement to dry for at least one hour at 400F or to the
heating
two
apply or
the
temperature is below 50"F. f.
After
allowing sufficient drying time, apply a propeller and to the unglated surface of the deicer boot. Apply cement to the lead strap as necessary to cement the strap to the propeller, up to the hub. Allow the cement to dry. second brush coat of cement to the
h. over
Gradually tilting
the roller, work the boot
each side of the blade contour. Avoid
pockets under
the boot
carefully trapping air
(see Figure 3).
30-60-00
pages Oct 7/83
A6
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
START IN THIS AREA (APPROX. 90: FROM THE DE-ICE BOOT LEAD STRAP) AND WRAP AROUND PROP BLADE SO THAT A DOUBLE THICKNESS WILL COVER THE DE-ICE BOOT LE’AD STAP. TRIM RETAINER STRAP SO THAT IT WILL END APPROX. AS SHOWN.
~ii
A--A
i
jc.50" TYPICAL ~c-- .129’
OVERLAP EDGE OF BOOT AND STRAP WITH SEALANT BY ~a" AS SHOWN.
SEALER
;I
~------DE-ICE
BOOT
.375+ .125
RETAINER STRAP
36-251-8
Boot Deicer Installation Figure 1A
(McCauley)
T~I
30-60-00
Page 7 A6
Oct 7/83
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL Roll
outwardly from the
center line to the
edges of
(see Figure 4). If excess material at the edges tends to form puckers, work them out smoothly and carefully with the fingers. Roll the tapered edges of the boot with a narrow i’.
the boot
steel stitcher roller. Clean the blade with
k.
toluol
or
methyl ethyl
Be careful not to let solvent
a
(19
ketone
run
clean cloth moistened with or
31, Chart 1, 91-00-00).
into the
edge
of the boot.
brush coat of sealer around the of the boot, allowing 1/16 to 1/8 inch overlap on the edges boot but extending to the masking tape. Use BFG 82-076-1 i.
Apply
one even
502519
and -2 on B.F. Goodrich installations and Sunbrite 78-U-
1003
Rolling Figure 3
Side
and
U-1001-C catalyst on McCauley installations. Remove the masking tape after applying the enamel
cement to obtain a neat border. m.
propeller
Install the clamp securing the lead strap to the blade retaining clamps.
Connect the lead terminals and install the clip on n. the spinner bulkhead. There must be no slack between the terminal and the clip to assure enough slack between the clip and the clamp on the blade to allow full propeller travel.
NOTE
CAUT1ON
The rubber retainer strap should wrap around the blade shank over the inboard 1/4 inch of
After deicer boot installation allow at least 12 hours for the 1300L or EC-1403 cement to dry before starting the engine, and 12 hours more
the deice boot
McCauley
on
B.F. Goodrich
or
1/2 inch
on
before
installations,
energizing
the deicers.
acr2s~´•lo 60251´•8
Rolling Figure 2
Center
Edge Rolling Figure 4
30-60-00
Pager Oct 7/83
A6
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
Fwo
Disconnect the
a.
wire
harness
terminals at the
of the modular units that make up the
k colbhsurb assembly.
terminal
screws
Remove the screws, nuts, and washers securing assembly to it’s mounting bracket.
b.
SLIP RING Assv
the modular brush
Remove the
c.
t
-t
2´•
In:, MIN 3/32 MAX
assembly retaining
and
screws
separate the modules and spacer. d. Replace each module with another of the
same
part number. The part number is etched into the surface of the plastic housing. Restack the modules and spacers
a.
as
necessary.
adjacent ring terminals, reposition one module with the terminal on the opposite side of the brush module assembly. Install the assembly screws so that the screwhead f. fits in the recess in the spacer, place the flat washer between the star washer and modular housing and install the retaining nut. Make sure the assembly is square befwe tightening the assembly screws in place. Place the modular brush assembly on the g. mounting bracket and insert the mounting screws through If there is interference between
THRUJT BE*RING
PL~ESH
MDULE 188Y 38240-6
Propeller Deicer Brush Module (B.
Figure
F.
Goodrich)
both the block and bracket. One washer fits under the head
of the
5
and one under the retaining nut. Before installing the retainer nuts, make
screw
h.
I
BRUSH MaDULE
REPLACEIWI~NT(B.F. Good~ch)
The modular brush
assembly is made up of two modules, plastic housing with an integral brush
each
consisting of
a
spring. These modular units are stacked with a spacer together by screws to produce the modular brush assembly,
and
held
are
aligned
certain that 1/16 3/8 inch of brush
only a brush wears material remains, the module containing the brush should be replaced. When 1/4 inch of brush remains, the brush where
to
When
NOTE measurement
During being
only
1116 inch of brush
from the brush module, this the normal protrusion when the brush is
should
protrude
installed
on
the
that
c
with the
1/32 inch is maintained between the
slip ring surface. To prevent damage brushes, the modular brush assembly should be
brush modules and the to the
angled so that the brushes contact the slip rings at an angle approximately two degrees from perpendicular, as measured toward the direction of slip ring rotation as shown in Figure 5. Reconnect the "B", and "C" terminals of the j. airplane system wire harness to the same designated terminals of the modular brush assembly. Ensure that the adjacent ring terminals are not touching.
of
replaced.
module MUST be
sure
slip rings such that the entire brush face contacts the copper ring. If the brushes do not align with the slip rings throughout the entire 360 degrees of slip ring rotation, install shims (P/N 151157) between the brush module spacer and the mounting bracket until the brushes are properly aligned with the approximate center of the slip ring. i. Install the retaining washers and nuts, making the brushes
airplane. DEICER ’TIMER CHECK
Brush wear is determined by inserting a pin into a hole in back of the brush module. On all modules having brushes with rods, the brush module should be replaced
Experience
in the field has indicated that often the timer is
of the trouble lies
the
considered defective when the
when the
elsewhere. For this reason, the following test should be performed before the timer is removed as defective:
replaced
pin
can
when the
be inserted 15/64 inch and MUST be pin can be inserted 19/64 inch. On the
rodless brushes, the module should be replaced when the pin can be inserted 1-5/64 inches and MUST be replaced when the pin can be inserted 1 9/64 inches. To replace the
brushes,
proceed
as
follows:
a.
With the
wiring
harness disconnected at the timer,
and the deicer switch in the ON from
pin
source
B of the harness
plug
present, the timer is NOT
at
position, check the voltage to ground. If no voltage is fault; however, if system
30-60-00
Page9 A6
Oc17/83
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
I
voltage is present at pin B, check the circuit from harness plug pin G to ground with an ohmmeter. If no circuit is indicated, the fault is in the ground lead rather than in the timer. If ground connection is open, the timer step switch will not change position, b. After the ground and power circuits have been checked, connect a jumper wire from pin B of the timer receptacle to terminal B of the connector plug and from pin G of the timer receptacle to ground. With the deicing system switch ON, check the voltage to ground from pin B of the timer. The voltmeter should indicate bus voltage. Next, check the DC voltage to ground from pin C or pin D on
WARNING Before
moving the propeller, make certain that ignition switch is off and that the engine has cooled completely. There is always some danger of a cylinder firing when the propeller is the
moved.
BRUSH MODULE RES/STANCE CHECK (B.F.
