CATALOGO EDCOMEX 7.0 by alejandro hernnadez

QUALITY, PERFORMANCE AND VALUE

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Founded in 1994, EDCO USA designs and markets well-made and cost-effective vacuum related automation devices that are manufactured in the USA. Over the years EDCO has developed a wide range of rugged vacuum components such as: Suction Cups, Vacuum Pads, Level Compensators, Multistage Multi-ejector Vacuum Pumps, Singlestage or Mono-stage Vacuum Pumps, Vacuum Check Valves, Vacuum Grippers and Rail Systems.

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In addition to standard catalog products, EDCO designs customized or made-forpurpose products for customers where a standard product doesn’t quite fit the task. Quantities required for “special” products can be surprisingly low, call us to discuss your project.

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EDCO is the industry leader in vacuum technology; we provide engineered solutions

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We continually develop new products and Flat Concave 2 custom designs that may not yet appear in our Oval Concave 2 catalog. If you don’t find what you are looking Oval Flat 2 for, call us. We may already have2a solution Universal Specialty 2 for you!

High quality, superior performance, fast delivery plus lower price equals VALUE by anyone’s definition. Our business structure doesn’t require layers of management or other expensive overhead and that translates to lower prices. EDCO markets through a network of fluid power distributors so that knowledgeable sales engineers can provide prompt local support for your design projects and at the same time offer OEM pricing that is as good as factory-direct.

Please contact your local EDCO distributor for assistance with any vacuum component or system. While we prefer having our distributor involved from the start, call us if you need immediate assistance and we will then have our distributor follow up.

HOW TO NAVIGATE THIS CATALOG

65mm Cup Diameter 3 75 – 100mm Cup Diameter 3 This catalog is laid out in a section based table 110mm Cup Diameter 3 Cup Diameter 3 of150mm contents. To find a specific item start on the Accessories 3

two pages of that section and locate the page 5:3 Finally, turn 5:3 to

LC10 numbers pertaining to the item. LC10 Non-Rotating the specified pages. LC18 opposite page and locate the section number LC18 Clamp-Mount for the item you desire. Next, turn to the first Cone Valves 4 LC18 Non-Rotating Swivel Joints 4 External Spring Example: You want to look up “Level CompensatorLC12 Pumps”. Tee Adaptors 4 Heavy-Duty Level Compensators Level Compensators 5 External Spring Level Compensators Level Compensator Pumps 5 Level Compensator Pumps

From page 1:2 you find Level 6 in Section 65.

To make your design process simpler, EDCO has the widest range of integrated pump control options and system accessories of any manufacturer.

RELIABLE AND VERIFIABLE PERFORMANCE

We don’t believe that wild marketing claims provide any benefit to our customers so we SECTION ITEM leave that to our competitors. SECTION We’ll be glad to prove that EDCO products provide the best 1 Competitive Comparison 1 solution for your 1 New Products in this application. Catalog 1 1

to vacuum system problems. Modular pump design allows for field expansion of pump capacity and simplified, cost-effective pump renewal.

Dual Base Pumps

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5:4 5:4 5:4 5:4 5:5 5:6 5:7 – 5:8

From page 5:2 you find Level Compensator Pumps on pages 5:7 to 5:8. 1:1

Competitive Comparison New Products in this Catalog

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VACUUM CUPS Bellows Double Bellows Bellows Traction Foot Multi-Bellows Deep Flat

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Flat Concave Oval Concave Oval Flat Universal Specialty

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CUP FITTINGS 4 – 8mm Cup Diameter 10 – 15mm Cup Diameter 20 – 30mm Cup Diameter 40mm Cup Diameter 50mm Cup Diameter

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65mm Cup Diameter 75 – 100mm Cup Diameter 110mm Cup Diameter 150mm Cup Diameter Accessories

3 3 3 3 3

CUP ACCESSORIES Dual Flow Valves Tri-Flow Valves Flow Sensor Valves Release Check Valves Vacuum Check Valves

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Cone Valves Swivel Joints Tee Adaptors Level Compensators Level Compensator Pumps

4 4 4 5 5

SYSTEM ACCESSORIES Vacustat Mechanical Pressure Switches Mechanical Vacuum Switches Vacuum Sensors

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Digital Pressure Switches Digital Vacuum Switches T-Style Vacuum Filters Inline Vacuum Filters

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MULTI-STAGE PUMPS AX Series Pumps Chip Pumps Classic Pumps

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Dual Base Pumps Triple Base Pumps Quad Base Pumps

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SINGLE-STAGE PUMPS ER Series Pumps Vacuum Grippers Rail System J Series Pumps EV Series Pumps

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V Series Pumps SM Series Pumps Variable Displacement Pumps Silencers

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AMPLIFIER & TRANSFER Air Amplifier

Transfer Tubes

TOOLING EDCO Modular Automation Tooling Quick Change System Robotic Tooling

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Automatic Vacuum Cylinder Auto. Vacuum Cylinder with AX Pump

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CUSTOM PRODUCTS Custom Designed Solutions

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EVU – EDCO USA VACUUM UNIVERSITY Basic Vacuum Training 18

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INTRODUCTION Quality, Performance and Value Reliable and Verifiable Performance How to Navigate this Catalog

SECTION

SECTION ITEM

ITEM

CONTENTS

1:2

BETTER VACUUM PRODUCTS BY DESIGN!

THERE IS A DIFFERENCE !

SUCTION CUP COMPARISON The full load must be carried by this thin section which stretches and reduces cup capability. Overstressing causes the rubber to fatigue and crack.

COMPETITION: 2-PIECE FITTING

Small fitting flange poorly distributes load to rubber and pull-out can occur unless a strengthening ring is used.

COMPETITION: 1-PIECE FITTING

EDCO USA suction cup rubber is specially formulated to be non-marking and no mold release agent is used in the manufacturing process to eliminate surface residue. Suction cups in other compounds may be special ordered in quantities as low as 100 pieces.

The EDCO flange has 2-1/2 times the area of the competitor’s flange. Load is evenly distributed to a reinforced cup top for lower stress, longer life and increased stability.

EDCO USA: 1-PIECE FITTING

EDCO USA rugged anodized aluminum fittings provide full load capacity and may be repeatedly used to save money.

CLASSIC PUMP COMPARISON EDCO USA

EDCO offers 6 ejector series. (A, E, L, M, ML & X) Brand “P” only offers 3. (H, L & M). EDCO offers twice the capacity in only 70% of the footprint area of Brand “P”.

EDCO offers 6 ejector series EDCO offers 6 (A, E, L, M, ML & X) ejector series vs. 3 ejector series (A, E, L, M, ML & X) (H, L & M) vs. 3 ejector series from Brand “P”. (H, L & M) from Brand “P”.

Brand “P”

5.6 (142) 5.6 (142) EDCO offers 8 pump capacities vs. only 3 EDCO offers 8 pump pump capacities capacities vs. only 3 from Brand “P”. pump capacities from Brand “P”. EDCO provides twice the capacity EDCO provides in only 70% of the twice the capacity Brand “P” footprint area. in only 70% of the Brand “P” footprint area.

EDCO offers 8 pump capacities where Brand “P” only offers 3 pump capacities.

EDCO USA EDCO USA

2.48 (63) 2.48 EDCO’s stainless EDCO's stainless steel steel valvevalve has (63) 128% more flow the has 128% morearea flow areathan than EDCO's stainless steel valve Brand "P"from plastic valve. plastic valve Brand “P”. has 128% more flow area than Brand "P" plastic valve.

2.6 (66) 2.6 (66)

7.68 (195) 1:3 7.68 (195)

BRAND "P" BRAND "P"

NEW IN THIS CATALOG

NEW SILENCERS & EXTENSIONS SECTION 14 2ND GEN BASES SECTION 9 VACUUM SWITCH PROTECTOR SECTION 6 6010/6034 CLASSIC BASES SECTION 9

AX 312 BASE SECTION 7

DUAL VACUUM GRIPPER PUMPS SECTION 11

NEW MECHANICAL VALVES SECTION 4

110MM & 150MM 38F CUP FITTINGS SECTION 3 1:4

DIE CUT FITTINGS SECTION 3

VACUUM CUPS

SECTION 2 VACUUM CUPS

2:1

CONTENTS

VACUUM CUPS

BELLOWS CUPS (B)

MULTI-BELLOWS CUPS (BL)

DOUBLE BELLOWS CUPS (2B)

DEEP CUPS (D)

FLAT CONCAVE CUPS (FC)

BELLOWS TRACTION FOOT CUPS (BF)

FLAT CUPS (F)

OVAL CONCAVE & OVAL FLAT CUPS (OC & OF)

GENERAL INFORMATION Bellows Cups (B) Double Bellows Cups (2B)

2:3 - 2:6 2:7

Deep Cups (D) Flat Cups (F) Flat Concave Cups (FC) Oval Concave Cups (OC) Oval Flat Cups (OF) Universal Cups (U) Assembly Instructions Elastomer Properties Specialty Cups

2:10 2:11 - 2:14 2:15 2:16 2:16 2:17 - 2:18 2:19 2:19 2:20

Bellows Traction Foot Cups (BF) Multi-Bellows Cups (BL)

2:8 2:9

2:2

UNIVERSAL CUPS (U)

VACUUM CUPS HOW TO ORDER

XP - B

CUP SIZE

15 5 = 5mm 8 = 8mm 10 = 10mm 15 = 15mm 20 = 20mm

CUP MATERIAL1

FITTING

N A = Ameriflex CS = Conductive Silicone D = Duramax N = Nitrile S = Silicone V = Viton

10M

See Cup Fitting Section for available threads.

XP-B5

FILTER

0.08 [2] Thru Hole

BLANK = None FD = P.E. Filter FS = S.S. Screen

0.24 [6.1]

See Cup Fitting Section for availability.

All cups are available in Nitrile and Silicone. Check availability for other materials before ordering.

2 All figures for shear load are 18”Hg. using a 0.5 coefficient of friction. Adjust coefficient of friction to suit your conditions, then apply a generous factor of safety (3:1 or greater) to shear loads.

