Page 1


ALL PRODUCTS IN THE RANGE 9902 SERIES A - JUNIOR

Power capacity to 18 HP Sizes 280, 410, 510, 610, 730 and 860 Foot, flange and shaft mounting

SERIES A - MID RANGE

Power capacity to 100 HP Sizes 1002, 1252, 1602 and 2002 Foot, flange and shaft mounting

SERIES Q

Power capacity to 50 HP Sizes 07, 08, 09, 10 and 13 Foot mounting

SERIES M Power capacity to 230 HP Sizes 03, 04, 06, 07, 08, 09, 10, 13 and 14 Foot and flange mounting

SERIES K Power capacity to 100 HP Sizes 08, 09, 10 and 12 Foot, flange and shaft mounting

SERIES H Power capacity to 9020 HP Sizes 140 through 800 Single, double, triple and quadruple parallel and right angle shaft Foot and shaft mounting

SERIES A - HEAVY DUTY

Power capacity to 1220 HP Sizes 400, 500, 600, 700, 800, 10, 12, 14, 17, 20 and 24 Foot, flange and shaft mounting

SERIES C

Power capacity to 87 HP Sizes 03, 04, 05, 06, 07, 08, 09 and 10 Foot, flange and shaft mounting

SERIES F

Power capacity to 50 HP Sizes 04, 06, 07, 08, 09 and 10 Foot, flange and shaft mounting

SERIES G Power capacity to 1680 HP Sizes 14, 15, 16, 17, 18 & 19 double, triple and quadruple parallel and right angle shaft Foot, flange and shaft mounting

SERIES X Nylicon low cost couplings to 2.25" dia. bore 610 Series Cone-Ring type to 14" dia. bore 620 Series Gear type to 21" dia. bore Sadiguard Torque limiters for overload protection, to 4.5" dia. bore


CONTENTS 9611

General Description

1

Unit Designations

2

Explanation and use of Ratings and Service Factors

3

Load Classification by Applications

4

Selection Procedure

5-8

Mounting Positions

9 - 11

Exact Ratios

12

Output Options

13

Motor Adaptors / Additional Features

14

Series X Couplings

15

MOTORIZED Motor Details Selection Tables

17 - Geared Motors

18 - 26

Dimension Sheets - Geared Motors

27 - 33

REDUCER Overhung and Axial Loads on Shafts

35 - 36

Ratings - Input Power / Output Torque

37 - 60

Dimension Sheets - Speed Reducers

61 - 67

Case with Additional Machined Spigot

68

Torque Arm

69

Shipping Specification

70

Moments of Inertia

71

INSTALLATION AND MAINTENANCE Installation and Maintenance Lubrication

73 - 77 76


GENERAL DESCRIPTION 9607

Single Reduction Units (worm) Series A Junior is offered in unit sizes 280, 410, 510, 610, 730 and 860 based on a single universal case for each size, giving a high degree of common parts and interchangeability. Units can be mounted in the underdriven, over driven and vertical mounting positions and provide a choice of shaft arrangements for either motorised or reducer versions. Motors can be close coupled in frame sizes 56C to 215TC in powers from 0.25 HP to 10 HP. All units are designed with hollow output bores, output shafts can be fitted allowing handing to be changed without dismantling the unit. Double extended output shafts are also available.

Single Reduction Units (worm)

Series A Junior gives a choice of 12 standard ratios from 5/1 to 70/1 and important features include high efficiencies and load carrying capacities combined with long life and reliability. All units are lubricated for life to reduce maintainance to a minimum. Double Reduction Units (worm/worm) These units consist of a standard single reduction unit with a smaller shaft mounted Radicon fitted to the input shaft. The range extends the ratios available up to the maximum of 4200/1 making them ideal for fitting to slow moving machinery.

Double Reduction Units (worm/worm)

As with the single reduction units they are available in underdriven, over-driven and vertical types, foot mounting and shaft mounting. All lubricated for life. Motorized Units Units are designed to be close coupled with standard dimension NEMA motors. Units are also available to accept standard dimension IEC motors (consult David Brown Radicon). Lubricated for life - fit and forget Series A Junior units are factory filled with synthethic lubricant which means. -

Motorized Single Reduction Units (worm)

no oil level checks, topping up, draining or re-filling no routine maintenance or danger of starting up without lubricant they will mount in any location, however inaccesible they are particularly suitable for locations where non contamination through leakage is essentail.

For units running at input speeds below 500 rev/min with either the input or output shaft vertical, also for the second stage of all double reduction units irrespective of shaft disposition the lubricant level is simply increased - see lubrication instructions.

As improvements in design are being made continually this specification is not to be regarded as binding in detail and drawings and capacities are subject to alteration without notice. Certified drawings will be sent on request. 1

Motorized Double Reduction Units (worm/worm)


UNIT DESIGNATIONS 9609 1

2

3

4

5

6

7

8

9 10 11 12 13 14 15 16 17 18 19 20

A

0

5

1

0

7

.

5

W R

* EXAMPLE

C

-

A

-

-

-

-

-

-

20 - ADDITIONAL FEATURES PAINT, LUBRICANT, ETC eg

1-

-

F

SEE PAGE 14

SERIES A RANGE

A

19 - MOTOR REQUIRED eg

-

A

FOR R OR G TYPES WITHOUT 2-4

SIZE OF UNIT

MOTOR ENTER

eg

FOR SLOW SPEED APPLICATIONS WHERE GREATER OIL QUANTITIES ARE REQUIRED

0

5

1

ENTER 5-

D

REVISION VERSION 0

18 -

ETC

NO OF MOTOR POLES 2

6,7,8-

7

.

5

5

0

.

4

OR

15,16,17-

MOTOR POWER REQUIRED SEE PAGES eg . 7 5 18 - 26 FOR R OR G TYPE ENTER

UNIT VERSION

13,14-

W - STANDARD UNIT - STANDARD UNIT WITH OUTPUT FLANGE

T

- STANDARD UNIT WITH TORQUE ARM

G

- FEET SIDE MOUNTING

H

- FEET END MOUNTING

12 -

D

- REDUCER UNIT - DOUBLE REDUCTION

M

- MOTORIZED - SINGLE REDUCTION

G

- UNIT TO ALLOW FITTING OF NON DB RADICON MOTOR - SINGLE REDUCTION

A

- UNIT TO ALLOW FITTING OF NEMA MOTOR - SINGLE REDUCTION

N

- MOTORIZED - DOUBLE REDUCTION

H

- UNIT TO ALLOW FITTING OF NON DB RADICON MOTOR - DOUBLE REDUCTION

B

- UNIT TO ALLOW FITTING OF NEMA MOTOR - DOUBLE REDUCTION

*

-

-

E

2

SEE PAGES 9 - 11

MOTOR ADAPTOR FOR G OR A TYPE UNIT SEE PAGE 14 FOR ALL OTHER TYPES ENTER

10 - TYPE OF UNIT - REDUCER UNIT - SINGLE REDUCTION

-

MOUNTING POSITION eg

11 -

R

-

GEARED MOTOR

SEE PAGE 10

F

SEE PAGES 18 - 26

6

FOR R OR G TYPE ENTER

NOMINAL OVERALL RATIO eg

9-

-

OUTPUT SHAFT

N

- STANDARD INCH SINGLE EXTENSION

P

- STANDARD INCH DOUBLE EXTENSION

A

- STANDARD INCH SHAFT MOUNTED

C

- METRIC SINGLE EXTENSION

D

- METRIC DOUBLE EXTENSION

H

- METRIC SHAFT MOUNTED

SEE PAGE 13

THIS PAGE MAY BE PHOTOCOPIED ALLOWING THE CUSTOMER TO ENTER THEIR ORDER

2

-


EXPLANATION & USE OF RATINGS & SERVICE FACTORS

9611

Gear unit selection is made by comparing actual loads with catalogue ratings. Catalogue ratings are based on a standard set of loading conditions, whereas actual load conditions vary according to type of application. Service Factors are therefore used to calculate an equivalent load to compare with catalogue ratings. i.e. Equivalent Load = Actual Load x Service Factor Two types of Service Factor must be considered:-

Mechanical Service Factor Fm and Thermal Service Factors Ft, Fp and Fd

Table 1. Mechanical service factor Fm

Mechanical ratings and service factor Fm Mechanical ratings measure capacity in terms of life and/or strength, assuming 10 hr/day continuous running under uniform load conditions. Catalogue ratings allow for an 100% overload at starting, braking or momentarily during operation on aggregate once per hour for each hour of operation. The unit selected must therefore have a catalogue rating at least equal to half maximum overload. Mechanical Service Factor Fm (Table 1) is used to modify the actual load according to daily operating time, and type of loading. Load characteristics for a wide range of applications are detailed in Table 5 opposite, which are used in deciding the appropriate Service Factor Fm from Table 1. If overloads can be calculated, or accurately assessed, actual loads should be used instead of Fm.

Load classification-driven machine

Duration of servicehrs per day

Prime mover

Uniform

Moderate Shock

Heavy Shock

Electric motor, steam turbine or hydraulic motor

Under 3

0.80

1.00

1.50

3 to 10

1.00

1.25

1.75

Over 10

1.25

1.50

2.00

Multi-cylinder internal combustion engine

Under 3

1.00

1.25

1.75

Single cylinder internal combustion engine

3 to 10

1.25

1.50

2.00

Over 10

1.50

1.75

2.25

Under 3

1.25

1.50

2.00

3 to 10

1.50

1.75

2.25

Over 10

1.75

2.00

2.50

Table 2. Thermal service factor Ft Ambient temperature oF

For units subject to frequent stop/start overloads in excess of 10 times per day, refer to David Brown Radicon.

Factor Ft

For applications where high inertia loads are involved e.g. crane travel drives, slewing motion etc., unit selection should be referred to David Brown engineers.

-20

0

20

1.64

1.50

40

60

68

80

1.36 1.22

1.07

1.00

0.92

0 >100 >200 >300 >400 >500 >600 >700

Thermal factors are for units with fans fitted, un-fanned units to be referred to DB Radicon Applications department.

to to to to to to to

ABC

DEF

1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0

1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0

100 200 300 400 500 600 700

GHJ KMN 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0

Catalogue thermal limitations are based on the unit operating continuously in an environment with an ambient temperature equal to 68oF and in mounting position A, B or C. The thermal rating is affected by ambient temperature, duration of running per hour and mounting position. To account for these varying conditions, the Table 4. Thermal service factor Fd service factors given in tables 2,3 and 4 should be applied to the Input % Running time per hour catalogue thermal ratings as follows:Unit shaft speed (Rev/min)

= Catalogue input power thermal rating (HP)

250

Ptherm = Allowable output power thermal rating (HP) Ft

= Service factor for ambient temperature (see Table 2)

Fp

= Service factor for different mounting positions (see Table 3)

Fd

= Thermal service factor for duration of running (see Table 4)

500

875

1160

Double Reduction Units For double reduction units the factors given in tables 2 and 4 apply. The input shaft speed referred to in table 4 should now be the input speed of the primary unit. New factors should be applied for mounting position (Fp), which refer to the position of the primary unit. i ii iii

Inputshaft horizontal and wheel- line horizontal Inputshaft horizontal and wheel-line vertical Inputshaft vertical and wheel-line horizontal

General

Fp = Fp = Fp =

1.0 0.88 0.68

0.77 0.63

Mounting Position (See pages 9 and 10)

Output Speed (Rev / min)

The Thermal ratings are a measure of the gear units ability to dissipate heat. If they are exceeded the lubricant may overheat and breakdown, resulting in gear failure.

Pt

120

Table 3. Thermal service factor Fp (Single Reduction units)

Thermal ratings and service factors

Ptherm = (Pt x Ft x Fp x Fd x efficiency) / 100

100

1450

1750

2400

3500

Size

280 - 610 730 860 280 - 610 730 860 280 - 610 730 860 280 - 610 730 860 280 - 610 730 860 280 - 610 730 860 280 - 610 730 860 280 - 610 730 860

>60 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0

PST WXY

Refer to David Brown Applications Department

>50 - 60 >40 - 50 >30 - 40 >20 - 30 1.46 1.44 1.46 1.46 1.38 1.46 1.46 1.34 1.41 1.46 1.30 1.37 1.46 1.28 1.34 1.46 1.26 1.32 1.46 1.22 1.30 1.46 1.13 1.24

1.72 1.52 1.72 1.72 1.56 1.72 1.72 1.47 1.60 1.72 1.43 1.54 1.72 1.39 1.50 1.72 1.36 1.46 1.72 1.30 1.42 1.72 1.23 1.34

1.96 1.92 1.96 1.96 1.75 1.96 1.96 1.64 1.79 1.96 1.56 1.72 1.96 1.52 1.66 1.96 1.47 1.61 1.96 1.39 1.55 1.96 1.30 1.45

2.32 2.26 2.32 2.32 2.02 2.32 2.32 1.84 2.07 2.32 1.75 1.96 2.32 1.69 1.88 2.32 1.63 1.81 2.32 1.53 1.75 2.32 1.41 1.61

<20 2.86 2.75 2.86 2.86 2.38 2.86 2.86 2.16 2.45 2.86 2.05 2.32 2.86 1.97 2.21 2.86 1.89 2.14 2.86 1.75 2.03 2.86 1.58 1.85

When selecting units, use actual load required to be transmitted, not rating of prime mover. Wherever possible use required output torque (lb-in). Catalogue also gives input power rating (HP), being the power required from prime mover allowing for gear unit efficiency. When units transmit less than rated output torque, required input power may be reduced pro-rata to decide capacity of prime mover.

3


LOAD CLASSIFICATION BY APPLICATIONS 9608 Driven Machine

Table 5 U = Uniform load M = Moderate shock load H = Heavy shock load = Refer to David Brown

Driven Machine

type of load

Agitators pure liquids liquids and solids liquids-variable density

U M M

Blowers centrifugal lobe vane

U M U

Brewing and distilling bottling machinery brew kettles-continuous duty cookers-continuous duty mash tubs-continuous duty scale hopper-frequent starts

U U

M

Can filling machines

U

Cane knifes

M

Car dumpers

H

Car pullers

M

Clarifiers

U

Classifiers

M

Clay working machinery brick press briquette machine clay working machinery pug mill Compressors centrifugal lobe reciprocating multi-cylinder single cylinder Conveyors-uniformly loaded or fed apron assembly belt bucket chain flight oven screw Conveyors-heavy duty not uniformly fed apron assembly belt bucket chain flight live roll oven reciprocating screw shaker

U

U

type of load

Cranes main hoists bridge travel trolley travel

U

Crusher ore stone sugar

H H H

Dredges cable reels conveyors cutter head drives jig drives manoeuvring winches pumps screen drive stackers utility winches

M M H H M M H M M

Elevators bucket-uniform load bucket-heavy load bucket-continuous centrifugal discharge escalators freight gravity discharge man lifts passenger Fans centrifugal cooling towers induced draft forced draft induced draft large, mine, etc large, industrial light, small diameter

M M M U

M U M M

Generators-not welding

U

U M

Hammer mills

H

M H

Hoists heavy duty medium duty skip hoist

H M M

Laundry washers reversing

M

Laundry tumblers

M

M H M H

Metal mills draw bench carriage and main drive pinch, dryer and scrubber rolls-reversing slitters table conveyors non-reversing group drives individual drives reversing wire drawing and flattening machine wire winding machine

U

Food industry beef slicer cereal cooker dough mixer meat grinders

M M M M M M

Machine tools bending roll punch press-gear driven notching press- belt driven plate planers tapping machine other machine tools main drives auxiliary drives

U M U U U M U

M M U H M

U U U U U U U U

log haul-incline log haul-well type log turning device main log conveyor off bearing rolls planer feed chains planer floor chains planer tilting hoist re-saw merry-go-round conveyor roll cases slab conveyor small waste conveyor-belt small waste conveyor-chain sorting table tipple hoist conveyor tipple hoist drive transfer conveyors transfer rolls tray drive trimmer feed waste conveyor

Dry dock cranes main hoist auxiliary hoist boom, luffing rotating, swing or slew tracking, drive wheels

Feeders apron belt disc reciprocating screw

H H M M

Driven Machine

Line shafts driving processing equipment light other line shafts

M U U

Lumber industry barkers-hydraulicmechanical burner conveyor chain saw and drag saw chain transfer craneway transfer de-barking drum edger feed gang feed green chain live rolls log deck

M M H H H H M M M H H

Mill-rotary type ball cement kilns dryers and coolers kilns, other than cement pebble rod plain wedge bar tumbling barrels Mixers concrete mixers -continuous concrete mixers -intermittent constant density variable density Oil industry chillers oil well pumping paraffin filter press rotary kilns Paper mills agitators, (mixers) barker-auxiliarieshydraulic barker-mechanical barking drum beater and pulper bleacher calenders calenders-super converting machine, except cutters, platers conveyors couch cutters-plates cylinders dryers felt stretcher felt whipper jordans

4

type of load

Driven Machine

H H H H M M M M

log haul presses pulp machine reel stock chest suction roll washers and thickeners winders

M H H

Pullers barge haul

U M M M M M M M M M M H H H M U

M M M H M M H H H H H H H H

M M U M M M M M M H H M U M H M U M H M M M H M

type of load H M M M M M M

Printing presses

Pumps centrifugal proportioning reciprocating single acting; 3 or more cylinders double acting; 2 or more cylinders single acting; 1 or 2 cylinders double acting; single cylinder rotary gear type lobe, vane Rubber and plastics industries crackers laboratory equipment mixed mills refiners rubber calenders rubber mill-2 on line rubber mill-3 on line sheeter tire building machines tire and tube press openers tubers and strainers warming mills

H U M M M

U U

H M H M M M M M

M M

Sand muller

M

Sewage disposal equipment bar screens chemical feeders collectors dewatering screws scum breakers slow or rapid mixers thickeners vacuum filters

U U U M M M M M

Screens air washing rotary-stone or gravel travelling water intake

U M U

Slab pushers

M

Steering gear Stokers

U

Sugar industry cane knives crushers mills

M M M

Textile industry batchers calenders cards dry cans dryers dyeing machinery knitting machines looms mangles nappers pads range drives slashers soapers spinners tenter frames washers winders Windlass

M M M M M M M M M M M M M M M M


SELECTION PROCEDURE FOR MOTORIZED UNITS 9609 EXAMPLE

APPLICATION DETAILS

Absorbed power of driven machine = 0.505 HP Output speed of gearbox or Input speed of machine = Application = Uniformly loaded belt conveyor Duration of service (hours per day) = 24hrs David Brown mounting position = D Ambient temperature = 68 oF Running time (%) = 100%

1

58 rev/min

DETERMINE MECHANICAL SERVICE FACTOR (Fm)

Refer to Load Classification by Application, table 5, page 4 Application

=

Uniformly loaded belt conveyor

Conveyors-uniformly loaded or fed apron assembly belt bucket chain

U

U U U U U

=

Uniform load

Refer to mechanical service factor (Fm), table 1, page 3 Duration of service (hours per day) =

Prime mover

24hrs Load classification-drive

Duration of servicehrs per day

Uniform

Moderate Shock

0.80

1.00

Under 3

Electric motor, steam turbine or hydraulic motor

3 to 10

1.00

1.25

Over 10

1.25

1.50

Therefore mechanical service factor (Fm)

=

2 DETERMINE REQUIRED OUTPUT TORQUE AT GEARBOX OUTPUTSHAFT Absorbed output torque

=

Absorbed power x 63025 Gearbox output speed

0.505 x 63025 58

=

548 lb.in

1.25

3 SELECT GEARED MOTOR Refer to selection table one motor size larger than absorbed power. Absorbed power = 0.505 HP, therefore refer to 0.75 HP selection table, page 21

Column Entry

1 Through 20

Spaces to be filled when entering order

390 A 0 4 1 0 5 . 0 _ M _ - _ _ . 7 5 4 A _ 389 7. 5 380 10 . 377 13 . 370 15 . 329 20 . 234 25 . 338 30 . 129 40 .

Go to point 4

5

lb

SERIES X

inches

Cone Ring Output Coupling

Max Bore Coupling Driven Half

2.96 2.63 2.31 2.40 2.31 1.31 1.68 1.42 0.91

UNIT DESIGNATION

Motor Frame Size

127 172 239 278 316 406 478 548 667

lb Overhung Load

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

Fm Service Factor

329 235 164 138 119 88 69 58 43

lb in Output Torque

i

Ratio

4 POLE

N2 R/MIN Output Speed

0.75 HP

Weight of Base Mount Unit

Required output speed of gearbox = 58 rev/min

49.3

56C

6 110 1-

1.50


SELECTION PROCEDURE FOR MOTORIZED UNITS 9609 4 CHECK OUTPUT TORQUE Output torque of selected unit must be equal or more than required output torque at gearbox outputshaft.

Column Entry

1 Through 20

Spaces to be filled when entering order

390 A 0 4 1 0 5 . 0 _ M _ - _ _ . 7 5 4 A _ 389 7. 5 380 10 . 377 13 . 370 15 . 329 20 . 234 25 . 338 30 . 129 40 .

lb

SERIES X

inches

Cone Ring Output Coupling

Max Bore Coupling Driven Half

2.96 2.63 2.31 2.40 2.31 1.31 1.68 1.42 0.91

UNIT DESIGNATION

Motor Frame Size

127 172 239 278 316 406 478 548 667

lb Overhung Load

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

Fm Service Factor

329 235 164 138 119 88 69 58 43

lb in Output Torque

i

Ratio

4 POLE

N2 R/MIN Output Speed

0.75 HP

Weight of Base Mount Unit

Required output torque at gearbox outputshaft = 548 lb.in

49.3

56C

6 110 1-

1.50

Selected unit's output torque = 548 lb.in, therefore unit is acceptable

5 CHECK SERVICE FACTOR Service factor (Fm) of selected unit must be equal or more than required service factor.

Column Entry

1 Through 20

Spaces to be filled when entering order

390 A 0 4 1 0 5 . 0 _ M _ - _ _ . 7 5 4 A _ 389 7. 5 380 10 . 377 13 . 370 15 . 329 20 . 234 25 . 338 30 . 129 40 .

lb Motor Frame Size

2.96 2.63 2.31 2.40 2.31 1.31 1.68 1.42 0.91

UNIT DESIGNATION

Weight of Base Mount Unit

127 172 239 278 316 406 478 548 667

lb Overhung Load

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

Fm Service Factor

329 235 164 138 119 88 69 58 43

lb in Output Torque

i

Ratio

4 POLE

N2 R/MIN Output Speed

0.75 HP

49.3

56C

SERIES X

inches

Cone Ring Output Coupling

Max Bore Coupling Driven Half

Required service factor of gearbox = 1.25

6 110 1-

1.50

Selected unit's service factor (Fm) = 1.42, therefore unit is acceptable.

6 CHECK OVERHUNG LOADS If sprocket, gear, etc is mounted on the outputshaft then refer to Overhung Loads Procedure, page 35, and compare with allowable overhung load (N) of selected unit

Column Entry

1 Through 20

Spaces to be filled when entering order

390 A 0 4 1 0 5 . 0 _ M _ - _ _ . 7 5 4 A _ 389 7. 5 380 10 . 377 13 . 370 15 . 329 20 . 234 25 . 338 30 . 129 40 .

lb

SERIES X

inches

Cone Ring Output Coupling

Max Bore Coupling Driven Half

2.96 2.63 2.31 2.40 2.31 1.31 1.68 1.42 0.91

UNIT DESIGNATION

Motor Frame Size

127 172 239 278 316 406 478 548 667

N Overhung Load

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

Fm Service Factor

329 235 164 138 119 88 69 58 43

lb in Output Torque

i

Ratio

4 POLE

N2 R/MIN Output Speed

0.75 HP

Weight of Base Mount Unit

Allowable overhung load (N) must be equal or more than calculated overhung load (P)

49.3

56C

6 110 1-

1.50

NOTE: If any of the following conditions occur then consult David Brown Radicon Application Engineers:a) Inertia of the Driven Machine (Referred to motor speed) Inertia of Gear Unit plus Motor

>1.0

b) Ambient temperature is above 104oF

6

or c)

Sizes A0730 and A0860 are required without a fan


SELECTION PROCEDURE FOR REDUCER UNITS 9611 EXAMPLE

APPLICATION DETAILS

Absorbed power of driven machine = 0.375 HP Output speed of gearbox or Input speed of machine = 25 rev/min Application = Uniformly loaded belt conveyor Duration of service (hours per day) = 24 hrs Motor speed = 3 phase electric motor, 4 pole, 1750 rev/min David Brown mounting position = D Ambient temperature = 68 oF Running time (%) = 100%

2

DETERMINE MECHANICAL SERVICE FACTOR (Fm)

Refer to Load Classification by Application, table 5, page 4 Application

=

Heavy duty, non uniformly fed, bucket conveyor

Conveyors-uniformly loaded or fed 1

DETERMINE RATIO OF GEARBOX REQUIRED Motor speed Gearbox output speed

1750 25

apron assembly belt bucket chain

= 70

Refer to exact ratios (page 14) for nearest standard ratio

=

70:1

U U U U U

U

=

Moderate shock loading

Refer to mechanical service factor (Fm), table 1, page 3 Duration of service (hours per day) = 3 DETERMINE REQUIRED MECHANICAL OUTPUT TORQUE CAPACITY OF GEARBOX Absorbed output torque

=

Absorbed power x 63025 Gearbox output speed

Electric motor, steam turbine or hydraulic motor

0.375 x 63025 = 945 lb.in 25 Required mechanical output torque

= Absorbed output x Fm torque

945 x 1.25 =

Duration of servicehrs per day

Prime mover

1181 lb.in

24 hrs Load classification-drive Uniform

Moderate Shock

Under 3

0.80

1.00

3 to 10

1.00

1.25

Over 10

1.25

1.50

Therefore mechanical service factor (Fm)

=

1.25

DETERMINE SIZE OF GEAR BOX REQUIRED

4

Refer to ratings tables, Input speed = 1750rpm, therefore refer to page 43.

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

25.00

70.0

SIZE OF UNIT

CAPACITY

A0510 0.39 0.81 0.20 497 50

Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb-in (mech.) Efficiency %

A0610

A0730

A0860

0.64 1.08 0.34 848 53

0.94 2.24 0.57 1430 60

1.47 2.69 0.92 2320 63

Mechanical output torque capacity must be equal or more than required mechanical output torque capacity of gear box. Required mechanical output torque capacity = 1181 lb-in. At a 70:1 ratio, nominal output speed 25 an A0730 unit has a mechanical output torque capacity of 1430 lb-in. Therefore the unit is acceptable

5

DETERMINE EXACT RATIO OF GEARBOX Refer to exact ratios table, page 12

Nominal Ratio Column Entry 6 7 8 7 0 .

Size A0510

Size A0610

Size A0730

Size A0860

Exact Ratio

Exact Ratio

Exact Ratio

Exact Ratio

70

70

70

Exact ratio

=

70

70.0:1

6 CHECK THERMAL CAPACITY OF GEARBOX SELECTED DETERMINE THERMAL INPUT POWER CAPACITY (Pt) Refer to ratings tables

NOMINAL RATIO

25.00

70.0

Pt

NOMINAL OUTPUT SPEED REV / MIN

=

CAPACITY

SIZE OF UNIT A0510 0.39 0.81 0.20 497 50

Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb-in (mech.) Efficiency %

2.24 HP

7

A0610

A0730

A0860

0.64 1.08 0.34 848 53

0.94 2.24 0.57 1430 60

1.47 2.69 0.92 2320 63

Go to point 7


SELECTION PROCEDURE FOR REDUCER UNITS 9611 7

DETERMINE THERMAL SERVICE FACTOR (Ft) Refer to table 2, page 3 Ambient temperature =

8

Ambient temperature oF Factor Ft

-20

0

1.64

1.50

Ft

9

68 oF

=

20

40

60

68

1.36 1.22

1.07

1.0

DETERMINE THERMAL SERVICE FACTOR (Fp) Refer to table 3, page 3 Mounting position Nominal output speed (rev/min)

1.0

Unit Output Shaft Speed (Rev / min)

DETERMINE THERMAL SERVICE FACTOR (Fd)

0 >100 >200

Refer to table 4, page 3 % running time = 100 Input shaft speed (Rev / min)

% Running time per hour Unit Size 280 - 610 730

1750 Fd

=

10

>60

to to to

Fp

100 200 300 =

>50 - 60

1.0 1.0

1.46 1.26

1.0

DETERMINE REQUIRED POWER OF ELECTRIC MOTOR Refer to ratings tables to determine gear unit efficiency

NOMINAL OUTPUT SPEED REV / MIN

NOMINAL RATIO

25.00

70.0

Efficiency % = 60

CAPACITY

0.39 0.81 0.20 497 50

Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb-in (mech.) Efficiency %

A0610

A0730

A0860

0.64 1.08 0.34 848 53

0.94 2.24 0.57 1430 60

1.47 2.69 0.92 2320 63

Required motor power = Absorbed power of driven machine x 100 = .375 x 100 = Efficiency 60

The next largest standard motor power available is selected

11

SIZE OF UNIT A0510

0.75 HP

DETERMINE ALLOWABLE OUTPUT POWER THERMAL RATING (Ptherm) Ptherm

= = =

Pt x Ft x Fp x Fd x efficiency 100 2.24 x 1.0 x 1.0 x 1.0 x 60 100 1.344 HP

Thermal output power capacity (Ptherm) must be equal or more than absorbed output power to drive machine Absorbed output power = 0.375 HP Ptherm = 1.344 HP Therefore unit is acceptable

12

CHECK OVERHUNG LOADS

If sprocket, gear, etc is mounted on the input or output shaft then refer to Overhung loads procedure, pages 35 and 36

NOTE: If any of the following conditions occur then consult David Brown Radicon Application Engineers:-

or

a)

Inertia of the Driven Machine (Referred to motor speed) Inertia of Gear Unit plus Motor

b)

Ambient temperature is above 120oF

c)

The unit is required without a fan

>1.0

8

.625 HP

= =

Mounting ABC

DEF

1.0 1.0 1.0

1.0 1.0 1.0

1.0

D 25


HANDING & MOUNTING POSITIONS 9608

COLUMN 13 ENTRY

DOUBLE OUTPUT SHAFTS ARE AVAILABLE FOR ALL MOUNTING POSITIONS

A

B

C

D

E

F

G

H

J

K

M

N 9


HANDING & MOUNTING POSITIONS 9608

COLUMN 13 ENTRY

DOUBLE OUTPUT SHAFTS ARE AVAILABLE FOR ALL MOUNTING POSITIONS

P

S

T

W

X

Y

10


PRIMARY UNIT MOUNTING POSITION 9607

COLUMN 14 ENTRY

COLUMN 14 ENTRY

1

2

3

4

5

6

7

8

PRIMARY UNIT POSITION RELATIVE TO THE SECONDARY UNIT FOR SINGLE REDUCTION ENTER

-

11


EXACT RATIOS 9608 SINGLE REDUCTION Nominal Ratio Column Entry 6 5 7 1 1 1 2 2 3 4 5 6 7

7 . . 0 2 5 0 5 0 0 0 0 0

8 0 5 . . . . . . . . . .