Goodrich)
serials D-10404 and after, CE-1024â&#x20AC;&#x2122;and after, E-2069 and
To check for
after, and EA-378 and after; it should indicate bus voltage for 90 seconds, zero volts for 90 seconds, bus voltage 90 seconds, etc,
module,
HEAT TEST can
be
performed,
the
jumper
so
wire installed
resistance in the brush
or receptacle pin with a low range If this resistance measures over 0.013 ohm,
locate and
repair
resistance
measures
the
cause
zero,
of excessive resistance. If the locate
and correct the open
or
not be less than 0.5
meg-ohm.
be
to
ON while the
man
outside feels the deicer boots to The
heating properly.
man
see
if
in the cabin observes
the ammeter for the proper
readings (2-bladed: 8-12 amps, 3-bladed:l4-80 amps) throughout the timing sequence. The ammeter
needle
response to the
deflect every 90 seconds in action of the timer. Each time this
should
switching
in the cockpit must notify the manâ&#x20AC;&#x2122; propeller deicer boots so that the latter can check the proper heating sequence of the propeller deicer boots (the entire boot will either heat or cool, depending on the timer sequence). If any irregularities are detected, a continuity check should be performed on the wiring from the timer to the brush module holder and the propeller deicer occurs,
high
that the connector
replaced in the timer receptacle. Two men are perform this test: one in the cockpit to monitor the ammeter; the other outside by the prop to check the deicer boots. The man in the cockpit turns the deicer system are
or
the resistance from the face of the brush
replace the module. Check the resistance between the terminal studs or receptacle pins. This resistance should
Before this test
they
short circuit,
its terminal studs
ohmmeter.
circuit
for the timer test must be removed
plug can required
to
a
measure
the
inspecting
man
the
SLIP RING
I
AL/GNMENT(B.F. Goodrich)
The
slip rings- are properly aligned when they run in a true plane relative to the brush module. This condition may be checked by attaching a dial indicator gage to the front of the engine crankshaft housing in such a manner that a reading of the slip ring wobble may be obtained. To avoid error in readings, rotate the slip rings slowly while pushing in on the propeller to take the play out of the thrust bearings. If the total run-out over 360 degrees of rotation exceeds 0.005 inch, be
or
0.002 inch for any 4-inch are, the slip rings should as follows:
aligned a.
Approximately
made to correct the on
a 0.012 inch adjustment may be slip ring wobble by varying the torque
the attachment bolts.
Using
the dial indicator to follow the
TEST" section, move the propeller back and forth to prevent arcing between the brushes and
points of maximum deviation, adjust the slip ring assembly to the prescribed run-out limits by varying the torque of the mounting bolts as required within a range of 40 to 100 inchpounds. If more than 0.012 inch of adjustment is required b. for alignment, the slip ring assembly may be shimmed to within the prescribed limits for true running by the addition of AN960C416L washers on the mounting bolts between the slip ring assembly and the spinner bulkhead. If necessary, fabricate thinner shims to the AN960 size. Again the torque
slip ring.
may be varied
terminal connections.
CAUTION While
following
the instructions of the "HEAT
as
in step "a".
30-60-00
page
10
Oct7183
I
A6
BEECHCRAFT BONANtA SERIES MAINTENANCE MANUAL
NOTE
TORQUE TO 20 TO 30 IN-LB AN980-PD10L WASHER (USE AS REQUIRED FOR
TORQUE 12-14 IN-LB
If, in machining, the solder
CORRECT SPACING) TORQUE 8 TO 10 IN-LB
.01
on
or
brats connection
slip ring is exposed, slip ring assembly will be
the underside of the of the
replacement necessary.
AIRCRAFT WIRING
BRUSH BLOCK BRACKET
sdUSH
BLOCK ASSY
BRUSH WEAR LIMITS
(McCauleyl
(Figure 7) ENGINE CRANK CASE
The
brushes may methods.
checked for
be
wear
by
one
of the
following PROPELLER MOUNTING BOLT SLIP RING ASSY PROPELLER HUB
ON THE AIRPLANE 36-251-5
Insert
a.
thin stiff feeler gage into the slot
a
on
the
side of the brush block.
Propeller
Deicer Brush Module Figure 6
(McCauley)
If it goes
b´•
~51 need
past the back of the brushes the brushes
replaced.
REMOVED FROM tHE AIRPLANE NOTE
Insert
a.
a
thin stiff feeler gage into the slot on the past the back of the brushes.
side of the brush block above adjustments may affect the clearance between the brush module and slip
The
rings; consequently,
I
after
slip ring alignment,
Gently push
b. c.
outside
a
the brushes into the brush block.
If any brush has .094 inch brush the brush block, that brush
check should be made to ascertain that a distance of from 1/32 to 3/32 inch is maintained between the brush module and slip ring surface
replaced.
(see Figure 5).
BRUSH REPLACEMENT
less remaining assembly needs or
(McCauleyl
(Figure 7) SLIP RING MACHINING
(B.F. Goodrich) a.
Slip rings
which have
roughened
or
damaged surfaces,
but
are structurally sound, can be machined and restored serviceability. Remove the slip ring assembly from the airplane’ and mount it in a lathe. Position it concentrically in the lathe, with notover 0.002 inch wobble or run-out over
b.
which to
Remove the
Remove the two
c.
d.
Replace
0.005 inch, and flat within 0.005 inch overall. Deviation from flat is not to exceed 0.002 inch over a 4 inch are. If
place. Torque
slip rings.
In this
operation, width of the slip ring MUST
more
than 0.005 inch. Contact surfaces of
slip rings must have a finish of 29-35 microinches. Deburr the slip ring edges and reinstall in the airplane and align.
the
the
engine
as
screws
in the back of the brush
Pull the brush holder and brushes from the brush
sliding sliding
NOT be reduced
from
block. Discard the brush holder and brushes.
degrees rotation. Take light cuts for a smooth finish and cut no deeper than required to remove surface damage, The contact surfaces of the slip rings must be parallel within
the
block
block.
360
necessary, undercut the insulation between the slip rings to a depth of 0.020 to 0.030 inch below the contact surface of
brush
indicated in BRUSH BLOCK REMOVAL.
e.
the brushes and brush holder by first
the brushes into the slots of the brush
the brush holder into
Install the two
block,then
place.
screws
which hold the holders in
the screws to 20 to 24
inch-pounds.
f.
Push the brushes back into the brush block to ensure that they spring back freely. If the brushes bind, loosen the screws and g. reposition the brush holders so the brushes ride freely in the slots.
Torque h.
the
screws to
20 to 24
Install the brush block
as
inch-pounds. indicated in BRUSH
BLOCK INSTALLATION.
3060-00
Page A6
11
Oct 7183
BEECHCRAFT BONANtA SERLS MAINTENANCE MANUAL
.094 1 NCH
I
a
a FEELER GAGE
BRUSH WEAR MEASUREMENT
BRUSH BLOCK
DI SASSE MBLY
BRUSH AND HOLDER
ASSEMBLY
as"
BUTTON HEAD SCREW TORQUE 20 to 24 INCH POUNDS
iia Brush Block
Assembly (McCauley) Figure 7
36-251r6
~r
3060-00
Page
12
Oct 7/33
As
BEECHCRAFT BONANZA SERIES MAINTENANCE MANUAL
BRUSH BLOCK REMOVAL
(McCauleyl
SLIP RING MACHINING (McCauley)
a.
Disconnect the lead wires from the terminal
b.
Disconnect the brush block
remove
the brush block from the
mounting engine.
strip.
screws
and
Structurally sound slip rings
with
damaged
surfaces may be
machined to restore sen/iceability. a.
slip ring assembly with methyl ethyl machining. Check the assembly mounting surface flatness. It Clean the
ketone before
BRUSH BLOCK INSTALL4 TION
(McCauleyl
b.
(Figure 8)
must be flat within .005 inch overall. c.
a.
Install the brush block
on
the
engine
screws, but do not tighten the screws. b. Add or remove shims (see Figure
with the two to the brush
mounting screws until each entire brush with itâ&#x20AC;&#x2122;s slip ring throughout 360~ of rotation,
is in contact
block
Position the brush block on the mounting bracket c. that the distance between the brush block and the face of .015 inch. the slip rings is .064 so
Tighten
no more
assembly concentrically than .002 inch wobble
in a lathe so
or run-out over
360" of rotation. The assembly should be fixed in the lathe in
6)
d.
Locate the
that there is
the same manner as it was attached to the propeller assembly. This will ensure that run-out held while machining the assembly will be transferred when it is mounted on the propeller. d. Take a light cut for a smooth finish (25 to 20 micro inches).
the screws.