0.06 [1.5] Stroke

0.22 [5.6]

CUP DIAMETER 5 mm CUP WEIGHT: oz. (g) 0.004 (0.11) INTERNAL VOLUME: cu. in. (cc) 0.01 (0.16) FORCE @ 6" Hg: lb. (N) 0.067 (0.3) FORCE @ 18" Hg: lb. (N) 0.1 (0.4) MINIMUM RADIUS: in. (mm) 0.06 (1.5) SHEAR LOAD2 : lb. (N) 0.05 (0.2)

XP-B8

XP-B10

0.47 [11.9]

0.08 [2] Thru Hole

0.37 [9.4]

0.63 [16]

0.14 [3.7] Thru Hole

0.37 [9.4] 0.48 [12.2]

0.13 [3.3] Stroke

0.35 [8.9] CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

0.43 [10.9]

8 mm 0.01 (0.28) 0.01 (0.16) 0.18 (0.8) 0.36 (1.6) 0.07 (1.8) 0.18 (0.8)

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

XP-B15 0.14 [3.7] Thru Hole

0.69 [17.5]

0.2 [5.1] Thru Hole 0.94 [23.9]

0.7 [17.8]

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

10 mm 0.03 (0.85) 0.03 (0.49) 0.3 (1.3) 0.8 (3.6) 0.16 (4.1) 0.4 (1.7)

XP-B20

0.79 [20.1]

0.64 [16.3]

0.18 [4.5] Stroke

0.88 [22.4]

0.26 [6.6] Stroke 15 mm 0.04 (1.1) 0.07 (1.2) 0.7 (3.1) 1.3 (5.8) 0.2 (5.1) 0.7 (3.1)

0.39 [9.9] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

2:3

20 mm 0.08 (2.3) 0.16 (2.6) 1.3 (5.8) 2.2 (9.8) 0.39 (9.9) 1.1 (4.8)

VACUUM CUPS HOW TO ORDER 50 30 = 30mm 40 = 40mm 50 = 50mm 65 = 65mm

CUP MATERIAL1 N A = Ameriflex CS = Conductive Silicone D = Duramax N = Nitrile S = Silicone V = Viton

FITTING -

10M See Cup Fitting Section for available threads.

FILTER -

XP - B

CUP SIZE

BLANK = None FD = P.E. Filter FS = S.S. Screen See Cup Fitting Section for availability.

All cups are available in Nitrile and Silicone. Check availability for other materials before ordering.

All figures for shear load are 18”Hg. using a 0.5 coefficient of friction. Adjust coefficient of friction to suit your conditions, then apply a generous factor of safety (3:1 or greater) to shear loads. 2

XP-B30

XP-B40 1.08 [27.4]

1.04 [26.4] 0.29 [7.4] Thru Hole

0.2 [5.1] Thru Hole 1.42 [36.1]

1.34 [34]

1.82 [46.2] 1.71 [43.4]

0.59 [14.9] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

30 mm 0.25 (7.1) 0.61 (10) 2.7 (12) 4.9 (21.8) 0.59 (15) 2.5 (11.1)

XP-B50

40 mm 0.4 (11.3) 0.9 (14.7) 4.9 (21.8) 8.8 (39.1) 0.79 (20.1) 4.4 (19.5)

XP-B65

1.36 [34.5]

1.66 [42.2]

0.5 [12.7] Thru Hole

0.36 [9.1] Thru Hole

2.88 [73.2]

2.23 [56.6] 2.09 [53.1]

0.59 [14.9] Stroke

0.79 [20] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

50 mm 0.75 (21.3) 2.0 (32.8) 7.4 (32.9) 14.6 (64.9) 0.98 (24.9) 7.3 (32.4)

2.76 [70.1]

2:4

0.9 [22.9] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

65 mm 1.29 (36.5) 3.9 (63.9) 13.3 (59.2) 26.3 (117) 1.22 (31) 13.1 (58.3)

BELLOWS CUPS HOW TO ORDER

XP - B

CUP SIZE 150

75 = 75mm 110 = 110mm 150 = 150mm

CUP MATERIAL N

N = Nitrile S = Silicone V = Viton

FITTING -

12F See Cup Fitting Section for available threads.

XP-B75

3.35 [85] 3.07 [77.9] FITTING SUFFIX A: in. (mm)

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N) MATERIALS

0.94 [23.8] Stroke 18F 1.97 (50)

1.46 [37]

75mm 1.8 (51) 6.7 (110) 16 (71.2) 37 (164) 1.6 (40.6) 19 (84.5) N,S,V

14F 38F 12F 1.97 (50) 1.97 (50) 1.97 (50)

XP-B110

2.12 [53.8]

4.82 [166] 4.53 [156]

1.31 [33.2] Stroke

2.6 [66]

2.48 [62.9]

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N) MATERIALS

110mm 5.1 (145) 19 (311) 30 (133) 77 (342) 2.4 (61) 39 (173.5) N,S,V

XP-B150

2.79 [70.8]

6.55 [166]

1.75 [44.4] Stroke

3.07 [77.9]

2:5

3.19 [81]

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N) MATERIALS

150mm 13 (369) 40 (656) 66 (294) 154 (685) 3.0 (76.2) 77 (342) N,S,V

BELLOWS CUPS

XP -

B250

CUP MATERIAL NP

NP = Neoprene S = Silicone

CUP DIAMETER CUP & FITTING WEIGHT: lb. (kg) INTERNAL VOLUME: cu. in. (cc) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

FITTING -

AQ AQ = Quad Mount Side Port, NPT P = Quad Mount Center Port, NPT

250mm 3.57 (1.62) 85.4 (1400) 450 (2002) 10 (254) 225 (1001)

HOW TO ORDER

All figures for shear load are 18"Hg. using a 0.5 coefficient of friction. Adjust coefficient of friction to suit your conditions, then apply a generous factor of safety (3:1 or greater) to shear loads. 2

Anodized aluminum fitting is bonded to rubber for maximum stability under shear loads

AQ: ANSI MOUNT 2.56 [65]

3/8 NPTF

1.59 [40.4]

1.16 [29.5] 9.96 [253]

2.75 [69.9]

3.18 [80.8]

9.88 [251]

5/16-18 UNC x 0.39 MIN THD 4 Places

3.18 [80.8]

1.44 [36.6] Stroke

P: METRIC MOUNT 2.56 [65]

G1/8 NPSF

1.62 [41.1]

1.14 [29]

9.96 [253]

2.75 [69.9]

3.23 [82]

9.88 [251]

1.62 [41.1]

G3/4 NPSF 3.23 [82]

M8 x 1.25 x 10mm MIN THD 4 Places

1.44 [36.6] Stroke

2:6

ÂŠ2012 EDCO USA. www.edcousa.net

DOUBLE BELLOWS CUPS HOW TO ORDER

XP - 2B

CUP SIZE 50

25 = 25mm 35 = 35mm 50 = 50mm 65 = 65mm

CUP MATERIAL N

A = Ameriflex D = Duramax N = Nitrile

FITTING -

FILTER

18F

See Cup Fitting Section for available threads.

FD = PE Filter FS = S.S. Screen See Cup Fitting Section for availability.

XP-2B35 XP-2B25

1.04 [26.4]

0.2 [5.1] Thru Hole

0.74 [18.8] 0.2 [5.1] Thru Hole

1.3 [33] 1.46 [37.1]

0.94 [23.9] 0.38 [9.7] Stroke

1.02 [25.9] CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

0.59 [15] Stroke CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

25 mm 0.11 (3.1) 0.18 (3) 2.02 (9) 3.15 (14) 0.31 (7.9)

XP-2B65

XP-2B50

0.5 [12.7] Thru Hole

0.36 [9.1] Thru Hole 1.46 [37.1]

2.0 [50.8] 2.08 [52.8] 0.82 [20.8] Stroke CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) ©2012 EDCO USA. www.edcousa.net

35 mm 0.28 (7.9) 0.61 (10) 3.37 (15) 5.62 (25) 0.39 (9.9)

2.37 [60.2]

2.86 [72.6]

2.78 [70.6]

1.3 [33] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

50 mm 0.85 (24.1) 1.83 (30) 8.32 (37) 13.3 (59.2) 1.26 (32)

2:7

65 mm 2.2 (63) 5.85 (95.9) 8.4 (37.4) 21 (93.4) 1.22 (31)

BELLOWS TRACTION FOOT CUPS BF CUPS

The BF-style cups combine the versatility of a bellows cup with a large anti-skid tread pattern to provide maximum holding power and high resistance to shear loads even when lubrication is present. BF cups are ideal for feeding sheet metal blanks to stamping presses or other robotic applications where it is necessary to resist loads caused by rapid acceleration and deceleration.

HOW TO ORDER XP - BF

CUP SIZE 80

CUP MATERIAL

80 = 80mm 100 = 100mm

N = Nitrile S = Silicone

ANTI-SKID TREAD PATTERN - 38F

XP-BF100-38F

XP-BF80-38F 0.88 [22.2] Wrench Flat

1.95 [49.5]

3/8 NPSF

3.3 [83.8]

0.88 [22.2] Wrench Flat

1.56 [39.6]

0.58 [14.7] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

0.95 [24.1] Stroke

4.4 [112] CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

80 mm 1.7 (48.2) 1.8 (29.5) 17 (75.6) 42 (187) 2.8 (71.1) 45 (200)

2:8

100 mm 2.4 (68) 4.9 (80.3) 28 (125) 78 (347) 3.6 (91.5) 53 (236)

MULTI BELLOWS CUPS HOW TO ORDER

XP - BL

CUP SIZE 50

CUP MATERIAL1

20 = 20mm 30 = 30mm 40 = 40mm 50 = 50mm

FITTING

A = Ameriflex D = Duramax N = Nitrile S = Silicone V = Viton

18F See Cup Fitting Section for available threads.

FILTER -

BLANK = No Filter FD = P.E. Filter FS = S.S. Screen See Cup Fitting Section for availability.

All cups are available in Nitrile and Silicone. Check availability for other materials before ordering.