A0280

A0410

A0510

A0610

A0730

A0860

5.250 7.333 10.50 12.50 14.50 20.00 25.00 30.00 40.00 50.00 60.00 70.00

5.250 7.333 10.50 12.50 14.50 19.50 25.00 30.00 40.00 50.00 60.00 70.00

4.800 7.333 10.50 12.50 14.50 20.00 25.00 30.00 40.00 50.00 60.00 70.00

5.000 7.333 9.667 12.50 15.00 20.00 25.00 30.00 40.00 50.00 60.00 70.00

5.200 7.250 10.33 12.50 14.50 19.50 25.00 30.00 40.00 50.00 60.00 70.00

4.833 7.250 9.667 12.67 14.50 19.50 25.00 30.00 40.00 50.00 60.00 70.00

A0410

A0510

A0610

A0730

A0860

76.13 102.4 131.3 152.3 204.8 210.3 262.5 290.0 362.5 367.5 390.0 435.0 500.0 600.0 625.0 735.0 750.0 780.0 900.0 1000. 1200. 1250. 1365. 1500. 1600. 1750. 1800. 2000. 2100. 2400. 2500. 2800. 3000. 3500. 3600. 4200.

76.13 105.0 131.3 152.3 210.0 210.3 262.5 290.0 362.5 367.5 400.0 435.0 500.0 600.0 625.0 735.0 750.0 800.0 900.0 1000. 1200. 1250. 1400. 1500. 1600. 1750. 1800. 2000. 2100. 2400. 2500. 2800. 3000. 3500. 3600. 4200.

78.75 105.0 131.3 157.5 210.0 217.5 262.5 292.5 362.5 367.5 390.0 435.0 487.5 585.0 625.0 676.7 750.0 800.0 900.0 1000. 1200. 1250. 1400. 1500. 1600. 1750. 1800. 2000. 2100. 2400. 2500. 2800. 3000. 3500. 3600. 4200.

76.13 102.4 131.3 152.3 204.8 210.3 262.5 282.8 362.5 367.5 380.3 435.0 487.5 585.0 625.0 723.3 750.0 780.0 900.0 1000. 1200. 1250. 1365. 1500. 1600. 1750. 1800. 2000. 2100. 2400. 2500. 2800. 3000. 3500. 3600. 4200.

69.60 93.60 120.0 152.3 204.8 210.3 262.5 290.0 336.0 362.5 390.0 435.0 500.0 600.0 625.0 676.7 750.0 780.0 900.0 1000. 1200. 1250. 1365. 1500. 1600. 1750. 1800. 2000. 2100. 2400. 2500. 2800. 3000. 3500. 3600. 4200.

DOUBLE REDUCTION Nominal Ratio 75.00 100.00 125.00 150.00 200.00 225.00 250.00 300.00 350.00 375.00 400.00 450.00 500.00 600.00 625.00 700.00 750.00 800.00 900.00 1000.00 1200.00 1250.00 1400.00 1500.00 1600.00 1750.00 1800.00 2000.00 2100.00 2400.00 2500.00 2800.00 3000.00 3500.00 3600.00 4200.00

Column Entry 6 7 1 1 1 2 2 2 3 3 3 4 4 5 6 6 7 7 8 9 1 1 1 1 1 1 1 1 2 2 2 2 2 3 3 3 4

7 5 0 2 5 0 2 5 0 5 7 0 5 0 0 2 0 5 0 0 0 2 3 4 5 6 7 8 0 1 4 5 8 0 5 6 2

8 . 0 5 0 0 5 0 0 0 5 0 0 0 0 5 0 0 0 0 C C C C C C C C C C C C C C C C C

12


OUTPUT OPTIONS 9609

OUTPUTSHAFT OPTIONS, COLUMN 11 ENTRY

SIZE OF UNIT

A0280

A0410

A0510

A0610

A0730

A0860

COLUMN 11 ENTRY TYPE OF DOUBLE OUTPUTSHAFT SINGLE

DIMENSIONS IN INCHES (METRIC IN MM)

EXT

EXT

A

B

C

Standard Inch

N

P

1.25"

0.9375"

0.16"

Metric

C

D

35

23

5.5

Standard Inch

N

P

1.625"

1.3125"

0.16"

Metric

C

D

45

34

6

Standard Inch

N

P

2.125"

1.7500"

0.19"

Metric

C

D

57

42

7

Standard Inch

N

P

2.625"

2.0000"

0.25"

Metric

C

D

70

55

7

Standard Inch

N

P

3.25"

2.5000"

0.25"

Metric

C

D

83

62

7

Standard Inch

N

P

3.875"

3.2500"

0.31"

Metric

C

D

98

80

8

D

E

øF

0.190" 0.188" 5.000 4.970 0.190" 0.188" 6.000 5.970 0.252" 0.250" 8.000 7.964 0.252" 0.250" 8.000 7.964 0.252" 0.250" 8.000 7.964 0.377" 0.375" 10.000 9.964

0.707" 0.699" 18.00 17.87 0.834" 0.826" 22.50 22.37 1.110" 1.102" 28.00 27.71 1.238" 1.230" 31.00 30.71 1.364" 1.356" 33.00 32.71 1.666" 1.658" 38.00 37.71

0.6250" 0.6245" 16.012 16.001 0.7500" 0.7495" 20.015 20.002 1.0000" 0.9995" 25.015 25.002 1.1250" 1.1245" 28.015 28.002 1.2500" 1.2495" 30.015 30.002" 1.5000" 1.4995" 35.018 35.002

OUTPUTBORE OPTIONS, COLUMN 11 ENTRY

SIZE OF UNIT

A0280

A0410

A0510

A0610

A0730

A0860

TYPE OF OUTPUTBORE

COLUMN 11 ENTRY

Standard Inch

A

Metric

H

Standard Inch

A

Metric

H

Standard Inch

A

Metric

H

Standard Inch

A

Metric

H

Standard Inch

A

Metric

H

Standard Inch

A

Metric

H

DIMENSIONS IN INCHES (METRIC IN MM) G

H

J

0.6257" 0.6250" 16.034 16.016 0.7508" 0.7500" 22.041 22.020 1.0008" 1.0000" 25.041 25.020 1.3760" 1.3750" 35.050 35.025 1.6260" 1.6250" 40.050 40.025 1.8760" 1.8750" 50.050 50.025

0.715" 0.709" 18.4 18.3 0.843" 0.837" 24.9 24.8 1.120" 1.114" 28.5 28.3 1.524" 1.518" 38.5 38.3 1.802" 1.796" 43.5 43.3 2.102" 2.096" 54.0 53.8

0.1895" 0.1875" 5.015 4.985 0.1895" 0.1875" 6.015 5.985 0.252" 0.250" 8.018 7.982 0.3145" 0.3125" 10.018 9.982 0.377" 0.375" 12.021 11.979 0.502" 0.500" 14.021 13.979

13

K 1.575" 40 1.969" 50 2.205" 56 2.520" 64 3.031" 77 3.661" 93

M 0.635" 0.630" 16.3 16.2 0.760" 0.755" 22.3 22.2 1.010" 1.005" 25.3 25.2 1.385" 1.380" 35.3 35.2 1.635" 1.630" 40.3 40.2 1.885" 1.880" 50.3 50.2

N 1.26" 32 1.57" 40 1.77" 45 1.97" 50 2.36" 60 2.87" 73


MOTOR ADAPTORS IEC & NEMA ADDITIONAL FEATURES 9609

NEMA MOTOR ADAPTORS, COLUMN 12 ENTRY FOR A TYPE ONLY MOTOR FRAME/FLANGE

UNIT SIZE A0280

A0410

A0510

A0610

A0730

A0860

56C

T

T

T

T

-

-

143TC / 145TC

-

V

V

V

V

V

182TC / 184TC

-

-

-

X

X

X

213TC / 215TC

-

-

-

-

-

Y

IEC MOTOR ADAPTORS, COLUMN 12 ENTRY FOR G TYPE ONLY MOTOR FRAME/FLANGE

UNIT SIZE A0280

A0410

A0510

A0610

A0730

A0860

63/D

A

-

-

-

-

-

71/D

B

B

B

-

-

-

71/C

C

C

C

-

-

-

80/D

-

D

D

D

D

-

80/C

-

E

E

E

-

-

90/D

-

-

F

F

F

F

90/C

-

-

G

G

G

-

100/112D

-

-

-

H

H

H

100/112C

-

-

-

J

J

J

132/D

-

-

-

-

-

K

132/C

-

-

-

-

-

L

ADDITIONAL FEATURES - COLUMN 20 ENTRY COLUMN 20 ENTRY

SPIGOT CASE

B H K R T 2 3 4 5 6 7

• • • • • •

PRIME PAINTED ONLY

• • • • • • 14

LUBRICANT TYPE

MINERAL

• •

• •

SYNTHETIC

• • • •


CONE RING FLEXIBLE COUPLINGS 9611

This type of coupling compensates for normal angular and parallel misalignment of shafts, together with a limited freedom of axial movement. The conical section rubber rings provide greatly improved torsional flexibility in drives where shock or cyclic loadings are present.

Coupling Size

A

D

E

F

H

J

01 02 03 04 05 06 07 08 09 10 11 12

2.52 2.76 3.27 3.28 4.61 5.00 5.79 7.09 8.11 9.06 10.08 11.65

5.28 5.79 6.73 7.60 8.46 10.00 10.98 12.99 14.61 16.50 17.99 20.98

0.55 0.55 0.75 0.75 0.75 1.22 1.22 1.18 1.81 1.81 1.81 1.81

1.10 1.10 1.38 1.38 1.38 2.20 2.20 2.40 3.19 3.19 3.19 3.19

0.79 0.47 1.02 0.75 0.43 1.81 1.34 0.87 1.77 1.18 0.47 0

0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.12 0.24 0.24 0.24 0.24

UNIT SIZE

The coupling pin withdrawal distance is dimension H for straight bored couplings

STANDARD IMPERIAL SHAFT EXTENSION DIAMETER (INCHES)

A0280

0.6250 / 0.6245

A0410

0.7500 / 0.7495

A0510

1.0000 / 0.9995

A0610

1.1250 / 1.1245

A0730

1.2500 / 1.2495

A0860

1.5000 / 1.4995

Coupling Type 611 Straight bored Coupling size

Max. bore

01 02 03 04 05 06 07 08 09 10 11 12

1.50 1.65 1.89 2.36 2.76 3.15 3.54 3.94 4.72 5.51 5.90 6.69

Min. bore Driving Driven half half * * * * * 0.98 1.18 1.57 1.97 3.15 3.54 3.94

0.75 0.87 0.98 1.10 1.26 1.65 2.17 2.36 2.56 3.15 3.54 3.94

Hub length C 1.89 2.20 2.40 2.68 2.99 3.46 3.94 4.61 5.20 5.79 6.50 7.40

Torque Max HP lbf-in per 100 rpm 1575 2365 4098 6363 9071 18904 28355 44870 74995 98943 133635 207356

Max rpm unbalanced

2.5 3.75 6.5 10.1 14.4 30.0 45.0 71.2 119.0 157.0 212.0 329.0

4780 4355 3745 3320 3000 2520 2295 1940 1725 1530 1400 1200

* Note: up to size 05 the Driving half hubs are solid. Rating may be increased by 20% for speeds below 10 rpm. For applications in ambient temperatures above 100oC (212oF) or below -20oC (-4oF) refer to David Brown Radicon.

15


MOTOR DETAILS 9812 CC

BF 4 HOLES

øU øBD øAJ øAK

øFP

AH

MOTOR FRAME SIZE

ø BD

ø AJ

ø AK

øU

ø AH

CC max

56C

6.50

5.88

4.5

0.625

2.06

14.06

7.19

0.38

143TC/145TC

6.50

5.88

4.5

0.875

2.13

14.19

7.19

0.38

ø FP

BF TAP UNC

These dimensions apply to David Brown Radicon Standard Motors

CC

BF 4 HOLES

øU øBD øAK øAJ

øFP

AH

MOTOR FRAME SIZE

ø BD

ø AJ

ø AK

øU

ø AH

CC max

182TC/184TC

9.00

7.25

8.5

1.125

2.63

18.06

8.50

0.50

213TC/215TC

9.00

7.25

8.5

1.375

3.13

19.44

10.19

0.50

ø FP

BF TAP UNC

These dimensions apply to David Brown Radicon Standard Motors

17


SELECTION TABLES GEARED MOTORS 9608

42 56 77 88 101 122 147 168 186

3.93 3.57 3.25 2.93 2.56 2.33 2.09 1.67 0.97

256 A 0 2 8 0 5 . 0 _ M _ - _ _ . 2 5 4 A _ 256 7. 5 256 10 . 256 13 . 254 15 . 254 20 . 253 25 . 251 30 . 251 40 .

33.4

56C

6 110 1-

1.50

88 43 35 29 25

19.50 40.00 50.00 60.00 70.00

135 222 253 261 284

3.92 2.73 1.76 1.32 0.99

393 A 0 4 1 0 2 0 . _ M _ - _ _ . 2 5 4 A _ 388 40 . 388 50 . 388 60 . 386 70 .

42.3

56C

6 110 1-

1.50

23 16 13 11

76.13 105.00 131.25 152.25

436 546 619 733

2.02 1.30 1.42 1.20

381 A 0 4 1 0 7 5 . _ N _ - _ _ . 2 5 4 A _ 352 10 0 345 12 5 314 15 0

51.1

56C

6 110 1-

1.50

35 29 25

50.00 60.00 70.00

272 301 322

2.99 2.10 1.54

899 A 0 5 1 0 5 0 . _ M _ - _ _ . 2 5 4 A _ 899 60 . 896 70 .

51.1

56C

6 110 1-

1.50

78.75 105.00 131.25 157.50 210.00 217.50 262.50 292.50 362.50 390.00 435.00 487.50

465 568 674 810 982 1041 1148 1200 1460 1435 1666 1660

2.81 3.60 3.24 1.82 2.23 1.50 1.90 1.36 1.50 1.52 1.28 1.32

892 A 0 5 1 0 7 5 . _ N _ - _ _ . 2 5 4 A _ 890 10 0 885 12 5 880 15 0 874 20 0 871 22 5 862 25 0 824 30 0 782 35 0 798 40 0 732 45 0 741 50 0

59.9

56C

6 110 16 110 2-

1.50 1.65

6 6 6 6

-

1.50 1.65 1.50 1.65

60.00 70.00

317 336

3.29 2.52

984 A 0 6 1 0 6 0 . _ M _ - _ _ . 2 5 4 A _ 980 70 .

64.3

56C

6 110 1-

1.50

152.25 204.75 210.25 262.50 282.75 362.50 367.50 380.25 435.00 487.50 585.00 625.00 723.33 750.00 780.00 900.00 1000.00 1200.00 1250.00

850 1001 1077 1177 1386 1464 993 1614 1632 1862 2069 2006 1954 2207 2346 2452 2648 2892 3040

3.19 2.91 2.65 2.68 2.16 2.15 0.99 1.95 1.93 1.69 1.52 1.57 1.04 1.43 1.34 1.28 1.19 1.09 1.04

932 A 0 6 1 0 1 5 0 _ N _ - _ _ . 2 5 4 A _ 916 20 0 907 22 5 898 25 0 867 30 0 864 35 0 883 37 5 838 40 0 843 45 0 808 50 0 779 60 0 799 62 5 763 70 0 770 75 0 743 80 0 727 90 0 696 10 C 654 12 C 627 12 C

81.9

56C

6 110 3-

1.89

6 110 16 110 3-

1.50 1.89

6 110 26 110 3-

1.65 1.89

204.75 210.25 262.50 290.00 336.00 362.50 390.00 435.00 500.00 600.00 625.00 676.67 750.00 780.00 900.00 1000.00 1200.00 1250.00 1365.00 1500.00 1600.00 1750.00 1800.00

1151 1165 1320 1500 1653 1277 1870 1888 2109 2394 2291 2176 2589 2789 2880 3058 3427 3518 3694 3936 3961 4119 4056

3.35 3.61 3.18 2.80 2.54 1.30 2.16 2.23 1.99 1.76 1.83 1.02 1.62 1.51 1.46 1.37 1.23 1.19 1.02 1.07 1.05 1.02 1.04

1455 A 0 7 3 0 2 0 0 _ N _ - _ _ . 2 5 4 A _ 1455 22 5 1442 25 0 1419 30 0 1410 35 0 1424 37 5 1382 40 0 1388 45 0 1355 50 0 1323 60 0 1348 62 5 1312 70 0 1316 75 0 1287 80 0 1280 90 0 1253 10 C 1198 12 C 1183 12 C 1148 14 C 1074 15 C 989 16 C 573 17 C 802 18 C

110.6

6 110 36 110 4-

1.89 2.36

6 110 26 110 36 110 4-

1.65 1.89 2.36

6 110 26 110 4-

1.65 2.36

6 110 36 110 4-

1.89 2.36

11 8.4 8.2 6.6 6.1 4.8 4.7 4.5 4.0 3.5 2.9 2.8 2.4 2.3 2.2 1.9 1.7 1.4 1.4 8.4 8.2 6.6 5.9 5.1 4.8 4.4 4.0 3.5 2.9 2.8 2.5 2.3 2.2 1.9 1.7 1.4 1.4 1.3 1.1 1.1 .99 .96

Overhung Load

Motor Frame Size

Max Bore Coupling Driven Half

inches

Weight of Base Mount Unit

SERIES X

Service Factor

lb

Output Torque

UNIT DESIGNATION

5.25 7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00

29 25

Other output speeds are available using 2 and 6 pole motors Consult David Brown Radicon

lb

329 235 164 138 119 86 69 58 43

22 16 13 11 8.2 7.9 6.6 5.9 4.8 4.4 4.0 3.5

NOTE

Fm

Ratio

4 POLE

i

lb in

Output Speed

0.25 HP

N2 R/MIN

Column Entry

1 Through 20

Spaces to be filled when entering order

18

56C

Cone Ring Output Coupling

1 1 1 1

1 1 1 1

0 0 0 0

1 2 1 2


SELECTION TABLES GEARED MOTORS 9608 SERIES X Cone Ring Output Coupling

inches Max Bore Coupling Driven Half

lb

329 235 164 138 119 86 69 58

5.25 7.33 10.50 12.50 14.50 20.00 25.00 30.00

55 74 102 116 134 162 194 222

2.98 2.71 2.46 2.22 1.94 1.77 1.58 1.27

255 A 0 2 8 0 5 . 0 _ M _ - _ _ . 3 3 4 A _ 255 7. 5 255 10 . 254 13 . 250 15 . 252 20 . 247 25 . 243 30 .

35.4

56C

6 110 1-

1.50

88 69 58 43 35 29

19.50 25.00 30.00 40.00 50.00 60.00

178 210 241 293 334 345

2.97 3.81 3.23 2.07 1.33 1.00

383 A 0 4 1 0 2 0 . _ M _ - _ _ . 3 3 4 A _ 366 25 . 382 30 . 347 40 . 370 50 . 375 60 .

44.3

56C

6 110 1-

1.50

23 16 13

76.13 105.00 131.25

575 721 817

1.53 0.99 1.08

295 A 0 4 1 0 7 5 . _ N _ - _ _ . 3 3 4 A _ 239 10 0 234 12 5

53.1

56C

6 110 1-

1.50

43 35 29 25

40.00 50.00 60.00 70.00

314 359 397 425

3.12 2.27 1.59 1.17

892 A 0 5 1 0 4 0 . _ M _ - _ _ . 3 3 4 A _ 891 50 . 894 60 . 892 70 .

53.1

56C

6 110 1-

1.50

78.75 105.00 131.25 157.50 210.00 217.50 262.50 292.50

614 750 890 1069 1296 1374 1516 1584

2.13 2.72 2.46 1.38 1.69 1.13 1.44 1.03

874 A 0 5 1 0 7 5 . _ N _ - _ _ . 3 3 4 A _ 870 10 0 858 12 5 829 15 0 804 20 0 788 22 5 766 25 0 737 30 0

61.9

56C

6 110 16 110 2-

1.50 1.65

6 6 6 6

-

1.50 1.65 1.50 1.65

50.00 60.00 70.00

375 418 444

3.61 2.50 1.91

975 A 0 6 1 0 5 0 . _ M _ - _ _ . 3 3 4 A _ 969 60 . 963 70 .

66.3

56C

6 110 1-

1.50

23 17 13 11 8.4 8.2 6.6 6.1 4.8 4.5 4.0 3.5 2.9 2.8 2.3 2.2

76.13 102.38 131.25 152.25 204.75 210.25 262.50 282.75 362.50 380.25 435.00 487.50 585.00 625.00 750.00 780.00

632 755 900 1123 1321 1421 1554 1830 1932 2131 2155 2458 2731 2648 2913 3096

3.79 3.38 3.35 2.42 2.20 2.01 2.03 1.63 1.63 1.48 1.46 1.28 1.15 1.19 1.08 1.02

926 A 0 6 1 0 7 5 . _ N _ - _ _ . 3 3 4 A _ 936 10 0 921 12 5 893 15 0 856 20 0 761 22 5 842 25 0 799 30 0 792 35 0 570 40 0 573 45 0 714 50 0 674 60 0 690 62 5 647 75 0 397 80 0

83.9

56C

6 110 3-

1.89

11 8.4 8.2 6.6 5.9 5.1 4.8 4.4 4.0 3.5 2.9 2.8 2.3 2.2 1.9 1.7

152.25 204.75 210.25 262.50 290.00 336.00 362.50 390.00 435.00 500.00 600.00 625.00 750.00 780.00 900.00 1000.00

1207 1519 1538 1743 1980 2182 1686 2468 2492 2783 3161 3024 3418 3682 3802 4036

3.48 2.54 2.73 2.41 2.12 1.93 0.98 1.64 1.69 1.51 1.33 1.39 1.23 1.14 1.11 1.04

1442 A 0 7 3 0 1 5 0 _ N _ - _ _ . 3 3 4 A _ 1300 20 0 1300 22 5 1352 25 0 1191 30 0 1184 35 0 1361 37 5 1305 40 0 1309 45 0 978 50 0 900 60 0 917 62 5 1200 75 0 1162 80 0 1146 90 0 801 10 C

112.6

56C

6 110 46 110 36 110 4-

2.36 1.89 2.36

6 110 26 110 36 110 4-

1.65 1.89 2.36

22 16 13 11 8.2 7.9 6.6 5.9 35 29 25

Overhung Load

Motor Frame Size

UNIT DESIGNATION

Weight of Base Mount Unit

lb

Service Factor

Fm

Output Torque

T

lb in

Ratio

4 POLE

i

Output Speed

N2 R/MIN

0.33 HP

Column Entry

1 Through 20

Spaces to be filled when entering order

NOTE Other output speeds are available using 2 and 6 pole motors Consult David Brown Radicon

19

1 1 1 1

1 1 1 1

0 0 0 0

1 2 1 2


SELECTION TABLES GEARED MOTORS 9608 SERIES X

inches Max Bore Coupling Driven Half

lb

329 235 164 138 119 86 69 58

5.25 7.33 10.50 12.50 14.50 20.00 25.00 30.00

84 113 155 176 203 245 294 336

1.97 1.79 1.63 1.47 1.28 1.17 1.04 0.84

255 A 0 2 8 0 5 . 0 _ M _ - _ _ . 5 0 4 A _ 254 7. 5 252 10 . 251 13 . 242 15 . 249 20 . 233 25 . 227 30 .

37.4

56C

6 110 1-

1.50

235 164 138 119 88 69 58 43 35

7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00 50.00

115 159 185 210 270 319 365 444 507

3.94 3.46 3.60 3.46 1.96 2.51 2.13 1.37 0.88

391 A 0 4 1 0 7 . 5 _ M _ - _ _ . 5 0 4 A _ 387 10 . 385 13 . 381 15 . 361 20 . 312 25 . 364 30 . 259 40 . 331 50 .

46.3

56C

6 110 1-

1.50

23

76.13

872

1.01

112 A 0 4 1 0 7 5 . _ N _ - _ _ . 5 0 4 A _

55.1

56C

6 110 1-

1.50

119 58 43 35 29

14.50 30.00 40.00 50.00 60.00

217 385 477 544 602

3.91 3.17 2.06 1.50 1.05

897 A 0 5 1 0 1 5 . _ M _ - _ _ . 5 0 4 A _ 884 30 . 873 40 . 873 50 . 885 60 .

55.1

56C

6 110 1-

1.50

78.75 931 105.00 1137 131.25 1348 157.50 1620

1.41 1.80 1.62 0.91

835 A 0 5 1 0 7 5 . _ N _ - _ _ . 5 0 4 A _ 829 10 0 800 12 5 721 15 0

63.9

56C

6 110 16 110 2-

1.50 1.65

22 16 13 11 43 35 29 25

Overhung Load

Motor Frame Size

UNIT DESIGNATION

Weight of Base Mount Unit

lb

Service Factor

T

Fm

Output Torque

4 POLE

i

Ratio

0.50 HP

lb in

Output Speed

N2 R/MIN

Column Entry

1 Through 20

Spaces to be filled when entering order

Cone Ring Output Coupling

40.00 50.00 60.00 70.00

490 568 634 673

3.75 2.38 1.65 1.26

958 A 0 6 1 0 4 0 . _ M _ - _ _ . 5 0 4 A _ 947 50 . 936 60 . 927 70 .

68.3

56C

6 110 26 110 1-

1.65 1.50

23 17 13 11 8.4 8.2 6.6 6.1 4.8

76.13 102.38 131.25 152.25 204.75 210.25 262.50 282.75 362.50

959 1144 1363 1701 2002 2154 2355 2773 2928

2.50 2.23 2.21 1.60 1.45 1.33 1.34 1.08 1.08

832 A 0 6 1 0 7 5 . _ N _ - _ _ . 5 0 4 A _ 881 10 0 855 12 5 809 15 0 729 20 0 453 22 5 724 25 0 656 30 0 638 35 0

85.9

56C

6 110 3-

1.89

25 18 14 11 8.4 8.2 6.6 5.9 5.1 4.4 4.0

69.60 93.60 120.00 152.25 204.75 210.25 262.50 290.00 336.00 390.00 435.00

1013 1296 1529 1829 2302 2331 2641 3000 3306 3740 3777

3.67 2.72 2.75 2.30 1.68 1.80 1.59 1.40 1.27 1.08 1.11

1368 A 0 7 3 0 7 5 . _ N _ - _ _ . 5 0 4 A _ 1377 10 0 1194 12 5 1368 15 0 970 20 0 970 22 5 1160 25 0 709 30 0 704 35 0 1142 40 0 1142 45 0

114.6

56C

NOTE Other output speeds are available using 2 and 6 pole motors Consult David Brown Radicon