SLIP RING (McCauleyl NOTE On these or
slip rings
the
mounting bolts
can not
be
retorqued
shims added to correct wobble or nonconcentric rotation. or slight wobble may be removed by machining,
Wear
The
spindle speed
should
be 500 rpm
greater. If machine vibration is noticed,it be corrected.
or
must
Machine vibration which is not a chattered finish. Feed
corrected will result in
rate is to be .002 inch or less with a final pass of
NOTE
.005 inch to .010 inch.
Friction from the brushes will cause a concave wear pattern on the slip rings. This does not necessitate
replacement
or
machining
is encountered. When
rapid brush wear brush assembly is installed
on
normal wear, the brushes will degradation of operation
without
SLIP RING ALIGNMENT
unless
e.
a new
slip rings with rapidly seat or
.060 inch
service life.
are
(Figure 8).
(McCauley)
chattering or screeching noise is heard coming from the black/slip ring area, the probable cause is improper brush block-to-slip ring alignment. A chattering or screeching detected while turning the propeller tin the normal direction of rotation) by hand should be corrected immediately. If the chattering or screeching is heard above idling engine noise;the problem is severe. Repositioning the brush block as indicated in Figure 7 should correct the problem. If
Ensure that the face surface of the slip rings
parallel and flat within .008 overall. The slip ring holder face and the insulation around f. and between the slip rings must be undercut to .050 inch to
CA UTION
a
brush
SLIP RING OR BRUSH BLOCK CLEANING The
Slip rings and brush block may be cleaned dampened with methyl ethyl ketone.
cloth
undercutting the insulation between the slip rings, do not cut the inside diameters or the outside diameters of the slip rings more than .003 inch past the original diameters. When
g. h.
Deburr the slip ring edges. Polish the ring faces with crocus cloth
(McCauiey)
to obtain a finish of 16 to 22 microinches. i. Check the electrical resistance between each ring
with
and the holder
a
clean
should be
a
.and between each
ring. The resistance
minimum of 50K ohms.
30-60-00
Page A6
13
Oct 7/83
BEECHCRAFT BONANtA SERIES MAINTENANCE MANUAL
MACHINE EPOXY AND SLIP RING HOLDER IN AREAS SHOWN TO OBTAIN A TOTAL UNDERCUT OF .050" TO .060".
I
rIZ-: 050
.060
1:3
.435
T
AFTER MACHINING OF SLIP RING FACES
CAljTION WHEN UNDERCUTTING INSULATION BETWEEN RINGS, DO NOT CUT INSIDE AND OUTSIDE DIAMETERS OF SLIP RINGS MORE THAN .003" PAST THE ORIGINAL UNDERCUT DIAMETERS. 36-251-7
Slip Ring Machining (McCauley) Figure 8
~ek
"END"
30´•60-00
Page
14
Oct7/63
A6
C H A PT E R
LANDING GEAR
Raylheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 32
1
LANDING GEAR
TABLE OF CONTENTS
SUBJECT
PAGE 32-00-00
Description and Operation Landing Gear System Optional Landing GearSafetySystem Troubleshooting Landing Gear Electrical System, General
..1
..................1
,,,,,,,.2
32-1 0-00
Main Gearand Doors- Maintenance Practices Main
Landing GearServicing
Main
Landing Gear Removal
............1 ......1
..........................................................................1
......1
Main Landing Gearlnstallation
.....1
Main Landing GearOverhaul
Landing GearDisassembly GearCieaning, Replacement Cleaning... Replacement Parts, Repairs, Landing Gear Assembly.
,,,,,.2
Main Main
Main
.3
Partsand
Repairs,
,,5 .,,.....,,,..,5 ...,.,.5
.,..,7 32-20-00
NoseGearand Doors- Maintenance Practices
............1
Nose Gear Shock Strut,
Lubrication. Nose Gear Removal Nose Gear Installation. Nose Gear Overhaul
Disassembly, NoseGearCleaning, ReplacementPartsand Repairs Cleaning,
Nose Gear
......2
..4
.................................................4
Replacement Parts, Repairs...... Nose Gear Assembly Nose Gear Shimmy Damper Servicing Nose Gear Shimmy Damper Removal Nose Gear Shimmy Damper Instaliation
~4
...,.,,4
........1 .................12 .................12 ................12
32-CONTENTS
Sep
30/03Page
1
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 32
LANDING GEAR
TABLE OF CONTENTS
(Continued)
SUBJECT
PAGE
NoseGearShimmy DamperOverhaul NoseGearShimmy DamperDisassembly NoseGearShimmy DamperCleaning, Replacement Cleaning Replacement Parts
12 13
Parts and
Repairs
14
Repairs GearShimmy DamperAssembly. GearRetract Mechanism Servicing
17
Nose Nose
Nose Gear Retract Brace
Assembly
Check
13
19
(E-1103
and After; E-l thru E-1102 With Kit
35-4012-1 Installed
.........19 32-30-00
Extension and Retraction- Maintenance Practices
1
Lub~cation.............................................................................1
Landing Gear ExtensionSystem. Landing GearActuatorAssembly Removal Landing GearActuatorAssembly Installation
1
Manual
Landing
1 2
GearMotor Removal
2
Landing Gear Motor Installation. Dynamic Brake Relay Check.
Dynamic Landing GearDynamic Landing
Gear
Brake
Brake
2 3
Relay
Removal.
3
Relay
Installation
3
Main Landing Gear Retract Rod Removal Main
Landing GearRetractRod
Riggingthe Landing Gear RetractActuator Disassembly Retract Actuator Cleaning and Retract Actuator Assembly
3
Installation
5 5
10
Parts
Replacement
12 12
Gear RetractActuator Functional Test.
Landing Landing GearSafetySystem Maintenanceand Adjustment Check of Landing Gear Safety System With Safety Switch Landing GearSafety System Microswitch Adjustment
Landing GearSafetySystem
Pressure Switch
Adjustment.
13 14 in Test Position
14
14 14
32-40-00
Wheelsand Brakes-
Descriptionand Operation
Main Wheel Assemblies. Nose Wheel
Page
peS2
30/03
Assembly.
32-CONTENTS
1
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 32
LANDING GEAR
TABLE OF CONTENTS
PAGE
SUBJECT
..........1
Tires Brake
Assembly
Shuttle Valve
Brake Wear and Wear Limits
......1
Hydraulic Brake System Troubleshooting Brake System
......3
Wheelsand Brakes-Maintenance Practices
.........,.,3
Wheelsand Tire Maintenance
.....3
BrakeAssembly Removal Inspectionand Cleaning BrakeAssembly Inspection and Cleaning. MainWheel and BrakeAssembly Installation. Main Wheel and
............,3
MainWheel
.4
...............4 ............4
Nose Wheel Removal Nose Wheel
Inspection and Cleaning
.5
Nose Wheel Installation
Relining the Brakes Brake MasterCylinder Removal Brake MasterCylinder Installation Brake MasterCylinder Linkage Adjustment Brake Master Cylinder Disassembly.
....6
..6 ...........,.6 .6
and Parts
Replacement. MasterCylinderCleaning MasterCylinderAssembly Parking BrakeValve Removal. Parking BrakeValve Installation Parking Brake Adjustment. Parking BrakeValve Disassembly Parking BrakeCleaning and Parts Replacement Parking BrakeValve Assembly. Bleedingthe Brake System. Gravity Bleeding Pressure Pot Bleeding Electric Bleeding
Brake
...6 ...7
Brake
.....7 ....7
........7 ..7 ..........7
....7 .......3
32-50-00
Steering-
Maintenance Practices
Nose Wheel Travel
ns
....1
Stop Adjustment
.1
32-CONTENTS
Sep
30/03Page
3
Raytheon
nircraft Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 32
LANDING GEAR
TABLE OF CONTENTS
(Continued) PAGE
SUBJECT 32-60-00
PositionandWarning- Maintenance Practices. Landing GearPosition LightAdjustment
1 1
Main Gear 1
NoseGear..............................................................