XP-BL20

XP-BL30

0.86 [21.8]

0.2 [5.1] Thru Hole

1.21 [30.7]

0.79 [20.1] 0.51 [13] Stroke CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

1.18 [30]

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

20 mm 0.07 (2) 0.24 (3.9) 0.7 (3.1) 1.4 (6.2) 0.16 (4.1)

1.57 [39.9]

2.01 [51.1]

1.61 [40.9]

0.36 [9.1] Thru Hole

0.98 [24.9] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

30 mm 0.21 (6) 0.8 (13.1) 1.4 (6.2) 3.6 (16) 0.31 (7.9)

XP-BL50

XP-BL40 0.29 [7.4] Thru Hole

0.79 [20.1] Stroke

1.97 [3.9]

1.1 [27.9] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

40 mm 0.43 (12.2) 1.6 (26.2) 2.5 (11.1) 4.9 (21.8) 0.6 (15.2)

2:9

50 mm 0.82 (23.2) 3.4 (55.7) 3.8 (16.9) 9.6 (42.7) 0.6 (15.2)

DEEP CUPS

HOW TO ORDER 50 15 = 15mm 20 = 20mm 30 = 30mm 40 = 40mm 50 = 50mm

CUP MATERIAL1 N A = Ameriflex D = Duramax N = Nitrile S = Silicone V = Viton

FITTING -

10M

FILTER -

See Cup Fitting Section for available threads.

XP - D

CUP SIZE

XP-D15

BLANK = None FD = P.E. Filter FS = S.S. Screen See Cup Fitting Section for availability.

All cups are available in Nitrile and Silicone. Check availability for other materials before ordering.

0.64 [16.3] 0.14 [3.6] Thru Hole

0.64 [16.3]

0.49 [12.4] 0.2 [5.1] Thru Hole

0.18 [4.6] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

15 mm 0.03 (0.9) 0.06 (1) 0.65 (2.8) 1.7 (7.5) 0.24 (6.1)

XP-D30

0.26 [6.6]

0.2 [5.1] Thru Hole

20 mm 0.05 (1.4) 0.12 (2) 1.3 (5.7) 3.3 (14.6) 0.32 (8.1)

1.23 [31.2]

0.7 [17.8]

0.2 [5.1] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

XP-D40 0.29 [7.4] Thru Hole

0.28 [7.1]

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

XP-D20

0.85 [21.6]

0.12 [3] Stroke

0.98 [24.9]

0.42 [10.7] 30 mm 0.11 (3.1) 0.3 (5) 3.1 (13.8) 5.8 (25.8) 0.51 (13)

XP-D50 1.66 [42.2]

0.31 [7.9] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

0.36 [9.1] Thru Hole

0.64 [16.3] 40 mm 0.3 (8.5) 0.8 (13) 5.4 (24) 11.3 (50.3) 0.65 (16.5)

2.05 [52.1]

2:10

1.2 [30.5]

0.39 [9.9] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

0.73 [18.5] 50 mm 0.54 (15.3) 1.4 (23) 8.1 (36) 17 (75.6) 0.98 (24.9)

FLAT CUPS

HOW TO ORDER

XP - F

CUP SIZE 20

CUP MATERIAL1 N

15 = 15mm 20 = 20mm 25 = 25mm 30 = 30mm

A = Ameriflex D = Duramax N = Nitrile S = Silicone V = Viton

FITTING -

18F See Cup Fitting Section for available threads.

All cups are available in Nitrile and Silicone. Check availability for other materials before ordering.

FILTER -

BOTTOM VIEW

BLANK = No Filter FD = P.E. Filter FS = S.S. Screen See Cup Fitting Section for availability.

All Flat cups have cleats on the bottom.

XP-F15

XP-F20

0.45 [11.4]

0.34 [8.6]

0.14 [3.6] Thru Hole

0.2 [5.1] Thru Hole

0.65 [16.5]

0.87 [22.1]

0.03 [0.8] Stroke CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

15 mm 0.03 (0.85) 0.02 (0.33) 0.8 (3.6) 1.9 (8.5) 0.51 (13) 0.9 (4)

0.41 [10.4]

0.37 [9.4]

0.20 [5.1] Thru Hole

1.26 [32]

0.06 [1.5] Stroke

20 mm 0.05 (1.42) 0.06 (1) 1.3 (5.8) 3.3 (14.7) 0.71 (18) 1.7 (7.6)

XP-F30

XP-F25

1.06 [26.9]

0.06 [1.5] Stroke

0.09 [2.3] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

25 mm 0.06 (1.7) 0.07 (1.2) 2.0 (8.9) 4.3 (19.1) 0.98 (24.9) 2.1 (9.3)

2:11

30 mm 0.08 (2.27) 0.12 (2) 2.7 (12) 5.6 (24.9) 0.98 (24.9) 2.8 (12.5)

FLAT CUPS

HOW TO ORDER CUP MATERIAL1

40 = 40mm 50 = 50mm 65 = 65mm

FITTING

A = Ameriflex D = Duramax N = Nitrile S = Silicone V = Viton

18F

FILTER -

See Cup Fitting Section for available threads.

All cups are available in Nitrile and Silicone. F65 is not available in Silicone or Viton. Check availability for other materials before ordering.

XP - F

CUP SIZE 50

BLANK = No Filter FD = P.E. Filter FS = S.S. Screen See Cup Fitting Section for availability.

XP-F40 0.55 [14]

0.3 [7.6] Thru Hole

BOTTOM VIEW

1.66 [42.2]

0.10 [2.5] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

All Flat cups have cleats on the bottom.

40 mm 0.18 (5.1) 0.29 (4.8) 4.5 (20) 9.0 (40) 2.05 (52.1) 4.5 (20)

XP-F65 0.5 [12.7] Thru Hole

XP-F50 0.36 [9.1] Thru Hole

2.09 [53.1]

0.69 [17.5]

0.12 [3] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

2.76 [70.1]

0.15 [3.8] Stroke 0.82 [20.8]

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

50 mm 0.4 (11.3) 0.61 (10) 8.1 (36) 16.6 (73.8) 2.17 (55.1) 8.3 (36.9)

2:12

65 mm 0.51 (14.5) 1.46 (24) 9 (40) 22 (98) 5.5 (140) 11 (49)

FLAT CUPS

HOW TO ORDER

XP - F

CUP SIZE 150

75 = 75mm 110 = 110mm 150 = 150mm

CUP MATERIAL N

N = Nitrile S = Silicone V = Viton

BOTTOM VIEW

FITTING -

12F See Cup Fitting Section for available threads.

XP-F75

3.04 [77.2] FITTING SUFFIX A: in. (mm)

0.13 [3.3] Stroke 18F 1.07 (26.4)

0.53 [13.5]

14F 1.07 (26.4)

38F 1.07 (26.4)

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

75 mm 1.0 (28.3) 1.2 (19.7) 18 (80.1) 45 (200) 5.9 (150) 23 (102)

12F 1.07 (26.4)

XP-F110 1.25 [31.8]

4.46 [113]

0.21 [5.3] Stroke 0.78 [19.8]

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

1.13 [28.7]

SHEAR LOAD2 : lb. (N)

110 mm 3.1 (87.9) 4.3 (70.5) 32 (142) 94 (418) 9.8 (249) 47 (209)

XP-F150 1.42 [36.1]

6.00 [152]

0.33 [8.4] Stroke 1.02 [25.9]

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

1.30 [33]

2:13

SHEAR LOAD2 : lb. (N)

150 mm 7.3 (207) 9.8 (161) 67 (298) 191 (850) 19.7 (500) 95 (422)

FLAT CUPS

XP -

F240

CUP MATERIAL NP

NP = Neoprene S = Silicone

CUP DIAMETER CUP & FITTING WEIGHT: lb. (kg) INTERNAL VOLUME: cu. in. (cc) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

FITTING -

AQ AQ = Quad Mount Side Port P = Quad Mount Center Port

Anodized aluminum fitting is bonded to rubber for maximum stability under shear loads

AQ: ANSI MOUNT

1.50 [38.1]

3/8 NPTF

1.59 [40.4]

240mm 2.8 (1.27) 33 (541) 450 (2002) 20 (508) 225 (1001)

HOW TO ORDER

1.16 [29.5]

2.75 [69.9]

3.18 [80.8]

9.70 [246]

5/16-18 UNC x 0.39 MIN THD 4 Places

3.18 [80.8]

P: METRIC MOUNT 1.62 [41.1]

0.62 [15.7] Stroke

1.50 [38.1]

G1/8 NPSF 1.14 [29] 2.75 [69.9]

3.23 [82]

9.70 [246]

G3/4 NPSF 3.23 [82]

1.62 [41.1]

M8 x 1.25 x 10mm MIN THD 4 Places

0.62 [15.7] Stroke

2:14

ÂŠ2012 EDCO USA. www.edcousa.net

FLAT CONCAVE CUPS HOW TO ORDER

CUP MATERIAL N

XP - FC50

A = Ameriflex D = Duramax N = Nitrile

Concave cleats on the bottom.

FITTING -

18F

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

FILTER -

See Cup Fitting Section for available threads.

FD = PE Filter FS = S.S. Screen See Cup Fitting Section for availability.

BOTTOM VIEW

0.36 [9.1] Thru Hole

0.72 [18.3]

0.25 [6.4] Stroke

1.97 [50]

HOW TO ORDER XP - FC

CUP MATERIAL N

N = Nitrile S = Silicone

FITTING -

Concave cleats on the bottom.

38F

38F = 3/8 NPSF Female G38M = G3/8 BSPP Male

50 mm 0.3 (7.9) 0.7 (11.5) 7.8 (34.7) 19 (84.5) 2.09 (53.1) 10 (44.5)

BOTTOM VIEW

8mm Hex Socket

XP-FC75-38F

XP-FC75-G38M

1.46 [37.1] 3/8 NPSF

G1/8 NPSF

1.32 [33.5]

G3/8 BSPP O-ring Seal 2.95 [74.9]

0.36 [9.1] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

2.95 [74.9]

0.93 [23.6]

0.36 [9.1] Stroke 0.93 [23.6]

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

75 mm 1.7 (48.2) 1.8 (29.5) 17 (75.6) 35 (154) 2.8 (71.1) 45 (200)

2:15

75 mm 1.7 (48.2) 1.8 (29.5) 17 (75.6) 35 (154) 2.8 (71.1) 45 (200)

FLAT CONCAVE CUPS HOW TO ORDER 100

N = Nitrile S = Silicone

BOTTOM VIEW

XP-FC100 -

12F Fits size 75 cup fittings. See Cup Fitting Section for available threads.

Concave cleats on the bottom. All figures for shear load are 18"Hg. using a 0.5 coefficient of friction. Adjust coefficient of friction to suit your conditions, then apply a generous factor of safety (3:1 or greater) to shear loads.