20

6 110 3-

1.89

6 110 4-

2.36

6 110 36 110 4-

1.89 2.36

6 110 36 110 4-

1.89 2.36


SELECTION TABLES GEARED MOTORS 9608 SERIES X Cone Ring Output Coupling

inches Max Bore Coupling Driven Half

lb

329 235 164 138 119

5.25 7.33 10.50 12.50 14.50

126 170 232 265 305

1.31 1.19 1.08 0.98 0.85

254 A 0 2 8 0 5 . 0 _ M _ - _ _ . 7 5 4 A _ 251 7. 5 249 10 . 247 13 . 231 15 .

40.4

56C

6 110 1-

1.50

329 235 164 138 119 88 69 58 43

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

127 172 239 278 316 406 478 548 667

2.96 2.63 2.31 2.40 2.31 1.31 1.68 1.42 0.91

390 A 0 4 1 0 5 . 0 _ M _ - _ _ . 7 5 4 A _ 389 7. 5 380 10 . 377 13 . 370 15 . 329 20 . 234 25 . 338 30 . 129 40 .

49.3

56C

6 110 1-

1.50

119 86 69 58 43 35

14.50 20.00 25.00 30.00 40.00 50.00

326 414 495 577 715 816

2.61 3.23 2.86 2.11 1.37 1.00

894 A 0 5 1 0 1 5 . _ M _ - _ _ . 7 5 4 A _ 880 20 . 887 25 . 868 30 . 844 40 . 848 50 .

58.1

56C

6 110 1-

1.50

22

78.75 1397

0.94

777 A 0 5 1 0 7 5 . _ N _ - _ _ . 7 5 4 A _

66.9

56C

6 110 1-

1.50

86 69 58 43 35 29 25

20.00 423 25.00 511 30.00 591 40.00 735 50.00 852 60.00 951 70.00 1010

3.93 3.84 3.37 2.50 1.59 1.10 0.84

961 A 0 6 1 0 2 0 . _ M _ - _ _ . 7 5 4 A _ 951 25 . 941 30 . 922 40 . 905 50 . 888 60 . 875 70 .

71.3

56C

6 110 2-

1.65

6 110 1-

1.50

6 110 3-

1.89

Overhung Load

Motor Frame Size

UNIT DESIGNATION

Weight of Base Mount Unit

T T

lb

Service Factor

T T

Fm

Output Torque

T

lb in

Ratio

4 POLE

i

Output Speed

N2 R/MIN

0.75 HP

Column Entry

1 Through 20

Spaces to be filled when entering order

23 17 13 11 8.4

76.13 102.38 131.25 152.25 204.75

1438 1717 2045 2552 3003

1.67 1.49 1.48 1.06 0.97

693 A 0 6 1 0 7 5 . _ N _ - _ _ . 7 5 4 A _ 800 10 0 758 12 5 685 15 0 541 20 0

88.9

56C

25 18 14 11 8.4 8.2 6.6

69.60 93.60 120.00 152.25 204.75 210.25 262.50

1520 1945 2293 2744 3453 3497 3962

2.45 1.82 1.83 1.53 1.12 1.20 1.06

1225 A 0 7 3 0 7 5 . _ N _ - _ _ . 7 5 4 A _ 1255 10 0 896 12 5 1259 15 0 485 20 0 485 22 5 878 25 0

117.6

56C

NOTE Other output speeds are available using 2 and 6 pole motors Consult David Brown Radicon

21

6 110 3-

1.89

6 110 4-

2.36

6 110 36 110 4-

1.89 2.36


SELECTION TABLES GEARED MOTORS 9608

T

T

SERIES X

inches Max Bore Coupling Driven Half

lb

329 235 164 138 119 88 69 58

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00

169 230 319 371 421 541 638 731

2.22 1.97 1.73 1.80 1.73 0.98 1.26 1.07

389 A 0 4 1 0 5 . 0 _ M _ - _ _ 1 . 0 4 A _ 388 7. 5 374 10 . 369 13 . 358 15 . 297 20 . 156 25 . 312 30 .

54.3

143TC

6 110 1-

1.50

235 164 138 119 86 69 58 43

7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00

236 327 380 435 552 661 770 954

3.37 3.13 3.00 1.96 2.42 2.14 1.59 1.03

896 A 0 5 1 0 7 . 5 _ M _ - _ _ 1 . 0 4 A _ 893 10 . 892 13 . 890 15 . 869 20 . 879 25 . 851 30 . 816 40 .

63.1

143TC

6 110 1-

1.50

138 115 86 69 58 43 35 29

12.50 387 15.00 456 20.00 564 25.00 681 30.00 788 40.00 980 50.00 1136 60.00 1268

3.83 3.41 2.95 2.88 2.52 1.88 1.19 0.82

961 A 0 6 1 0 1 3 . _ M _ - _ _ 1 . 0 4 A _ 954 15 . 940 20 . 926 25 . 913 30 . 887 40 . 863 50 . 840 60 .

76.3

143TC

6 110 1-

1.50

6 110 2-

1.65

6 110 1-

1.50

23 17 13

76.13 1918 102.38 2289 131.25 2727

1.25 1.12 1.11

554 A 0 6 1 0 7 5 . _ N _ - _ _ 1 . 0 4 A _ 719 10 0 661 12 5

93.9

143TC

6 110 3-

1.89

143TC

6 110 26 110 3-

1.65 1.89

6 110 2-

1.65

6 110 1-

1.50

6 110 3-

1.89

6 110 4-

2.36

6 110 3-

1.89

6 110 2-

1.65

Overhung Load

Motor Frame Size

T T

UNIT DESIGNATION

Weight of Base Mount Unit

T T

lb

Service Factor

T

Fm

Output Torque

4 POLE

i

Ratio

1.00 HP

lb in

Output Speed

N2 R/MIN

Column Entry

1 Through 20

Spaces to be filled when entering order

88 58 43 35 29 25

19.50 30.00 40.00 50.00 60.00 70.00

606 855 1085 1290 1438 1535

3.79 3.05 2.34 1.82 1.26 0.93

1483 A 0 7 3 0 2 0 . _ M _ - _ _ 1 . 0 4 A _ 1459 30 . 1434 40 . 1409 50 . 1391 60 . 1373 70 .

102.8

25 18 14 11

69.60 93.60 120.00 152.25

2027 2593 3058 3659

1.84 1.36 1.37 1.15

1083 A 0 7 3 0 7 5 . _ N _ - _ _ 1 . 0 4 A _ 1133 10 0 598 12 5 1151 15 0

122.6

50.00 1317 60.00 1483 70.00 1609

2.80 1.90 1.44

2383 A 0 8 6 0 5 0 . _ M _ - _ _ 1 . 0 4 A _ 2383 60 . 2360 70 .

144.6

35 29 25

NOTE Other output speeds are available using 2 and 6 pole motors Consult David Brown Radicon

22

143TC

143TC

Cone Ring Output Coupling


SELECTION TABLES GEARED MOTORS 9608

T T T

SERIES X Cone Ring Output Coupling

inches Max Bore Coupling Driven Half

lb

329 235 164 138 119

5.25 7.33 10.50 12.50 14.50

254 345 479 557 632

1.48 1.31 1.15 1.20 1.15

386 A 0 4 1 0 5 . 0 _ M _ - _ _ 1 . 5 4 A _ 384 7. 5 361 10 . 353 13 . 335 15 .

58.3

145TC

6 110 1-

1.50

359 235 164 138 119 86 69 58

4.80 238 7.33 354 10.50 491 12.50 570 14.50 652 20.00 828 25.00 991 30.00 1155

3.00 2.25 2.09 2.00 1.30 1.61 1.43 1.06

894 A 0 5 1 0 5 . 0 _ M _ - _ _ 1 . 5 4 A _ 893 7. 5 888 10 . 887 13 . 883 15 . 848 20 . 865 25 . 818 30 .

67.1

145TC

6 110 1-

1.50

235 178 138 115 86 69 58 43

7.33 360 9.67 464 12.50 581 15.00 685 20.00 846 25.00 1022 30.00 1183 40.00 1471

3.46 3.08 2.56 2.27 1.97 1.92 1.68 1.25

962 A 0 6 1 0 7 . 5 _ M _ - _ _ 1 . 5 4 A _ 948 10 . 932 13 . 920 15 . 899 20 . 877 25 . 856 30 . 816 40 .

82.5

145TC

6 110 1-

1.50

6 110 2-

1.65

23

76.13 2877

0.83

276 A 0 6 1 0 7 5 . _ N _ - _ _ 1 . 5 4 A _

97.9

145TC

6 110 3-

1.89

10.33 14.50 19.50 25.00 30.00 40.00 50.00 60.00

512 696 909 1101 1282 1628 1935 2158

3.85 3.48 2.53 2.91 2.04 1.56 1.22 0.84

1489 A 0 7 3 0 1 0 . _ M _ - _ _ 1 . 5 4 A _ 1470 15 . 1446 20 . 1428 25 . 1276 30 . 1368 40 . 1330 50 . 1300 60 .

106.8

145TC

6 6 6 6

-

1.65 1.89 1.65 1.89

6 110 2-

1.65

25 18

69.60 3041 93.60 3890

1.22 0.91

798 A 0 7 3 0 7 5 . _ N _ - _ _ 1 . 5 4 A _ 888 10 0

126.6

145TC

6 110 3-

1.89

88 58 43 35 29 25

19.50 30.00 40.00 50.00 60.00 70.00

3.87 3.39 2.71 1.87 1.27 0.96

2357 A 0 8 6 0 2 0 . _ M _ - _ _ 1 . 5 4 A _ 2304 30 . 2320 40 . 2331 50 . 2301 60 . 2337 70 .

148.6

145TC

6 110 36 110 4-

1.89 2.36

6 110 3-

1.89

167 119 88 69 58 43 35 29

919 1312 1669 1975 2224 2414

Overhung Load

Motor Frame Size

T T

UNIT DESIGNATION

Weight of Base Mount Unit

T

lb

Service Factor

T T

Fm

Output Torque

T T

lb in

Ratio

4 POLE

i

Output Speed

N2 R/MIN

1.50 HP

Column Entry

1 Through 20

Spaces to be filled when entering order

NOTE Other output speeds are available using 2 and 6 pole motors Consult David Brown Radicon

23

1 1 1 1

1 1 1 1

0 0 0 0

2 3 2 3


SELECTION TABLES GEARED MOTORS 9608

T T

T T T T

SERIES X

inches Max Bore Coupling Driven Half

lb

359 235 164 138 119 86

4.80 317 7.33 472 10.50 655 12.50 761 14.50 870 20.00 1104

2.25 1.69 1.57 1.50 0.98 1.21

894 A 0 5 1 0 5 . 0 _ M _ - _ _ 2 . 0 4 A _ 890 7. 5 883 10 . 881 13 . 876 15 . 827 20 .

74.1

145TC

6 110 1-

1.50

345 235 178 138 115 86 69 58 43

5.00 7.33 9.67 12.50 15.00 20.00 25.00 30.00 40.00

334 480 619 775 913 1128 1363 1577 1961

3.23 2.60 2.31 1.92 1.71 1.47 1.44 1.26 0.94

961 A 0 6 1 0 5 . 0 _ M _ - _ _ 2 . 0 4 A _ 943 7. 5 925 10 . 903 13 . 887 15 . 858 20 . 828 25 . 800 30 . 746 40 .

89.5

145TC

6 110 1-

1.50

6 110 2-

1.65

238 167 138 119 88 69 58 43 35

7.25 10.33 12.50 14.50 19.50 25.00 30.00 40.00 50.00

489 683 809 928 1213 1468 1710 2171 2581

3.93 2.89 3.01 2.61 1.90 2.18 1.53 1.17 0.91

1487 A 0 7 3 0 7 . 5 _ M _ - _ _ 2 . 0 4 A _ 1467 10 . 1453 13 . 1442 15 . 1410 20 . 1384 25 . 1094 30 . 1303 40 . 1251 50 .

113.8

6 110 2-

1.65

6 110 3-

1.89

6 110 26 110 3-

1.65 1.89

25

69.60 4055

0.92

513 A 0 7 3 0 7 5 . _ N _ - _ _ 2 . 0 4 A _

133.6

145TC

6 110 3-

1.89

88 69 58 43 35 29

19.50 25.00 30.00 40.00 50.00 60.00

2.90 3.33 2.54 2.04 1.40 0.95

2331 A 0 8 6 0 2 0 . _ M _ - _ _ 2 . 0 4 A _ 2306 25 . 2225 30 . 2257 40 . 2280 50 . 2219 60 .

155.6

145TC

6 110 36 110 4-

1.89 2.36

6 110 3-

1.89

1226 1490 1749 2226 2634 2966

Overhung Load

Motor Frame Size

T T

UNIT DESIGNATION

Weight of Base Mount Unit

T T

lb

Service Factor

T

Fm

Output Torque

4 POLE

i

Ratio

2.00 HP

lb in

Output Speed

N2 R/MIN

Column Entry

1 Through 20

Spaces to be filled when entering order

NOTE Other output speeds are available using 2 and 6 pole motors Consult David Brown Radicon

24

145TC

Cone Ring Output Coupling


SELECTION TABLES GEARED MOTORS 9608

T T T T T

SERIES X Cone Ring Output Coupling

5.00 7.33 9.67 12.50 15.00 20.00 25.00

501 720 929 1163 1370 1693 2045

2.15 1.73 1.54 1.28 1.14 0.98 0.96

933 A 0 6 1 0 5 . 0 _ M _ - _ _ 3 . 0 4 A _ 905 7. 5 878 10 . 846 13 . 820 15 . 776 20 . 731 25 .

109.5

182TC

332 238 167 138 119 88 69 58

5.20 7.25 10.33 12.50 14.50 19.50 25.00 30.00

532 733 1025 1214 1393 1819 2203 2565

3.41 2.62 1.93 2.00 1.74 1.26 1.45 1.02

1478 A 0 7 3 0 5 . 0 _ M _ - _ _ 3 . 0 4 A _ 1455 7. 5 1424 10 . 1403 13 . 1384 15 . 1336 20 . 1296 25 . 729 30 .

138.2

238 178 136 119 88 69 58 43 35

7.25 9.67 12.67 14.50 19.50 25.00 30.00 40.00 50.00

737 970 1253 1409 1839 2235 2624 3339 3951

3.97 3.50 2.79 2.84 1.93 2.22 1.70 1.36 0.93

2372 A 0 8 6 0 7 . 5 _ M _ - _ _ 3 . 0 4 A _ 2367 10 . 2327 13 . 2305 15 . 2279 20 . 2229 25 . 2068 30 . 2131 40 . 2178 50 .

180.0

Overhung Load

345 235 178 138 115 86 69

Column Entry

1 Through 20

Spaces to be filled when entering order

NOTE Other output speeds are available using 2 and 6 pole motors Consult David Brown Radicon

25

182TC

182TC

inches Max Bore Coupling Driven Half

lb Motor Frame Size

T T

UNIT DESIGNATION

Weight of Base Mount Unit

T T

lb

Service Factor

T

Fm

Output Torque

T

lb in

Ratio

4 POLE

i

Output Speed

N2 R/MIN

3.00 HP

6 1 10 1-

1.50

6 1 10 2-

1.65

6 1 10 2-

1.65

6 1 10 3-

1.89

6 1 10 26 1 10 3-

1.65 1.89

6 1 10 3-

1.89

6 1 10 4-

2.36

6 1 10 3-

1.89


SELECTION TABLES GEARED MOTORS 9608

T

2.36

2372 A 0 8 6 0 5 . 0 _ M _ - _ _5 . 0 4 A _ 2362 7. 5 2352 10 . 2272 13 . 2227 15 . 2176 20 . 2075 25 . 1753 30 . 1879 40 .

194.0

lb in

Fm

357 238 178 136 119

1244 1842 2425 3133 3524 5589

2.36 1.59 1.40 1.12 1.14 0.89

lb in

Fm

i

4.83 7.25 9.67 12.67 14.50

1658 2457 3234 4178 4699

1.77 1.19 1.05 0.84 0.85

Overhung Load

4.83 7.25 9.67 12.67 14.50 25.00

UNIT DESIGNATION Column Entry

1 Through 20

Spaces to be filled when entering order

2366 A 0 8 6 0 5 . 0 _ M _ - _ _7 . 5 4 A _ 2350 7. 5 2334 10 . 2202 13 . 2129 15 . 1883 25 .

lb

UNIT DESIGNATION Column Entry

1 Through 20

Spaces to be filled when entering order

2360 A 0 8 6 0 5 . 0 _ M _ - _ _1 0 . 4 A _ 2338 7. 5 2315 10 . 2133 13 . 2032 15 .

NOTE Other output speeds are available using 2 and 6 pole motors Consult David Brown Radicon

26

lb

SERIES X

inches

Cone Ring Output Coupling

242.0

213TC

6 110 3-

1.89

6 110 4-

2.36

lb

SERIES X Cone Ring Output Coupling

257.0

215TC

Spaces to be filled when entering order

inches Max Bore Coupling Driven Half

357 238 178 136 119 69

lb

184TC

Max Bore Coupling Driven Half

3.54 2.38 2.10 1.67 1.70 1.16 1.33 1.02 0.81

Motor Frame Size

829 1228 1617 2089 2349 3065 3726 4373 5565

Weight of Base Mount Unit

4.83 7.25 9.67 12.67 14.50 19.50 25.00 30.00 40.00

i

Max Bore Coupling Driven Half

Motor Frame Size

6 110 4-

Overhung Load

1.89

Service Factor

6 110 3-

357 238 178 136 119 88 69 58 43

Motor Frame Size

T

1.89

152.2

Output Speed

4 POLE

6 110 3-

1429 A 0 7 3 0 5 . 0 _ M _ - _ _5 . 0 4 A _ 1391 7. 5 1337 10 . 1303 13 . 1270 15 . 1119 25 .

N2 R/MIN

10.0 HP

1.65

2.04 1.57 1.16 1.20 1.04 0.87

Cone Ring Output Coupling

Weight of Base Mount Unit

T T

6 110 2-

887 1223 1708 2023 2322 3672

Overhung Load

T

184TC

1 Through 20

Spaces to be filled when entering order

5.20 7.25 10.33 12.50 14.50 25.00

Output Speed

4 POLE

1.50

Column Entry

332 238 167 138 119 69

N2 R/MIN

7.50 HP

6 110 1-

Service Factor

T T T

inches

184TC

Service Factor

T

SERIES X

123.5

Output Torque

T

lb

879 A 0 6 1 0 5 . 0 _ M _ - _ _5 . 0 4 A _ 829 7. 5 784 10 .

Output Torque

T T T

UNIT DESIGNATION

1.29 1.04 0.93

Ratio

T

5.00 835 7.33 1201 9.67 1549

lb

Weight of Base Mount Unit

345 235 178

Fm

Ratio

4 POLE

i

lb in Output Torque

Output Speed

5.00 HP

Ratio

N2 R/MIN

6 110 3-

1.89

6 110 4-

2.36


DIMENSIONS SINGLE REDUCTION 9611 A

0

0

W A

STANDARD UNIT

SIZE

A

B

øC

øC1

D

E

E1

E2

F1

H

L

N1

N2

A0280

2.283

1.125

0.625

0.625

3.125

1.250

0.9375

0.16

0.35

2.067

1.635

1.18

1.575

1.26

A0410

2.598

1.625

0.750

0.750

3.875

1.625

1.3125

0.16

0.45

2.303

1.930

1.26

1.969

1.57

A0510

2.913

2.000

1.000

1.000

4.625

2.125

1.75

0.19

0.45

2.244

2.045

1.38

2.205

1.77

A0610

3.425

2.375

1.375

1.125

5.500

2.625

2.0

0.25

0.45

2.599

2.205

1.58

2.520

1.97

A0730

4.134

2.875

1.625

1.250

6.625

3.250

2.5

0.25

0.53

3.189

2.755

1.77

3.031

2.36

A0860

4.606

3.375

1.875

1.500

7.875

3.875

3.25

0.31

0.69

3.544

3.110

2.16

3.661

2.87

SIZE

øN3 0.635 0.630 0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

P1 1.89

P2 1.77

P3 1.73

Q 2.42

R 1.99

S 3.189

T 2.09

U 0.35

2.28

2.16

2.16

2.72

2.36

3.976

2.44

0.39

2.48

2.40

2.40

2.64

2.44

4.409

2.96

0.47

2.84

2.64

2.72

3.15

2.64

5.197

3.39

0.55

3.42

3.19

3.31

3.74

3.31

6.024

4.06

0.63

4.09

3.82

3.90

4.25

3.82

7.008

4.57

0.71

V 0.715 0.709 0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

V1 0.707 0.699 0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

W 0.1895 0.1875 0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

W1 0.190 0.188 0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

A0280 A0410 A0510 A0610 A0730 A0860

A0280

A0410

A0510

A0610

A0730

A0860

KO

øBD

øFP

AB

K (max)

K (max)

K (max)

K (max)

K (max)

K (max)

56C

12.00

6.50

7.19

5.25

17.48

18.06

19.09

19.96

143/145TC

12.06

6.50

7.19

5.25

18.12

19.15

20.02

21.71

22.73

182/184TC

15.44

9.00

8.50

5.88

23.95

25.29

26.55

213/215TC

16.31

9.00

10.19

7.38

MOTORS MOTOR FRAME SIZE

ALL SIZES

J

27.42

27


DIMENSIONS SINGLE REDUCTION 9611 A

0

0

F

A

STANDARD UNIT FLANGE MOUNTED

A1 3.189

A3 2.480

A5 1.93

B 1.125

øC 0.625

øC1 0.625

D 3.125

E 1.250

E1 0.9375

E2 0.16

3.976

3.150

2.36

1.625

0.750

0.750

3.875

1.625

1.3125

0.16

4.409

3.543

2.56

2.000

1.000

1.000

4.625

2.125

1.75

0.19

5.197

4.134

2.80

2.375

1.375

1.125

5.500

2.625

2.0

0.25

6.024

4.724

3.58

2.875

1.625

1.250

6.625

3.250

2.5

0.25

7.008

5.197

3.94

3.375

1.875

1.500

7.875

3.875

3.25

0.31

P1 1.89

P3 1.73

P4 1.99

Q1 4.72

R3 2.36

S 2.283

T 2.09

U3 0.12

U4 0.28

2.28

2.16

2.36

5.51

2.84

2.598

2.44

0.14

0.31

2.48

2.40

2.44

6.30

3.46

2.913

2.96

0.16

0.35

A0610

2.84

2.72

2.64

7.87

4.33

3.425

3.39

0.18

0.39

A0730

3.42

3.31

3.31

9.84

5.35

4.134

4.06

0.20

0.47

A0860

4.09

3.90

3.82

9.84

R2 3.1508 3.1496 3.7415 3.7402 4.3321 4.3307 5.1197 5.1181 7.0882 7.0866 7.0882 7.0866

5.91

4.606

4.57

0.20

0.47

SIZE

A0280 A0410 A0510 A0610 A0730 A0860

SIZE

A0280 A0410 A0510

V 0.715 0.709 0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

N1 1.575

N2 1.26

1.969

1.57

2.205

1.77

2.520

1.97

3.031

2.36

3.661

2.87

V1 0.707 0.699 0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

W 0.1895 0.1875 0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

øN3 0.635 0.630 0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

W1 0.190 0.188 0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

A0280

A0410

A0510

A0610

A0730

A0860

KO

øBD

øFP

AB

K (max)

K (max)

K (max)

K (max)

K (max)

K (max)

56C

12.00

6.50

7.19

5.25

17.48

18.06

19.09

19.96

143/145TC

12.06

6.50

7.19

5.25

18.12

19.15

20.02

21.71

22.73

182/184TC

15.44

9.00

8.50

5.88

23.95

25.29

26.55

213/215TC

16.31

9.00

10.19

7.38

MOTORS MOTOR FRAME SIZE

ALL SIZES

F7 ø0.26 on 3.937 pcd ø0.35 on 4.528 pcd ø0.35 on 5.118 pcd ø0.43 on 6.496 pcd ø0.53 on 8.465 pcd ø0.53 on 8.465 pcd

27.42

28


DIMENSIONS SINGLE REDUCTION 9611 A

0

0

G

A

STANDARD UNIT SIDE MOUNTED FEET

Feet can be fitted on either side of the gearcase as shown by the dotted line

SIZE

A

A6

B

øC

øC1

D

E

E1

E2

F1

H

J2

J3

N1

A0280

2.283

2.441

1.125

0.625

0.625

3.125

1.250

0.9375

0.16

0.35

2.067

4.00

3.09

1.575

A0410

2.598

2.953

1.625

0.750

0.750

3.875

1.625

1.3125

0.16

0.45

2.303

5.00

3.62

1.969

A0510

2.913

3.071

2.000

1.000

1.000

4.625

2.125

1.75

0.19

0.45

2.244

5.43

3.94

2.205

A0610

3.425

3.386

2.375

1.375

1.125

5.500

2.625

2.0

0.25

0.45

2.599

6.38

4.61

2.520

A0730

4.134

4.055

2.875

1.625

1.250

6.625

3.250

2.5

0.25

0.53

3.189

7.32

5.43

3.031

A0860

4.606

4.646

3.375

1.875

1.500

7.875

3.875

3.25

0.31

0.69

3.544

8.54

6.14

3.661

SIZE

N2 1.26

øN3 0.635 0.630 0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

P1 1.89

P2 1.77

P3 1.73

R 1.99

R4 7.84

S 3.189

T 2.09

U6 0.20

2.28

2.16

2.16

2.36

9.72

3.976

2.44

0.24

2.48

2.40

2.40

2.44

10.47

4.409

2.96

0.24

2.84

2.64

2.72

2.64

12.56

5.197

3.39

0.31

3.42

3.19

3.31

3.31

14.09

6.024

4.06

0.31

4.09

3.82

3.90

3.82

16.34

7.008

4.57

0.39

V 0.715 0.709 0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

V1 0.707 0.699 0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

W 0.1895 0.1875 0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

W1 0.190 0.188 0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

A0280 A0410 A0510

1.57 1.77

A0610

1.97

A0730

2.36

A0860

2.87

MOTOR FRAME SIZE

ALL SIZES

A0280

A0410

A0510

A0610

A0730

A0860

KO

øBD

øFP

AB

K (max)

K (max)

K (max)

K (max)

K (max)

K (max)

56C

12.00

6.50

7.19

5.25

17.48

18.06

19.09

19.96

143/145TC

12.06

6.50

7.19

5.25

18.12

19.15

20.02

21.71

22.73

182/184TC

15.44

9.00

8.50

5.88

23.95

25.29

26.55

213/215TC

16.31

9.00

10.19

7.38

MOTORS

27.42

29


DIMENSIONS SINGLE REDUCTION 9611 A

0

0

H A

STANDARD UNIT END MOUNTED FEET

SIZE

A

B

øC

øC1

D

E

E1

E2

F1

J

J2

J3

N1

N2

A0280

2.283

1.125

0.625

0.625

3.125

1.250

0.9375

0.16

0.35

1.635

4.00

3.09

1.575

1.26

A0410

2.598

1.625

0.750

0.750

3.875

1.625

1.3125

0.16

0.45

1.930

5.00

3.62

1.969

1.57

A0510

2.913

2.000

1.000

1.000

4.625

2.125

1.75

0.19

0.45

2.045

5.43

3.94

2.205

1.77

A0610

3.425

2.375

1.375

1.125

5.500

2.625

2.0

0.25

0.45

2.205

6.38

4.61

2.520

1.97

A0730

4.134

2.875

1.625

1.250

6.625

3.250

2.5

0.25

0.53

2.755

7.32

5.43

3.031

2.36

A0860

4.606

3.375

1.875

1.500

7.875

3.875

3.25

0.31

0.69

3.110

8.54

6.14

3.661

2.87

SIZE

øN3 0.635 0.630 0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

P1 1.89

P2 1.77

P3 1.73

R 1.99

R4 7.84

S 3.189

T4 2.874

U6 0.20

2.28

2.16

2.16

2.36

9.72

3.976

3.327

0.24

2.48

2.40

2.40

2.44

10.47

4.409

3.268

0.24

2.84

2.64

2.72

2.64

12.56

5.197

3.780

0.31

3.42

3.19

3.31

3.31

14.09

6.024

4.488

0.31

4.09

3.82

3.90

3.82

16.34

7.008

5.079

0.39

V 0.715 0.709 0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

V1 0.707 0.699 0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

W 0.1895 0.1875 0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

W1 0.190 0.188 0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

A0280 A0410 A0510 A0610 A0730 A0860

MOTOR FRAME SIZE

ALL SIZES

A0280

A0410

A0510

A0610

A0730

A0860

KO

øBD

øFP

AB

K (max)

K (max)

K (max)

K (max)

K (max)

K (max)