Engine-Compartment-Located
Landing
Gear
Warning
Switch
Adjustment (CE-748,
CE-772 thru
CE-1300, CE-1302 thru CE-1306; CJ-149 thru CJ-179; D-10097, D-10120 and After; E-llll, E-1241
EA-320). Adjustment (CE-1301,
thru E-2110, except E-1946 and E-2104; EA-1 thru EA-388, except
Engine-Compartment-Located After). Pedestal-Located Landing EA-389 and After) Engine-Compartment-Located After; CJ-180 and After). Pedestal-Located Landing EA-389 and After)
Landing
Gear
Warning
Switch
1
CE-1307 and After;
CJ-180 and
Page
peS4
30/03
Gear
Warning
Landing
Switch
Adjustment (E-1946, E-2104,
Gear Retract-Prevent Switch
Gear Retract-Prevent Switch
32-CONTENTS
E-2111 and After; EA-320,
Adjustment (CE-1301, CE-1307
Adjustment (E-2458,
and
E-2468 and After; EA-320,
Ray~heon
AiKraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHAPTER 32
LANDING GEAR
LIST OF EFFECTIVE PAGES CH-SE-SU
PAGE
DATE
CH-SE-SU
PAGE
DATE
32-LOEP
1
Sep
30/03
32-20-00
1 thru 22
Sep
32-CONTENTS
1 thru 4
Sep 30/03
32-30-00
1 thru 16
Dec 23/99
32-00-00
1 thru 3
Nov 16/94
32-40-00
1 thru 13
Nov 16/94
32-10-00
1 thru 13
Sep
30/03
32-50-00
1
Nov 16/94
32-60-00
1 thru 10
Sep 30/03
A24
30/03
32-LOEPPagel
BONANZA SERIES MAINTENANCE MANUAL
GENERAL-DESCRIPTION AND OPERATION LANDING GEAR SYSTEM The
landing gears are operated through adjustable linkage connected to an actuator assembly mounted beneath the front seats. The actuator assembly is driven by an electric motor controlled by the landing gear position switch mounted on the right or left subpanel and limit switches mounted adjacent to the actuator assembly. The landing gear motor, \imit switches and actuator assembly are accessible by removing the front seats.
The
landing gear may be used to drag. Should disorientation occur under instrument conditions, the lowering of the landing gear will reduce the tendency for excessive speed buildup. This procedure would also be appropriate for a noninstrument-rated rated pilot who unavoidably In
an
emergency, the
create additional
encounters instrument conditions
cies such
as severe
essaâ&#x20AC;&#x2122;y.
CAUTION
landing
Never tow or taxi with a flat strut. Even brief towing or taxiing with a deflated
emergency. The landing gear circuit consists of the landing gear position switch, limit switches, safety switches, and motor circuit breaker. The push button
resetting
the
located in the When the
position, switches, located
landing gear right subpanel.
gear switch is placed in the UP the circuit is completed to two safety
located
on
the
right
the left main gear, the other main gear. If the safety switches on
have been actuated to
complete the circuit to the landing gear motor, as would be the case if the airplane were airborne or supported on jacks, the landing gear motor will run until the landing
up-winding
gear is
strut
can cause severe
damage.
motor circuit breaker is
landing
one
in other emergen-
Should the landing gear be used at speeds higher than the maximum extension speed, a special inspection of the gear doors is required, with repair as nec-
gear may be electrically retracted and extended and may also be lowered manually in an
for
or
turbulence.
of the
fully retracted and the uplimit switch is
actu-
OPTIONAL LANDING GEAR SAFETY SYSTEM
optional landing gear safety system functions through the action of a solenoid in the landing gear position switch in conjunction with a three-position safety system switch, a relay and diode, two pressure The
switches mounted
wheel well, and throttle
a
on
the inboard side of the left main
microswitch
position warning
adjacent to the existing engine compart-
switch in the
ated, breaking the circuit to the landing gear motor.
me"t.
When the
Each pressure switch is connected into the pitot and static system. The pressure switch in the gear-up circult is actuated by the pressure differential that exists between the pitot and static air system and will close
landing gear position switch is placed in the position, the circuit is completed to the downwindings of the landing gear motor, and the motor will operate until the landinggear has been fully extended and the downlimit switch actuated, breaking the circuit to the landing gear motor. To prevent overtravel of the gear, the dynamic brake relay simultaneously breaks the power to the motor and makes a complete circuit through the armature and the opposite field winding, The motor then acts as a generator and the resulting electrical load on the armature stops the gear almost instantly. DOWN
CAUTION
of the control the direction of the landing gear while the gear is in transit as this could cause damage to the
Do not
change
switch to
the
position
reverse
retract mechanism.
with
increasing pressure
at
approximately
90
mph
IAS.
When an air speed of 90 mph IAS has been attained with the landing gear position switch in the UP position, the pressure switch in the gear-up circuit closes
relay mounted on the right-hand instrupanel support, thus completing the circuit and retracting the landing gear. A diode locks the relay in the closed position until the retraction cycle is completed. For the preceding to occur, the microswitch in the engine compartment must also be in the open position. This microswitch is actuated by the throttle control when the throttle is advanced sufficiently for the manifold pressure gage to register approximately 18 inches Hg. Conversely, if the throttle is retarded beyond the position corresponding to approximately and actuates
a
ment
32-00-00
Page A17
1
Nov 16/94
~eechcraR BONANZA SERIES MAINTENANCE MANUAL. NOTE
in manifold pressure, the microswitch will close. If the air speed has dropped below 120 mph 18 inches of
Hg
The throttle switch is set at the
IAS at the same time the microswitch closes, the resultant pressure differential between the pitot and
By the
pressure switch close, the current flow through the solenoid will cause the landing gear position switch to into the DOWN
position, thus completing
the
token, the landing gear will automatically
The
airspeed
following conditions: must have
dropped below
120
mph
IAS.
landing gear position switch
placed in
is
the UP
The throttle setting must have been retarded enough for manifold pressure to have dropped below approximately 18 inches Hg.
position while the landing gear safety system is in the ON position, the landing gear wil retract only when the following conditions are mutually fulfilled: The
same
extend under the
gear-down circuit. If the
to
pressure of 18 about 3000 feet of altitude.
static system will actuate the pressure switch in the gear-down circuit. When both the microswitch and the
drop
factory
approximate manifold inches Hg is produced at
close when an
airplane must least 90 mph \AS.
have attained
an
safety system switch is a three-position switch with normaly ON or OFF positions. The switch also contains a momentary or test position for checking that the system is functioning properly. When released from the test position, the switch returns to the ON The
air speed of at
The throttle setting must have been advanced sufficiently to produce a manifold pressure of approximately 18 inches Hg.
position.
TROUBLESHOOTING LANDING GEAR ELECTRICAL SYSTEM
1. Motor fails is retracted. 2. Landina
REMARKS
PROBABLE CAUSE
INDICATION gear
b.Defective switch.
b. Replace switch. a. Replace switch.
a. Safety switchnotclosing. b.Ualimit switch open.
retract.
Readjust switch.
a. Uplimit switchis out of adiustment
a.
does not open.
3. Motor fails
b. Replace limit switch. a. Readjust limit switch.
extended.
Downlimit switch.
switch
actuatoris
out of
adjustment,
b.
Replace switch-
a.
Readjust limit switch.
b.
Replace switch.
internal b. Umit switch is inoperative.
5.
Warning
horn
inoperative
or
c.
Dynamic brake is not
a.
Open
or
working.
groundedcircuit.
b. Thrott\eswitches inoperative. 6. Landina aear
fa7jstoextend.
a.
Tnâ&#x20AC;&#x2122;Doed circuit breaker.
b.8ownlimit switches open.
c.
Open circuit
Check for inoperative dynamic brake relay or high resistence in circuit,
c.
a.