1.5 [38.1]

OVAL CUPS

HOW TO ORDER

1.5 [38.1]

[38.1]

PORTS -

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm) SHEAR LOAD2 : lb. (N)

100 mm 1.9 (54) 4.9 (80.3) 31 (138) 64 (285) 4.3 (109) 53 (236)

FITTING SUFFIX 18F 14F 38F 12F A: in. (mm) 1.58 (40.1) 1.58 (40.1) 1.58 (40.1) 1.58 (40.1)

1.5 [38.1]

CUP MATERIAL N N = Nitrile S = Silicone

0.48 [12.2] Stroke 1.07 [27.2]

3.94 [100]

CUP STYLE OF - 60X140 OC = Smooth Bottom OF = Cleated Bottom 1.5

FITTING

XP - FC

CUP MATERIAL

2.5 [63.5]

G BLANK = NPTF G = BSPP

1.5 5.5 [139.7] [38.1]

TECHNICAL DATA

1.5 [38.1]

2.5 [63.5]

60mm X 140mm 60mm X 140mm CUP DIMENSIONS 1.02 STROKE: in. (mm) 0.29 (7.4) 0.18 (4.6) [25.9] CUP WEIGHT: oz. (g) 4.1 (116) 4.2 (119) INTERNAL VOLUME: cu. in. (cc) 3.2 (52.4) 3.0 (49.2) FORCE @ 6" Hg: lb. (N) 29 (129) 29 (129) FORCE @ 18" Hg: lb. (N) 83 (369) 83 (369) MINIMUM RADIUS: in. (mm) 1.5 (38.1) 3.0 (76.2) SHEAR LOAD2 : lb. (N) 41 (182) 41 (182)

O-ring Seal

5.5 [139.7] 5.5 [139.7]

OC-60X140

1.02 [25.9]

CONNECTIONS

CODE FUNCTION Standard (NPT) -G (BSPP) 1 Vacuum Port 3/8 NPTF G3/8 BSPP 2 Mounting Holes 5/16-18 UNC M8 x 1.25 NPT ports are Standard, add suffix "-G" for optional BSPP ports.

2:16

OF-60X140

UNIVERSAL CUPS HOW TO ORDER

XP - U

CUP SIZE 8

CUP MATERIAL1 N

4 = 4mm 6 = 6mm 8 = 8mm 10 = 10mm 15 = 15mm

A = Ameriflex D = Duramax N = Nitrile S = Silicone V = Viton

FITTING -

FILTER

10M

See Cup Fitting Section for available threads.

BLANK = No Filter FD = P.E. Filter FS = S.S. Screen

All cups are available in Nitrile and Silicone. Check availability for other materials before ordering.

See Cup Fitting Section for availability.

XP-U4 0.24 [6.1] 0.08 [2] Thru Hole 0.20 [5.1]

CUP DIAMETER 4 mm CUP WEIGHT: oz. (g) 0.003 (0.09) INTERNAL VOLUME: cu. in. (cc) 0.002 (0.03) FORCE @ 6" Hg: lb. (N) 0.04 (0.2) FORCE @ 18" Hg: lb. (N) 0.2 (0.9) MINIMUM RADIUS: in. (mm) 0.12 (3)

XP-U6

0.26 [6.6]

0.08 [2] Thru Hole 0.28 [7.1] 0.012 [0.3] Stroke

XP-U8

CUP DIAMETER 6 mm CUP WEIGHT: oz. (g) 0.005 (0.14) INTERNAL VOLUME: cu. in. (cc) 0.003 (0.05) FORCE @ 6" Hg: lb. (N) 0.11 (0.5) FORCE @ 18" Hg: lb. (N) 0.38 (1.7) MINIMUM RADIUS: in. (mm) 0.2 (5.1)

0.28 [12.1] 0.08 [2] Thru Hole 0.35 [8.8]

0.02 [0.5] Stroke

CUP DIAMETER 8 mm CUP WEIGHT: oz. (g) 0.005 (0.14) INTERNAL VOLUME: cu. in. (cc) 0.006 (0.1) FORCE @ 6" Hg: lb. (N) 0.22 (1) FORCE @ 18" Hg: lb. (N) 0.65 (2.9) MINIMUM RADIUS: in. (mm) 0.24 (6.1)

XP-U10 0.14 [3.6] Thru Hole

0.008 [0.2] Stroke

0.41 [10.4]

0.43 [10.9]

XP-U15

0.02 [0.5] Stroke

0.14 [3.6] Thru Hole

CUP DIAMETER 10 mm CUP WEIGHT: oz. (g) 0.03 (0.85) INTERNAL VOLUME: cu. in. (cc) 0.011 (0.18) FORCE @ 6" Hg: lb. (N) 0.34 (1.5) FORCE @ 18" Hg: lb. (N) 1.0 (4.5) MINIMUM RADIUS: in. (mm) 0.31 (7.9)

0.45 [11.4]

0.65 [16.5] 0.06 [1.5] Stroke CUP DIAMETER 15 mm CUP WEIGHT: oz. (g) 0.03 (0.85) INTERNAL VOLUME: cu. in. (cc) 0.031 (0.51) FORCE @ 6" Hg: lb. (N) 0.8 (3.6) FORCE @ 18" Hg: lb. (N) 1.9 (8.5) MINIMUM RADIUS: in. (mm) 0.31 (7.9)

2:17

UNIVERSAL CUPS HOW TO ORDER

CUP MATERIAL1 N

20 = 20mm 25 = 25mm 30 = 30mm 40 = 40mm 50 = 50mm

A = Ameriflex D = Duramax N = Nitrile S = Silicone V = Viton

FITTING -

18F See Cup Fitting Section for available threads.

All cups are available in Nitrile and Silicone. Check availability for other materials before ordering.

FILTER -

BLANK = No Filter FD = P.E. Filter FS = S.S. Screen See Cup Fitting Section for availability.

0.38 [9.7] 0.2 [5.1] Thru Hole

0.87 [22.1]

20 mm 0.04 (1.1) 0.06 (1) 1.3 (5.8) 2.7 (12) 0.51 (13)

0.41 [10.4]

25 mm 0.06 (1.7) 0.07 (1.1) 2.0 (8.9) 4.4 (19.6) 0.65 (16.5)

0.2 [5.1]

1.26 [32]

0.14 [3.6] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

0.55 [14]

30 mm 0.07 (2) 0.12 (2) 2.7 (12) 5.6 (24.9) 0.79 (20.1)

XP-U50

0.18 [4.6] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

0.1 [2.5] Stroke

XP-U30

XP-U40

1.66 [42.2]

0.34 [8.6] 0.2 [5.1] Thru Hole

0.1 [2.5] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

0.29 [7.4] Thru Hole

XP-U20

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

XP-U25

1.06 [26.9]

XP - U

CUP SIZE 30

0.69 [17.5] 0.36 [9.1] Thru Hole

40 mm 0.17 (4.8) 0.34 (5.6) 4.5 (20) 8.8 (39.1) 1.18 (30)

2.09 [53.1]

0.24 [6.1] Stroke

CUP DIAMETER CUP WEIGHT: oz. (g) INTERNAL VOLUME: cu. in. (cc) FORCE @ 6" Hg: lb. (N) FORCE @ 18" Hg: lb. (N) MINIMUM RADIUS: in. (mm)

2:18

50 mm 0.35 (9.9) 0.73 (12) 7.9 (35.1) 16.4 (73) 1.38 (35.1)

CUP ASSEMBLY

Fitting Assembly

Secure a block tee or other suitable pipe fitting in a vise to make a simple fixture as shown in the illustration. Screw the cup fitting onto the fixture about 2 thread turns- by hand. Dip your finger into a small container of water and wipe a few drops onto the fitting flange and into the top chamfer and bore of the suction cup. Use

only water- no soap, nor oil. Water will quickly evaporate and leave no residue to later affect the cup’s performance. Invert the suction cup and place it onto the flange as shown. Grasp the far side of the cup and pull it over the flange while pressing downward. After the cup snaps over the flange, rotate the cup on the fitting about ½ turn to make sure it is properly seated.

ELASTOMER PROPERTIES **WORKING WEIGHT COLOR TEMPERATURE RATIO*** -4°F to 230°F Ameriﬂex A Excellent 0.85 Yellow -20°C to 110°C -4°F to 230°F Duramax D Excellent 0.85 White -20°C to 110°C Nitrile -4°F to 230°F N Excellent 1.0 Black (Buna-N) -20°C to 110°C -100°F to 400°F Silicone S Good 1.06 Orange -70°C to 205°C Conductive -100°F to 400°F CS Good 1.06 Black Silicone -70°C to 205°C Flourocarbon 40°F to 450°F V Excellent 1.78 Grey (Viton)* 4°C to 230°C * Viton is a registered trademark of Du Pont Dow Elastomers. **Continuous service temperature. Intermittent service may possibly be higher. Determine via testing under actual conditions. ***Weight of nitrile cup without ﬁtting is tabulated. Use the weight ratio multiplier to calculate the weights of Silicone and Viton cups. CODE

ELASTOMER

WEAR RESISTANCE

ELASTOMER SELECTION If the cup will be exposed to oil or chemicals, select the most compatible rubber material. AMERIFLEX (A): For general-purpose normal ambient temperature applications as a replacement for competitors’ PVC vinyl cups. DURAMAX (D): Softer non-staining, non-marking, general-purpose material for high-visibility surfaces at normal ambient temperature. NITRILE (N): For general-purpose normal ambient temperature applications. SILICONE (S): For either cold or high-temperature applications or where greater flexibility will improve conformance to a part. CONDUCTIVE SILICONE (CS): For grounding parts such as electronic chips to eliminate static electricity. VITON (V): For extremely high-temperature applications in automotive, appliance or other applications where silicone is not allowed. ©2012 EDCO USA. www.edcousa.net

2:19

Durometer Shore-A 50 45 50 50 50 60

NOTE: The terms non-staining and non-marking

refer only to the cup material. Airborne aerosols that attach to the cup surface or direct cup contact with dirty surfaces can result in residue transfer marks, so proper maintenance is important. Use denatured alcohol to wipe cups clean after installation and periodically afterward to remove airborne contaminants.