56C

12.00

6.50

7.19

5.25

17.48

18.06

19.09

19.96

143/145TC

12.06

6.50

7.19

5.25

18.12

19.15

20.02

21.71

22.73

182/184TC

15.44

9.00

8.50

5.88

23.95

25.29

26.55

213/215TC

16.31

9.00

10.19

7.38

MOTORS

27.42

30


DIMENSIONS DOUBLE REDUCTION 9611 A

0

0

W B

STANDARD UNIT * Fans not fitted to sizes 410, 510 and 610

SIZE

A

A1

B

B1

øC

E2

F1

H

J

L

N1

N2

øN3

P1

A0410

1.625

2.350 1.125

0.750 0.750

3.875

1.625 1.3125

0.16

0.45

2.303

1.930

1.26

1.969

1.57

2.28

A0510

2.913 2.283

2.000

2.409 1.125

1.000 1.000

4.625

2.125

1.75

0.19

0.45

2.244

2.045

1.38

2.205

1.77

A0610 3.425 2.598

2.375

2.823 1.625

1.375 1.125

5.500

2.625

2.0

0.25

0.45

2.599

2.205

1.58

2.520

1.97

A0730 4.134 2.598

2.875

3.150 1.625

1.625 1.250

6.625

3.250

2.5

0.25

0.53

3.189

2.755

1.77

3.031

2.36

A0860 4.606 2.913

3.375

3.634 2.000

1.875 1.500

7.875

3.875

3.25

0.31

0.69

3.544

3.110

2.16

3.661

2.87

0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

R

S

S1

D

E

E1

SIZE

P2

P3

Q

S2

S3

T4

U

A0410

2.16

2.16

2.72

2.42

2.36

3.976 3.189

2.283

4.225

2.44

4.961

1.89

2.09

0.39

A0510

2.40

2.40

2.64

2.42

2.44

4.409 3.189

2.283

4.914

2.96

5.630

1.89

2.09

0.47

A0610

2.64

2.72

3.15

2.72

2.64

5.197 3.976

2.598

5.800

3.39

6.732

2.28

2.44

0.55

A0730

3.19

3.31

3.74

2.72

3.31

6.024 3.976

2.598

7.009

7.76

7.559

2.28

2.44

0.63

A0860

3.82

3.90

4.25

2.64

3.82

7.008 4.409

2.913

7.980

8.94

8.189

2.48

2.96

0.71

ALL SIZES

T

T2

T3

V 0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

V1

W

W1

0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

2.48 2.84 3.42 4.09

A0410

A0510

A0610

A0730

A0860

KO

øBD

FP

AB

K (max)

K (max)

K (max)

K (max)

K (max)

56C

12.00

6.50

7.19

5.25

17.48

17.48

18.06

18.06

19.09

143/145TC

12.06

6.50

7.19

5.25

18.12

18.12

19.15

MOTORS MOTOR FRAME SIZE

Q2

B2

øC1

2.598 2.283

31


DIMENSIONS DOUBLE REDUCTION 9611 A

0

0

F

B

STANDARD UNIT FLANGE MOUNTED

* Fans not fitted to sizes 410, 510 and 610 Viewed in direction of arrow Y

SIZE

E2

F7

N1

N2

øN3

P4

Q

Q1

0.750

0.750 3.875

1.625 1.3125

0.16

1.969

1.57

2.72

5.51

2.56

2.000 1.125

1.000

1.000 4.625

2.125

1.75

0.19

2.205

1.77

2.40

2.64

6.30

A0610 3.425 2.598

2.80

2.375 1.625

1.375

1.125 5.500

2.625

2.0

0.25

2.520

1.97

2.64

3.15

7.87

4.134 2.598

3.58

2.875 1.625

1.625

1.250 6.625

3.250

2.5

0.25

3.031

2.36

3.19

3.74

9.84

A0860 4.606 2.913

3.94

3.375 2.000

1.875

1.500 7.875

3.875

3.25

0.31

3.661

2.87

0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

2.16

2.913 2.283

0.35 on 4.528 pcd ø0.35 on 5.118 pcd ø 0.43 on 6.496 pcd ø 0.53 on 8.465 pcd ø0.53 on 8.465 pcd

3.82

4.25

9.84

A0730

B

B2

øC1

1.625 1.125

A0510

A5

øC

2.36

A0410

A

A1

2.598 2.283

D

E

E1

SIZE

Q2

R2

R3

S2

S3

T4

U3

U4

A0410

2.72

3.7415 3.7402 4.3321 4.3307 5.1197 5.1181 7.0882 7.0866 7.0882 7.0866

2.84

3.976 3.189

4.276

3.150

2.44

4.961

1.89

2.09

0.14

0.31

3.46

4.409 3.189

4.669

3.543

2.96

5.630

1.89

2.09

0.16

0.35

4.33

5.197 3.976

5.760

4.134

3.39

6.732

2.28

2.44

0.18

0.39

5.35

6.024 3.976

6.350

4.724

7.76

7.559

2.28

2.44

0.20

0.47

5.91

7.008 4.409

7.197

5.197

8.94

8.189

2.48

2.96

0.20

0.47

A0510 2.64 A0610 3.15 A0730

3.74

A0860

4.25

S1

ALL SIZES

T

T2

T3

V

V1

W

W1

0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

A0410

A0510

A0610

A0730

A0860

KO

øBD

FP

AB

K (max)

K (max)

K (max)

K (max)

K (max)

56C

12.00

6.50

7.19

5.25

17.48

17.48

18.06

18.06

19.09

143/145TC

12.06

6.50

7.19

5.25

18.12

18.12

19.15

MOTORS MOTOR FRAME SIZE

S

32


DIMENSIONS DOUBLE REDUCTION 9611 A

0

0

G

B

STANDARD UNIT SIDE MOUNTED FEET

* Fans not fitted to sizes 410, 510 and 610 Viewed in direction of arrow Y

SIZE

A

A1

A5

A6

B2

B

øC

øC1

D

E

E1

E2

F1

H

J2

J3

N1

N2

A0410 2.598 2.283

2.16

2.953 1.625

1.125 0.750

0.750

3.875 1.625 1.3125

0.16

0.45

2.303

5.00

3.62

1.969

1.57

A0510 2.913 2.283

2.40

3.071 2.000

1.125 1.000

1.000

4.625 2.125

1.75

0.19

0.45

2.244

5.43

3.94

2.205

1.77

A0610 3.425 2.598

2.64

3.386 2.375

1.625 1.375

1.125

5.500 2.625

2.0

0.25

0.45

2.599

6.38

4.61

2.520

1.97

A0730 4.134 2.598

3.19

4.055 2.875

1.625 1.625

1.250

6.625 3.250

2.5

0.25

0.53

3.189

7.32

5.43

3.031

2.36

A0860 4.606 2.913

3.82

4.646 3.375

2.000 1.875

1.500

7.875 3.875

3.25

0.31

0.69

3.544

8.54

6.14

3.661

2.87

SIZE

øN3

P4

Q

T

T2

T3

T4

U6

A0410

0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

2.16

2.72

2.36

3.976

3.189 4.079

2.44

4.961

1.89

2.09

0.24

2.40

2.64

2.44

4.409

3.189 4.197

2.96

5.630

1.89

2.09

0.24

2.72

3.15

2.64

5.197

3.976 5.012

3.39

6.732

2.28

2.44

0.31

3.31

3.74

3.31

6.024

3.976 5.681

7.76

7.559

2.28

2.44

0.31

3.90

4.25

3.82

7.008

4.409 6.646

8.94

8.189

2.48

2.96

0.39

A0510 A0610 A0730 A0860

S

S1

S2

ALL SIZES

V 0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

V1 0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

W

W1

0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

A0410

A0510

A0610

A0730

A0860

KO

øBD

FP

AB

K (max)

K (max)

K (max)

K (max)

K (max)

56C

12.00

6.50

7.19

5.25

17.48

17.48

18.06

18.06

19.09

143/145TC

12.06

6.50

7.19

5.25

18.12

18.12

19.15

MOTORS MOTOR FRAME SIZE

R

33


OVERHUNG LOADS (lbs) ON SHAFTS 9611 Maximum permissible overhung loads When a sprocket, gear etc. is mounted on the shaft a calculation, as below, must be made to determine the overhung load on the shaft, and the results compared to the maximum permissible overhung loads tabulated. Overhung loads can be reduced by increasing the diameter of the sprocket, gear, etc. If the maximum permissible overhung load is exceeded, the sprocket, gear, etc. should be mounted on a separate shaft, flexibly coupled and supported in its own bearings, or the gear unit shaft should be extended to run in an outboard bearing. Alternatively, a larger gear is often a less expensive solution. Permissible overhung loads vary according to the direction of rotation. The values tabulated are for the most unfavourable direction with the unit transmitting full rated power and the load P applied midway along the shaft extension. Hence they can sometimes be increased for a more favourable direction of rotation, or if the power transmitted is less than the rated capacity of the gear unit, or if the load is applied nearer to the gear unit case. Refer to David Brown Radicon for further details. In any event, the sprocket, gear etc. should be positioned as close as possible to the gear unit case in order to reduce bearing loads and shaft stresses, and to prolong life. All units will accept 100% momentary overload on stated capacities. Overhung member Chain sprocket* Spur or helical pinion Vee belt sheave Flat belt pulley

Overhung load (lbs) P = HP x 126,000 x K NxD where P HP N D K

= = = = =

K (factor) 1.00 1.25 1.50 2.00

* If multistrand chain drives are equally loaded and the outer stand is further than dimension A output or B input, refer to David Brown Radicon.

equivalent overhung load (lb) power transmitted by the shaft (HP) speed of shaft (rpm) pitch diameter of sprocket, etc. (in) factor

Note: 1 lb = 2.2047 kg = 4.4484 Newtons.

Frb

Fra

Fra

C

A

A

Output Shaft

Single reduction (worm)

Double reduction (worm/worm)

Distance midway along the shaft extension Size of unit A0280 A0410 A0510 A0610 A0730 A0860

B

Input Shaft

Output Shaft

Input Shaft

Frb

Dimension A (inches) 0.625 0.8125 1.0625 1.3125 1.625 1.9375

Dimension B (inches) 0.5625 0.5625 0.8125 0.8125 0.9375

35

Dimension C (inches) 0.5625 0.8125 0.9375 1.125 1.375 1.625


OVERHUNG LOADS & AXIAL THRUSTS (POUNDS) OVERHUNG LOAD OUTPUT SHAFT (POUNDS)

OVERHUNG LOAD INPUT SHAFT (POUNDS)

Nominal Input Nominal Output Shaft Ratio Speed (rev/min) A0280 (rev/min)

Nominal Input Nominal Output Shaft Ratio Speed (rev/min) A0280 (rev/min)

1750

A0410

A0510

A0610

A0730

A0860

Size of Unit A0410

A0510

A0610

350

252

383

876

815

1300

2330

5.0

350

23.1

125

7.5

233.33

250

376

878

820

1300

2330

7.5

233.33

38.8

110

10.

175

249

341

822

798

1280

2310

10.

175

39.2

67.4

93.9

84.8

60.9

12.5

140

247

323

815

775

1220

2170

12.5

140

74

97.4

88.8

85.3

99.1

15.

116.67

246

309

866

768

1230

2110

15.

116.67

40

94.3

45.5

67.1

82.4

20.

87.50

234

348

817

770

1250

2160

20.

87.50

89.7

41.9

161

149

25.

70

229

291

812

756

1140

1960

25.

70

65.5

82.9

143

142

30

58.33

235

220

793

747

1220

2020

30

58.33

64.9

64.9

40

43.75

251

338

850

760

1230

2010

40

43.75

103

69.9

41.2

50

35

253

378

878

829

1280

2170

50

35

104

59.8

82.9

1750

60.2

39.6 103

40.7 100

114 78.5 105

43.4 140 85.5

80.6 170 152 54.0 101 61.1 206 131

50.1

88.3

52.3

93.8

29.17

254

384

884

871

1340

2330

60

29.17

104

70

25

255

386

889

899

1380

2340

70

25

104

5.0

232

251

377

846

783

1250

2310

5.0

232

7.5

154.67

249

355

851

783

1250

2210

7.5

154.67

116

232

325

804

760

1250

2160

10.

24.6

54

75

50.4

30.1

89

231

293

787

749

1190

2130

12.5

92.80

58.7

75.2

59.2

63.1

67.1

11.8

42.3

50.8

57.7

116

6.9 24.1

122 80.5 104 90.3

76.6 69.7 0.2

0.1

75.6

66.1

12.5

92.80

15.

77.33

234

152

848

741

1190

2020

15.

77.33

32.1

69.8

29

20.

58

227

338

763

728

1220

2120

20.

58

73.6

32.7

120

25

46.40

221

-

735

684

934

1810

25

46.40

48.4

63.4

1160

97.7 140

122

136

173

226

134 49.2

110

11.9

97.6

89

99.6

8.1 101

19.4 138

30

38.67

232

-

758

679

1180

1920

30

38.67

52

51.2

40.4

59.2

51.5

83.3

40

29

251

330

810

745

1190

1900

40

29

102

60.8

21.9

60.7

14.3

37

50

23.20

253

362

876

819

1260

2140

50

23.20

103

53.5

73.4

92.5

60

19.33

254

383

883

864

1330

2320

60

19.33

104

70

88.2

70

16.57

255

386

888

893

1380

2340

70

16.57

104

117 77.1

64.8

133

AXIAL THRUST INPUT SHAFT (POUNDS)

Nominal Input Nominal Output Shaft Ratio Speed (rev/min) A0280 (rev/min)

Nominal Input Nominal Output Shaft Ratio Speed (rev/min) A0280 (rev/min)

Size of Unit A0410

A0510

A0610

A0730

A0860

35.7

70.1

109

117

163

212

Size of Unit A0410

A0510

A0610

A0730

A0860 1440

5.0

350

690

845

1110

1010

1670

1500

5.0

350

258

873

319

785

1350

7.5

233.33

707

868

1110

1010

1670

1920

7.5

233.33

217

819

340

851

1370

1640

175

709

852

1050

984

1640

1960

10.

175

154

707

439

804

1310

1530

12.5

140

722

853

1050

956

1570

1980

12.5

140

140

641

419

684

1080

1480

15.

116.67

724

849

1100

947

1580

1990

15.

116.67

146

599

391

651

1130

1250

20.

87.50

734

924

1050

949

1610

2130

20.

87.50

89.5

759

402

624

1240

1460

25.

70

729

884

1040

932

1470

2020

25.

70

71.8

545

370

595

731

907

30

58.33

743

873

1020

920

1570

2090

30

58.33

511

319

548

1040

1090

10.

1750

114

40

43.75

784

943

1080

937

1580

2090

40

43.75

231

703

517

622

1110

1120

50

35

805

993

1130

1020

1640

2240

50

35

289

836

378

910

1330

1530

60

29.17

818

1020

1170

1070

1720

2360

60

29.17

327

908

797

1090

1570

1880

70

25

828

1040

1200

1110

1780

2440

70

25

351

961

883

1190

1750

2080

5.0

232

654

787

1070

965

1600

1310

5.0

232

256

815

301

790

1420

1480

7.5

154.67

677

818

1080

966

1610

1750

7.5

154.67

212

754

341

832

1440

1570

116

681

818

1020

936

1600

1810

10.

116

143

655

460

760

1470

1420 1450

10.

1160

195 103

A0860

60

AXIAL THRUST OUTPUT SHAFT (POUNDS)

1750

A0730

5.0

10.

1160

Size of Unit

9611

12.5

92.80

697

804

1000

923

1530

1890

12.5

92.80

129

554

391

682

1210

15.

77.33

712

800

1070

913

1530

1890

15.

77.33

167

502

331

642

1270

1190

20.

58

714

907

987

898

1570

2060

20.

58

75.8

730

298

553

1390

1400

25

46.40

708

855

966

843

1410

1900

25

46.40

57.6

471

261

407

829

714

30

38.67

735

857

989

837

1520

2010

30

38.67

139

474

333

377

1170

1000

40

29

780

934

1050

919

1540

2020

40

29

267

684

559

658

1250

1030

50

23.20

802

987

1120

1010

1620

2210

50

23.20

330

826

770

958

1580

1560

60

19.33

816

1020

1170

1070

1710

2340

60

19.33

369

905

899

1140

1840

1910

70

16.57

826

1040

1200

1100

1770

2420

70

16.57

397

961

991

1260

2010

2130

1160

36


RATINGS AT 3500 REV/MIN INPUT 9608

SINGLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

5.0

700.00

7.5

466.67

10.0

350.00

12.5

280.00

15.0

233.33

20.0

175.00

25.0

140.00

30.0

116.67

40.0

87.50

50.0

70.00

60.0

58.33

70.0

50.00

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0280 1.45 3.46 1.27 120 88 1.33 2.73 1.13 149 85 1.22 2.06 1.00 188 82 1.11 1.72 0.86 194 78 1.01 1.72 0.79 206 78 0.89 1.15 0.61 219 69 0.80 1.06 0.53 237 66 0.66 1.00 0.42 225 63 0.43 0.82 0.22 161 52 0.31 0.63 0.14 130 47 0.24 0.53 0.09 100 39 0.19 0.43 0.06 80 34

37

A0410 3.29 4.46 2.88 272 87 2.94 3.64 2.52 332 86 2.94 2.94 2.46 464 84 2.73 2.50 2.22 499 81 2.63 2.29 2.10 549 79 1.76 2.20 1.34 471 76 2.00 1.54 1.42 638 69 1.77 1.42 1.20 649 66 1.22 1.29 0.76 545 62 0.81 0.96 0.45 402 55 0.62 0.76 0.29 313 46 0.49 0.64 0.21 258 42

A0510

A0610

6.95 7.87 6.33 547 91 4.99 6.08 4.40 581 88 5.08 4.63 4.37 825 86 4.51 4.14 3.80 855 84 3.55 4.12 2.94 768 83 3.86 2.62 2.97 1070 74 3.25 2.38 2.42 1090 72 2.71 2.27 1.94 1050 70 1.83 2.09 1.22 878 67 1.36 1.46 0.82 735 60 0.98 1.26 0.53 575 54 0.74 1.02 0.36 454 49

10.40 10.80 9.56 860 92 7.66 8.74 6.86 906 90 6.88 7.50 6.09 1060 89 6.94 5.94 5.96 1340 85 6.11 5.34 5.15 1390 84 5.21 3.75 4.14 1490 77 5.05 3.36 3.89 1750 74 4.13 3.06 3.06 1650 71 3.08 2.72 2.14 1540 68 2.14 1.95 1.36 1220 63 1.51 1.69 0.88 949 58 1.18 1.30 0.61 774 52

A0730 14.90 30.00 13.90 1300 93 11.60 26.30 10.70 1390 92 9.81 22.00 8.82 1640 90 10.60 17.40 9.38 2110 88 9.45 16.40 8.31 2170 88 6.87 13.90 5.84 2050 85 7.23 9.44 5.84 2630 81 5.47 8.92 4.30 2320 79 4.20 7.71 3.13 2250 74 3.29 5.68 2.33 2100 71 2.36 4.56 1.53 1650 65 1.77 3.47 1.03 1300 58

A0860 25.70 39.10 24.10 2100 94 17.60 32.80 16.20 2120 92 15.70 27.60 14.30 2480 91 14.30 25.00 12.90 2950 90 14.30 20.50 12.70 3320 89 10.30 17.40 8.86 3110 86 10.30 11.70 8.42 3790 82 8.91 11.10 7.17 3870 80 6.82 9.63 5.24 3770 77 5.06 6.82 3.67 3300 72 3.53 5.65 2.38 2570 67 2.72 4.29 1.68 2120 62


RATINGS AT 3500 REV/MIN INPUT 9608 NOMINAL RATIO

DOUBLE REDUCTION

75.0

NOMINAL OUTPUT SPEED REV / MIN

46.67

100.

35.00

125.

28.00

150.

23.33

200.

17.50

225.

15.56

250.

14.00

300.

11.67

350.

10.00

375.

9.33

400.

8.75

450.

7.78

500.

7.00

600.

5.83

625.

5.60

700.

5.00

750.

4.67

800.

4.38

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.99 1.45 0.64 881 65 0.60 1.36 0.36 656 59 0.69 1.01 0.37 881 54 0.59 1.19 0.32 881 54 0.40 1.14 0.19 711 48 0.47 1.09 0.23 881 50 0.43 0.83 0.19 881 43 0.43 1.09 0.17 881 39 0.35 0.76 0.14 881 38 0.20 0.50 0.05 312 24 0.32 1.07 0.11 755 33 0.32 0.71 0.11 881 35 0.34 0.79 0.10 881 29 0.31 0.74 0.08 881 26 0.29 0.76 0.08 881 27 0.24 0.43 0.05 626 20 0.27 0.71 0.07 881 24 0.25 0.82 0.06 795 22

38

A0510 1.23 2.40 0.85 1160 69 1.34 1.65 0.83 1560 62 1.34 1.50 0.79 1870 59 0.80 2.01 0.48 1310 60 1.00 1.36 0.54 2040 54 0.66 1.90 0.37 1390 56 0.91 1.22 0.46 2190 51 0.61 1.27 0.28 1470 46 0.72 1.12 0.34 2190 47 0.26 0.72 0.08 548 31 0.73 1.26 0.30 2190 42 0.58 1.10 0.25 1980 44 0.63 1.14 0.24 2190 39 0.54 1.11 0.19 2080 36 0.54 1.10 0.20 2190 36 0.23 0.47 0.05 603 20 0.47 1.08 0.16 2110 33 0.46 0.89 0.14 1950 30

A0610 2.21 3.37 1.50 2120 68 1.96 2.54 1.20 2260 61 1.93 2.26 1.13 2670 59 1.43 2.74 0.84 2390 59 1.29 2.00 0.68 2560 52 1.20 2.52 0.65 2540 54 1.28 1.80 0.64 3020 50 0.99 2.32 0.51 2680 52 1.07 1.67 0.48 3150 45 0.51 1.08 0.14 934 27 0.91 1.70 0.41 2870 45 0.97 1.56 0.40 3150 42 0.85 1.52 0.36 3150 42 0.77 1.42 0.30 3150 39 0.80 1.55 0.28 3150 35 0.51 0.85 0.16 1890 30 0.73 1.45 0.23 3150 32 0.68 1.61 0.22 3150 32

A0730 2.89 4.29 2.14 2930 74 2.40 4.29 1.70 3130 71 2.68 3.52 1.78 4210 66 2.03 2.83 1.36 3720 67 1.54 2.83 0.96 3530 62 1.68 2.21 1.04 3950 62 1.56 2.45 0.89 4210 57 1.38 2.13 0.82 4170 59 1.25 2.21 0.65 4210 52 0.65 1.50 0.24 1570 37 1.04 2.13 0.56 3840 54 1.11 2.11 0.54 4210 48 0.99 2.07 0.48 4210 48 0.88 1.95 0.40 4210 45 0.91 1.49 0.37 4210 41 0.51 0.62 0.16 2060 31 0.82 1.49 0.31 4210 38 0.74 1.25 0.29 4050 39

A0860 5.35 6.82 4.18 5240 78 3.73 5.90 2.77 4660 74 4.30 4.29 3.00 6480 70 3.16 3.98 2.20 6030 70 2.25 3.66 1.45 5360 65 2.54 3.58 1.69 6390 66 2.54 2.73 1.53 7210 60 2.21 2.26 1.30 6780 59 0.98 1.80 0.42 2530 43 1.96 2.34 1.10 7210 56 1.62 2.26 0.86 6030 53 1.69 2.22 0.91 7130 54 1.66 2.26 0.80 7210 48 1.47 2.14 0.67 7210 45 1.43 2.05 0.64 7210 45 0.77 0.89 0.29 3550 38 1.27 2.05 0.53 7210 42 1.05 1.83 0.46 6480 44


RATINGS AT 3500 REV/MIN INPUT 9608

DOUBLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

900.

3.89

1000.

3.50

1200.

2.92

1250.

2.80

1400.

2.50

1500.

2.33

1600.

2.19

1750.

2.00

1800.

1.94

2000.

1.75

2100.

1.67

2400.

1.46

2500.

1.40

2800.

1.25

3000.

1.17

3500.

1.00

3600.

0.97

4200.

0.83

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.25 0.70 0.05 881 22 0.26 0.76 0.05 881 19 0.24 0.72 0.04 881 17 0.23 0.63 0.04 881 17 0.21 0.43 0.03 822 16 0.21 0.63 0.03 881 15 0.21 0.67 0.03 795 13 0.21 0.43 0.03 881 13 0.21 0.53 0.03 881 13 0.19 0.63 0.02 804 12 0.20 0.43 0.02 881 12 0.19 0.53 0.02 810 10 0.16 0.60 0.01 576 8 0.18 0.43 0.02 816 9 0.16 0.53 0.01 581 7 0.16 0.43 0.009 585 6 0.15 0.53 0.007 443 4 0.15 0.43 0.006 448 4

39

A0510 0.42 1.06 0.13 2130 31 0.44 0.89 0.12 2190 28 0.39 0.89 0.10 2170 25 0.34 0.70 0.08 1830 24 0.23 0.47 0.04 934 16 0.34 0.70 0.08 2130 23 0.27 0.89 0.05 1460 19 0.23 0.47 0.03 1100 15 0.28 0.58 0.05 1610 18 0.24 0.70 0.04 1470 17 0.23 0.47 0.03 1290 15 0.24 0.58 0.03 1490 15 0.19 0.70 0.02 1050 12 0.23 0.47 0.03 1500 13 0.19 0.58 0.02 1060 10 0.19 0.47 0.02 1070 9 0.17 0.58 0.01 814 7 0.17 0.47 0.01 822 7

A0610 0.66 1.42 0.19 3150 30 0.61 1.45 0.18 3150 29 0.56 1.37 0.15 3150 26 0.54 1.27 0.14 3150 26 0.51 0.85 0.13 3150 24 0.50 1.27 0.12 3150 23 0.44 1.26 0.08 2400 19 0.47 0.85 0.10 3150 21 0.49 1.01 0.10 3150 20 0.39 1.23 0.07 2430 17 0.44 0.85 0.08 3150 19 0.39 1.01 0.06 2450 15 0.32 1.09 0.04 1750 12 0.36 0.85 0.05 2470 14 0.33 1.01 0.03 1760 10 0.30 0.85 0.03 1780 9 0.30 1.01 0.02 1340 7 0.27 0.85 0.02 1360 7

A0730 0.74 1.37 0.26 4210 35 0.69 1.25 0.23 4210 34 0.63 1.25 0.20 4210 31 0.61 0.93 0.19 4210 31 0.51 0.62 0.14 3520 28 0.55 0.93 0.16 4210 28 0.54 1.25 0.14 4040 26 0.51 0.62 0.13 3970 25 0.53 0.74 0.13 4210 24 0.48 0.93 0.11 4090 24 0.48 0.62 0.11 4210 23 0.47 0.74 0.10 4120 20 0.38 0.93 0.07 3050 18 0.42 0.62 0.08 4150 19 0.38 0.74 0.06 3080 15 0.34 0.62 0.05 3100 14 0.33 0.74 0.04 2330 11 0.30 0.62 0.03 2360 10

A0860 1.12 1.98 0.45 7210 40 1.03 1.83 0.40 7210 39 0.92 1.83 0.33 7210 36 0.93 1.28 0.32 7210 35 0.77 0.89 0.26 6480 34 0.83 1.28 0.27 7210 32 0.78 1.71 0.24 6970 31 0.76 0.89 0.23 7210 30 0.75 1.11 0.22 7210 30 0.71 1.28 0.20 7050 28 0.69 0.89 0.19 7210 28 0.65 1.11 0.17 7110 25 0.53 1.28 0.11 4780 20 0.60 0.89 0.14 7160 24 0.49 1.11 0.09 4820 18 0.46 0.89 0.08 4850 17 0.41 1.11 0.06 3630 14 0.39 0.89 0.05 3670 13


RATINGS AT 2400 REV/MIN INPUT 9608

SINGLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

5.0

480.00

7.5

320.00

10.0

240.00

12.5

192.00

15.0

160.00

20.0

120.00

25.0

96.00

30.0

80.00

40.0

60.00

50.0

48.00

60.0

40.00

70.0

34.29

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0280 1.18 2.87 1.04 143 88 1.08 2.29 0.92 177 85 0.99 1.75 0.80 221 81 0.89 1.47 0.70 229 78 0.82 1.45 0.63 241 77 0.71 0.98 0.49 255 68 0.64 0.91 0.42 274 65 0.53 0.85 0.33 259 62 0.32 0.69 0.16 172 52 0.22 0.54 0.10 137 47 0.17 0.45 0.07 105 40 0.13 0.37 0.05 85 35

40

A0410 2.67 4.00 2.37 326 89 2.38 3.30 2.05 395 86 2.36 2.65 1.98 546 84 2.20 2.27 1.79 588 81 2.11 2.07 1.69 645 80 1.33 1.95 1.02 524 77 1.59 1.39 1.13 739 70 1.40 1.27 0.95 750 67 0.90 1.14 0.55 580 62 0.58 0.85 0.33 426 56 0.44 0.69 0.21 331 48 0.34 0.58 0.15 272 44

A0510

A0610

5.71 6.77 5.20 655 91 4.07 5.38 3.60 693 88 4.12 4.13 3.54 977 86 3.65 3.68 3.08 1010 84 2.70 3.61 2.24 853 83 3.11 2.36 2.38 1250 75 2.60 2.12 1.92 1260 73 2.15 2.00 1.54 1210 71 1.40 1.82 0.93 977 66 0.98 1.29 0.59 779 60 0.70 1.11 0.39 607 55 0.52 0.90 0.26 478 50

8.56 9.42 7.85 1030 92 6.25 7.79 5.61 1080 90 5.60 6.69 4.93 1250 88 5.31 5.33 4.54 1490 86 4.71 4.77 3.96 1560 84 4.01 3.41 3.16 1660 78 3.90 3.04 2.97 1950 75 3.31 2.75 2.43 1910 72 2.43 2.41 1.68 1760 69 1.56 1.76 0.98 1290 63 1.09 1.52 0.64 1000 58 0.84 1.18 0.44 816 53

A0730 12.30 23.70 11.40 1560 93 9.48 20.60 8.72 1660 92 7.93 17.00 7.19 1950 91 8.28 13.60 7.38 2420 89 7.19 12.80 6.33 2410 88 5.22 10.80 4.47 2290 86 5.75 7.48 4.66 3060 81 4.16 6.98 3.28 2580 79 3.19 5.99 2.39 2510 75 2.40 4.44 1.72 2260 72 1.68 3.57 1.10 1740 66 1.24 2.74 0.75 1370 60

A0860 21.20 30.20 19.90 2530 94 14.40 25.40 13.30 2540 93 12.70 21.30 11.70 2960 92 11.40 19.10 10.30 3420 90 11.50 15.80 10.20 3900 89 7.82 13.30 6.78 3470 87 8.20 9.17 6.74 4420 82 6.80 8.61 5.49 4320 81 5.39 7.40 4.15 4360 77 3.70 5.26 2.70 3540 73 2.53 4.36 1.72 2710 68 1.93 3.34 1.21 2230 63


RATINGS AT 2400 REV/MIN INPUT 9608 NOMINAL RATIO

DOUBLE REDUCTION

75.0

NOMINAL OUTPUT SPEED REV / MIN

32.00

100.