Check continuity.
b. Check and a.
adjust
as
Reset circuit breaker.
b,Check downiimit switch. The downlimit switch should be closed with the clear retracted. c.
Run
a
continuity check
on
the
downlimit switch. d.
Landing
gear
motorinoperative.
d. Check brushes, overhaul
or
motor. 7.
Landing gear
extend.
will not retract
or
a.
Bad electrical connection.
a.
Run
a
continuity check
from
circuit breaker to switch.
32-00-00
Page
2
Nov 16/94
A17
BONANZA SERIES MAINTENANCE MANUAL TROUBLESHOOTING LANDING GEAR ELECTRICAL SYSTEM
(Continued) REMARKS
PROBABLE CAUSE
INDICATION b.
Landing
gear motor not
b. Check motor
ground.
rounded. c.
d.
Defective control circuit.
Landing gear
motor
inoperative.
c.
Check items 1 thr
3.
d. Check brushes overhaul
or
replace.
32-00-00
Page A17
3
Nov 16/94
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
MAINTENANCE PRACTICES
MAIN GEAR AND DOORS
MAIN LANDING GEAR SERVICING Perform the SHOCK STRUTS
procedure
in
Chapter
1 2-20-00.
1
LUBRICA TION
20-00.Lubricate
the main wheel
bearings
and grease
fittings.
Refer to Chart 2, LUBRICATION SCHEDULE, in
Chapter
12-
MAIN LANDING GEAR REMOVAL
removing reassembly.
When
the
gear, take
landing
airplane
jacks,
retract the
a.
With the
b.
Disconnect the outboard
c.
Disconnect the inboard
d.
Unsnap
e.
Open
f.
Disconnect the
hydraulic
g.
Disconnectthe
safetyswitch
h.
Remove the bolt
i.
Remove the
the
landing
actuating
and disconnect the
landing
fully
open
fittings
to facilitate
position.
gear strut.
uplock assembly from the
hinge.
strut.
and pump all fluid from the system.
couples
to the
tubing
on
the
landing
gear.
wire.
the lift
leg
to the strut.
door in the lower surface of the
wing leading edge
nut and remove the nut. The rear strut brace
hinge
at the rod-end
door is in the
rod at the forward door
lines where the flexible hose
attaching
original adjustments
landing gear until the inboard
gear door
cylinder bleed ports
access
to preserve the
gear door from the
landing
canvas cover
the brake
retaining
on
care
for
access
to the forward
hinge bolt is accessible by lowering
the
hinge flap.
bolts and associated hardware which attach the main gear to the front and
j.
Remove the brace
k.
Lower the main gear assembly from the airplane,
being careful not to
bend the skin at the
bolt
rear
spars.
edge of the wheel well.
MAIN LANDING GEAR INSTALLATION a.
Carefully position
b.
Align
the
hinge
in.-lbs. install
the main
landing
gear
bolt holes and install the
new
cotter
assembly
in
place against the front
bushings, bolts,
washers and nuts.
and
rear
Torque
spars.
each nut to 250 to 690
pins. NOTE
Install 100951-S-016-XF
or
100951-S-032-XF washers
as
required
between the
landing gear and placement of
spars to maintain a maximum total clearance of 0.016 inch. The these washers at the front or rear may help align the lift leg. the front and
c.
Install the
access
rear
door in the lower
wing leading edge.
32-10-00
I
Raytheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
d.
Install the bolt
attaching the lift leg
to the strut.
NOTE
Overtightening distort the strut
I
the nut
Connect the
f.
Connect the brake
g.
Connect the
the bolt that connects the lift
attaching point. Torque
landing
e.
on
gear
to the shock strut
can
bind the strut
or
switch wire.
safety
hydraulic
leg
the nut to 25 to 75 in.-lbs.
line. the strut and snap the
uplock assembly to
canvas cover
in
place.
CAUTION I pcnunoN The
uplock cable attach bolt must be
installed with the head of the bolt pointing aft. This is to avoid
interference between the bolt and the
stringer
in the main gear wheel well
as
the
landing
gear is
retracted. h.
Connect the inboard
i.
Install the outboard
j.
Bleed the brake.
landing
gear door
landing gear
actuating
door to the
rod to the forward door
landing
hinge.
gear strut.
CAUTION I [CAUTION Excessive
landing k.
Operate
operation
of the
gear motor. Allow
the
a
landing gear motor without proper cooling may cause damage short cooling time after each extension and retraction cycle.
landing gear and check
for proper
rigging
of the
uplock and
to the
doors.
MAIN LANDING GEAR OVERHAUL NOTE Refer to the OVERHAUL AND REPLACEMENT SCHEDULE in maintenance checks of the main landing gear.
Chapter 5-10-00
for time limits and
Experience in the field indicates the points of greatest wear on the main landing gear are the upper and lower bearings in the cylinder assembly. The wear caused on the bearings during takeoff, landing and taxiing tend to result in an oversized condition. The oversized condition of the upper bearing in the cylinder assembly will result in leakage of hydraulic fluid through the upper bearing and O-ring. This will eventually cause fluid to seep down through the felt pad and out the lower bearing.
replacement of the scraper ring and all O-rings in the cylinder assembly fails to stop leaks, the oversized bearings is probable. In such instances the landing gear should be overhauled. The following information will aid in determining the extent of landing gear wear and whether it is possible to overhaul or necessary to replace critical landing gear components. When
condition of the
Sep
30/Page
2
32-1 0-00
Raytheon
AiKraft Company
BONANZA SERIES MAINTENANCE MANUAL
MAIN LANDING GEAR DISASSEMBLY
I
ARNING I /WARNINO Do not
begin
any
disassembly
of the main
landing
gear until all air pressure has been
released.
landing
gear in
vertical
prevent hydraulic fluid from spilling.
a.
Place the
b.
Release the air pressure from the
c.
To
d.
Perform the MAIN WHEEL AND BRAKE ASSEMBLY REMOVAL
e.
retaining ring (5) cylinder assembly (9).
f.
Invert the
g.
Remove the air valve
prevent damage,
a
remove
Remove the
landing
all
position
to
cylinder assembly (9) by depressing
hydraulic plumbing, safety
and retract the lower shock
gear and drain the
the valve
core
switch components, and
procedure
assembly (35)
to
in
(2) (Ref. Figure 1).
I
clamps.
Chapter 32-40-00.
push
the orifice tube
(6)
1 out of the
hydraulic fluid.
assembly (3), O-ring (4), piston ring (8)
and
O-ring (7)
from the orifice tube
(6).
WARNING I IWARNIN(I Do not disconnect the torque knees (23 and 34) without first deflating the cylinder assembly The torque knees provide the extension stop for the lower shock assembly, and when
(9).
disconnected, the shock assembly is free h.
i.
Remove the nut,
to slide out of the
cylinder assembly (9).
washers, and bolt (32) connecting the upper torque knee (23)
Remove the upper and lower torque knees 31), retaining pins and cotter pins.
(23 and 34) by removing
to the lower
torque knee (34).
the upper and lower torque knee
pins (21
and
j.
Slide the lower shock
assembly (35)
out of the
cylinder assembly (9).
CAUTION I I causlon The scraper seal (27) may become sharp during normal operation of the gear; exercised to avoid possible injury when removing the scraper seal.
k.
care
should be
Remove the scraper seal (27), felt pad (26), O-ring and retainer rings (17). The O-ring is located between two retainers within the cylinder assembly (9). Removal of the O-ring may be simplified by using a hook,
manufactured from music wire (Ref. Figure 2). I.
Disconnect the columns
bushings (12) from
(15)
the brace
and brace
(11)
from the
1 cylinder assembly (9)
and from each other. Remove
(11).
32-1 0-00
Sep 30/03Page
3
Ray~heon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
I.
2. 3. 4.
5. 6. 7. 8. 9. 10.
AIR VALVE CAP VALVE CORE AIR VALVE ASSEMBLY O-RING RETAINER RING ORIFICE TUBE O-RING PISTON RING CYLINDER ASSEMBLY
BOLT,
CONNECTOR,
I I
BRACE
12. 13. 14.