SPECIALTY CUPS

11-0079N (NITRILE) WOODWORKING CLAMP PAD 4.9 (125)

2.95 (75)

REPLACES # 4-011-11-0079

0.66 (16.7)

EGG CUP

BELLOWS CUP, BLUE PVC

0.5 [12.7]

0.22 [5.6] Thru Hole

0.375 (9.5) 0.5 (12.7) 3.04 [77.2]

1.64 (41.6)

0.85 (21.6)

0.63 [16]

2.05 (52) V32-38B (3/8" STEM) REPLACES VC-32C V32-12B (1/2" STEM) REPLACES VC-32C1

1.38 [35]

EC34S-30R

DESIGNED TO HANDLE A WIDE RANGE OF EGG SIZES

2:20

CUP FITTINGS

SECTION 3 CUP FITTINGS

3:1

CONTENTS

Fittings for 4, 5, 6, & 8mm Cups Female Male Side Entry Male Stud Mount

3:3 3:3 3:3

Fittings for 10 & 15mm Cups Female Male Side Entry Male Stud Mount

3:4 3:4 3:4

Fittings for 20, 25 & 30mm Cups Cross Female Male Stud Male Side Entry Tool Mount Die Cutting

3:5 3:5 3:6 3:6 3:7 3:7 3:7

Fittings for 40mm Cups Cross Female Male Stud Male Side Entry Tool Mount Die Cutting

3:7 3:8 3:8 3:9 3:9 3:10 3:10

Fittings for 50mm Cups Cross Female Male Stud Male Side Entry Tool Mount

3:11 3:11 3:12 3:12 3:13 3:13

Fittings for 65mm Cups Female Male Stud Male

3:14 3:14 3:14

Large Cup Fittings For 75mm to 100mm Cups For 110mm Cups For 150mm Cups

3:15 3:15 3:15

Accessory Fittings & Adaptors M5 x 0.8 Female Side Port Adaptors Tool Mount Accessory Fittings Large Cup Fitting Metric Bushings T-Slot Adaptors Side Vacuum Port Fittings Sheet Separator

3:3 3:10 3:15 3:16 3:16 3:16

CUP FITTINGS

3:2

ÂŠ2012 EDCO USA. www.edcousa.net

CUP FITTINGS

4, 5, 6, & 8mm Cups FEMALE 0.23 [5.8]

0.25 [6.4] Hex Size

MALE 0.25 [6.4]

0.31 [8] Hex Size

M5 x 0.8 (10-32 UNF)

M4 x 0.7

0.05 [1.3] Thru Hole

0.32 [8.1] 8-4F

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

10-32 UNF (M5 x 0.8) 0.2 [5]

0.35 [9]

0.06 [1.5] Thru Hole

0.06 [1.4] Thru Hole 8-5F

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

4F 0.04 (1.1) N/A N/A

0.16 [4]

0.25 [6.4] Hex Size

8-10M

5F 0.04 (1.1) N/A N/A

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

10M 0.08 (2.3) N/A N/A

SIDE VACUUM PORT JN-M6X1.0 Jam Nut 2 Included

1.00 [25.4]

0.40 [10.16] 0.22 [5.6]

M6 x 1.0

0.38 [9.5] Hex Size

8-S5F-6M

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

S5F-6M 0.22 (6.1) N/A N/A

M5 x 0.8 (10-32 UNF)

0.04 [1] Thru Hole

SIDE VACUUM PORT T

TECHNICAL DATA FITTING 5F-S5F-4F 5F-S5F-5F 5F-S5F-6F

FILTER PE

0.13 (3.7) 0.13 (3.7) 0.18 (5)

N/A N/A N/A

SCREEN SS N/A N/A N/A

For use with 8-10M & 10-10M Fittings.

DIMENSIONS FITTING

M5 x 0.8 (10-32 UNF)

WEIGHT oz. (g)

5F-S5F-4F 5F-S5F-5F 5F-S5F-6F

A HEIGHT in. (mm) 0.83 (21) 0.83 (21) 0.86 (22)

B HEX SIZE in. (mm) 0.38 (9.5) 0.38 (9.5) 0.44 (11.1)

3:3

C STAND OFF in. (mm) 0.15 (3.8) 0.15 (3.8) 0.23 (5.8)

D PORT HEIGHT in. (mm) 0.48 (12.1) 0.48 (12.1) 0.53 (13.5)

E "T" DEPTH in. (mm) 0.22 (5.6) 0.22 (5.6) 0.33 (8.4)

T THREAD M4 x 0.7 M5 x 0.8 M6 x 1.0

CUP FITTINGS 10 & 15mm Cups

FEMALE 0.25 [6.4] Hex Size

0.25 [6.4]

0.25 [6.4] Hex Size M5 x 0.8 (10-32 UNF)

M4 x 0.7

0.5 [13] Hex Size G1/8 NPSF

0.32 [8.1]

0.36 [9.1]

0.43 [11]

0.1 [2.5] Thru Hole

0.1 [2.5] Thru Hole 10-4F

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

10-5F

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

4F 0.05 (1.4) N/A N/A

0.1 [2.5] Thru Hole 10-18F

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

5F 0.05 (1.4) N/A N/A

MALE

JN-M6X1.0 Jam Nut 2 Included

0.22 [5.6]

10-32 UNF (M5 x 0.8)

0.1 [2.5] Thru Hole 10-10M

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

0.5 [13] Hex Size

0.22 [5.6]

10M 0.1 (2.8) N/A N/A

0.38 [9.5] Hex Size

M5 x 0.8 (10-32 UNF)

10-S5F-6M

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

0.11 [2.8]

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

0.4 [10.2]

0.1 [2.5] Thru Hole

G1/8 NPSF

10-18M

1.00 [25.4]

M6 x 1.0

0.23 [5.8]

0.1 [2.5] Thru Hole

18F 0.1 (2.8) FD339 FS350

SIDE VACUUM PORT 0.16 [4.1]

0.31 [8] Hex Size

0.32 [8.1] 3

0.25 [6.4]

S5F-6M 0.24 (6.8) N/A N/A

M5 x 0.8 (10-32 UNF) 18M 0.08 (2.3) N/A N/A

3:4

ÂŠ2012 EDCO USA. www.edcousa.net

CUP FITTINGS

20, 25, 30, & 35mm Cups CROSS FITTINGS 0.07 [1.8]

0.56 [14.2]

1.00 [25.4] G1/8 NPSF 5 Places

0.2 [5.1]

M5 x 0.8 (10-32 UNF) 5 Places

0.99 [25.1]

0.71 [18]

M4 x 0.7 2 Places

0.35 [8.8]

0.12 [3]

0.17 [4.2] Thru Hole

0.17 [4.2] Thru Hole 32-5X5F Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

0.39 [9.9]

32-5X18F

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

5X5F 0.18 (5) N/A N/A

5X18F 1.0 (28.3) N/A N/A

FEMALE TECHNICAL DATA

T B

ASSEMBLY WEIGHT FILTER SCREEN SUFFIX oz. (g) P.E. S.S. 32-G14F G14F 0.26 (7.3) N/A FS500 32-18F 18F 0.12 (3.4) FD339 FS350 32-8F 8F 0.2 (5.7) N/A N/A 32-6F 6F 0.23 (6.5) N/A N/A 32-5F 5F 0.09 (2.6) N/A N/A For optional filters, add suffix to fitting or cup model number: "FD" for polyethylene filter disk or "FS" for stainless steel filter screen. FITTING

A C

DIMENSIONS FITTING 32-G14F 32-18F 32-8F 32-6F 32-5F

A HEX HEIGHT in. (mm) 0.645 (16.4) 0.395 (10) 0.55 (14) 0.55 (14) 0.25 (6.4)

B HEX SIZE in. (mm) 0.69 (17.5) 0.56 (14.5) 0.56 (14.5) 0.56 (14.5) 0.5 (12.7)

3:5

C THRU HOLE in. (mm) 0.166 (4.2) 0.165 (4.2) 0.14 (3.6) 0.14 (3.6) 0.165 (4.2)

D THREAD DEPTH in. (mm) 0.45 (11.4) 0.25 (6.4) 0.32 (8.1) 0.25 (6.4) 0.20 (5.1)

T THREAD G1/4 BSPP G1/8 NPSF M8 x 1.25 M6 x 1.0 M5 x 0.8

CUP FITTINGS

20, 25, 30, & 35mm Cups MALE STUD

0.09 [2.3] Thru Hole 10-32 UNF (M5 x 0.8)

0.16 [4.1]

0.41 [10.4]

0.09 [2.3] Thru Hole M6 x 1.0

0.06 [1.5] Slot 32-10MS

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

0.69 [17.5]

0.06 [1.5] Slot 32-6MS Assembly Suffix: 6MS Weight: oz. (g) 0.024 (0.7) P.E. Filter: N/A S.S. Filter: N/A

10MS 0.024 (0.7) N/A N/A

.43 [10.9]

1/4 NPTF

6F-14M

0.68 (19.3) N/A N/A

G1/4 BSPP 0.42 [10.7]

0.69 [17.5]

0.2 [5.1] M6 x 1.0

Weight: oz. (g) P.E. Filter: S.S. Filter:

0.41 [10.4] 3

0.16 [4.1]

For use with 32-6MS, 40-6MS, & 50-6MS.