24.00

125.

19.20

150.

16.00

200.

12.00

225.

10.67

250.

9.60

300.

8.00

350.

6.86

375.

6.40

400.

6.00

450.

5.33

500.

4.80

600.

4.00

625.

3.84

700.

3.43

750.

3.20

800.

3.00

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.69 1.24 0.44 881 64 0.43 1.18 0.26 687 59 0.49 0.84 0.26 881 53 0.41 1.02 0.22 881 54 0.29 0.99 0.14 738 48 0.33 0.95 0.16 881 49 0.30 0.71 0.13 881 42 0.30 0.98 0.12 881 39 0.24 0.67 0.09 881 38 0.13 0.42 0.03 321 25 0.23 0.95 0.08 777 34 0.22 0.62 0.08 881 35 0.23 0.69 0.07 881 29 0.21 0.65 0.06 881 27 0.20 0.67 0.05 881 27 0.17 0.37 0.03 654 20 0.19 0.63 0.04 881 24 0.18 0.68 0.04 814 23

41

A0510 0.92 2.08 0.62 1240 68 1.09 1.44 0.66 1820 61 1.08 1.28 0.62 2150 58 0.59 1.81 0.35 1400 59 0.75 1.17 0.40 2190 53 0.49 1.53 0.27 1480 55 0.64 1.06 0.32 2190 49 0.45 1.01 0.21 1560 46 0.51 0.99 0.23 2190 45 0.18 0.63 0.06 564 32 0.51 1.01 0.21 2190 41 0.43 0.97 0.18 2080 43 0.45 1.01 0.17 2190 37 0.39 1.00 0.14 2130 35 0.38 0.92 0.13 2190 35 0.16 0.40 0.03 630 20 0.34 0.92 0.11 2160 33 0.33 0.70 0.10 2040 29

A0610 1.63 2.92 1.10 2280 68 1.45 2.10 0.88 2430 61 1.44 1.86 0.83 2870 58 1.04 2.34 0.62 2570 60 0.95 1.70 0.50 2750 53 0.87 2.20 0.48 2720 55 0.92 1.51 0.46 3150 50 0.71 2.03 0.37 2850 52 0.74 1.42 0.33 3150 45 0.34 0.91 0.10 963 29 0.65 1.47 0.30 3060 46 0.66 1.33 0.28 3150 42 0.58 1.31 0.25 3150 42 0.53 1.23 0.21 3150 39 0.54 1.34 0.19 3150 35 0.35 0.75 0.11 1970 31 0.49 1.26 0.16 3150 32 0.46 1.40 0.15 3150 32

A0730 2.34 3.87 1.73 3460 74 1.77 3.72 1.25 3350 70 1.88 2.72 1.22 4210 65 1.50 2.57 1.00 3990 67 1.12 2.57 0.70 3760 62 1.23 2.01 0.76 4210 62 1.09 2.07 0.61 4210 56 0.96 1.89 0.57 4210 59 0.87 1.97 0.44 4210 51 0.44 1.16 0.17 1620 38 0.73 1.89 0.40 3950 54 0.76 1.86 0.37 4210 48 0.68 1.86 0.33 4210 48 0.60 1.76 0.27 4210 45 0.63 1.35 0.26 4210 41 0.35 0.56 0.11 2150 33 0.56 1.35 0.21 4210 38 0.51 1.10 0.20 4150 40

A0860 4.00 5.21 3.08 5630 77 2.78 4.41 2.04 5010 73 3.23 3.22 2.22 6980 68 2.34 3.43 1.62 6460 69 1.66 2.94 1.07 5750 64 1.88 3.06 1.24 6850 66 1.77 2.18 1.05 7210 59 1.63 2.07 0.95 7210 58 0.68 1.34 0.30 2610 44 1.36 1.96 0.76 7210 56 1.17 2.07 0.62 6340 53 1.18 1.86 0.63 7210 54 1.15 1.96 0.55 7210 48 1.01 1.86 0.46 7210 45 0.99 1.86 0.44 7210 44 0.54 0.80 0.21 3710 39 0.87 1.80 0.37 7210 42 0.74 1.61 0.32 6630 44


RATINGS AT 2400 REV/MIN INPUT 9608

DOUBLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

900.

2.67

1000.

2.40

1200.

2.00

1250.

1.92

1400.

1.71

1500.

1.60

1600.

1.50

1750.

1.37

1800.

1.33

2000.

1.20

2100.

1.14

2400.

1.00

2500.

0.96

2800.

0.86

3000.

0.80

3500.

0.69

3600.

0.67

4200.

0.57

SIZE OF UNIT

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

A0410 0.17 0.62 0.04 881 22 0.18 0.68 0.03 881 19 0.16 0.65 0.03 881 17 0.15 0.54 0.03 881 18 0.15 0.37 0.02 838 16 0.14 0.54 0.02 881 16 0.14 0.61 0.02 809 14 0.14 0.37 0.02 881 13 0.14 0.45 0.02 881 13 0.13 0.54 0.02 817 12 0.14 0.37 0.02 881 12 0.13 0.45 0.01 824 10 0.11 0.54 0.009 586 8 0.12 0.37 0.01 833 9 0.11 0.45 0.007 594 7 0.11 0.37 0.006 600 6 0.10 0.45 0.005 455 5 0.10 0.37 0.004 459 4

42

A0510 0.30 0.86 0.09 2180 30 0.31 0.70 0.08 2190 27 0.28 0.70 0.07 2190 25 0.24 0.59 0.06 1900 24 0.16 0.40 0.03 970 16 0.24 0.59 0.06 2190 23 0.19 0.70 0.04 1490 19 0.16 0.40 0.02 1150 15 0.20 0.50 0.04 1670 18 0.17 0.59 0.03 1500 17 0.16 0.40 0.02 1330 15 0.16 0.50 0.02 1510 15 0.13 0.59 0.02 1070 12 0.16 0.40 0.02 1530 13 0.13 0.50 0.01 1090 10 0.13 0.40 0.01 1100 9 0.12 0.50 0.009 835 8 0.11 0.40 0.008 844 7

A0610 0.45 1.24 0.13 3150 30 0.41 1.28 0.12 3150 29 0.38 1.21 0.10 3150 26 0.36 1.11 0.10 3150 27 0.35 0.75 0.09 3150 25 0.33 1.11 0.08 3150 24 0.29 1.11 0.06 2450 20 0.31 0.75 0.07 3150 22 0.32 0.89 0.07 3150 21 0.26 1.09 0.05 2470 18 0.29 0.75 0.06 3150 20 0.26 0.89 0.04 2490 15 0.21 0.97 0.03 1780 13 0.23 0.75 0.03 2520 15 0.21 0.89 0.02 1800 11 0.19 0.75 0.02 1820 10 0.18 0.89 0.01 1380 8 0.17 0.75 0.01 1390 8

A0730 0.50 1.23 0.18 4210 35 0.47 1.10 0.16 4210 34 0.42 1.10 0.13 4210 32 0.41 0.83 0.13 4210 31 0.35 0.56 0.10 3660 29 0.37 0.83 0.11 4210 29 0.36 1.10 0.10 4120 27 0.35 0.56 0.09 4110 26 0.36 0.67 0.09 4210 25 0.32 0.83 0.08 4160 25 0.32 0.56 0.08 4210 24 0.31 0.67 0.07 4190 21 0.25 0.83 0.05 3110 19 0.28 0.56 0.06 4210 20 0.25 0.67 0.04 3150 16 0.22 0.56 0.03 3180 15 0.21 0.67 0.03 2390 12 0.19 0.56 0.02 2420 11

A0860 0.77 1.75 0.31 7210 40 0.71 1.61 0.28 7210 39 0.63 1.61 0.23 7210 36 0.63 1.14 0.22 7210 35 0.54 0.80 0.19 6740 35 0.56 1.14 0.18 7210 32 0.53 1.55 0.17 7100 32 0.52 0.80 0.16 7210 30 0.51 0.99 0.15 7210 30 0.48 1.14 0.14 7170 28 0.46 0.80 0.13 7210 28 0.44 0.99 0.11 7210 26 0.35 1.14 0.07 4870 22 0.40 0.80 0.10 7210 24 0.32 0.99 0.06 4930 20 0.30 0.80 0.05 4980 18 0.26 0.99 0.04 3730 15 0.25 0.80 0.03 3770 14


RATINGS AT 1750 REV/MIN INPUT 9608

SINGLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

5.0

350.00

7.5

233.33

10.0

175.00

12.5

140.00

15.0

116.67

20.0

87.50

25.0

70.00

30.0

58.33

40.0

43.75

50.0

35.00

60.0

29.17

70.0

25.00

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0280 1.00 2.44 0.87 165 88 0.91 1.96 0.77 203 85 0.83 1.50 0.67 252 81 0.74 1.27 0.58 259 77 0.66 1.25 0.51 264 77 0.59 0.86 0.40 287 67 0.53 0.79 0.34 308 65 0.42 0.73 0.26 281 61 0.25 0.60 0.13 180 51 0.17 0.47 0.08 144 47 0.13 0.40 0.05 110 40 0.10 0.33 0.03 88 35

43

A0410 2.25 3.55 1.99 376 88 2.00 2.95 1.72 454 86 1.88 2.37 1.57 594 84 1.83 2.04 1.48 668 81 1.76 1.86 1.40 730 79 1.06 1.73 0.81 566 76 1.32 1.25 0.92 831 70 1.15 1.14 0.77 831 67 0.69 1.02 0.42 608 61 0.45 0.77 0.25 445 55 0.33 0.62 0.16 344 48 0.25 0.53 0.11 283 44

A0510

A0610

4.84 5.87 4.39 759 91 3.42 4.74 3.02 797 88 3.45 3.66 2.94 1110 85 3.05 3.26 2.56 1150 84 2.16 3.18 1.78 927 82 2.59 2.11 1.96 1410 75 2.17 1.90 1.58 1420 72 1.73 1.78 1.21 1310 70 1.12 1.62 0.74 1060 66 0.76 1.16 0.45 814 60 0.53 1.00 0.29 633 55 0.39 0.81 0.20 497 50

7.26 8.23 6.61 1190 91 5.27 6.91 4.73 1250 90 4.69 5.95 4.11 1430 88 4.24 4.76 3.60 1620 85 3.77 4.25 3.15 1700 84 3.23 3.08 2.50 1800 77 3.15 2.74 2.36 2120 75 2.76 2.47 1.99 2150 72 1.90 2.17 1.28 1840 67 1.21 1.59 0.75 1350 62 0.84 1.38 0.49 1050 58 0.64 1.08 0.34 848 53

A0730 10.40 18.90 9.67 1810 93 7.97 16.40 7.36 1920 92 6.39 13.50 5.78 2150 90 6.60 10.90 5.87 2640 89 5.73 10.20 5.04 2630 88 4.16 8.60 3.55 2490 85 4.74 6.04 3.82 3440 81 3.33 5.61 2.60 2810 78 2.55 4.81 1.90 2740 75 1.85 3.58 1.31 2360 71 1.28 2.90 0.84 1810 65 0.94 2.24 0.57 1430 60

A0860 18.00 23.80 16.90 2940 94 12.10 20.10 11.20 2930 93 10.70 16.80 9.77 3400 91 9.04 15.00 8.18 3730 90 9.16 12.50 8.14 4250 89 6.24 10.50 5.38 3780 86 6.80 7.32 5.54 4990 82 5.45 6.84 4.35 4700 80 4.35 5.87 3.33 4790 76 2.85 4.19 2.05 3690 72 1.94 3.48 1.31 2830 68 1.47 2.69 0.92 2320 63


RATINGS AT 1750 REV/MIN INPUT 9608 NOMINAL RATIO

DOUBLE REDUCTION

75.0

NOMINAL OUTPUT SPEED REV / MIN

23.33

100.

17.50

125.

14.00

150.

11.67

200.

8.75

225.

7.78

250.

7.00

300.

5.83

350.

5.00

375.

4.67

400.

4.38

450.

3.89

500.

3.50

600.

2.92

625.

2.80

700.

2.50

750.

2.33

800.

2.19

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.51 1.09 0.32 881 63 0.33 1.05 0.19 711 58 0.36 0.74 0.19 881 52 0.30 0.92 0.16 881 53 0.21 0.89 0.10 758 48 0.24 0.87 0.12 881 48 0.22 0.64 0.09 881 42 0.22 0.80 0.08 881 39 0.18 0.60 0.07 881 38 0.10 0.38 0.02 328 26 0.17 0.80 0.06 795 34 0.16 0.56 0.06 881 35 0.17 0.63 0.05 881 29 0.15 0.59 0.04 881 26 0.15 0.61 0.04 881 27 0.12 0.33 0.03 675 21 0.14 0.58 0.03 881 24 0.13 0.56 0.03 828 23

44

A0510 0.71 1.88 0.48 1310 67 0.91 1.26 0.54 2040 59 0.82 1.12 0.46 2190 56 0.46 1.55 0.27 1480 58 0.56 1.06 0.29 2190 51 0.38 1.26 0.21 1560 54 0.48 0.96 0.23 2190 48 0.35 0.84 0.16 1640 45 0.38 0.91 0.17 2190 44 0.14 0.57 0.04 577 32 0.39 0.84 0.15 2190 39 0.32 0.89 0.14 2130 42 0.33 0.84 0.12 2190 36 0.29 0.84 0.10 2170 34 0.29 0.77 0.10 2190 34 0.12 0.36 0.02 651 20 0.25 0.77 0.08 2190 32 0.26 0.59 0.07 2110 29

A0610 1.27 2.56 0.84 2390 66 1.13 1.83 0.68 2560 60 1.12 1.63 0.64 3020 57 0.81 2.10 0.48 2720 59 0.74 1.51 0.39 2910 52 0.67 1.99 0.37 2860 54 0.68 1.35 0.33 3150 49 0.55 1.85 0.28 2990 52 0.55 1.28 0.24 3150 44 0.25 0.83 0.07 985 30 0.50 1.33 0.22 3150 45 0.49 1.19 0.20 3150 41 0.43 1.19 0.18 3150 42 0.39 1.11 0.15 3150 39 0.40 1.22 0.14 3150 35 0.26 0.68 0.08 2040 32 0.36 1.15 0.12 3150 32 0.34 1.17 0.11 3150 32

A0730 1.86 3.44 1.36 3720 73 1.38 3.11 0.96 3530 69 1.40 2.28 0.89 4210 64 1.16 2.30 0.77 4210 66 0.85 2.30 0.52 3860 62 0.91 1.80 0.56 4210 61 0.81 1.88 0.45 4210 55 0.71 1.68 0.41 4210 58 0.64 1.80 0.32 4210 50 0.33 0.97 0.13 1660 38 0.55 1.68 0.30 4040 54 0.56 1.72 0.27 4210 48 0.51 1.68 0.24 4210 47 0.45 1.63 0.20 4210 45 0.47 1.21 0.19 4210 40 0.26 0.51 0.09 2220 33 0.41 1.21 0.16 4210 38 0.38 0.99 0.15 4210 39

A0860 3.12 4.24 2.37 5940 76 2.17 3.60 1.57 5290 72 2.49 2.63 1.67 7210 67 1.83 3.01 1.25 6840 68 1.29 2.58 0.83 6090 64 1.46 2.77 0.95 7200 65 1.32 1.91 0.76 7210 58 1.21 1.87 0.69 7210 57 0.51 1.10 0.22 2680 44 1.01 1.77 0.55 7210 55 0.88 1.87 0.46 6480 52 0.88 1.68 0.46 7210 52 0.86 1.78 0.40 7210 47 0.75 1.69 0.33 7210 44 0.74 1.68 0.32 7210 43 0.40 0.72 0.16 3830 39 0.65 1.67 0.27 7210 41 0.55 1.44 0.24 6750 44


RATINGS AT 1750 REV/MIN INPUT 9608

DOUBLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

900.

1.94

1000.

1.75

1200.

1.46

1250.

1.40

1400.

1.25

1500.

1.17

1600.

1.09

1750.

1.00

1800.

0.97

2000.

0.88

2100.

0.83

2400.

0.73

2500.

0.70

2800.

0.63

3000.

0.58

3500.

0.50

3600.

0.49

4200.

0.42

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.12 0.57 0.03 881 22 0.13 0.56 0.02 881 19 0.12 0.56 0.02 881 17 0.11 0.47 0.02 881 17 0.11 0.33 0.02 850 16 0.10 0.47 0.02 881 16 0.10 0.56 0.01 821 14 0.11 0.33 0.01 881 13 0.10 0.40 0.01 881 13 0.09 0.47 0.01 831 13 0.10 0.33 0.01 881 12 0.09 0.40 0.010 842 11 0.08 0.47 0.007 599 9 0.09 0.33 0.008 851 9 0.08 0.40 0.006 607 7 0.08 0.33 0.005 613 6 0.07 0.40 0.004 464 5 0.07 0.33 0.003 469 4

45

A0510 0.23 0.71 0.07 2190 30 0.23 0.59 0.06 2190 26 0.21 0.59 0.05 2190 24 0.19 0.50 0.04 1960 24 0.12 0.36 0.02 997 16 0.18 0.50 0.04 2190 23 0.14 0.59 0.03 1510 19 0.12 0.36 0.02 1180 15 0.15 0.43 0.03 1720 18 0.12 0.50 0.02 1530 17 0.12 0.36 0.02 1370 15 0.12 0.43 0.02 1550 15 0.10 0.50 0.01 1100 13 0.12 0.36 0.02 1560 13 0.10 0.43 0.01 1110 11 0.09 0.36 0.009 1120 10 0.08 0.43 0.007 853 8 0.08 0.36 0.006 861 7

A0610 0.33 1.13 0.10 3150 30 0.30 1.17 0.09 3150 29 0.28 1.11 0.07 3150 26 0.26 0.99 0.07 3150 27 0.25 0.68 0.06 3150 25 0.24 0.99 0.06 3150 24 0.21 1.03 0.04 2480 21 0.23 0.68 0.05 3150 22 0.24 0.80 0.05 3150 21 0.19 0.99 0.04 2520 19 0.21 0.68 0.04 3150 20 0.19 0.80 0.03 2550 16 0.15 0.90 0.02 1820 14 0.17 0.68 0.03 2570 15 0.15 0.80 0.02 1840 12 0.13 0.68 0.01 1860 11 0.13 0.80 0.01 1410 8 0.12 0.68 0.009 1420 8

A0730 0.37 1.11 0.13 4210 35 0.35 0.99 0.12 4210 34 0.31 0.99 0.10 4210 31 0.30 0.75 0.09 4210 31 0.26 0.51 0.08 3770 30 0.27 0.75 0.08 4210 29 0.27 0.99 0.07 4170 27 0.26 0.51 0.07 4210 26 0.26 0.60 0.06 4210 25 0.23 0.75 0.06 4210 25 0.23 0.51 0.06 4210 24 0.23 0.60 0.05 4210 21 0.18 0.75 0.04 3180 20 0.20 0.51 0.04 4210 20 0.18 0.60 0.03 3210 17 0.16 0.51 0.03 3250 16 0.15 0.60 0.02 2440 13 0.14 0.51 0.02 2470 12

A0860 0.57 1.58 0.22 7210 39 0.53 1.44 0.20 7210 38 0.46 1.44 0.17 7210 36 0.47 1.03 0.16 7210 34 0.40 0.72 0.14 6930 35 0.42 1.03 0.13 7210 32 0.39 1.44 0.13 7200 32 0.38 0.72 0.11 7210 30 0.37 0.89 0.11 7210 30 0.35 1.03 0.10 7210 28 0.34 0.72 0.10 7210 28 0.32 0.89 0.08 7210 26 0.25 1.03 0.06 4970 22 0.29 0.72 0.07 7210 24 0.23 0.89 0.05 5030 20 0.21 0.72 0.04 5090 19 0.19 0.89 0.03 3810 16 0.17 0.72 0.03 3840 15


RATINGS AT 1450 REV/MIN INPUT 9608

SINGLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

5.0

290.00

7.5

193.33

10.0

145.00

12.5

116.00

15.0

96.67

20.0

72.50

25.0

58.00

30.0

48.33

40.0

36.25

50.0

29.00

60.0

24.17

70.0

20.71

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0280 0.90 2.21 0.79 179 87 0.81 1.79 0.69 219 85 0.74 1.37 0.59 271 80 0.67 1.16 0.51 278 77 0.57 1.14 0.43 272 76 0.53 0.78 0.35 307 67 0.47 0.72 0.30 329 64 0.37 0.67 0.22 289 61 0.21 0.55 0.11 185 50 0.15 0.44 0.07 147 46 0.11 0.37 0.04 112 40 0.08 0.30 0.03 90 35

46

A0410 2.03 3.28 1.79 409 88 1.79 2.74 1.54 491 86 1.65 2.20 1.37 624 83 1.64 1.90 1.32 718 81 1.57 1.73 1.24 783 79 0.91 1.61 0.69 585 76 1.17 1.16 0.81 881 70 1.01 1.07 0.67 874 66 0.60 0.95 0.36 624 60 0.38 0.72 0.21 456 55 0.28 0.59 0.14 352 48 0.21 0.50 0.09 289 44

A0510

A0610

4.38 5.38 3.96 826 90 3.08 4.38 2.71 863 88 3.02 3.39 2.56 1170 85 2.73 3.02 2.26 1230 83 1.89 2.95 1.55 975 82 2.32 1.97 1.74 1510 74 1.95 1.77 1.40 1520 71 1.53 1.66 1.06 1380 69 0.99 1.51 0.64 1120 65 0.65 1.08 0.38 834 59 0.46 0.94 0.25 647 55 0.33 0.77 0.17 508 50

6.57 7.58 5.98 1300 91 4.75 6.40 4.24 1350 89 4.21 5.52 3.69 1550 88 3.72 4.43 3.15 1710 85 3.31 3.96 2.73 1780 83 2.84 2.88 2.19 1900 77 2.78 2.56 2.06 2240 74 2.44 2.32 1.74 2270 71 1.64 2.03 1.09 1890 66 1.04 1.50 0.64 1380 61 0.72 1.30 0.41 1070 57 0.55 1.02 0.29 866 52

A0730 9.36 16.50 8.72 1970 93 7.17 14.30 6.60 2080 92 5.58 11.80 5.03 2260 90 5.77 9.52 5.10 2770 88 5.01 8.91 4.38 2760 87 3.64 7.50 3.09 2620 85 4.17 5.30 3.33 3620 80 2.92 4.92 2.27 2960 78 2.24 4.22 1.66 2880 74 1.58 3.15 1.11 2420 71 1.09 2.55 0.71 1850 65 0.80 1.98 0.48 1460 60

A0860 16.20 20.50 15.30 3210 94 10.90 17.30 10.10 3180 93 9.57 14.50 8.74 3670 91 7.90 12.90 7.12 3920 90 8.02 10.80 7.10 4470 88 5.46 9.05 4.69 3970 86 6.08 6.37 4.93 5360 81 4.79 5.94 3.80 4950 79 3.83 5.10 2.91 5050 76 2.44 3.66 1.74 3780 71 1.65 3.04 1.11 2890 67 1.25 2.36 0.78 2370 62


RATINGS AT 1450 REV/MIN INPUT 9608 NOMINAL RATIO

DOUBLE REDUCTION

75.0

NOMINAL OUTPUT SPEED REV / MIN

19.33

100.

14.50

125.

11.60

150.

9.67

200.

7.25

225.

6.44

250.

5.80

300.

4.83

350.

4.14

375.

3.87

400.

3.63

450.

3.22

500.

2.90

600.

2.42

625.

2.32

700.

2.07

750.

1.93

800.

1.81

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.43 1.01 0.27 881 62 0.28 0.97 0.16 725 58 0.30 0.69 0.15 881 51 0.25 0.87 0.13 881 52 0.18 0.84 0.09 769 48 0.20 0.82 0.10 881 48 0.19 0.60 0.08 881 42 0.18 0.72 0.07 881 38 0.15 0.57 0.06 881 38 0.08 0.36 0.02 332 26 0.14 0.72 0.05 804 34 0.14 0.53 0.05 881 35 0.14 0.60 0.04 881 29 0.13 0.56 0.03 881 26 0.12 0.59 0.03 881 27 0.10 0.30 0.02 687 21 0.11 0.55 0.03 881 24 0.11 0.51 0.02 836 23

47

A0510 0.62 1.79 0.41 1350 66 0.79 1.17 0.46 2110 58 0.69 1.05 0.38 2190 55 0.40 1.39 0.23 1530 58 0.48 1.01 0.24 2190 51 0.33 1.13 0.18 1600 54 0.41 0.91 0.19 2190 47 0.30 0.75 0.13 1690 45 0.32 0.86 0.14 2190 44 0.11 0.54 0.04 584 32 0.33 0.75 0.13 2190 39 0.28 0.85 0.11 2150 41 0.28 0.75 0.10 2190 36 0.25 0.75 0.08 2190 34 0.24 0.69 0.08 2190 33 0.10 0.33 0.02 662 20 0.21 0.69 0.07 2190 32 0.22 0.53 0.06 2140 28

A0610 1.09 2.37 0.72 2470 66 0.98 1.71 0.58 2640 59 0.97 1.51 0.55 3120 56 0.70 1.98 0.41 2800 59 0.64 1.42 0.33 3000 52 0.58 1.88 0.31 2940 54 0.57 1.26 0.28 3150 49 0.47 1.76 0.24 3090 52 0.46 1.21 0.20 3150 44 0.21 0.79 0.06 997 30 0.41 1.26 0.19 3150 45 0.41 1.13 0.17 3150 41 0.36 1.12 0.15 3150 41 0.32 1.05 0.12 3150 38 0.33 1.17 0.12 3150 35 0.22 0.63 0.07 2070 32 0.30 1.09 0.10 3150 32 0.29 1.07 0.09 3150 32

A0730 1.60 3.19 1.16 3850 73 1.19 2.85 0.82 3650 69 1.18 2.09 0.74 4210 63 0.98 2.14 0.64 4210 65 0.72 2.14 0.44 3920 61 0.77 1.68 0.46 4210 60 0.68 1.80 0.37 4210 55 0.60 1.57 0.34 4210 58 0.54 1.68 0.27 4210 49 0.28 0.89 0.11 1680 38 0.46 1.57 0.25 4090 53 0.47 1.66 0.22 4210 47 0.42 1.57 0.20 4210 47 0.37 1.55 0.17 4210 45 0.39 1.13 0.16 4210 40 0.22 0.48 0.07 2260 33 0.35 1.13 0.13 4210 37 0.32 0.92 0.12 4210 39

A0860 2.69 3.77 2.02 6120 75 1.87 3.21 1.34 5440 72 2.10 2.34 1.38 7210 66 1.58 2.83 1.07 7050 67 1.11 2.44 0.71 6270 63 1.23 2.62 0.79 7210 64 1.11 1.80 0.63 7210 57 1.02 1.75 0.57 7210 56 0.43 0.99 0.19 2710 43 0.85 1.68 0.46 7210 54 0.75 1.75 0.39 6560 52 0.74 1.59 0.38 7210 52 0.72 1.71 0.33 7210 46 0.63 1.63 0.28 7210 44 0.62 1.57 0.27 7210 43 0.34 0.68 0.13 3890 39 0.54 1.57 0.22 7210 41 0.47 1.34 0.20 6810 43


RATINGS AT 1450 REV/MIN INPUT 9608

DOUBLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

900.

1.61

1000.

1.45

1200.

1.21

1250.

1.16

1400.

1.04

1500.

0.97

1600.

0.91

1750.

0.83

1800.

0.81

2000.

0.73

2100.

0.69

2400.

0.60

2500.

0.58

2800.

0.52

3000.

0.48

3500.

0.41

3600.

0.40

4200.