BUSHINGS BUSHING MAIN LANDING GEAR BRACE BOLT COLUMN UPPER BEARING
15. 16. 17. 18.
3 4
NUT
7
8
O-RING, RETAINER RINGS UPPER TORQUE KNEE BUSHING RETAINER RING LOWER UPPER TORQUE KNEE BORE UPPER TOROUE KNEE PIN
9 O
2 .19. POTS.GNIRAEB 20.
21. 23. 24. 25. 26. 27. 28.
A
----d0
UPPER TORQUE KNEE CENTER TOROUE KNEE BUSHING UPPER TOROUE KNEE BORE FELT PAD RETAINER RING/ SCRAPER SEAL 12 PISTON
14
15 II
10
(CHROME PORTION) 29.
LOWER TOROUE KNEE BUSHING 16
1417
13~
18
14
14
28
15
30. 31. 32. 33. 34. 35. 36. 37.
LOWER LOWER
TOROUE TOROUE
KNEE KNEE
19
BORE PIN
24
WASHERS, NUT. LOWER TOROUE KNEE BORE LOWER TOR~UE KNEE LOWER SHOCK ASSEMBLY BRAZED RETAINING BOLT
BOLT,
21
jh
AXLE
32 34
23
22
25\-~
1
29 30
DETAIL
A
36 37
35
OETAIL
B
cp~rcosszosa c
Main
Sep
30/03~"3"Wo3
32-10-00
31
ktnding Gear Assembly Figure 1
A24
RBytheOn
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
.Obn
WIil~-I ~I3/32
MUSIC
B
14
----t(
DOWEL
5/
6
ROD
BRAZED BEARING
O-RING
CYLINDER
DOWEL
ROD C94TC058219d
O-Ring
Removal and Installation
Figure MAIN GEAR
C
2
CLEANING, REPLACEMENT PARTS AND REPAIRS
I
CLEANING
(16,
a.
Clean all parts with solvent
Chart 1,
b.
Immerse all internal parts in clean
91-00-00).
hydraulic fluid (9,
Remove all Chart 1,
excess
solvent and
wipe dry after cleaning.
91-00-00) prior to assembly.
REPLA CEMENT PARTS a.
I
Inspect all parts and assemblies for damage or excessive wear. Wear which is greater than the allowable
Damage
which cannot be corrected
Screws that Parts that
are
are
severely damaged
cracked, chipped
Parts that have corrosion b.
Replace the following parts Cotter
A24
or
or
or
or
wear
tolerances.
(Ref.
Chart
are cause
for
rejection:
1).
I
repaired.
have
stripped, severely
worn or
scored threads.
broken.
other defects that cannot be
when main
The following conditions
landing
repaired.
gear is overhauled
(Ref. Figure 1):
I
pins
32-10-00
5
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
DU
Bushings (12)
Bushing (13)
I
Felt Pad
(26)
Ring (8)
Piston
O-Rings (4, 7, 17) Rings (5, 17, 19)
Retainer
Wire
Safety
Scraper Seal (27) c.
Replace
the
following parts
on
condition when main
landing
gear is overhauled:
Bearings (16, 19) Bushings (18, 24, 29)
I
Grease
Fittings
Grommets
Huck Bolt and Collar
Hydraulic
(Replace
if removed from the upper
bearing (16).)
Hoses
Hydraulic Tubing Switch
Safety
Valve Core
Components
(2)
Wiring
I
REPAIRS a.
Visually inspect castings for cracks and pitting; and
wear.
and finished surfaces for scoring,
Refer to Chart 1 for tolerances to aid in
determining
the extent of
pitting, nicks, cracks, distortion Replace all defective and
wear.
excessively worn parts. If fluid leaks have been observed
b.
then look for defects in the valve
on
top of the air valve assembly (3), check the small O-ring (4) of the valve;
(Ref. Figure 1).
If the leak is from the junction of the orifice tube in the orifice tube (6).
c.
assembly (6)
with the
cylinder assembly (9) walls,
O-ring (7) d.
All parts
or
assemblies may be
Slight scoring of
Sep
30/ Page
6
repaired if
the
shafts may be corrected
32-1 0-00
following
conditions exist:
by lapping carefully
with
a
flat oil stone.
check the
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
NOTE Do not exceed 10% of the component material thickness when
removing nicks,
burrs and
scratches. Smooth minor nicks, burrs and scratches.
parts that
Those
plating
as
scratched
are
that removed
Minor thread
damage,
or
be
or
have
replaced
chase to clean
worn
with
or
plating may parts.
be
stripped
and
replated
with the
same
type of
new
smooth.
NOTE Corrosion
damage requires inspection to determine the depth of penetration and the area change. The damaged area must be thoroughly cleaned and the corrosion must be removed. Refer to CORROSION MAINTENANCE PRACTICES in Chapter 20-09-00. The deterioration caused by corrosion or removal of corrosion must not reduce the material thickness of any component by more than 10%. Refer to Chart 1 for MAIN LANDING GEAR WEAR cross-sectional
I
TOLERANCES AND INSPECTION PROCEDURES on components. For additional information contact the Technical Support Department of Raytheon Aircraft Company, P.O. Box 85, Wichita, KS 67201. Remove corrosion if
applicable, and apply corrosion prevention QQ-P-416, Type II.
cadmium
plate
Bushings
that check within allowable
materials
as
necessary per MIL-C-5541
or
per Fed
When evidence of
damage exists
wear
to steel
tolerances may be reused.
parts, magnetic particle inspect per MIL-STD-1949.
NOTE Do not remove paint or primer from the area to be fluorescent or dye penetrant inspected per MILSTD-6866. If the finish absorbs the penetrant so that bleed out prevents satisfactory inspection or if a new finish has not cured for at least 30 days, contact the Technical Support Department of
Raytheon
Aircraft
Company,
When evidence of
damage
P.O. Box 85, Wichita, KS 67201.
exists to metal parts other than steel, fluorescent penetrant
inspect
per
MIL-STD-6866, Type I.
Replace damaged
or
unserviceable parts with
new or
serviceable parts.
MAIN LANDING GEAR ASSEMBLY
I NOTE
Prior to assembly, immerse 91-00-00). a.
Install the
O-ring
and retainer
may be used to work
~24
O-ring
all internal parts
rings (17)
(except felt pad (26))
hydraulic
fluid
(9, Chart 1,
bearing (16) of the cylinder assembly (9). position (Ref. Figure 1).
in the upper
and retainers into
in
Two dowel rods
32-1 0-00
I
Sep
30/03Page
7
Raylheon
Aircraft Company
BONANZA SERIES MAINTENANCE MANUAL
b.
Soak the felt
and
pad (26)
in SAE 1 0W30 oil and install in the
cylinder (9) between the
upper and lower
bearings (16
19).
(27) over the piston (28) and insert the lower shock assembly (35) (27) into the lower end of the cylinder assembly (9) until seated.
c.
Slide the scraper seal Work the scraper seal
d.
Install upper torque knee (23) to the cylinder assembly (9) and lower torque knee (34) to the lower shock assembly (35) using torque knee pins (21 and 31), retaining pins and cotter pins. Install stop (22) to the upper torque knee pin (21). Insert the center torque knee bushing (24) and connect the torque knees (23 and 34) using bolt, washers, nut (32).
e.
Lubricate
f.
bearings
fittings
at grease
with grease
(46,
Chart 1,
new
and nut
gear g.
Raise and block lower shock
hydraulic assembly of hydraulic fluid). with
h.
Install
O-ring (4),
ring (8)
valve
fluid
core
cylinder (9).
91-00-00).
bushings (12) into brace (11). Install brace (11) onto (10). Install forward and aft columns (15) to the brace (1 1 brace bolts (14).