0.64 [16.3]

M6 x 1.0

6F-14F

Weight: oz. (g) P.E. Filter: S.S. Filter:

0.28 (7.9) N/A N/A

MALE B

TECHNICAL DATA

ASSEMBLY WEIGHT FILTER SCREEN SUFFIX oz. (g) P.E. S.S. 32-14M 14M 0.18 (5.1) N/A FS350 32-G14M G14M 0.16 (4.5) N/A FS350 32-18M 18M 0.08 (2.3) N/A FS285 32-8M 8M 0.12 (3.4) N/A N/A 32-6M 6M 0.11 (3.1) N/A N/A 32-5M 5M 0.09 (2.6) N/A N/A For optional filters, add suffix to fitting or cup model number: "FD" for polyethylene filter disk or "FS" for stainless steel filter screen. FITTING

M5 x 0.8 (10-32 UNF) 0.56 [14.2]

DIMENSIONS 0.24 [6.1]

G1/8 NPSF 0.16 [4.1] Thru Hole

32-18M

0.11 [2.8]

FITTING 32-G14M 32-14M 32-18M 32-8M 32-6M 32-5M

A HEX HEIGHT in. (mm) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1)

B C HEX THRU SIZE HOLE in. (mm) in. (mm) 0.69 (17.5) 0.166 (4.2) 0.69 (17.5) 0.166 (4.2) SEE DRAWING TO 0.56 (14.2) 0.14 (3.6) 0.56 (14.2) 0.1 (2.5) 0.5 (12.7) 0.08 (2)

3:6

D THREAD HEIGHT in. (mm) 0.35 (9) 0.35 (9) LEFT 0.32 (8.1) 0.23 (5.9) 0.19 (4.8)

T THREAD G1/4 BSPP 1/4 NPTF M8 x 1.25 M6 x 1.0 M5 x 0.8

CUP FITTINGS

20, 25, 30, & 35mm Cups SIDE VACUUM PORT FEMALE T

0.56 [14.3]

TECHNICAL DATA

B D C A

FITTING

32-S5F-5F 32-S5F-6F 32-S5F-8F

ASSEMBLY SUFFIX

WEIGHT oz. (g)

S5F-5F S5F-6F S5F-8F

FILTER P.E.

0.34 (9.6) 0.43 (12.8) 0.41 (11.6)

SCREEN S.S.

N/A N/A N/A

DIMENSIONS 0.14 [3.6] Thru Hole

A HEIGHT in. (mm)

FITTING

M5 x 0.8 (10-32 UNF)

32-S5F-5F 32-S5F-6F 32-S5F-8F

TOOL MOUNT

1.10 (28) 1.18 (30) 1.18 (30)

B STAND OFF in. (mm) 0.18 (4.6) 0.24 (6.1) 0.32 (8)

0.38 [9.7]

G1/8 NPSF

0.52 (13.2) 0.79 (20.1) 0.79 (20.1)

D "T" DEPTH in. (mm)

T THREAD

0.3 (7.6) 0.25 (6.3) 0.32 (8.1)

M5 x 0.8 M6 x 1.0 M8 x 1.25

DIE CUTTING 0.74 [18.8]

0.63 [16] JN-M16X1 Jam Nut 2 Included

C PORT HEIGHT in. (mm)

1.69 [42.8]

Push-In Bore for 6mm Tubing 2 Places

0.32 [8.1]

M16 x 1.0 0.69 [17.5] Hex Size

32-DC75X31

0.18 [4.6]

0.16 [4.1] Thru Hole

Assembly Suffix: Weight: oz. (g)

32-18FX40

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

18FX40 0.78 (22.1) FD339 FS350

M3 x 0.5 2 Places

0.2 [5.1]

M4 x 0.7 2 Places 0.39 [9.9]

0.99 [25.1]

0.71 [18]

G1/8 NPSF 5 Places

0.35 [8.9] 0.07 [1.8]

0.12 [3]

0.22 [5.6] Thru Hole 40-5X18F

5X5F 0.32 (9) N/A N/A

Push-In Bore for 6mm Tubing 2 Places

1.00 [25.4]

M5 x 0.8 (10-32 UNF) 5 Places

0.16 [4.1] Thru Hole

DC125X31 0.58 (16.3)

CROSS FITTINGS

0.78 [19.8]

40-5X5F Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

40-DC125X31 1.24 [31.5]

Assembly Suffix: Weight: oz. (g)

0.32 [8.1]

40mm Cups

0.75 [19.1]

DC75X31 0.18 (5.2)

3:7

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

5X18F 1.0 (28.3) N/A N/A

CUP FITTINGS 40mm Cups

FEMALE TECHNICAL DATA ASSEMBLY SUFFIX

FITTING

WEIGHT oz. (g)

FILTER P.E.

SCREEN S.S.

40-38F 38F 0.46 (13.2) N/A N/A 40-G14F G14F 0.26 (7.3) N/A FS500 40-18F 18F 0.2 (5.7) FD339 FS350 40-8F 8F 0.34 (9.6) N/A N/A 40-6F 6F 0.38 (10.8) N/A N/A For optional filters, add suffix to fitting or cup model number: "FD" for polyethylene filter disk or "FS" for stainless steel filter screen.

D A

DIMENSIONS A HEX HEIGHT in. (mm)

FITTING 40-38F

0.7 (17.8) 0.625 (15.9) 0.346 (8.8) 0.55 (14) 0.55 (14)

40-G14F 40-18F 40-8F 40-6F

B HEX SIZE in. (mm)

0.88 (22.2) 0.75 (19) 0.69 (17.5) 0.69 (17.5) 0.69 (17.5)

C THRU HOLE in. (mm) 0.22 (5.6) 0.22 (5.6) 0.22 (5.6) 0.14 (3.6) 0.14 (3.6)

D THREAD DEPTH in. (mm)

T THREAD 3/8 NPTF

0.55 (14) 0.45 (11.4) 0.25 (6.4) 0.32 (8.1) 0.25 (6.4)

G1/4 BSPP G1/8 NPSF M8 x 1.25 M6 x 1.0

MALE STUD 0.27 [6.9]

0.59 [15]

0.1 [2.5] Thru Hole M6 x 1.0

0.69 [17.5]

0.06 [1.5] Slot

40-6MS

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

6MS 0.068 (1.9) N/A N/A

.43 [10.9]

1/4 NPTF

0.69 [17.5]

0.2 [5.1] M6 x 1.0 6F-14M

Weight: oz. (g) P.E. Filter: S.S. Filter:

0.68 (19.3) N/A N/A

G1/4 BSPP 0.42 [10.7]

For use with 32-6MS, 40-6MS, & 50-6MS.

3:8

0.64 [16.3]

M6 x 1.0

6F-14F

Weight: oz. (g) P.E. Filter: S.S. Filter:

0.28 (7.9) N/A N/A

CUP FITTINGS 40mm Cups

MALE TECHNICAL DATA FITTING

WEIGHT oz. (g)

FILTER P.E.

SCREEN S.S.

40-38M 38M 0.27 (7.7) N/A FS350 40-G38M G38M 0.27 (7.7) N/A FS350 40-14M 14M 0.19 (5.4) N/A FS350 40-G14M G14M 0.21 (5.9) N/A FS350 40-18M 18M 0.16 (4.5) N/A FS285 40-8M 8M 0.19 (5.4) N/A N/A 40-6M 6M 0.19 (5.4) N/A N/A For optional filters, add suffix to fitting or cup model number: "FD" for polyethylene filter disk or "FS" for stainless steel filter screen.

3 T

ASSEMBLY SUFFIX

A C

DIMENSIONS FITTING 40-38M 40-G38M 40-14M 40-G14M 40-18M 40-8M 40-6M

A HEX HEIGHT in. (mm) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1) 0.19 (4.9) 0.2 (5.1) 0.2 (5.1)

B HEX SIZE in. (mm) 0.75 (19) 0.75 (19) 0.69 (17.5) 0.69 (17.5) 0.69 (17.5) 0.69 (17.5) 0.69 (17.5)

C THRU HOLE in. (mm) 0.22 (5.6) 0.22 (5.6) 0.22 (5.6) 0.22 (5.6) 0.22 (5.6) 0.14 (3.6) 0.14 (3.6)

D THREAD HEIGHT in. (mm) 0.355 (9) 0.355 (9) 0.355 (9) 0.355 (9) 0.23 (5.9) 0.32 (8.1) 0.32 (8.1)

T THREAD 3/8 NPT G3/8 BSPP 1/4 NPT G1/4 BSPP G1/8 NPSF M8 x 1.25 M6 x 1.0

SIDE VACUUM PORT TECHNICAL DATA FITTING 40-S5F-6F 40-S5F-8F

0.69 [17.5] Hex Size T

0.14 [3.6] Thru Hole

0.79 [20.1] 1.18 [30]

ASSEMBLY SUFFIX

WEIGHT oz. (g)

FILTER P.E.

SCREEN S.S.

A STAND OFF in. (mm)

B "T" DEPTH in. (mm)

S5F-6F S5F-8F

0.69 (19.6) 0.63 (17.9)

N/A N/A

DIMENSIONS FITTING 40-S5F-6F 40-S5F-8F

M5 x 0.8 (10-32 UNF)

3:9

0.24 (6.1) 0.32 (8)

0.25 (6.3) 0.32 (8.1)

THREAD M6 x 1.0 M8 x 1.25

CUP FITTINGS 40mm Cups

TOOL MOUNT

DIE CUTTING

0.32 [8.1]

JN-M16X1 Jam Nut 2 Included

Push-In Bore for 6mm Tubing 2 Places

32-DC75X31

Assembly Suffix: Weight: oz. (g)

M16 x 1.0

1.24 [31.5]

G1/8 NPSF

DC75X31 0.18 (5.2)

40-DC125X31

Assembly Suffix: Weight: oz. (g)

DC125X31 0.58 (16.3)

40-18FX40 Assembly Suffix: 18FX40 Weight: oz. (g) 0.8 (22.7) P.E. Filter: FD339 S.S. Filter: FS350

Tool Mount Accessories G1/8 NPSF 0.63 [16] JN-M16X1 Jam Nut 2 Included

1.88 [47.8] 1.57 [39.9]

M16 x 1.0

G1/8 NPSF 2 Places

2.17 [55]

0.63 [16]

1/8 NPT Plug 1 Included

JN-M16X1 Jam Nut 2 Included

G1/8 NPSF 2 Places

0.63 [16]

0.3 [7.6]

0.55 [14.5]

0.35 [8.8] Thru Hole TT18-16X40

Weight: oz. (g) P.E. Filter: S.S. Filter:

1.8 [45.7]

M16 x 1.0

O-ring Seal

G1/8 NPSF

0.3 [7.6]

18F-16X40

1.1 (31.2) N/A N/A

Weight: oz. (g) P.E. Filter: S.S. Filter:

3:10

1.1 (31.2) N/A N/A

ÂŠ2012 EDCO USA. www.edcousa.net

CUP FITTINGS 50mm Cups

CROSS FITTINGS

M3 x 0.5 2 Places 0.2 [5.1]

0.75 [9.1] M5 x 0.8 (10-32 UNF) 5 Places 0.78 [19.8]

0.99 [25.1]

0.35 [8.9] 0.07 [1.8]

0.16 [4.1] Thru Hole

M4 x 0.7 2 Places 0.39 [9.9]

1.00 [25.4] G1/8 NPSF 5 Places

0.71 [18] 0.12 [3]

0.22 [5.6] Thru Hole

50-5X5F Assembly Suffix: 5X5F Weight: oz. (g) 0.36 (10.1) P.E. Filter: N/A S.S. Filter: N/A

50-5X18F Assembly Suffix: 5X18F Weight: oz. (g) 1.0 (29.7) P.E. Filter: N/A S.S. Filter: N/A

FEMALE TECHNICAL DATA FITTING

D A

ASSEMBLY SUFFIX

WEIGHT oz. (g)

FILTER P.E.