0.35

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.10 0.55 0.02 881 22 0.11 0.51 0.02 881 19 0.10 0.51 0.02 881 17 0.09 0.44 0.02 881 18 0.09 0.30 0.01 857 16 0.09 0.44 0.01 881 16 0.09 0.51 0.01 829 14 0.09 0.30 0.01 881 13 0.09 0.37 0.01 881 13 0.08 0.44 0.010 842 13 0.08 0.30 0.010 881 12 0.08 0.37 0.008 853 11 0.06 0.44 0.006 607 9 0.07 0.30 0.007 861 10 0.06 0.37 0.005 614 7 0.06 0.30 0.004 620 7 0.06 0.37 0.003 470 5 0.06 0.30 0.003 474 5

48

A0510 0.19 0.64 0.06 2190 29 0.20 0.53 0.05 2190 26 0.17 0.53 0.04 2190 24 0.16 0.46 0.04 1990 23 0.10 0.33 0.02 1010 16 0.15 0.46 0.03 2190 22 0.12 0.53 0.02 1520 19 0.10 0.33 0.02 1190 15 0.12 0.40 0.02 1750 18 0.10 0.46 0.02 1550 17 0.10 0.33 0.02 1390 15 0.10 0.40 0.01 1560 15 0.08 0.46 0.01 1110 13 0.10 0.33 0.01 1580 14 0.08 0.40 0.009 1120 11 0.08 0.33 0.007 1130 10 0.07 0.40 0.005 863 8 0.07 0.33 0.005 871 7

A0610 0.27 1.08 0.08 3150 30 0.25 1.07 0.07 3150 29 0.23 1.07 0.06 3150 26 0.22 0.91 0.06 3150 26 0.21 0.63 0.05 3150 25 0.20 0.91 0.05 3150 24 0.17 0.99 0.04 2510 21 0.19 0.63 0.04 3150 22 0.20 0.75 0.04 3150 21 0.15 0.91 0.03 2550 19 0.17 0.63 0.03 3150 20 0.15 0.75 0.02 2580 16 0.12 0.86 0.02 1840 14 0.14 0.63 0.02 2610 16 0.12 0.75 0.01 1860 12 0.11 0.63 0.01 1880 11 0.11 0.75 0.009 1430 9 0.09 0.63 0.008 1440 8

A0730 0.31 1.04 0.11 4210 35 0.29 0.92 0.10 4210 33 0.26 0.92 0.08 4210 31 0.25 0.70 0.08 4210 31 0.22 0.48 0.06 3830 30 0.23 0.70 0.06 4210 29 0.22 0.92 0.06 4210 27 0.22 0.48 0.06 4210 26 0.22 0.57 0.05 4210 25 0.20 0.70 0.05 4210 25 0.19 0.48 0.05 4210 24 0.19 0.57 0.04 4210 21 0.15 0.70 0.03 3220 20 0.17 0.48 0.03 4210 20 0.15 0.57 0.02 3250 17 0.13 0.48 0.02 3290 16 0.12 0.57 0.02 2470 13 0.11 0.48 0.01 2490 12

A0860 0.48 1.48 0.18 7210 39 0.44 1.34 0.17 7210 38 0.39 1.34 0.14 7210 36 0.39 0.96 0.13 7210 34 0.34 0.68 0.12 6990 35 0.35 0.96 0.11 7210 32 0.33 1.34 0.10 7210 32 0.32 0.68 0.09 7210 30 0.31 0.84 0.09 7210 30 0.30 0.96 0.08 7210 28 0.28 0.68 0.08 7210 28 0.27 0.84 0.07 7210 26 0.21 0.96 0.05 5040 22 0.24 0.68 0.06 7210 24 0.19 0.84 0.04 5100 20 0.18 0.68 0.03 5150 19 0.15 0.84 0.02 3850 16 0.14 0.68 0.02 3890 15


RATINGS AT 1160 REV/MIN INPUT 9608

SINGLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

5.0

232.00

7.5

154.67

10.0

116.00

12.5

92.80

15.0

77.33

20.0

58.00

25.0

46.40

30.0

38.67

40.0

29.00

50.0

23.20

60.0

19.33

70.0

16.57

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0280 0.79 1.96 0.69 196 87 0.71 1.59 0.60 239 84 0.64 1.23 0.52 294 80 0.58 1.04 0.44 301 76 0.48 1.02 0.36 283 76 0.46 0.69 0.31 331 66 0.41 0.64 0.26 355 63 0.31 0.59 0.18 298 60 0.18 0.49 0.09 190 50 0.12 0.40 0.06 151 46 0.09 0.34 0.04 115 39 0.07 0.28 0.02 92 35

49

A0410 1.79 2.98 1.57 449 88 1.57 2.50 1.35 537 86 1.40 2.01 1.16 660 83 1.43 1.74 1.15 779 80 1.37 1.58 1.08 848 79 0.76 1.48 0.57 606 75 0.95 1.07 0.65 881 68 0.83 0.98 0.54 881 65 0.50 0.88 0.30 642 59 0.32 0.67 0.17 468 55 0.24 0.54 0.11 361 47 0.18 0.46 0.08 296 44

A0510

A0610

3.86 4.85 3.48 906 90 2.71 3.97 2.37 944 87 2.57 3.09 2.17 1240 85 2.39 2.76 1.97 1340 83 1.61 2.69 1.31 1030 81 1.99 1.80 1.47 1600 74 1.71 1.62 1.21 1640 71 1.31 1.53 0.90 1460 68 0.85 1.38 0.54 1180 64 0.54 1.00 0.32 856 58 0.38 0.87 0.20 663 54 0.28 0.71 0.14 520 50

5.64 6.86 5.12 1390 91 4.18 5.83 3.72 1480 89 3.70 5.04 3.22 1690 87 3.17 4.06 2.65 1800 84 2.82 3.63 2.32 1890 82 2.44 2.65 1.85 2010 76 2.38 2.37 1.74 2360 73 2.10 2.14 1.47 2400 70 1.37 1.88 0.89 1940 65 0.87 1.39 0.52 1420 60 0.60 1.21 0.34 1100 57 0.45 0.96 0.23 887 52

A0730 8.28 13.90 7.68 2170 93 6.30 12.00 5.79 2280 92 4.74 9.97 4.26 2390 90 4.91 8.08 4.32 2930 88 4.26 7.56 3.71 2920 87 3.10 6.37 2.62 2770 84 3.56 4.53 2.82 3830 79 2.50 4.20 1.92 3130 77 1.92 3.61 1.40 3050 73 1.31 2.70 0.91 2480 70 0.91 2.20 0.58 1900 64 0.66 1.71 0.39 1490 59

A0860 13.70 17.10 12.80 3370 94 9.59 14.50 8.86 3490 92 8.39 12.20 7.64 4010 91 6.71 10.80 6.02 4140 90 6.82 9.06 6.01 4730 88 4.65 7.60 3.97 4200 85 5.33 5.38 4.29 5820 80 4.10 5.02 3.22 5240 78 3.28 4.32 2.46 5340 75 2.03 3.11 1.43 3880 70 1.37 2.59 0.91 2960 66 1.04 2.02 0.64 2430 61


RATINGS AT 1160 REV/MIN INPUT 9608 NOMINAL RATIO

DOUBLE REDUCTION

75.0

NOMINAL OUTPUT SPEED REV / MIN

15.47

100.

11.60

125.

9.28

150.

7.73

200.

5.80

225.

5.16

250.

4.64

300.

3.87

350.

3.31

375.

3.09

400.

2.90

450.

2.58

500.

2.32

600.

1.93

625.

1.86

700.

1.66

750.

1.55

800.

1.45

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.35 0.93 0.21 881 61 0.23 0.90 0.13 740 58 0.25 0.64 0.12 881 50 0.21 0.81 0.11 881 52 0.15 0.80 0.07 782 48 0.16 0.77 0.08 881 48 0.15 0.56 0.06 881 41 0.15 0.64 0.06 881 38 0.12 0.54 0.04 881 37 0.06 0.34 0.02 337 26 0.11 0.64 0.04 815 34 0.11 0.50 0.04 881 34 0.11 0.57 0.03 881 29 0.10 0.54 0.03 881 26 0.10 0.56 0.03 881 26 0.08 0.28 0.02 701 21 0.09 0.53 0.02 881 24 0.09 0.45 0.02 845 23

50

A0510 0.52 1.69 0.34 1410 66 0.67 1.08 0.38 2190 57 0.57 0.97 0.31 2190 54 0.33 1.22 0.19 1580 57 0.39 0.94 0.19 2190 50 0.27 1.00 0.15 1660 53 0.33 0.85 0.15 2190 46 0.24 0.66 0.11 1680 44 0.26 0.81 0.11 2190 43 0.09 0.52 0.03 592 32 0.27 0.66 0.10 2190 38 0.23 0.80 0.09 2180 41 0.23 0.66 0.08 2190 35 0.20 0.66 0.07 2190 33 0.20 0.61 0.06 2190 33 0.08 0.30 0.02 675 21 0.17 0.61 0.05 2190 31 0.18 0.47 0.05 2190 28

A0610 0.92 2.19 0.60 2580 65 0.83 1.57 0.48 2760 58 0.80 1.39 0.44 3150 55 0.58 1.86 0.34 2900 58 0.53 1.33 0.27 3110 51 0.48 1.77 0.26 3050 53 0.46 1.18 0.22 3150 48 0.39 1.66 0.20 3150 51 0.37 1.13 0.16 3150 43 0.17 0.75 0.05 1010 30 0.34 1.19 0.15 3150 44 0.33 1.06 0.13 3150 40 0.29 1.06 0.12 3150 41 0.26 0.99 0.10 3150 38 0.27 1.11 0.09 3150 34 0.18 0.59 0.06 2110 32 0.24 1.04 0.08 3150 32 0.23 0.95 0.07 3150 31

A0730 1.36 2.90 0.97 4020 71 1.00 2.63 0.68 3770 68 0.96 1.93 0.59 4210 62 0.79 1.96 0.51 4210 64 0.59 1.96 0.36 3990 60 0.62 1.54 0.37 4210 59 0.55 1.70 0.30 4210 54 0.48 1.44 0.27 4210 57 0.44 1.54 0.21 4210 49 0.22 0.83 0.09 1700 38 0.38 1.44 0.20 4150 53 0.38 1.54 0.18 4210 46 0.34 1.44 0.16 4210 46 0.30 1.44 0.13 4210 44 0.32 1.04 0.12 4210 39 0.18 0.45 0.06 2300 33 0.28 1.04 0.10 4210 37 0.26 0.84 0.10 4210 38

A0860 2.28 3.35 1.69 6390 74 1.58 2.86 1.12 5690 71 1.71 2.09 1.11 7210 65 1.31 2.65 0.87 7210 67 0.92 2.29 0.57 6380 63 1.00 2.40 0.63 7210 63 0.90 1.69 0.51 7210 56 0.83 1.61 0.46 7210 55 0.35 0.89 0.15 2750 43 0.69 1.58 0.37 7210 53 0.61 1.61 0.31 6650 51 0.60 1.50 0.31 7210 51 0.59 1.61 0.27 7210 45 0.51 1.58 0.22 7210 43 0.50 1.45 0.21 7210 42 0.28 0.63 0.11 3970 38 0.44 1.45 0.18 7210 40 0.38 1.24 0.16 6890 43


RATINGS AT 1160 REV/MIN INPUT 9608

DOUBLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

900.

1.29

1000.

1.16

1200.

0.97

1250.

0.93

1400.

0.83

1500.

0.77

1600.

0.73

1750.

0.66

1800.

0.64

2000.

0.58

2100.

0.55

2400.

0.48

2500.

0.46

2800.

0.41

3000.

0.39

3500.

0.33

3600.

0.32

4200.

0.28

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.08 0.53 0.02 881 22 0.08 0.45 0.02 881 19 0.08 0.45 0.01 881 17 0.07 0.39 0.01 881 18 0.07 0.28 0.01 869 16 0.07 0.39 0.01 881 16 0.07 0.45 0.010 842 14 0.07 0.28 0.009 881 13 0.07 0.34 0.009 881 13 0.06 0.39 0.008 855 13 0.06 0.28 0.008 881 12 0.06 0.34 0.007 865 11 0.05 0.39 0.004 616 9 0.06 0.28 0.006 874 10 0.05 0.34 0.004 623 8 0.05 0.28 0.003 629 7 0.05 0.34 0.002 476 5 0.04 0.28 0.002 480 5

51

A0510 0.16 0.57 0.04 2190 29 0.16 0.47 0.04 2190 25 0.14 0.47 0.03 2190 24 0.13 0.41 0.03 2030 23 0.08 0.30 0.01 1030 16 0.12 0.41 0.03 2190 22 0.09 0.47 0.02 1550 19 0.08 0.30 0.01 1210 15 0.10 0.36 0.02 1780 18 0.08 0.41 0.01 1570 17 0.08 0.30 0.01 1410 15 0.08 0.36 0.01 1590 15 0.06 0.41 0.008 1130 13 0.08 0.30 0.01 1600 14 0.06 0.36 0.007 1140 11 0.06 0.30 0.006 1150 10 0.05 0.36 0.004 874 8 0.05 0.30 0.004 882 7

A0610 0.22 1.03 0.06 3150 29 0.20 0.95 0.06 3150 28 0.19 0.95 0.05 3150 26 0.18 0.81 0.05 3150 26 0.17 0.59 0.04 3150 24 0.16 0.81 0.04 3150 24 0.14 0.94 0.03 2550 21 0.15 0.59 0.03 3150 22 0.16 0.68 0.03 3150 21 0.12 0.81 0.02 2590 19 0.14 0.59 0.03 3150 20 0.12 0.68 0.02 2620 16 0.10 0.81 0.01 1870 14 0.11 0.59 0.02 2640 16 0.10 0.68 0.01 1890 12 0.09 0.59 0.01 1910 12 0.08 0.68 0.007 1440 9 0.07 0.59 0.006 1460 9

A0730 0.25 0.95 0.09 4210 34 0.24 0.84 0.08 4210 33 0.21 0.84 0.06 4210 31 0.21 0.65 0.06 4210 30 0.18 0.45 0.05 3890 29 0.18 0.65 0.05 4210 28 0.18 0.84 0.05 4210 27 0.18 0.45 0.04 4210 25 0.18 0.53 0.04 4210 24 0.16 0.65 0.04 4210 25 0.16 0.45 0.04 4210 24 0.15 0.53 0.03 4210 21 0.12 0.65 0.02 3260 20 0.14 0.45 0.03 4210 20 0.12 0.53 0.02 3300 17 0.11 0.45 0.02 3330 16 0.10 0.53 0.01 2500 13 0.09 0.45 0.01 2530 12

A0860 0.39 1.36 0.15 7210 38 0.36 1.24 0.13 7210 37 0.32 1.24 0.11 7210 35 0.32 0.89 0.11 7210 33 0.28 0.63 0.10 7090 34 0.28 0.89 0.09 7210 31 0.27 1.24 0.08 7210 31 0.26 0.63 0.08 7210 29 0.25 0.78 0.07 7210 29 0.24 0.89 0.07 7210 28 0.23 0.63 0.06 7210 27 0.22 0.78 0.06 7210 26 0.17 0.89 0.04 5110 22 0.20 0.63 0.05 7210 24 0.15 0.78 0.03 5170 21 0.14 0.63 0.03 5220 19 0.12 0.78 0.02 3910 16 0.11 0.63 0.02 3940 15


RATINGS AT 875 REV/MIN INPUT 9608

SINGLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

5.0

175.00

7.5

116.67

10.0

87.50

12.5

70.00

15.0

58.33

20.0

43.75

25.0

35.00

30.0

29.17

40.0

21.88

50.0

17.50

60.0

14.58

70.0

12.50

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0280 0.64 1.69 0.55 209 87 0.60 1.38 0.50 265 84 0.53 1.07 0.42 320 79 0.49 0.90 0.37 331 76 0.38 0.89 0.28 297 75 0.39 0.59 0.25 364 65 0.35 0.55 0.22 389 62 0.25 0.51 0.14 309 58 0.14 0.43 0.07 197 49 0.10 0.35 0.04 156 45 0.07 0.30 0.03 118 39 0.05 0.25 0.02 95 35

52

A0410 1.52 2.64 1.33 503 88 1.33 2.22 1.13 597 85 1.14 1.79 0.93 703 82 1.20 1.55 0.95 859 80 1.09 1.42 0.84 881 77 0.60 1.32 0.45 632 75 0.73 0.96 0.49 881 67 0.64 0.88 0.41 881 64 0.40 0.79 0.23 664 58 0.25 0.61 0.13 483 54 0.19 0.49 0.09 372 47 0.14 0.42 0.06 304 44

A0510

A0610

2.91 4.26 2.60 899 89 2.29 3.52 1.99 1050 87 2.09 2.74 1.75 1320 84 2.00 2.45 1.63 1470 82 1.31 2.39 1.05 1100 80 1.63 1.62 1.18 1700 72 1.45 1.46 1.01 1810 69 1.08 1.37 0.72 1560 67 0.67 1.25 0.42 1220 63 0.43 0.91 0.25 883 57 0.30 0.79 0.16 683 53 0.22 0.65 0.11 535 49

4.26 6.06 3.83 1380 90 3.54 5.19 3.11 1640 88 3.12 4.50 2.69 1870 86 2.57 3.63 2.13 1920 83 2.30 3.26 1.86 2010 81 1.99 2.39 1.49 2140 75 1.96 2.14 1.40 2520 71 1.73 1.94 1.19 2560 69 1.09 1.71 0.70 2010 64 0.69 1.27 0.41 1470 59 0.47 1.11 0.26 1130 55 0.36 0.88 0.18 912 51

A0730 7.05 11.20 6.52 2440 92 5.33 9.74 4.87 2540 91 3.77 8.07 3.37 2510 89 3.98 6.56 3.48 3130 87 3.46 6.15 2.99 3120 86 2.43 5.19 2.04 2860 84 2.91 3.71 2.28 4100 78 2.04 3.44 1.55 3350 76 1.52 2.96 1.09 3140 72 1.04 2.23 0.71 2560 68 0.72 1.82 0.45 1960 63 0.52 1.43 0.31 1540 59

A0860 10.30 13.60 9.63 3350 93 8.12 11.50 7.45 3890 92 7.08 9.72 6.39 4450 90 5.12 8.64 4.56 4160 89 5.54 7.26 4.83 5040 87 3.61 6.10 3.05 4280 84 4.38 4.35 3.46 6230 79 3.35 4.06 2.59 5600 77 2.63 3.50 1.93 5570 74 1.61 2.53 1.11 4010 69 1.09 2.12 0.71 3050 65 0.82 1.66 0.49 2490 60


RATINGS AT 875 REV/MIN INPUT 9608 NOMINAL RATIO

DOUBLE REDUCTION

75.0

NOMINAL OUTPUT SPEED REV / MIN

11.67

100.

8.75

125.

7.00

150.

5.83

200.

4.38

225.

3.89

250.

3.50

300.

2.92

350.

2.50

375.

2.33

400.

2.19

450.

1.94

500.

1.75

600.

1.46

625.

1.40

700.

1.25

750.

1.17

800.

1.09

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.27 0.85 0.16 881 60 0.18 0.82 0.10 758 57 0.19 0.58 0.09 881 49 0.16 0.75 0.08 881 51 0.11 0.74 0.05 797 48 0.12 0.73 0.06 881 47 0.12 0.52 0.05 881 41 0.11 0.55 0.04 881 38 0.09 0.50 0.03 881 37 0.05 0.32 0.01 342 26 0.09 0.55 0.03 828 34 0.08 0.47 0.03 881 34 0.09 0.54 0.02 881 29 0.08 0.50 0.02 881 26 0.07 0.51 0.02 881 26 0.06 0.25 0.01 716 21 0.07 0.50 0.02 881 24 0.07 0.40 0.02 855 23

53

A0510 0.42 1.55 0.27 1480 64 0.52 0.99 0.29 2190 56 0.44 0.89 0.23 2190 53 0.27 1.05 0.15 1650 56 0.30 0.88 0.15 2190 48 0.21 0.87 0.11 1680 52 0.26 0.79 0.12 2190 45 0.19 0.57 0.08 1680 43 0.20 0.76 0.08 2190 42 0.07 0.49 0.02 602 32 0.21 0.57 0.08 2190 37 0.18 0.75 0.07 2190 40 0.18 0.57 0.06 2190 34 0.16 0.57 0.05 2190 32 0.15 0.53 0.05 2190 32 0.06 0.27 0.01 690 21 0.13 0.53 0.04 2190 30 0.14 0.41 0.04 2190 27

A0610 0.74 2.00 0.48 2720 64 0.67 1.43 0.39 2910 57 0.62 1.26 0.33 3150 54 0.47 1.72 0.27 3030 57 0.41 1.22 0.21 3150 50 0.38 1.54 0.20 3150 53 0.36 1.09 0.17 3150 47 0.30 1.45 0.15 3150 50 0.29 1.05 0.12 3150 42 0.13 0.71 0.04 1030 30 0.26 1.11 0.11 3150 43 0.26 0.98 0.10 3150 39 0.22 0.99 0.09 3150 40 0.20 0.93 0.07 3150 37 0.21 1.01 0.07 3150 34 0.14 0.53 0.04 2160 31 0.19 0.98 0.06 3150 31 0.18 0.83 0.05 3150 31

A0730 1.09 2.56 0.77 4210 70 0.78 2.43 0.52 3860 67 0.74 1.78 0.45 4210 60 0.61 1.74 0.38 4210 63 0.46 1.74 0.28 4060 59 0.48 1.36 0.28 4210 58 0.42 1.55 0.22 4210 53 0.37 1.28 0.21 4210 56 0.34 1.36 0.16 4210 48 0.17 0.77 0.07 1730 38 0.30 1.28 0.15 4210 52 0.30 1.36 0.13 4210 45 0.27 1.28 0.12 4210 45 0.23 1.28 0.10 4210 43 0.24 0.90 0.09 4210 38 0.14 0.41 0.05 2360 33 0.22 0.90 0.08 4210 36 0.20 0.73 0.07 4210 37

A0860 1.84 2.95 1.34 6730 73 1.28 2.52 0.89 5990 69 1.32 1.85 0.83 7210 63 1.01 2.45 0.66 7210 65 0.72 2.12 0.44 6500 61 0.77 2.14 0.48 7210 62 0.70 1.56 0.38 7210 55 0.64 1.44 0.35 7210 54 0.27 0.79 0.12 2790 42 0.54 1.51 0.28 7210 52 0.48 1.44 0.24 6750 50 0.46 1.43 0.23 7210 50 0.46 1.44 0.20 7210 44 0.40 1.44 0.17 7210 42 0.39 1.30 0.16 7210 41 0.22 0.58 0.08 4060 38 0.34 1.30 0.13 7210 39 0.30 1.12 0.12 6970 42


RATINGS AT 875 REV/MIN INPUT 9608

DOUBLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

900.

0.97

1000.

0.88

1200.

0.73

1250.

0.70

1400.

0.63

1500.

0.58

1600.

0.55

1750.

0.50

1800.

0.49

2000.

0.44

2100.

0.42

2400.

0.36

2500.

0.35

2800.

0.31

3000.

0.29

3500.

0.25

3600.

0.24

4200.

0.21

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.06 0.48 0.01 881 22 0.06 0.40 0.01 881 19 0.06 0.40 0.01 881 17 0.06 0.34 0.010 881 18 0.05 0.25 0.009 881 17 0.05 0.34 0.008 881 16 0.05 0.40 0.007 858 14 0.05 0.25 0.007 881 13 0.05 0.30 0.007 881 13 0.05 0.34 0.006 871 13 0.05 0.25 0.006 881 12 0.05 0.30 0.005 880 11 0.04 0.34 0.003 627 10 0.04 0.25 0.004 881 10 0.04 0.30 0.003 633 8 0.04 0.25 0.002 639 7 0.03 0.30 0.002 484 6 0.03 0.25 0.002 488 5

54

A0510 0.12 0.49 0.03 2190 28 0.12 0.41 0.03 2190 25 0.11 0.41 0.03 2190 23 0.10 0.35 0.02 2070 23 0.06 0.27 0.01 1050 16 0.09 0.35 0.02 2190 22 0.07 0.41 0.01 1580 19 0.06 0.27 0.010 1240 16 0.08 0.31 0.01 1810 18 0.06 0.35 0.01 1600 17 0.06 0.27 0.009 1440 15 0.06 0.31 0.009 1620 15 0.05 0.35 0.006 1150 13 0.06 0.27 0.008 1630 14 0.05 0.31 0.005 1160 11 0.05 0.27 0.005 1170 10 0.04 0.31 0.003 889 9 0.04 0.27 0.003 897 8

A0610 0.17 0.93 0.05 3150 29 0.16 0.83 0.04 3150 28 0.14 0.83 0.04 3150 26 0.14 0.71 0.04 3150 26 0.13 0.53 0.03 3150 24 0.12 0.71 0.03 3150 24 0.11 0.83 0.02 2600 21 0.12 0.53 0.02 3150 22 0.12 0.60 0.02 3150 20 0.10 0.71 0.02 2630 19 0.11 0.53 0.02 3150 19 0.09 0.60 0.02 2660 16 0.07 0.71 0.01 1900 15 0.08 0.53 0.01 2690 16 0.07 0.60 0.009 1920 12 0.07 0.53 0.008 1940 12 0.06 0.60 0.006 1470 9 0.06 0.53 0.005 1480 9

A0730 0.19 0.82 0.06 4210 34 0.18 0.73 0.06 4210 32 0.16 0.73 0.05 4210 30 0.16 0.59 0.05 4210 30 0.14 0.41 0.04 3970 29 0.14 0.59 0.04 4210 28 0.14 0.73 0.04 4210 26 0.13 0.41 0.03 4210 25 0.14 0.48 0.03 4210 24 0.12 0.59 0.03 4210 24 0.12 0.41 0.03 4210 23 0.12 0.48 0.02 4210 21 0.09 0.59 0.02 3320 20 0.10 0.41 0.02 4210 20 0.09 0.48 0.02 3360 17 0.08 0.41 0.01 3390 17 0.07 0.48 0.010 2550 13 0.07 0.41 0.008 2570 13

A0860 0.30 1.23 0.11 7210 37 0.28 1.12 0.10 7210 36 0.24 1.12 0.08 7210 34 0.25 0.81 0.08 7210 32 0.22 0.58 0.07 7210 33 0.22 0.81 0.07 7210 31 0.20 1.12 0.06 7210 31 0.20 0.58 0.06 7210 28 0.20 0.71 0.06 7210 29 0.18 0.81 0.05 7210 27 0.18 0.58 0.05 7210 27 0.17 0.71 0.04 7210 25 0.13 0.81 0.03 5200 22 0.15 0.58 0.04 7210 24 0.12 0.71 0.02 5260 21 0.11 0.58 0.02 5300 19 0.09 0.71 0.02 3970 17 0.09 0.58 0.01 4000 15


RATINGS AT 500 REV/MIN INPUT 9608

SINGLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

5.0

100.00

7.5

66.67

10.0

50.00

12.5

40.00

15.0

33.33

20.0

25.00

25.0

20.00

30.0

16.67

40.0

12.50

50.0

10.00

60.0

8.33

70.0

7.14

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0280 0.36 1.27 0.31 205 85 0.39 1.05 0.32 295 82 0.35 0.81 0.27 357 78 0.33 0.68 0.24 380 74 0.24 0.68 0.18 322 73 0.27 0.45 0.17 432 63 0.22 0.42 0.13 421 60 0.16 0.39 0.09 330 56 0.09 0.33 0.04 208 47 0.06 0.28 0.03 164 44 0.04 0.24 0.02 124 38 0.03 0.20 0.01 99 34

55

A0410 1.07 2.07 0.93 614 87 0.93 1.75 0.78 721 84 0.74 1.42 0.59 784 80 0.72 1.24 0.56 881 77 0.64 1.13 0.48 881 75 0.38 1.06 0.28 680 73 0.43 0.76 0.28 881 64 0.38 0.70 0.23 881 61 0.25 0.63 0.14 703 56 0.16 0.50 0.08 509 52 0.12 0.41 0.05 391 45 0.08 0.35 0.04 319 43

A0510

A0610

1.67 3.31 1.46 884 88 1.61 2.77 1.37 1270 85 1.36 2.18 1.11 1470 82 1.31 1.95 1.04 1640 79 0.83 1.91 0.65 1190 79 1.08 1.30 0.76 1910 70 1.01 1.17 0.67 2120 67 0.68 1.11 0.44 1660 64 0.41 1.02 0.25 1250 60 0.27 0.75 0.15 931 55 0.19 0.66 0.09 718 51 0.13 0.54 0.06 561 47

2.43 4.78 2.14 1350 88 2.37 4.14 2.06 1900 87 1.96 3.61 1.66 2020 85 1.68 2.93 1.36 2140 81 1.45 2.64 1.15 2170 79 1.32 1.90 0.95 2390 72 1.30 1.67 0.90 2820 69 1.12 1.52 0.73 2770 65 0.69 1.35 0.42 2130 61 0.44 1.07 0.25 1550 56 0.30 0.93 0.16 1190 53 0.22 0.75 0.11 956 48

A0730 4.91 7.33 4.49 2940 91 3.12 6.41 2.81 2570 90 2.15 5.35 1.90 2470 88 2.59 4.37 2.22 3490 86 2.16 4.10 1.83 3340 85 1.39 3.48 1.14 2790 82 1.77 2.51 1.34 4210 76 1.26 2.34 0.93 3500 73 0.87 2.03 0.60 3010 69 0.65 1.54 0.43 2680 66 0.45 1.27 0.27 2060 61 0.33 1.00 0.18 1610 56

A0860 5.90 8.59 5.44 3310 92 5.03 7.38 4.56 4170 91 4.36 6.24 3.88 4720 89 2.93 5.57 2.56 4090 87 3.32 4.70 2.84 5180 85 2.06 3.97 1.70 4180 83 2.90 2.86 2.22 6980 76 2.08 2.67 1.55 5850 74 1.50 2.32 1.06 5330 71 1.01 1.69 0.67 4220 66 0.68 1.43 0.43 3210 62 0.51 1.13 0.30 2610 58


RATINGS AT 500 REV/MIN INPUT 9608 NOMINAL RATIO

DOUBLE REDUCTION

75.0

NOMINAL OUTPUT SPEED REV / MIN

6.67

100.