Install
into the
the
cylinder assembly (9) with bolt, connector cylinder assembly (9) using main landing
and
assembly (35) 1/4 inch from the fully compressed position and fill cylinder (9, Chart 1, 91-00-00) until the top of piston (28) is covered (approximately 2 pints
(2)
and valve
assembly (3) into orifice tube (6). Assemble the O-ring (7) and piston cylinder assembly (9). Slowly extend lower shock assembly (35) allowing into the cylinder assembly (9), then install retainer ring (5).
to orifice tube and install into
the suction to
pull orifice tube
down
WARNING I wnR#IN~I
i.
As with all
operations involving equipment
performing
the leak test; avoid the
Inflate the tube
j.
(6)
under
directly
high pressure, exercise caution when above and below the strut.
cylinder assembly (9) to approximately 100 psi using dry air or nitrogen. Coat assembly (3) with soap suds and check for air leaks.
Release the air pressure; clean the
soapsuds
off the top of the orifice tube
(1)
Install air valve cap
I.
Install all
m.
Perform the MAIN WHEEL AND BRAKE ASSEMBLY INSTALLATION
n.
Perform the MAIN LANDING GEAR INSTALLATION
procedure.
o.
Perform the SHOCK STRUTS
12-20-00.
8
(6)
and air valve
assembly (3)
wipe dry.
k.
Sep 30/ Page
the top of the orifice
and air valve
fresh water and
I
areas
to air valve
assembly.
hydraulic plumbing, safety
switch components and
procedure
32-1 0-00
in
Chapter
clamps. procedure
in
Chapter
32-40-00.
with
RayHheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHART1
I
MAIN LANDING GEAR WEAR TOLERANCES AND INSPECTION PROCEDURES
ITEM
I.D.
O.D.
WEAR TOLERANCES AND INSPECTION PROCEDURES
NOTE: Listed below
are
the tolerances used to
determine the extent of wear in the main
landing
gear components. Where pertinent, the permissible wear limits are given for those
components. All inside-diameter (I.D.) and outside-diameter in inches
Lower Shock
Assembly (35)
(O.D.) dimensions (Ref. Figure 1).
are
given
I
Visually inspect piston (28), axle (37) and brazed retaining bolt (36) wear, damage and corrosion. Any sign of scratches and worn which can not be repaired is cause for rejection. Conduct a magnetic-particle inspection per MIL-STD-1949. Any sign of cracking is cause for rejection. areas
Piston
(28)
Chrome Portion
1.602
1.8635
1.593
1.8600
Visually inspect for wear, damage and corrosion. Replace if wear tolerances are exceeded.
Axle
1.498
(37)
1.497
Visually inspect for wear, damage and corrosion. Strip and cadmium plate axle as necessary, per Fed QQ-P-416, Type II, Class 2, on
Upper and Lower Torque Knees (23 and 34)
scratched
or worn areas.
Visually inspect
for wear,
damage and magnetic particle inspection per MIL-STD-1949. Any sign
corrosion. Conduct
cracks, scratches
a
or worn areas
which
of
can
not
be
repaired is cause for rejection. Remove all bushings and inspect bores for corrosion. Replace bushings as needed and cadmium plate per FED QQ-P-416, Type II, Class 2. Torque 30)
Knee Bore
(20
0.6255
0.6245
and
Visually inspect for wear, damage and corrosion. Replace if wear tolerances are exceeded.
Bushings (18
and
29)
0.5015 0.4995
Visually inspect for wear, damage and corrosion. If bushings exceed wear tolerances, replace with new bushings. Alignment ream new bushings to specified weartolerances. Drill out lubricator holes through bushings and install lubricators.
32-1 0-00
Sep
30/03Page
9
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHARTI
MAIN LANDING GEAR WEAR TOLERANCES AND INSPECTION PROCEDURES I.D.
ITEM
O.D.
(CONTINUED)
WEAR TOLERANCES AND INSPECTION
PROCEDURES Knee Pins
(21
and
0.4990
31)
0.4980
Visually inspect for wear, damage and corrosion. Any sign of scratches or worn areas which can not be repaired is cause for rejection. If no visible wear is evident, conduct magnetic particle inspection per MIL-STD-1949. Any sign of cracks is cause for rejection. Replace if wear tolerances
Torque Knee
Center
are
exceeded.
Hinge
Joint
Bore
(Upper) (25)
Inspect for wear, damage and corrosion. Replace ii wear tolerances are exceeded.
0.4440 0.4370
Bushing (24)
0.3150
0.4360
0.3120
0.4330
Visually inspect for wear, damage and corrosion. Replace if wear tolerances are exceeded.
Bore
(Lower) (33)
Visually inspect for wear, damage and corrosion. Replace if wear tolerances are
0.3195 0.3125
exceeded. Orifice
Assembly (6)
1.560 1.557
Visually inspect for wear, damage and corrosion. Any sign of scratches or worn which
can
not be
repaired
is
cause
for
areas
rejection.
Check the orifice O.D, does not exceed
wear
tolerances. Check that orifice hole does not exceed 0.192 inch. Cadmium
plate
as
necessary except for ring groove in orifice head, per Fed QQ-P-416, Type i, Class 2.
Cylinder Assembly (9)
Sep
32-10-00
Visually inspect for wear, damage and corrosion. Any sign of cracks, scratches orworn areas which can not be repaired is cause for rejection. If no visible wear is evident, conduct fluorescent or dye penetrant inspection per MIL-STD-6866. Corrosion proof per MIL-C5541 and paint touch up as required.
A24
Ray~heon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHART1 MAIN LANDING GEAR WEAR TOLERANCES AND INSPECTION PROCEDURES
ITEM
I.D.
O.D.
(CONTINUED)
WEAR TOLERANCES AND INSPECTION PROCEDURES
Internal
Bearings
Upper (16)
1.8695
Visually inspect for wear, damage
1.8650
corrosion. are
and
Replace bearing if wear tolerances exceeded. If replacement is required,
remove
(9) and
the
bearing
measure
from the
cylinder assembly
the O.D.. Select from the O.D.
dimensions below to determine the correct
replacement bearing. 2.3225/2.3215 inches, Standard
(P/N 35-815246-13,
Bearing)
2.3345/2.3335 inches, Oversize Bearing)
(P/N 35-815246-23,
2.3425/2.3415 inches, Oversize Bearing)
(P/N 35-815246-25,
If the O.D. dimensions of the
bearing is greater replacement dimensions above, replace the cylinder assembly (9). If additional information is required contact the Technical Support Department of the Raytheon Aircraft Company, P.O. Box 65, Wichita, KS 67201.
than the
Lower
(19)
1.8695 1.8650
Visually inspect for wear, damage and corrosion. Replace bearing if wear tolerances are exceeded. If replacement is required, remove the bearing from the cylinder assembly (9) and measure the O.D.. Select from the O.D. dimensions below to determine the correct
replacement bearing. 2.0035/2.0025 inches,
Standard
(P/N 35-815246-0
Bearing)
2.0185/2.0170 inches, Oversize Bearing)
(P/N 35-815246-27,
If the O.D. dimensions of the
bearing is greater replacement dimensions above, replace the cylinder assembly (9). If additional information is required contact the Technical Support Department of Raytheon Aircraft Company, P.O. Box 85, Wichita, KS 67201.
than the
32-10-00
S.PpaS3~Pagell
Raytheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
CHART 1
MAIN LANDING GEAR WEAR TOLERANCES AND INSPECTION PROCEDURES I.D.
ITEM
O.D.
(CONTINUED)
WEAR TOLERANCES AND INSPECTION PROCEDURES
replacement of bearing is required, coat bore primer (67, Chart 1,91-00-00) and install new bearing using an adhesive (66, Chart 1, 91oo-oo). If
with
Knee Attach-
Upper 7orque
0.5010
0.4995
ment Hole
Visually inspect for wear, damage and corrosion. Replace if wear tolerances are exceeded. Do not
Instruction Placards
for Brace
remove
inspection
from
Visually inspect
Assembly (11)
cylinder assembly except or replacement.
purposes
for wear, damage and a fluorescent or dye
corrosion. Conduct
penetrant inspection per MIL-STD-6866. Any sign of cracks, scratches or worn areas which can not be repaired is cause for rejection. Hinge Bushings
I
Outer
Replace bearings when main landing gear
Hinge (12)
is
overhauled. Inner
Hinge (13)
when main
landing
gear is
0.6240
Replace bearings
0.6230
overhauled.