SCREEN S.S.

50-38F 38F 0.51 (14.5) N/A N/A 50-G14F G14F 0.37 (10.5) N/A FS500 50-18F 18F 0.23 (6.5) FD339 FS350 50-12X1.75F M12F 0.29 (8.2) N/A N/A 50-8F 8F 0.38 (10.8) N/A N/A 50-6F 6F 0.42 (11.9) N/A N/A For optional filters, add suffix to fitting or cup model number: "FD" for polyethylene filter disk or "FS" for stainless steel filter screen.

DIMENSIONS FITTING 50-38F 50-G14F 50-18F 50-12X1.75F 50-8F 50-6F

A HEX HEIGHT in. (mm) 0.7 (17.8) 0.63 (15.9) 0.35 (8.8) 0.55 (14) 0.55 (14) 0.55 (14)

3:11

B HEX SIZE in. (mm) 0.88 (22.2) 0.75 (19) 0.69 (17.5) 0.69 (17.5) 0.69 (17.5) 0.69 (17.5)

C THRU HOLE in. (mm) 0.22 (14) 0.22 (14) 0.22 (14) 0.22 (14) 0.14 (3.6) 0.14 (3.6)

D THREAD DEPTH in. (mm) 0.45 (11.4) 0.45 (11.4) 0.25 (6.4) 0.48 (12.2) 0.32 (8.1) 0.25 (6.4)

T THREAD 3/8 NPSF G1/4 BSPP G1/8 NPSF M12 x 1.75 M8 x 1.25 M6 x 1.0

CUP FITTINGS 50mm Cups

MALE STUD 0.67 [17]

0.01 [2.5] Thru Hole M6 x 1.0 0.06 [1.5] Slot 0.69 [17.5]

50-6MS

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

6MS 0.12 (3.4) N/A N/A

.43 [10.9]

1/4 NPTF

Weight: oz. (g) P.E. Filter: S.S. Filter:

0.68 (19.3) N/A N/A

G1/4 BSPP 0.42 [10.7]

0.69 [17.5]

0.2 [5.1] M6 x 1.0 6F-14M

0.27 [6.9]

For use with 32-6MS, 40-6MS, & 50-6MS.

0.64 [16.3]

M6 x 1.0

6F-14F

Weight: oz. (g) P.E. Filter: S.S. Filter:

0.28 (7.9) N/A N/A

MALE TECHNICAL DATA FITTING

ASSEMBLY SUFFIX

WEIGHT oz. (g)

FILTER P.E.

SCREEN S.S.

50-38M 38M 0.31 (8.8) N/A FS350 50-G38M G38M 0.31 (8.8) N/A FS350 50-14M 14M 0.23 (6.5) N/A FS350 50-G14M G14M 0.25 (7.1) N/A FS350 50-18M 18M 0.2 (5.7) N/A FS285 50-N18M N18M 0.2 (5.7) N/A FS285 50-8M 8M 0.23 (6.5) N/A N/A 50-6M 6M 0.23 (6.5) N/A N/A For optional filters, add suffix to fitting or cup model number: "FD" for polyethylene filter disk or "FS" for stainless steel filter screen.

T A C

DIMENSIONS FITTING 50-38M 50-G38M 50-14M 50-G14M 50-18M 50-N18M 50-8M 50-6M

A HEX HEIGHT in. (mm) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1) 0.2 (5.1)

B HEX SIZE in. (mm)

0.75 (19) 0.75 (19) 0.69 (17.5) 0.69 (17.5) 0.69 (17.5) 0.69 (17.5) 0.69 (17.5) 0.69 (17.5)

3:12

C THRU HOLE in. (mm) 0.22 (5.6) 0.22 (5.6) 0.22 (5.6) 0.22 (5.6) 0.22 (5.6) 0.22 (5.6) 0.14 (3.6) 0.14 (3.6)

D THREAD HEIGHT in. (mm) 0.35 (9) 0.35 (9) 0.35 (9) 0.35 (9) 0.23 (5.9) 0.39 (9.9) 0.32 (8.1) 0.32 (8.1)

T THREAD 3/8 NPSF G3/8 BSPP 1/4 NPT G1/4 BSPP G1/8 NPSF 1/8 NPT M8 x 1.25 M6 x 1.0

CUP FITTINGS 50mm Cups

SIDE VACUUM PORT 0.69 [17.5]

0.79 [20.1]

1.18 [30]

TECHNICAL DATA ASSEMBLY SUFFIX S5F-8F S5F-6F

FITTING 50-S5F-8F 50-S5F-6F

WEIGHT oz. (g) 0.68 (19.3) 0.74 (21)

A STAND OFF in. (mm)

M5 x 0.8 (10-32 UNF)

50-S5F-6F 50-S5F-8F

0.24 (6.1) 0.32 (8)

TOOL MOUNT 0.38 [9.7]

G1/8 NPSF 0.63 [16] JN-M16X1 Jam Nut 2 Included

1.69 [42.8]

M16 x 1.0 0.18 [4.6]

0.69 [17.5] Hex Size

0.21 [5.3] Thru Hole 50-18FX40

Assembly Suffix: Weight: oz. (g) P.E. Filter: S.S. Filter:

SCREEN S.S. N/A N/A

B "T" DEPTH in. (mm)

DIMENSIONS FITTING

0.14 [3.6] Thru Hole

FILTER P.E. N/A N/A

3:13

18FX40 0.83 (23.5) FD339 FS350

0.25 (6.3) 0.32 (8.1)

THREAD M6 x 1.0 M8 x 1.25

CUP FITTINGS 65mm Cups

FEMALE TECHNICAL DATA 0.88 [22.4] Hex Size

ASSEMBLY WEIGHT FILTER SCREEN SUFFIX oz. (g) P.E. S.S. 65-38F 38F 0.66 (18.6) N/A N/A 65-G14F G14F 0.45 (12.7) N/A FS500 65-18F 18F 0.43 (12.2) FD339 FS350 For optional filters, add suffix to fitting or cup model number: "FD" for polyethylene filter disk or "FS" for stainless steel filter screen. FITTING

DIMENSIONS

FITTING

0.34 [8.6] Thru Hole

A HEX HEIGHT

B OFFSET

0.82 (20.8) 0.25 (6.4) 0.25 (6.4)

N/A 0.34 (8.5) 0.15 (3.8)

in. (mm)

65-38F

65-G14F 65-18F

C THREAD DEPTH in. (mm)

in. (mm)

T THREAD

0.55 (14) 0.45 (11.4) 0.28 (7.1)

3/8 NPSF G1/4 BSPP G1/8 NPSF

MALE 0.24 [6.1]

G1/8 NPSF

0.69 [17.5]

0.2 [5] Thru Hole

0.88 [22.4] Hex Size

TECHNICAL DATA

C A

T2 T1 O-ring Seal B

65-18MS Assembly Suffix: 18MS Weight: oz. (g) 0.21 (5.9) P.E. Filter: N/A S.S. Filter: N/A

FITTING

ASSEMBLY SUFFIX

WEIGHT oz. (g)

FILTER P.E.

SCREEN S.S.

65-38M 38M 0.45 (12.7) N/A FS350 65-G38M G38M 0.45 (12.7) N/A FS350 65-14M 14M 0.45 (12.7) N/A FS350 65-G14M G14M 0.45 (12.7) N/A FS350 65-18M 18M 0.43 (12.3) N/A FS285 For optional filters, add suffix to fitting or cup model number: "FD" for polyethylene filter disk or "FS" for stainless steel filter screen.

DIMENSIONS FITTING 65-38M 65-G38M

65-14M 65-G14M 65-18M

A HEX HEIGHT

in. (mm)

0.25 (6.4) 0.25 (6.4) 0.29 (7.4) 0.29 (7.4) 0.25 (6.4)

B THRU HOLE in. (mm)

0.34 (8.6) 0.34 (8.6) 0.28 (7.1) 0.28 (7.1) 0.22 (5.6)

3:14

C THREAD HEIGHT in. (mm)

0.35 (8.9) 0.35 (8.9) 0.27 (6.9) 0.27 (6.9) 0.24 (6.1)

EXTERNAL THREAD

INTERNAL THREAD

3/8 NPSF G3/8 BSPP 1/4 NPT G1/4 BSPP G1/8 NPSF

G1/8 NPSF G1/8 NPSF N/A N/A N/A

CUP FITTINGS

75, 100, 110, & 150mm Cups FEMALE B

G1/8 NPSF N/A on 75mm

3 C A

TECHNICAL DATA 75-18F 75-14F 75-38F 75-12F

CUP DIA. (mm) 75 & 100 75 & 100 75 & 100 75 & 100

ASSEMBLY SUFFIX 18F 14F 38F 12F

WEIGHT oz. (g) 2.8 (79.4) 2.7 (76.5) 2.7 (76.5) 2.6 (73.7)

CONNECTION THREADS G1/8 NPSF 1/4 NPSF 3/8 NPSF G1/2 NPSF

FILTER PE N/A N/A N/A N/A

SCREEN SS FS25 FS25 FS25 FS25

110-38F 110-12F

110 110

38F 12F

5.1 (145) 5.1 (145)

3/8 NPTF G1/2 NPSF

N/A N/A

FS30 FS30

150-38F 150-12F

150 150

38F 12F

8.5 (241) 8.5 (241)

3/8 NPTF G1/2 NPSF

N/A N/A

FS30 FS30

FITTING

Size 75, 110, and 150 fittings include M4x10-965A stainless steel screws. Size 110 and 150 fittings also include a FS21 filter screen and a P-18 Plug for auxiliary port.