5.00

125.

4.00

150.

3.33

200.

2.50

225.

2.22

250.

2.00

300.

1.67

350.

1.43

375.

1.33

400.

1.25

450.

1.11

500.

1.00

600.

0.83

625.

0.80

700.

0.71

750.

0.67

800.

0.63

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.16 0.73 0.09 881 59 0.11 0.71 0.06 790 56 0.11 0.50 0.05 881 48 0.09 0.66 0.05 881 50 0.07 0.65 0.03 824 47 0.07 0.63 0.03 881 46 0.07 0.46 0.03 881 40 0.07 0.42 0.02 881 37 0.05 0.45 0.02 881 36 0.03 0.30 0.008 352 27 0.05 0.42 0.02 850 34 0.05 0.42 0.02 881 33 0.05 0.42 0.01 881 28 0.05 0.42 0.01 881 26 0.04 0.39 0.01 881 26 0.04 0.20 0.008 745 21 0.04 0.39 0.009 881 24 0.04 0.30 0.009 881 23

56

A0510 0.27 1.32 0.17 1620 63 0.31 0.85 0.17 2190 54 0.26 0.76 0.13 2190 51 0.16 0.79 0.09 1680 55 0.18 0.77 0.08 2190 46 0.13 0.65 0.06 1670 50 0.15 0.69 0.07 2190 44 0.11 0.43 0.05 1670 42 0.12 0.65 0.05 2190 40 0.04 0.46 0.01 618 32 0.12 0.43 0.04 2190 35 0.10 0.65 0.04 2190 38 0.11 0.43 0.03 2190 33 0.09 0.43 0.03 2190 31 0.09 0.40 0.03 2190 31 0.04 0.21 0.008 717 21 0.08 0.40 0.02 2190 29 0.08 0.32 0.02 2190 26

A0610 0.48 1.70 0.30 2960 62 0.43 1.21 0.24 3150 55 0.37 1.07 0.19 3150 52 0.29 1.49 0.16 3150 56 0.25 1.06 0.12 3150 48 0.23 1.16 0.12 3150 51 0.21 0.94 0.10 3150 45 0.18 1.11 0.09 3150 49 0.17 0.92 0.07 3150 41 0.08 0.64 0.02 1050 30 0.15 0.98 0.06 3150 42 0.15 0.87 0.06 3150 38 0.13 0.87 0.05 3150 39 0.12 0.82 0.04 3150 36 0.12 0.77 0.04 3150 33 0.09 0.44 0.03 2240 30 0.11 0.77 0.03 3150 30 0.11 0.64 0.03 3150 30

A0730 0.64 2.01 0.44 4210 68 0.48 2.01 0.31 4030 65 0.44 1.54 0.26 4210 58 0.36 1.36 0.22 4210 61 0.28 1.36 0.16 4200 58 0.28 1.03 0.16 4210 56 0.25 1.34 0.13 4210 50 0.22 0.98 0.12 4210 54 0.20 1.03 0.09 4210 46 0.11 0.69 0.04 1780 37 0.18 0.98 0.09 4210 50 0.18 1.03 0.08 4210 44 0.16 0.98 0.07 4210 43 0.14 0.98 0.06 4210 41 0.15 0.69 0.05 4210 37 0.08 0.34 0.03 2450 32 0.13 0.69 0.04 4210 35 0.12 0.57 0.04 4210 36

A0860 1.17 2.49 0.82 7210 70 0.81 2.14 0.54 6400 67 0.79 1.57 0.48 7210 60 0.60 1.95 0.38 7210 63 0.44 1.94 0.26 6720 59 0.46 1.71 0.27 7210 60 0.42 1.43 0.22 7210 52 0.39 1.16 0.20 7210 51 0.17 0.68 0.07 2870 40 0.32 1.37 0.16 7210 49 0.29 1.16 0.14 6930 48 0.28 1.32 0.13 7210 47 0.27 1.16 0.11 7210 42 0.24 1.16 0.10 7210 40 0.24 1.03 0.09 7210 39 0.14 0.49 0.05 4210 36 0.21 1.03 0.08 7210 37 0.18 0.91 0.07 7210 40


RATINGS AT 500 REV/MIN INPUT 9608

DOUBLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

900.

0.56

1000.

0.50

1200.

0.42

1250.

0.40

1400.

0.36

1500.

0.33

1600.

0.31

1750.

0.29

1800.

0.28

2000.

0.25

2100.

0.24

2400.

0.21

2500.

0.20

2800.

0.18

3000.

0.17

3500.

0.14

3600.

0.14

4200.

0.12

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.04 0.37 0.008 881 22 0.04 0.30 0.007 881 19 0.03 0.30 0.006 881 17 0.03 0.27 0.006 881 17 0.03 0.20 0.005 881 17 0.03 0.27 0.005 881 16 0.03 0.30 0.004 881 15 0.03 0.20 0.004 881 13 0.03 0.24 0.004 881 13 0.03 0.27 0.003 881 13 0.03 0.20 0.003 881 12 0.03 0.24 0.003 881 11 0.02 0.27 0.002 647 10 0.02 0.20 0.002 881 10 0.02 0.24 0.002 654 8 0.02 0.20 0.002 659 8 0.02 0.24 0.001 499 6 0.02 0.20 0.001 503 5

57

A0510 0.07 0.38 0.02 2190 27 0.07 0.32 0.02 2190 24 0.07 0.32 0.01 2190 22 0.06 0.28 0.01 2140 22 0.04 0.21 0.006 1080 16 0.06 0.28 0.01 2190 21 0.04 0.32 0.008 1630 19 0.04 0.21 0.006 1270 15 0.05 0.24 0.008 1870 17 0.04 0.28 0.006 1650 17 0.04 0.21 0.006 1480 15 0.04 0.24 0.005 1670 15 0.03 0.28 0.004 1180 13 0.04 0.21 0.005 1680 14 0.03 0.24 0.003 1190 11 0.03 0.21 0.003 1200 10 0.02 0.24 0.002 916 9 0.02 0.21 0.002 923 8

A0610 0.10 0.71 0.03 3150 28 0.09 0.64 0.02 3150 27 0.08 0.64 0.02 3150 25 0.08 0.56 0.02 3150 25 0.08 0.44 0.02 3150 23 0.07 0.56 0.02 3150 23 0.06 0.64 0.01 2690 21 0.07 0.44 0.01 3150 21 0.07 0.47 0.01 3150 20 0.06 0.56 0.01 2720 19 0.06 0.44 0.01 3150 19 0.06 0.47 0.009 2750 16 0.04 0.56 0.006 1960 15 0.05 0.44 0.008 2780 16 0.04 0.47 0.005 1980 12 0.04 0.44 0.004 2000 12 0.03 0.47 0.003 1510 10 0.03 0.44 0.003 1530 9

A0730

A0860

0.12 0.64 0.04 4210 32 0.11 0.57 0.03 4210 31 0.10 0.57 0.03 4210 29 0.09 0.49 0.03 4210 28 0.08 0.34 0.02 4110 28 0.08 0.49 0.02 4210 27 0.08 0.57 0.02 4210 26 0.08 0.34 0.02 4210 24 0.08 0.40 0.02 4210 23 0.07 0.49 0.02 4210 24 0.07 0.34 0.02 4210 22 0.07 0.40 0.01 4210 20 0.05 0.49 0.01 3430 20 0.06 0.34 0.01 4210 20 0.05 0.40 0.009 3460 17 0.05 0.34 0.008 3490 16 0.04 0.40 0.006 2620 13 0.04 0.34 0.005 2650 13

0.18 0.99 0.06 7210 36 0.17 0.91 0.06 7210 34 0.15 0.91 0.05 7210 33 0.15 0.67 0.05 7210 31 0.13 0.49 0.04 7210 32 0.13 0.67 0.04 7210 29 0.12 0.91 0.04 7210 29 0.12 0.49 0.03 7210 27 0.12 0.59 0.03 7210 27 0.11 0.67 0.03 7210 26 0.11 0.49 0.03 7210 26 0.10 0.59 0.02 7210 24 0.08 0.67 0.02 5370 22 0.09 0.49 0.02 7210 23 0.07 0.59 0.01 5420 20 0.07 0.49 0.01 5470 19 0.05 0.59 0.009 4090 17 0.05 0.49 0.008 4120 15


RATINGS AT 250 REV/MIN INPUT 9608

SINGLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

5.0

50.00

7.5

33.33

10.0

25.00

12.5

20.00

15.0

16.67

20.0

12.50

25.0

10.00

30.0

8.33

40.0

6.25

50.0

5.00

60.0

4.17

70.0

3.57

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0280 0.18 1.01 0.15 202 84 0.19 0.83 0.16 288 81 0.17 0.62 0.13 348 76 0.18 0.51 0.13 413 72 0.13 0.52 0.10 349 71 0.17 0.35 0.10 506 60 0.13 0.33 0.07 450 57 0.09 0.31 0.05 351 54 0.05 0.26 0.02 220 45 0.03 0.23 0.01 173 42 0.02 0.20 0.009 131 37 0.02 0.17 0.006 104 33

58

A0410 0.68 1.62 0.58 765 85 0.58 1.38 0.48 881 82 0.42 1.11 0.33 880 78 0.37 0.94 0.28 881 75 0.33 0.85 0.24 881 73 0.21 0.82 0.15 730 71 0.23 0.57 0.14 881 62 0.20 0.53 0.12 881 58 0.14 0.48 0.07 744 53 0.09 0.41 0.04 537 50 0.06 0.34 0.03 411 43 0.05 0.29 0.02 335 41

A0510

A0610

0.83 2.59 0.72 867 86 0.84 2.19 0.70 1300 84 0.78 1.72 0.62 1630 79 0.68 1.55 0.52 1640 77 0.41 1.54 0.32 1160 77 0.62 0.99 0.41 2080 67 0.52 0.88 0.33 2070 63 0.34 0.86 0.21 1570 61 0.21 0.80 0.12 1190 57 0.15 0.62 0.08 982 52 0.10 0.55 0.05 755 48 0.07 0.46 0.03 588 45

1.22 3.83 1.06 1330 87 1.18 3.35 1.00 1850 85 0.98 2.84 0.81 1980 83 0.90 2.24 0.71 2230 79 0.73 2.02 0.56 2100 77 0.76 1.44 0.52 2640 69 0.71 1.27 0.46 2920 66 0.56 1.17 0.35 2630 62 0.38 1.05 0.22 2200 58 0.24 0.88 0.13 1630 53 0.17 0.80 0.08 1250 50 0.12 0.65 0.06 1000 46

A0730 2.45 4.95 2.21 2890 90 1.56 4.37 1.38 2520 88 1.08 3.68 0.93 2420 86 1.30 3.02 1.08 3410 83 1.08 2.84 0.89 3250 82 0.70 2.43 0.55 2700 79 0.93 1.77 0.67 4210 72 0.63 1.65 0.44 3340 70 0.43 1.45 0.28 2860 65 0.32 1.11 0.20 2540 62 0.25 0.92 0.14 2160 57 0.18 0.73 0.10 1690 53

A0860 2.95 5.42 2.67 3250 90 2.52 4.71 2.24 4090 89 2.18 4.01 1.90 4620 87 1.46 3.60 1.25 3990 86 1.66 3.05 1.38 5030 83 1.03 2.60 0.82 4050 80 1.47 1.89 1.07 6750 73 1.04 1.77 0.74 5580 71 0.75 1.55 0.50 5050 67 0.52 1.15 0.32 4060 62 0.38 0.97 0.22 3370 59 0.29 0.77 0.16 2740 54


RATINGS AT 250 REV/MIN INPUT 9608 NOMINAL RATIO

DOUBLE REDUCTION

75.0

NOMINAL OUTPUT SPEED REV / MIN

3.33

100.

2.50

125.

2.00

150.

1.67

200.

1.25

225.

1.11

250.

1.00

300.

0.83

350.

0.71

375.

0.67

400.

0.63

450.

0.56

500.

0.50

600.

0.42

625.

0.40

700.

0.36

750.

0.33

800.

0.31

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.08 0.61 0.05 881 56 0.06 0.61 0.03 824 54 0.06 0.42 0.03 881 46 0.05 0.57 0.02 881 48 0.04 0.57 0.02 852 46 0.04 0.48 0.02 881 44 0.03 0.40 0.01 881 38 0.03 0.32 0.01 881 35 0.03 0.39 0.010 881 35 0.01 0.27 0.004 366 27 0.03 0.32 0.009 881 33 0.02 0.37 0.008 881 32 0.03 0.32 0.007 881 27 0.02 0.32 0.006 881 25 0.02 0.30 0.006 881 25 0.02 0.17 0.004 774 21 0.02 0.30 0.005 881 23 0.02 0.24 0.004 881 23

59

A0510 0.15 1.09 0.09 1680 60 0.16 0.71 0.08 2190 51 0.14 0.64 0.07 2190 48 0.08 0.60 0.04 1670 53 0.09 0.60 0.04 2190 44 0.06 0.50 0.03 1660 49 0.08 0.60 0.03 2190 41 0.06 0.33 0.02 1660 40 0.06 0.50 0.02 2190 38 0.02 0.43 0.007 644 31 0.07 0.33 0.02 2190 33 0.05 0.50 0.02 2190 37 0.06 0.33 0.02 2190 31 0.05 0.33 0.01 2190 30 0.05 0.31 0.01 2190 29 0.02 0.18 0.004 745 21 0.04 0.31 0.01 2190 28 0.04 0.25 0.01 2190 24

A0610 0.26 1.42 0.16 3150 60 0.23 1.00 0.12 3150 53 0.19 0.89 0.10 3150 49 0.15 1.13 0.08 3150 54 0.13 0.91 0.06 3150 46 0.12 0.87 0.06 3150 49 0.11 0.81 0.05 3150 43 0.09 0.83 0.04 3150 47 0.09 0.80 0.03 3150 39 0.04 0.55 0.01 1100 29 0.08 0.83 0.03 3150 40 0.08 0.75 0.03 3150 36 0.07 0.76 0.03 3150 37 0.06 0.72 0.02 3150 35 0.06 0.58 0.02 3150 31 0.05 0.35 0.01 2330 29 0.06 0.58 0.02 3150 29 0.06 0.49 0.02 3150 28

A0730 0.34 1.58 0.22 4210 66 0.26 1.58 0.16 4200 62 0.23 1.27 0.13 4210 55 0.19 1.01 0.11 4210 58 0.15 1.01 0.08 4210 55 0.15 0.78 0.08 4210 53 0.13 1.01 0.06 4210 48 0.12 0.75 0.06 4210 51 0.11 0.78 0.05 4210 43 0.06 0.64 0.02 1850 35 0.09 0.75 0.04 4210 48 0.09 0.78 0.04 4210 42 0.08 0.75 0.03 4210 41 0.07 0.75 0.03 4210 40 0.08 0.53 0.03 4210 35 0.05 0.29 0.01 2540 31 0.07 0.53 0.02 4210 33 0.06 0.44 0.02 4210 34

A0860 0.61 2.15 0.41 7210 68 0.44 1.86 0.28 6690 64 0.42 1.38 0.24 7210 57 0.31 1.52 0.19 7210 60 0.24 1.52 0.14 6950 57 0.24 1.37 0.14 7210 57 0.22 1.23 0.11 7210 50 0.20 0.87 0.10 7210 49 0.09 0.61 0.04 2980 38 0.17 1.18 0.08 7210 47 0.16 0.87 0.07 7210 46 0.15 1.13 0.07 7210 45 0.15 0.87 0.06 7210 39 0.13 0.87 0.05 7210 38 0.13 0.78 0.05 7210 37 0.07 0.41 0.03 4370 35 0.11 0.78 0.04 7210 35 0.10 0.70 0.04 7210 38


RATINGS AT 250 REV/MIN INPUT 9608

DOUBLE REDUCTION

NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

900.

0.28

1000.

0.25

1200.

0.21

1250.

0.20

1400.

0.18

1500.

0.17

1600.

0.16

1750.

0.14

1800.

0.14

2000.

0.13

2100.

0.12

2400.

0.10

2500.

0.10

2800.

0.09

3000.

0.08

3500.

0.07

3600.

0.07

4200.

0.06

CAPACITY Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency % Input Power HP (mechanical) Input Power HP (thermal) Output Power HP (mechanical) Output Torque lb.in (mech.) Efficiency %

SIZE OF UNIT A0410 0.02 0.28 0.004 881 22 0.02 0.24 0.003 881 19 0.02 0.24 0.003 881 17 0.02 0.21 0.003 881 17 0.02 0.17 0.003 881 17 0.01 0.21 0.002 881 16 0.01 0.24 0.002 881 15 0.01 0.17 0.002 881 13 0.01 0.19 0.002 881 13 0.01 0.21 0.002 881 14 0.01 0.17 0.002 881 12 0.01 0.19 0.002 881 11 0.010 0.21 0.001 671 11 0.01 0.17 0.001 881 10 0.010 0.19 0.001 677 9 0.010 0.17 0.001 682 8 0.009 0.19 0.001 516 7 0.008 0.17 0.000 520 6

60

A0510 0.04 0.29 0.010 2190 26 0.04 0.25 0.009 2190 22 0.03 0.25 0.007 2190 21 0.03 0.22 0.007 2190 21 0.02 0.18 0.003 1120 16 0.03 0.22 0.006 2190 20 0.02 0.25 0.004 1700 18 0.02 0.18 0.003 1310 15 0.03 0.20 0.004 1930 17 0.02 0.22 0.003 1710 17 0.02 0.18 0.003 1530 15 0.02 0.20 0.003 1730 15 0.01 0.22 0.002 1230 14 0.02 0.18 0.002 1740 13 0.01 0.20 0.002 1240 12 0.01 0.18 0.001 1250 11 0.01 0.20 0.001 948 9 0.01 0.18 0.001 954 9

A0610 0.05 0.54 0.01 3150 27 0.05 0.49 0.01 3150 26 0.04 0.49 0.01 3150 24 0.04 0.44 0.01 3150 24 0.04 0.35 0.009 3150 22 0.04 0.44 0.008 3150 22 0.03 0.49 0.007 2800 20 0.04 0.35 0.007 3150 20 0.04 0.37 0.007 3150 19 0.03 0.44 0.006 2830 19 0.03 0.35 0.006 3150 18 0.03 0.37 0.005 2850 16 0.02 0.44 0.003 2040 15 0.03 0.35 0.004 2870 16 0.02 0.37 0.003 2050 13 0.02 0.35 0.002 2070 12 0.02 0.37 0.002 1570 10 0.02 0.35 0.002 1580 10

A0730

A0860

0.06 0.49 0.02 4210 31 0.06 0.44 0.02 4210 29 0.05 0.44 0.01 4210 28 0.05 0.39 0.01 4210 27 0.05 0.29 0.01 4210 27 0.04 0.39 0.01 4210 26 0.04 0.44 0.01 4210 25 0.04 0.29 0.009 4210 23 0.04 0.33 0.009 4210 22 0.04 0.39 0.008 4210 23 0.04 0.29 0.008 4210 21 0.04 0.33 0.007 4210 19 0.03 0.39 0.006 3550 20 0.03 0.29 0.006 4210 19 0.03 0.33 0.005 3590 17 0.03 0.29 0.004 3610 16 0.02 0.33 0.003 2710 14 0.02 0.29 0.003 2730 13

0.09 0.76 0.03 7210 34 0.09 0.70 0.03 7210 32 0.08 0.70 0.02 7210 31 0.08 0.56 0.02 7210 29 0.07 0.41 0.02 7210 30 0.07 0.56 0.02 7210 28 0.06 0.70 0.02 7210 28 0.06 0.41 0.02 7210 26 0.06 0.49 0.02 7210 26 0.06 0.56 0.01 7210 25 0.06 0.41 0.01 7210 24 0.05 0.49 0.01 7210 23 0.04 0.56 0.009 5570 21 0.05 0.41 0.01 7210 22 0.04 0.49 0.007 5620 20 0.03 0.41 0.006 5660 18 0.03 0.49 0.005 4230 16 0.03 0.41 0.004 4260 15


DIMENSIONS SINGLE REDUCTION 9611 A

0

0

W R

STANDARD UNIT

* Fans not fitted to sizes 280, 410, 510 and 610

SIZE

A

B

B1

øC

øC1

C2

D

E

E1

E2

F1

G

G1

G2

A0280

2.283

1.125

2.063

0.625

0.625

0.4375

3.125

1.250

0.9375

0.16

0.35

1.125

0.906

0.13

A0410

2.598

1.625

2.350

0.750

0.750

0.625

3.875

1.625

1.3125

0.16

0.45

1.625

1.188

0.22

A0510

2.913

2.000

2.409

1.000

1.000

0.625

4.625

2.125

1.75

0.19

0.45

1.875

1.438

0.22

A0610

3.425

2.375

2.823

1.375

1.125

0.750

5.500

2.625

2.0

0.25

0.45

2.250

1.813

0.22

A0730

4.134

2.875

3.150

1.625

1.250

0.750

6.625

3.250

2.5

0.25

0.53

2.750

2.313

0.22

A0860

4.606

3.375

3.634

1.875

1.500

1.000

7.875

3.875

3.25

0.31

0.69

3.250

2.750

0.25

SIZE

A0280

H 2.067

J 1.635

L 1.18

N1 1.575

N2 1.26

P1 1.89

P2 1.77

P3 1.73

Q 2.42

R 1.99

S 3.189

T 2.09

T1 3.563

A0410

2.303

1.930

1.26

1.969

1.57

2.28

2.16

2.16

2.72

2.36

3.976

2.44

4.313

A0510

2.244

2.045

1.38

2.205

1.77

2.48

2.40

2.40

2.64

2.44

4.409

2.96

5.250

A0610

2.599

2.205

1.58

2.520

1.97

2.84

2.64

2.72

3.15

2.64

5.197

3.39

6.250

A0730

3.189

2.755

1.77

3.031

2.36

3.42

3.19

3.31

3.74

3.31

6.024

4.06

7.500

A0860

3.544

3.110

2.16

3.661

2.87

øN3 0.635 0.630 0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

4.09

3.82

3.90

4.25

3.82

7.008

4.57

8.625

SIZE

T2 2.40

U 0.35

2.68

0.39

3.39

0.47

3.94

0.55

4.80

0.63

5.20

0.71

V 0.715 0.709 0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

V1 0.707 0.699 0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

V2 0.480 0.472 0.708 0.700 0.708 0.700 0.833 0.825 0.833 0.825 1.110 1.102

W 0.1895 0.1875 0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

W1 0.190 0.188 0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

W2 0.096 0.094 0.190 0.188 0.190 0.188 0.190 0.188 0.190 0.188 0.252 0.250

A0280 A0410 A0510 A0610 A0730 A0860

61


DIMENSIONS SINGLE REDUCTION 9611 A

0

0

F

R

STANDARD UNIT FLANGE MOUNTED

* Fans not fitted to sizes 280, 410, 510 and 610

SIZE

A1

A3

A5

B

øC

øC1

C2

D

E

E1

E2

F7

G

A0280

3.189

2.480

1.93

1.125

0.625

0.625

0.4375

3.125

1.250

0.9375

0.16

1.125

A0410

3.976

3.150

2.36

1.625

0.750

0.750

0.625

3.875

1.625

1.3125

0.16

4.409

3.543

3.56

2.000

1.000

1.000

0.625

4.625

2.125

1.75

0.19

5.197

4.134

2.80

2.375

1.375

1.125

0.750

5.500

2.625

2.0

0.25

6.024

4.724

3.58

2.875

1.625

1.250

0.750

6.625

3.250

2.5

0.25

7.008

5.197

3.94

3.375

1.875

1.500

1.000

7.875

3.875

3.25

0.31

ø0.26 on 3.937 pcd ø0.35 on 4.528 pcd ø0.35 on 5.118 pcd ø0.43 on 6.496 pcd ø0.53 on 8.465 pcd ø0.53 on 8.465 pcd

G1 0.906

G2 0.13

N1 1.575

N2 1.26

P1 1.89

P3 1.73

P4 1.99

Q1 4.72

S 2.283

T 2.09

T1 3.563

0.22

1.969

1.57

2.28

2.16

2.36

5.51

2.84

2.598

2.44

4.313

1.438

0.22

2.205

1.77

2.48

2.40

2.44

6.30

3.46

2.913

2.96

5.250

1.813

0.22

2.520

1.97

2.84

2.72

2.64

7.87

4.33

3.425

3.39

6.250

2.313

0.22

3.031

2.36

3.42

3.31

3.31

9.84

5.36

4.134

4.06

7.500

2.750

0.25

3.661

2.87

4.09

3.90

3.82

9.84

R2 3.1508 3.1496 3.7415 3.7402 4.3321 4.3307 5.1197 5.1181 7.0882 7.0866 7.0882 7.0866

R3 2.36

1.188

øN3 0.635 0.630 0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

5.91

4.606

4.57

8.625

T2 2.40

U3 0.12

U4 0.28

2.68

0.14

0.31

3.39

0.16

0.35

3.94

0.18

0.39

4.80

0.20

0.47

5.20

0.20

0.47

V 0.715 0.709 0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

V1 0.707 0.699 0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

V2 0.480 0.472 0.708 0.700 0.708 0.700 0.833 0.825 0.833 0.825 1.110 1.102

W 0.1895 0.1875 0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

W1 0.190 0.188 0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

W2 0.096 0.094 0.190 0.188 0.190 0.188 0.190 0.188 0.190 0.188 0.252 0.250

A0510 A0610 A0730 A0860 SIZE

A0280 A0410 A0510 A0610 A0730 A0860 SIZE

A0280 A0410 A0510 A0610 A0730 A0860

62

1.625 1.875 2.250 2.750 3.250


DIMENSIONS SINGLE REDUCTION 9611 A

0

0

G

R

STANDARD UNIT WITH SIDE MOUNTED FEET * Fans not fitted to sizes 280, 410, 510 and 610

Feet can be fitted on either side of the gearcase as shown by the dotted line

SIZE

A

A6

B

øC

øC1

C2

D

E

E1

E2

F1

G

G1

G2

A0280

2.283

2.441

1.125

0.625

0.625

0.4375

3.125

1.250

0.9375

0.16

0.35

1.125

0.906

0.13

A0410

2.598

2.953

1.625

0.750

0.750

0.625

3.875

1.625

1.3125

0.16

0.45

1.625

1.188

0.22

A0510

2.913

3.071

2.000

1.000

1.000

0.625

4.625

2.125

1.75

0.19

0.45

1.875

1.438

0.22

A0610

3.425

3.386

2.375

1.375

1.125

0.750

5.500

2.625

2.0

0.25

0.45

2.250

1.813

0.22

A0730

4.134

4.055

2.875

1.625

1.250

0.750

6.625

3.250

2.5

0.25

0.53

2.750

2.313

0.22

A0860

4.606

4.646

3.375

1.875

1.500

1.000

7.875

3.875

3.25

0.31

0.69

3.250

2.750

0.25

SIZE

A0280

H 2.067

J2 4.00

J3 3.09

N1 1.575

N2 1.26

P1 1.89

P2 1.77

P3 1.73

R 1.99

R4 7.84

S 3.189

T 2.09

T1 3.563

A0410

2.303

5.00

3.62

1.969

1.57

2.28

2.16

2.16

2.36

9.72

3.976

2.44

4.313

A0510

2.244

5.43

3.94

2.205

1.77

2.48

2.40

2.40

2.44

10.47

4.409

2.96

5.250

A0610

2.599

6.38

4.61

2.520

1.97

2.84

2.64

2.72

2.64

12.56

5.197

3.39

6.250

A0730

3.189

7.32

5.43

3.031

2.36

3.42

3.19

3.31

3.31

14.09

6.024

4.06

7.500

A0860

3.544

8.54

6.14

3.661

2.87

øN3 0.635 0.630 0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

4.09

3.82

3.90

3.82

16.34

7.008

4.57

8.625

SIZE

T2 2.40

U6 0.20

2.68

0.24

3.39

0.24

3.94

0.31

4.80

0.31

5.20

0.39

V 0.715 0.709 0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

V1 0.707 0.699 0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

V2 0.480 0.472 0.708 0.700 0.708 0.700 0.833 0.825 0.833 0.825 1.110 1.102

W 0.1895 0.1875 0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

W1 0.190 0.188 0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

W2 0.096 0.094 0.190 0.188 0.190 0.188 0.190 0.188 0.190 0.188 0.252 0.250

A0280 A0410 A0510 A0610 A0730 A0860

63


DIMENSIONS SINGLE REDUCTION 9611 A

0

0

H R

STANDARD UNIT WITH END MOUNTED FEET

*

Fans not fitted to sizes 280, 410, 510 and 610 On sizes A0730 and A0860 fans are standard but can be omitted for some applications