0.4395
Visually inspect for wear, damage and corrosion. Replace if wear tolerances are
Brace Bores
Forward Bolt
(14)
Bore
0.4370
exceeded. Center Bolt
(10)
Bore
0.2520
0.2495
Visually inspect for wear, damage and corrosion. Replace if wear tolerances are exceeded.
Aft Bolt
(14)
Bore
0.4395
0.4370
Visually inspect for wear, damage and corrosion. Replace if wear tolerances are exceeded.
Fonnrard and Aft Columns
(15) Upper and Lower Attachment Fomard bores
(14)
0.4395 0.4370
Visually inspect for wear, damage and corrosion. Replace if wear tolerances are exceeded.
Aft bores
(14)
0.4395
Visually inspect for wear, damage
0.4370
corrosion.
Replace
if
wear
and
tolerances
are
exceeded.
Page
peS21
30103
32-1 0-00
A24
Ray~heon
Aircraft Company
BONANU~ SERIES MAINTENANCE MANUAL
CHART1 MAIN LANDING GEAR WEAR TOLERANCES AND INSPECTION PROCEDURES ITEM
I.D.
O.D.
(CONTINUED)
WEAR TOLERANCES AND INSPECTION
PROCEDURES
Safety Switch Components
Ensure there is electrical is activated.
continuity when switch Replace wiring and components on
condition.
A24
32-1 0-00
Sep
30/ 3Page
13
RayYheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
NOSE GEAR AND DOORS
I
MAINTENANCE PRACTICES
NOSE GEAR SHOCK STRUT Perform the SHOCK STRUTS procedure in
Chapter
12-20-00.
1
LUBRICATION Lubricate the
nose
wheel
bearings
and grease. Refer to Chart 2, LUBRICATION SCHEDULE in
Chapter
12-20-00.
1
NOSE GEAR REMOVAL
removing reassembly.
When
the
nose
gear, take
care
original adjustment
to retain the
airplane and partially retract the landing
a.
Jack the
b.
Disconnect the
drag leg
at its
the
nose
gear brace
c.
Disconnect the
steering
mechanism at the
nose
gear.
d.
Disconnectthe
landing lightwiring.
e.
Remove the cotter
fitting
on
pins, nuts, washers, bolts,
at the rod end
gear to relieve the load
and
bushings
on
fittings
the retract rod
to facilitate
compression springs.
assembly.
which connect the
nose
gear upper brace to the
wheel well structure. f.
Lower the
nose
gear
assembly from
the
nose
wheel well.
NOSE GEAR INSTALLATION a.
Carefully position
the
nose
gear
assembly against the
nose
wheel well structure.
NOTE Use 100951S016YP washers between the b.
Align
nose
(maximum of two per side) gear assembly and supports.
bolt holes and install
cotter
bushings, bolts, washers, and
nuts.
to obtain total end
Torque the
play of
0 to 0.015 inch
nuts to 150 to 200 in.-lbs. Install
new
pins.
c.
Connectthelanding lightwire.
d.
Connect the
drag leg
of the
e.
Connect the
steering
mechanism to the
nose
gear brace nose
assembly. gear.
CAUTION I rCAUTION Excessive operation of the landing gear motor without proper cooling may cause damage landing gear motor. Allow a short cooling time after each extension and retraction cycle.
32-20-00
to the
Sep
30/03Page
1
I
Raytheon AirrraflCompany BONANZA SERIES MAINTENANCE MANUAL
f.
Operate the landing gear and check for proper rigging and imum of six complete cycles.)
nose
gear
adjustment. (Cycle the landing
gear
a
min-
NOSE GEAR OVERHAUL
NOTE Refer to the OVERHAUL AND REPLACEMENT SCHEDULE in maintenance checks of the nose gear.
Chapter 5-10-00 for time
limits and
Experience in the field indicates the points of greatest wear on the nose gear are the upper and lower bearings in assembly. The forces exerted on the bearings during takeoff and landing tend to result in an oversized condition. The oversized condition of the upper bearing in the barrel assembly will result in leakage of hydraulic fluid through the upper bearing and O-ring. This will eventually cause fluid to seep down through the felt pad and out the lower bearing. the barrel
replacement of the scraper ring and all O-rings in the landing gear fails to stop leaks, the oversized condition bearings is probable. In such instances the landing gear should be overhauled. The following information will aid in determining the extent of landing gear wear and whether it is possible to overhaul or necessary to replace critical landing gear components.
When
of the
I
NOSE GEAR DISASSEMBLY
WARNING IwnRNINal Do not
begin
any
disassembly
of the
nose
landing
gear until all air pressure has been
re-
leased. a.
I
Place the strut in
(1)
I
is removed
vertical
a near
(Ref. Figures
the valve
position 2).
Depress
c.
Perform the NOSE WHEEL REMOVAL
d.
Remove the snap
e.
Retract the
f.
Remove the orifice tube
g.
Invert the
piston
nose
prevent the hydraulic fluid from spilling when the air valve assembly
to deflate the strut and remove the air valve
b.
core
to
1 and
ring (4) retaining and fork
procedure in Chapter
the orifice tube
assembly (48)
(6).
Remove the
gear and drain out the
to
push
hydraulic
32-40-00.
(6).
the orifice tube
O-ring (5)
assembly (1).
and
(6)
out of the barrel
(23).
piston ring (7).
fluid.
WARNING IWARNING) Do not disconnect the torque knees (37 and 46) without first deflating the torque knees provide the extension stop for the piston and fork assembly
connected, the piston and fork assembly (48) is free to slide h.
Sep
Remove the cotter
30/ Page
2
pin (40),
nut
(41),
32-20-00
washers
(39
and
nose
(48). assembly (23).
out of the barrel
44), bushing (45),
and bolt
gear. The When dis-
(43).
RBycheOn
nircraff Company
BONANZA SERIES MAINTENANCE MANUAL
and
pins (25
i.
Remove the cotter
pin (36),
j.
Remove the cotter
pin (50), pins (42
k.
Slide the
i.
Remove the lower snap
m.
O-ring (38) and remove the felt pad (24) from inside the barrel (23). simplified by using a hook manufactured from music wire (Ref. Figure 1).
n.
assembly (48) ring (33),
to disconnect the upper
and washers
out of the barrel
scraper
(31),
and
(49 and
(23).
51
torque knee (37).
to disconnect the lower torque knee
Remove the collar
(2)
and shim
(46).
(3).
adapter (32).
(16),
washers
(17 and 19), bushing (18),
(30), (23).
washers
(27
Remove the nut
and bolt
(21) attaching
Removal of the
O-ring
may be
I the
shimmy damper (20) to the
(15).
Remove the nut from the barrel
p.
and fork
47),
and
34)
Remove the
brace o.
piston
and
Pull the barrel
(23)
out of the brace
and
29), bushing (28),
and bolt
(26) to
disconnect the
shimmy damper (20)
(15).
.Obd.
MUSIC
WTR~--/ iâ&#x20AC;&#x2122;l3/32 $1
5/
DOWEL
b
ROD
BRAZED BEARING
O-RTNG
CYLINDER
DOWEL
ROD C94TC05B2194 C
O-Ring
Removal and Installation
Figure
A24
1
32-20-00
Sep
30/03Page
3
RayYheon
Aircraft
Company
BONANZA SERIES MAINTENANCE MANUAL
NOSE GEAR CLEANING, REPLACEMENT PARTS AND REPAIRS CLEANING Chart 1,
a.
Clean all parts with solv