SIZE

A

B

øC

øC1

C2

D

E

E1

E2

F1

G

G1

G2

A0280

2.283

1.125

0.625

0.625

0.4375

3.125

1.250

0.9375

0.16

0.35

1.125

0.906

0.13

1.635

A0410

2.598

1.625

0.750

0.750

0.625

3.875

1.625

1.3125

0.16

0.45

1.625

1.188

0.22

1.930

A0510

2.913

2.000

1.000

1.000

0.625

4.625

2.125

1.75

0.19

0.45

1.875

1.438

0.22

2.045

A0610

3.425

2.375

1.375

1.125

0.750

5.500

2.625

2.0

0.25

0.45

2.250

1.813

0.22

2.205

A0730

4.134

2.875

1.625

1.250

0.750

6.625

3.250

2.5

0.25

0.53

2.750

2.313

0.22

2.755

A0860

4.606

3.375

1.875

1.500

1.000

7.875

3.875

3.25

0.31

0.69

3.250

2.750

0.25

3.110

SIZE

A0280

J2 4.00

J3 3.09

N1 1.575

N2 1.26

P1 1.89

P2 1.77

P3 1.73

R 1.99

R4 7.84

S 3.189

T 2.09

T1 3.563

T2 2.40

A0410

5.00

3.62

1.969

1.57

2.28

2.16

2.16

2.36

9.72

3.976

2.44

4.313

2.68

A0510

5.43

3.94

2.205

1.77

2.48

2.40

2.40

2.44

10.47

4.409

2.96

5.250

3.39

A0610

6.38

4.61

2.520

1.97

2.84

2.64

2.72

2.64

12.56

5.197

3.39

6.250

3.94

A0730

7.32

5.43

3.031

2.36

3.42

3.19

3.31

3.31

14.09

6.024

4.06

7.500

4.80

A0860

8.54

6.14

3.661

2.87

øN3 0.635 0.630 0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

4.09

3.82

3.90

3.82

16.34

7.008

4.57

8.625

5.20

SIZE

T4 2.874

U6 0.20

3.327

0.24

3.268

0.24

3.780

0.31

4.488

0.31

5.079

0.39

V 0.715 0.709 0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

V1 0.707 0.699 0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

V2 0.480 0.472 0.708 0.700 0.708 0.700 0.833 0.825 0.833 0.825 1.110 1.102

W 0.1895 0.1875 0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

W1 0.190 0.188 0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

W2 0.096 0.094 0.190 0.188 0.190 0.188 0.190 0.188 0.190 0.188 0.252 0.250

A0280 A0410 A0510 A0610 A0730 A0860

64

J


DIMENSIONS DOUBLE REDUCTION 9906 A

0

0

W D

STANDARD UNIT

* Fans not fitted to sizes 410, 510 and 610

SIZE

A

A1

B

B1

B2

øC

øC1

C2

D

D1

E

E1

E2

F1

G

A0410

2.598

2.283

1.625

2.350

1.125

0.750

0.750

0.4375

3.875

3.563

1.625

1.3125

0.16

0.45

1.125

A0510

2.913

2.283

2.000

2.409

1.125

1.000

1.000

0.4375

4.625

3.563

2.125

1.75

0.19

0.45

1.125

A0610

3.425

2.598

2.375

2.823

1.625

1.375

1.125

0.625

5.500

4.313

2.625

2.0

0.25

0.45

1.625

A0730

4.134

2.598

2.875

3.150

1.625

1.625

1.250

0.625

6.625

4.313

3.250

2.5

0.25

0.53

1.625

A0860

4.606

2.913

3.375

3.634

2.000

1.875

1.500

0.625

7.875

5.250

3.875

3.25

0.31

0.69

1.875

SIZE

G1

G2

H

J

L

N1

N2

øN3

P1

P2

P3

Q

Q2

R

A0410

0.906

0.13

2.303

1.930

1.26

1.969

1.57

2.28

2.16

2.16

2.72

2.42

2.36

3.976

A0510

0.906

0.13

2.244

2.045

1.38

2.205

1.77

2.48

2.40

2.40

2.64

2.42

2.44

4.409

A0610

1.188

0.22

2.599

2.205

1.58

2.520

1.97

2.84

2.64

2.72

3.15

2.72

2.64

5.197

A0730

1.188

0.22

3.189

2.755

1.77

3.031

2.36

3.42

3.19

3.31

3.74

2.72

3.31

6.024

A0860

1.438

0.22

3.544

3.110

2.16

3.661

2.87

0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

4.09

3.82

3.90

4.25

2.64

3.82

7.008

SIZE

S1

S2

S3

T

T2

T3

T4

U

V

V1

V2

W

W1

W2

3.189

4.223

4.225

2.44

4.961

1.89

2.09

0.39

A0510

3.189

4.913

4.914

2.96

5.630

1.89

2.09

0.47

A0610

3.976

5.800

5.800

3.39

6.732

2.28

2.44

0.55

A0730

3.976

7.009

7.009

7.76

7.559

2.28

2.44

0.63

A0860

4.409

7.981

7.980

8.94

8.189

2.48

2.96

0.71

0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

0.480 0.472 0.480 0.472 0.708 0.700 0.708 0.700 0.708 0.700

0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

0.096 0.094 0.096 0.094 0.190 0.188 0.190 0.188 0.190 0.188

A0410

65

S


DIMENSIONS DOUBLE REDUCTION 9906 A

0

0

F

D

STANDARD UNIT FLANGE MOUNTED

* Fans not fitted to sizes 410, 510 and 610 Viewed in direction of arrow Y

SIZE

A

A1

A5

B

B2

øC

øC1

C2

D

D1

E

E1

E2

A0410

2.598

2.283

2.36

1.625

1.125

0.750

0.750

0.4375

3.875

3.563

1.625

1.3125

0.16

A0510

2.913

2.283

2.56

2.000

1.125

1.000

1.000

0.4375

4.625

3.563

2.125

1.75

0.19

A0610

3.425

2.598

2.80

2.375

1.625

1.375

1.125

0.625

5.500

4.313

2.625

2.0

0.25

A0730

4.134

2.598

3.58

2.875

1.625

1.625

1.250

0.625

6.625

4.313

3.250

2.5

0.25

A0860

4.606

2.913

3.94

3.375

2.000

1.875

1.500

0.625

7.875

5.250

3.875

3.25

0.31

F7 ø0.35 on 4.528 pcd ø0.35 on 5.118 pcd ø0.43 on 6.496 pcd ø0.53 on 8.465 pcd ø0.53 on 8.465 pcd

SIZE

G

G1

G2

N1

N2

øN3

P4

Q

Q1

Q2

R2

R3

S

S1

S2

A0410

1.125

0.906

0.13

1.969

1.57

2.16

2.72

5.51

2.72

3.976

3.189

4.276

1.125

0.906

0.13

2.205

1.77

2.40

2.64

6.30

2.64

3.46

4.409

3.189

4.669

A0610

1.625

1.188

0.22

2.520

1.97

2.64

3.15

7.87

3.15

4.33

5.197

3.976

5.760

A0730

1.625

1.188

0.22

3.031

2.36

3.19

3.74

9.84

3.74

5.35

6.024

3.976

6.350

A0860

1.875

1.438

0.22

3.661

2.87

3.82

4.25

9.84

4.25

3.7415 3.7402 4.3321 4.3307 5.1197 5.1181 7.0882 7.0866 7.0882 7.0866

2.84

A0510

0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

5.91

7.008

4.409

7.197

SIZE

S3

T

T2

T3

T4

U3

U4

V

V1

V2

W

W1

W2

3.150

2.44

4.961

1.89

2.09

0.14

0.31

A0510

3.543

2.96

5.630

1.89

2.09

0.16

0.35

A0610

4.134

3.39

6.732

2.28

2.44

0.18

0.39

A0730

4.724

7.76

7.559

2.28

2.44

0.20

0.47

5.197

8.94

8.189

2.48

2.96

0.20

0.47

0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

0.480 0.472 0.480 0.472 0.708 0.700 0.708 0.700 0.708 0.700

0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

0.096 0.094 0.096 0.094 0.190 0.188 0.190 0.188 0.190 0.188

A0410

A0860

66


DIMENSIONS DOUBLE REDUCTION 9906 A

0

0

G

D

STANDARD UNIT WITH SIDE MOUNTED FEET

* Fans not fitted to sizes 410, 510 and 610

Viewed in direction of arrow Y

SIZE

A

A1

A5

A6

B

B2

øC

øC1

C2

D

D1

E

E1

E2

F1

A0410

2.598

2.283

2.16

2.953

1.625

1.125

0.750

0.750

0.4375

3.875

3.563

1.625

1.3125

0.16

0.45

A0510

2.913

2.283

2.40

3.071

2.000

1.125

1.000

1.000

0.4375

4.625

3.563

2.125

1.75

0.19

0.45

A0610

3.425

2.598

2.64

3.386

2.375

1.625

1.375

1.125

0.625

5.500

4.313

2.625

2.0

0.25

0.45

A0730

4.134

2.598

3.19

4.055

2.875

1.625

1.625

1.250

0.625

6.625

4.313

3.250

2.5

0.25

0.53

A0860

4.606

2.913

3.82

4.646

3.375

2.000

1.875

1.500

0.625

7.875

5.250

3.875

3.25

0.31

0.69

SIZE

G

G1

G2

H

J2

J3

N1

N2

øN3

P4

Q

R

S

S1

S2

A0410

1.125

0.906

0.13

2.303

5.00

3.62

1.969

1.57

2.16

2.72

2.36

3.976

3.189

4.079

A0510

1.125

0.906

0.13

2.244

5.43

3.94

2.205

1.77

2.40

2.64

2.44

4.409

3.189

4.197

A0610

1.625

1.188

0.22

2.599

6.38

4.61

2.520

1.97

2.72

3.15

2.64

5.197

3.976

5.012

A0730

1.625

1.188

0.22

3.189

7.32

5.43

3.031

2.36

3.31

3.74

3.31

6.024

3.976

5.681

A0860

1.875

1.438

0.22

3.544

8.54

6.14

3.661

2.87

0.760 0.755 1.010 1.005 1.385 1.380 1.635 1.630 1.885 1.880

3.90

4.25

3.82

7.008

4.409

6.646

SIZE

T

T2

T3

T4

U6

V

V1

V2

W

W1

W2

2.44

4.961

1.89

2.09

0.24

A0510

2.96

5.630

1.89

2.09

0.24

A0610

3.39

6.732

2.28

2.44

0.31

A0730

7.76

7.559

2.28

2.44

0.31

8.94

8.189

2.48

2.96

0.39

0.843 0.837 1.120 1.114 1.524 1.518 1.802 1.796 2.102 2.096

0.834 0.826 1.110 1.102 1.238 1.230 1.364 1.356 1.666 1.658

0.480 0.472 0.480 0.472 0.708 0.700 0.708 0.700 0.708 0.700

0.1895 0.1875 0.2520 0.2500 0.3145 0.3125 0.3770 0.3750 0.5020 0.5000

0.190 0.188 0.252 0.250 0.252 0.250 0.252 0.250 0.377 0.375

0.096 0.094 0.096 0.094 0.190 0.188 0.190 0.188 0.190 0.188

A0410

A0860

67


CASE WITH ADDITIONAL MACHINED SPIGOT 9610

D E

G

C

F

B

A

UNIT SIZE

A

B

C

D

E

F

G

A0280

4 Holes equally spaced M6 x 0.35 Deep

45o

2.87 PCD

1.73

1.61

2.0862 2.0854

3.35

A0410

4 Holes equally spaced M6 x 0.47 Deep

45o

3.50 PCD

2.17

2.01

2.7555 2.7547

3.98

A0510

4 Holes equally spaced M8 x 0.55 Deep

45o

4.21 PCD

2.32

2.17

3.3461 3.3453

4.80

A0610

8 Holes equally spaced M8 x 0.55 Deep

22.5o

5.12 PCD

2.56

2.40

4.1335 4.1327

5.75

A0730

8 Holes equally spaced M10 x 0.71 Deep

22.5o

6.10 PCD

3.11

2.91

4.9209 4.9201

6.89

A0860

8 Holes equally spaced M10 x 0.71 Deep

22.5o

6.93 PCD

3.74

3.54

5.7083 5.7075

7.72

This option is available in Additional Features - Column 20 68


TORQUE ARM DETAILS 9609

SIZE OF UNIT A0280

A0410

A0510

A0610

BB1

3.94

BB2

3.03

A0730

A0860

4.96

5.39

3.58

3.90

6.42

7.24

8.46

4.65

5.35

6.06

BB3

2.00

2.48

2.60

2.99

3.43

3.94

AA

14.0 - 20.0

14.0 - 20.0

19.0 - 25.0

19.0 - 25.0

19.0 - 25.0

24.0 - 29.5

CC

0.8125

0.8125

1.00

1.00

1.00

1.1875

DD

0.25

0.25

0.3125

0.3125

0.3125

0.375

EE

2.00

2.00

2.25

2.25

2.25

2.75

FF

2.75

2.75

3.25

3.25

3.25

4.00

GG

1.00

1.00

1.25

1.25

1.25

1.50

HH

0.35

0.35

0.43

0.43

0.43

0.56

JJ

1.22

1.34

1.50

1.57

2.01

2.28

The torque arm should be fitted on that side of the gear unit which is adjacent to the driven machine. The angle between the torque arm and the high speed shaft MUST NOT EXCEED 30o. The torque arm must be positioned so that it is loaded IN TENSION. ie in the direction of TORQUE REACTION, which is opposite to the direction of shaft rotation, as shown above. For reversing applications two torque arms must be fitted in opposite mounting positions. Gear units must be locked axially when mounted in position, and supported by the low speed sleeve for a minimum of 90% of the bore length. 69


SHIPPING SPECIFICATION 9611

SINGLE REDUCTION UNIT SIZE

COLUMN 10 ENTRY

R

A0280

A0410

Unit Weight

9.9

16.3

24.7

Weight Packed

13.2

19.8

0.5

Unit Weight Weight Packed

Volume Packed (ft3)

G

Volume Packed (ft3)

A0510

A0610

A0730

A0860

35.3

63.9

99.2

29.1

41.9

75.0

116.8

0.5

1.0

1.0

2.3

3.0

15.4

24.9

33.7

48.5

77.2

119.0

19.8

28.7

39.7

57.3

92.6

141.1

0.6

0.6

1.1

1.1

2.4

3.6

DOUBLE REDUCTION UNIT SIZE

COLUMN 10 ENTRY Unit Weight

D

Weight Packed Volume Packed (ft ) 3

Unit Weight

H

Weight Packed Volume Packed (ft ) 3

ALL WEIGHTS IN lb COLUMN 10 ENTRY

G

AND

A0410

A0510

A0610

A0730

A0860

27.6

36.4

55.1

83.8

130.1

34.2

40.8

61.7

94.8

143.3

1.0

1.5

1.5

2.8

3.8

34.2

41.9

63.9

92.6

138.9

41.9

48.5

81.6

108.0

154.3

1.2

1.6

1.6

2.9

4.2

ALL WEIGHTS INCLUDE LUBRICANT R

-

REDUCER UNIT - SINGLE REDUCTION

G

-

UNIT TO ALLOW FITTING OF A NON DB RADICON MOTOR - SINGLE REDUCTION

D

-

REDUCER UNIT - DOUBLE REDUCTION

H

-

UNIT TO ALLOW FITTING OF A NON DB RADICON MOTOR - DOUBLE REDUCTION

H

TYPE UNIT WEIGHTS AND VOLUMES DO NOT INCLUDE MOTORS

MAXIMUM STANDARD MOTOR FLANGES HAVE BEEN INCLUDED IN WEIGHTS AND VOLUMES

70


MOMENTS OF INERTIA 9608 MOMENTS OF INERTIA (lb.in2) Referred to Input Shaft

SINGLE REDUCTION RATIO

A0280

A0410

A0510

A0610

5.00 7.50 10.00 12.50 15.00 20.00 25.00 30.00 40.00 50.00 60.00 70.00

0.02 0.02 0.01 0.01 0.01 0.02 0.01 0.01 0.01 0.01 0.01 0.01

0.14 0.10 0.08 0.07 0.07 0.05 0.06 0.06 0.05 0.04 0.05 0.04

0.40 0.23 0.17 0.14 0.11 0.14 0.12 0.09 0.07 0.07 0.06 0.05

0.85 0.48 0.33 0.27 0.22 0.26 0.22 0.18 0.14 0.12 0.10 0.10

A0730

A0860

1.96 1.21 0.78 0.74 0.63 0.48 0.64 0.49 0.40 0.36 0.35 0.35

4.66 2.67 1.97 1.44 1.47 1.11 1.45 1.18 1.01 0.88 0.82 0.83

DOUBLE REDUCTION RATIO

A0410

A0510

A0610

A0730

A0860

75.00 100.00 125.00 150.00 200.00 225.00 250.00 300.00 350.00 375.00 400.00 450.00 500.00 600.00 625.00 700.00 750.00 800.00 900.00 1000.00 1200.00 1250.00 1400.00 1500.00 1600.00 1750.00 1800.00 2000.00 2100.00 2400.00 2500.00 2800.00 3000.00 3500.00 3600.00 4200.00

0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01

0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01

0.07 0.07 0.07 0.06 0.06 0.06 0.06 0.05 0.06 0.06 0.05 0.06 0.05 0.05 0.06 0.04 0.06 0.05 0.05 0.05 0.05 0.04 0.04 0.04 0.05 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.04

0.08 0.07 0.08 0.06 0.06 0.06 0.06 0.05 0.06 0.07 0.05 0.06 0.05 0.05 0.06 0.04 0.06 0.05 0.05 0.05 0.05 0.04 0.04 0.04 0.05 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.04

0.14 0.12 0.14 0.12 0.11 0.08 0.12 0.13 0.11 0.08 0.13 0.08 0.13 0.13 0.11 0.05 0.11 0.07 0.09 0.07 0.07 0.06 0.05 0.06 0.07 0.05 0.06 0.06 0.05 0.06 0.06 0.05 0.06 0.05 0.06 0.05

GD2 (lb.in2) = 4 x Moment of Inertia (lb.in2)

71


INSTALLATION AND MAINTENANCE 9906

1

GENERAL INFORMATION The following instructions will help you achieve a satisfactory installation of your David Brown Radicon Series A unit, ensuring the best possible conditions for a long and trouble free operation. All units are tested and checked prior to despatch, a great deal of care is taken in packing and shipping arrangements to ensure that the unit arrives at the customer in the approved condition. Series A gear units will perform satisfactorily if subjected to full load immediately after installation. However, optimum performance is best achieved by a process of gradual load increments, up to the full value, over the first 50 hours or so of their working life. During these early stages of running, sensible precautions should be taken to avoid overloads. The gear unit operating temperature may be higher during this period of run-in. A progressive reduction in temperature may occur over many hours until the unit has reached its highest efficiency.

2

FITTING OF COMPONENTS TO EITHER THE UNIT INPUT OR OUTPUT SHAFT Shaft dimensions are held to limits of +0.0000" -0.0005".

3

-

Items (such as gears, sprockets, couplings etc) should not be hammered onto these shafts since this would damage the shaft support bearings.

-

The item should be pushed onto the shaft using a screw jack device fitted into the threaded hole provided in the end of the shaft.

-

Items being fitted may be heated to 80/100oC (176/212oF) to aid assembly further.

WEATHER PROTECTION OF UNIT All Series A units are provided with protection against normal weather conditions. Where units are to operate in extreme conditions, or where they are to stand for long periods without running, eg during plant construction, we should be notified when ordering so that arrangements for adequate protection can be made.

4

INSTALLATION 4.1

MOTORIZED AND REDUCERS All sizes are factory filled with a Polyglycol based synthetic lubricant. They are 'Lubricated for Life' and require no routine maintenance in service

4.2

FIXING TO CUSTOMER EQUIPMENT Fixing the Gear Head flange facing or feet to the customer equipment use set screws to ISO grade 8.8 minimum. Torque tighten to:-

4.3

Set Screw Size M6 M8 M10 M12 M16 M20 M24

Tightening Torque 88 lb-ins 220 lb-ins 450 lb-ins 750 lb-ins 1770 lb-ins 3100 lb-ins 5400 lb-ins

Tightening Torque 7.3 lb-ft 18.3 lb-ft 37.5 lb-ft 62.5 lb-ft 147.5 lb-ft 258.3 lb-ft 450.0 lb-ft

MOTOR CONNECTIONS

TO MAINS Connection of the electric motor to the mains supply should be made by a qualified person. The current rating of the motor will be identified on the motor plate, and correct sizing of the cables to electrical regulations is essential.

73


INSTALLATION AND MAINTENANCE 9906

1

2

6

5

1

4 2

1 2 3 4 5 6

Foot type G Foot type H Foot type I Output shaft Circlip Blanking plug

3

FEET ASSEMBLY (TYPES G, H, I) 1 Clean shaft extension with petroleum spirit 2 Remove paint from locating faces on gearcase with scraper and petroleum spirit 3 Secure feet (item 1, 2 or 3) to gear case with nuts and bolts provided to thumb tightness, in required operating position 4 Ensure foot pads are correctly seated 5 Secure to foundations with bolts to thumb tightness and line up unit 6 Tighten feet bolts to unit 7 Check shaft alignment (see page 77) and tighten down bolts. Series A units are provided with intergral feet for mounting in the overdriven and underdriven positions. Feet type I are available to provide exact interchangeability with previous well established Radicon adaptable Series 9 range. OUTPUT SHAFT ASSEMBLY 1 Clean outputshaft (item 4) and bore in gear unit with petroleum spirit 2 Fit keys into output shaft, ensuring they are firmly seated 3 Press shaft into gear unit bore to give desired shaft handling (Left or Right), until firmly up against shaft shoulder 4 Fit circlip (item 5) into groove in shaft on opposite side to extension 5 Tap blanking plug (item 6) into recess in gear case/end cover NOTE:

For reversing drives where end float is critical, it may be necessary to fit shims behind the circlip fixing. These are available on request from David Brown Radicon

FLANGE MOUNT UNIT (VERSION F) 1 Series A units are also available with circular output flanges located to the output shaft cover with extended bolts. These are normally factory fitted 2 The output flange is provided with a female spigot recess facilitating accurate location and concentricity with clients driven shaft 3 Flange to foundation fixing is by means of stud and nut, alternatively bolt and nut, entered from the side of the driven machinery 4 Ensure facing of flange is thoroughly cleaned prior to mounting

74


INSTALLATION AND MAINTENANCE 9906

9

SHAFT MOUNT UNITS 1 Clean input shaft extension and output bore with petroleum spirit 2 Fit torque arm assembly (item 7) on side of unit nearest to driven machine. Torque arm must be secured to the central hole in the torque arm bracket (item 8) fitted to the gear unit. Angle of torque arm to input shaft centre line must not exceed 30o, and should be mounted in tension (see diagram above).

8

7 8 9

7

Torque arm Torque arm bracket Blanking plug

11 12

10

10 11 12

Nylicon sleeve Stepped key Motor

MOTOR FRAME / BUSH COMBINATIONS Unit Size Motor Frame 280 410 510 610 730 860 D63 11mm D71 * 14mm D80 * 19mm 19mm 19mm D90 * 24mm 24mm 24mm D100/112 * * 28mm D132 * * No bush required - motor fits direct into gearbox 75

MOTORIZED UNITS 1 Motorized units are available with a variety of flange adaptors and bushing to accommodate different motor sizes. The table below details the frame size/bush combinations. 2 The motor flange is normally factory fitted, and is spigot located to the input shaft cover with extended bolts. 3 Clean locating faces of motor, gear unit, and motor shaft with petroleum spirit, discard standard motor shaft key 4 Where applicable, slide nylon sleeve (item 10) over motor shaft and line up keyway slot 5 Fit stepped key provided (item 11) into motor shaft and bush, ensuring it is firmly seated 6 The surface of the wormshaft bore is pre-treated with an anti-fretting agent, which must not be removed 7 Slide motor shaft into wormshaft bore, locating motor (item 12) and unit flanges 8 Rotate motor until terminal box is in desired position. Secure motor to unit using four flange bolts provided. Ensure bolts are tightened uniformly to prevent flange distortion 9 Check motor wiring for correct direction of rotation


LUBRICATION 9608

Radicon Series A Junior units are factory filled with a Polyglycol based synthetic lubricant. They are "Lubricated for Life" and require no routine maintenance in service. In the event of a major overhaul involving strip-down and re-assembly of the gear unit refer to Table 1 for a list of approved lubricants. Lubricant quantities are given in Tables 2 and 3. Table 1 Approved Lubricants Type G Polyglycol based synthetic lubricants with Anti-Wear or EP additives These lubricants are suitable for ambient temperatures of 32oF to 104oF (0oC to 40oC); outside of this, please consult David Brown Radicon Application Engineers DAVID BROWN GRADE 6G OIL SUPPLIERS' CORRESPONDING DESIGNATIONS

LUBRICANT RANGE

SUPPLIER Boxer Services Limited

Boxergear W

320 (-13)

Carl Bechem GmbH

Berusynth EP

320 (-13)

Castrol International

Alphasyn PG

320 (-24)

Esso/Exxon

Glycolube

320 (-13)

Fuchs Mineraloelwerke GmbH

Renolin PG

320 (-29)

International Speciality Chemicals

Breox Industrial Lubricant Sw

320 (-13)

Kl端ber Lubrication

Kl端bersynth GH6

320 (-13)

Kuwait Petroleum International

Q8 Gade

320 (-8)

Mobil Oil Company Limited

Glygoyle

HE320 (-22)

Shell Oils

Tivela

SC (-13)

Texaco Limited

Synlube CLP

320 (-24)

Tribol, Molub-Alloy

Tribol 800

320 (-13) CONVERSION TABLE Litres to US gallons Litres to Imperial gallons

Table 2 Lubricant Quantities (Litres) Applicable for all mounting positions:MOTORIZED or REDUCER Oil Capacity (Litres)

DANGER Numbers in brackets indicate recommended minimum operating temperature in o F. The unit must not run below this temperature

= =

litres litres

x x

0.26 0.22

UNIT SIZE A0280

A0410

A0510

A0610

A0730

A0860

0.24

0.38

0.56

1.00

2.02

3.10

Table 3 Lubricant Quantities (Litres) For units running at input speeds below 500 rev/min with either the input or output shaft vertical, also for the secondary stage of all double reduction units irrespective of shaft disposition, the oil quantities in Table 3 below are applicable:MOTORIZED or REDUCER Oil Capacity (Litres)

UNIT SIZE A0280

A0410

A0510

A0610

A0730

A0860

0.31

0.48

0.74

1.28

2.62

3.94

Double Reduction Units - obtain secondary stage lubricant quantity from table 3 and primary stage quantity from table 2

MOTORIZED or REDUCER

A0280

A0410

A0510

A0610

A0730

A0860

Secondary stage

-

A0410

A0510

A0610

A0730

A0860

Primary stage

-

A0280

A0280

A0410

A0410

A0510

DOUBLE REDUCTION UNIT SIZE

76


INSTALLATION AND MAINTENANCE 9906

GENERAL INSTRUCTIONS SHAFT ALIGNMENT Coupling Connections Angular Errors 1 Take up end float pushing in shaft ends. 2 Using thickness and feeler gauges, take readings in positions 1, 2, 3 and 4 (Fig2). 3 Adjust unit by shimming under feet.

Fig

Eccentric Errors 1 Place straight edge across coupling halves Fig at points 1, 2, 3 and 4 (Fig 4). If coupling diameters are nor equal, use feeler gauge equal to half the difference in diameters. 2 if error is in vertical plane, adjust height of unit. If error is in horizontal plane, move unit transversally.

1

Fig

2

3

Fig

4

CHAIN AND BELT DRIVES Mount sprockets or pulleys as close to the gear unit as possible to avoid undue bearing loads and shaft deflection see Fig 5. Chains and belts should be sufficiently light as to prevent slip OVER TIGHTENING CAN CAUSE DAMAGE TO THE UNIT. Consult manufactures' recommendations. Check that driving and driven shafts are square and parallel using straight edge as in Fig 6. Check horizontal shaft alignment using combined square and level as in Fig 7.

Fig

5

Fig

L e ve l

Fig

6

7

Square and Parallel

FIT GUARDS IN ACCORDANCE WITH FACTORY ACTS If a unit is to be subject to long term storage refer to David Brown. WARNING The customer shall be responsible for the proper use of articles supplied by David Brown, particularly the rotating shafts between their driving and driven members, and their guarding for safety. David Brown shall not be responsible for any injury or damage substained as a result of the improper use of the articles supplied. Attention is hereby drawn to the danger of using naked lights in proximity of opening in gearboxes and gear units supplied by David Brown, and the company shall not be liable for any claim for injury or damage arising from any action in contradiction of this warning. GENERAL SAFETY Potential hazards which can be encountered during installation, maintenance and operation of drives is covered in greater detail in the product safety page at the front of this booklet. Advice is also given on sensible precautions which need to be taken to avoid injury or damage. PLEASE READ ! 77


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