DIMENSIONS 75-18F 75-14F 75-38F 75-12F

A in. (mm) 2.36 (60) 2.36 (60) 2.36 (60) 2.36 (60)

B in. (mm) N/A N/A N/A N/A

C in. (mm) 0.68 (17.3) 0.68 (17.3) 0.68 (17.3) 0.68 (17.3)

T THREAD G1/8 NPS 1/4 NPSF 3/8 NPSF G1/2 NPS

110-38F 110-12F

3.35 (85.1) 3.35 (85.1)

1.1 (27.9) 1.1 (27.9)

0.59 (15) 0.59 (15)

3/8 NPT G1/2 NPS

150-38F 150-12F

4.72 (120) 4.72 (120)

1.38 (35) 1.38 (35)

0.56 (14.2) 0.56 (14.2)

3/8 NPT G1/2 NPS

FITTING

METRIC BUSHINGS B

TECHNICAL DATA

FITTING

G12M-M16X1.5F 0.24 (6.8) G12M-M12X1.75F 0.4 (11.3) G12M-M10X1.5F 0.45 (12.7) G12M-M10X1.25F 0.45 (12.7) G12M-M8X1.25F 0.49 (13.8) For use with 75-12F, 110-12F, & 150-12F fittings.

A G1/2 NPSF

A in. (mm)

0.68 0.68 0.68 0.68 0.68

(17.3) (17.3) (17.3) (17.3) (17.3)

B in. (mm)

.88 .88 .88 .88 .88

WEIGHT oz. (g)

(22.5) (22.5) (22.5) (22.5) (22.5)

3:15

C in. (mm) 0.2 0.2 0.2 0.2 0.2

(5.1) (5.1) (5.1) (5.1) (5.1)

T THREAD

M16X1.5 FEMALE M12X1.75 FEMALE M10X1.5 FEMALE M10X1.25 FEMALE M8X1.25 FEMALE

CUP FITTINGS T-Slot Adaptors

O-ring Seal 0.37 [9.5]

TECHNICAL DATA & DIMENSIONS WEIGHT oz. (g)

FITTING TSA-18M TSA-38M TSA-12M

0.75 (21.3) 0.68 (19.3) 0.59 (16.7)

A in. (mm)

0.61 (15.5) 0.79 (20) 0.79 (20)

T THREAD G1/8 NPT G3/8 NPT G1/2 NPT

1.25 [31.8]

Side Vacuum Port Fitting TECHNICAL DATA

WEIGHT oz. (g)

FITTING 12M-S18F-16M

M8 x 1.25

1.8 (50.8)

0.71 [18]

M16 x 1.0

0.47 [11.9] 0.9 [22.9]

G1/2 NPSF

For use with 75-12F, 110-12F, & 150-12F fittings.

G1/8 NPSF

1.13 [28.6] Hex Size

O-ring Seal

Sheet Separator

Used to warp the edges of sheet goods to promote separation from the next sheet in a stack. As vacuum is applied to the suction cup, the suction cup pulls the sheet against a crowned brass center post and warps it slightly to produce a small air passage under the sheet edge which Without Cup facilitates sheet separation. One separator per corner is recommended. Depending on the size and thickness of SS-12

HOW TO ORDER With Cup XP -

JN-M16X1 Jam Nut 1 Included

Cup Style & Size F150

Cup Material N

B110 B150 F110 F150

N S V

- 12F

- SS

sheet material, more may be required. The degree of the warp can be adjusted by changing the projection distance of the center post from the cup cleats or the amount of vacuum applied to the suction cup. A 150mm size cup produces a very large force and should only be used with thicker materials to prevent marking of the product.

1.25 [32] Hex Size G1/2 NPSF

1.26 [32]

WITHOUT CUP: SS-12

TECHNICAL DATA FITTING SS-12

Adjustable Projection

WEIGHT oz. (g) 4.9 (138)

3:16

ÂŠ2012 EDCO USA. www.edcousa.net

CUP ACCESSORIES

SECTION 4 4

FLOW VALVES, CHECK VALVES, MECHANICAL VALVES, SWIVEL JOINTS, & TEE ADAPTORS

4:1

CUP ACCESSORIES

TRI-FLOW VALVE

FLOW SENSOR VALVE

VACUUM 0.61 CHECK VALVE

VACUUM CHECK WITH RELEASE CHECK VALVE

DUAL FLOW VALVE

CONTENTS

RELEASE CHECK VALVE 1.22

[15.5]

2.21 [56.1]

2.12 [53.8]

2.21 [56.1]

[31]

0.11 [2.8]

CONE VALVE

1.22 [31]

0.63 [15.9]

SWIVEL JOINT 0.98 [24.9]

0.98 [24.9]

0.63 [16]

TEE ADAPTOR 0.23 [5.8]

VALVES, JOINTS, & ADAPTORS Dual Flow Valves

Tri-Flow Valves Flow Sensor Valves Release Check Valves

Vacuum Check Valves Vacuum Check with Release Check Valves Cones Valves Mechanical Valves Swivel Joints Tee Adaptors

4:3

4:4 4:5 - 4:6 4:7

MECHANICAL VALVE

4:8 4:9 - 4:10 4:10 4:11 4:12 4:12

4:2

DUAL FLOW VALVES

Dual-Flow Valves limit vacuum leakage in a system where some of the suction cups may not be in sealing contact with the work piece. Since vacuum flow is limited by a small orifice, DF valves are only recommended for non-porous parts or for slightly porous light weight parts.

There are two main ways to apply DF valves: The first is to bring DF equipped suction cups into contact with the work and then turn on the vacuum source. Non-sealing cups will leak and cause the associated Dual-Flow valves to close to orifice flow only.

The second way is to turn on the vacuum source to close all DF valves before the suction cups contact the work and then allow the DF orifice flow to establish vacuum within the cups once contact is made. In either case, part release is accomplished by removing the vacuum source and admitting atmospheric air to reopen the Dual-Flow valves. For a faster cycle time, use a blow-off pulse of compressed air to break the vacuum and release the part more quickly.

20, 25, 30mm Cups

SIZING A VACUUM PUMP:

From the table below, determine the orifice flow at your system’s maximum vacuum operating level. Multiply this by the maximum number of non-sealing cups in the system. Select a pump that will give this total flow rate at the system vacuum level plus a factor of safety.

CAUTION: If DF valves are

used with a heavy porous part, the part may be dropped suddenly due to porosity flow through the part being greater than the available orifice flow. This can occour even if there is excess vacuum pump capacity. For this type of system, use Flow Sensor Valves. VACUUM V

DUAL-FLOW FITTING 32-G14FDF 32-18FDF 32-5X18FDF 32-5X5FDF

ASSEMBLY SUFFIX -G14FDF -18FDF -5X18FDF -5X5FDF

WEIGHT oz. (g) 0.27 (7.7) 0.13 (3.7) 1.01 (28.6) 0.19 (5.4)

FEMALE FLOW @ 18 inHg (61 kPa) SCFM (Nl/m) 0.2 (5.7) 0.2 (5.7) 0.2 (5.7) 0.2 (5.7)

DUAL-FLOW FITTING 32-14MDF 32-G14MDF 32-18MDF

ASSEMBLY SUFFIX -14MDF -G14MDF -18MDF

WEIGHT oz. (g) 0.19 (5.4) 0.17 (4.8) 0.13 (3.7)

MALE FLOW @ 18 inHg (61 kPa) SCFM (Nl/m) 0.2 (5.7) 0.2 (5.7) 0.2 (5.7)

DUAL-FLOW FITTING

ASSEMBLY SUFFIX

WEIGHT oz. (g)

DUAL-FLOW FITTING

ASSEMBLY SUFFIX

CONNECTION THREADS G1/4 BSPP G1/8 NPS G1/8 NPS M5 x 0.8 (10-32 UNF) CONNECTION THREADS 1/4 NPT G 1/4 BSPP G 1/8 NPS

40mm Cups FEMALE

40-38FDF 40-G14FDF 40-18FDF 40-5X18FDF 40-5X5FDF

-38FDF -G14FDF -18FDF -5X18FDF -5X5FDF

0.47 0.27 0.22 1.01 0.33

(13.3) (7.7) (6.2) (28.6) (9.4)

FLOW @ 18 inHg (61 kPa) SCFM (Nl/m) 0.5 0.5 0.5 0.5 0.5

(14.2) (14.2) (14.2) (14.2) (14.2)

CONNECTION THREADS

3/8 NPSF G1/4 BSPP G1/8 NPS G1/8 NPS M5 x 0.8 (10-32 UNF)

MALE

40-38MDF 40-G38MDF 40-14MDF 40-G14MDF 40-18MDF

-38MDF -G38MDF -14MDF -G14MDF -18MDF

WEIGHT oz. (g)

0.29 0.29 0.23 0.23 0.22

(8.2) (8.2) (6.5) (6.5) (6.2)

FLOW @ 18 inHg (61 kPa) SCFM (Nl/m) 0.5 0.5 0.5 0.5 0.5

(14.2) (14.2) (14.2) (14.2) (14.2)

CONNECTION THREADS 3/8 NPT G 3/8 BSPP 1/4 NPT G 1/4 BSPP G 1/8 NPS

50mm Cups ORIFICE FLOW PRESSURE OR ATMOSPHERE P

FEMALE DUAL-FLOW FITTING

ASSEMBLY SUFFIX

DUAL-FLOW FITTING

ASSEMBLY SUFFIX

50-38FDF 50-G14FDF 50-18FDF 50-5X18FDF 50-5X5FDF

-38FDF -G14FDF -18FDF -5X18FDF -5X5FDF

WEIGHT oz. (g)

0.51 0.39 0.25 1.01 0.36

(14.5) (11.1) (7.1) (28.6) (10.2)

FLOW @ 18 inHg (61 kPa) SCFM (Nl/m) 0.6 0.6 0.6 0.6 0.6

(17) (17) (17) (17) (17)

CONNECTION THREADS

3/8 NPSF G1/4 BSPP G1/8 NPS G1/8 NPS M5 x 0.8 (10-32 UNF)

MALE

REVERSE FLOW

50-38MDF 50-G38MDF 50-14MDF 50-G14MDF 50-18MDF

-38MDF -G38MDF -14MDF -G14MDF -18MDF

4:3

WEIGHT oz. (g)

0.34 0.34 0.25 0.28 0.2

(9.6) (9.6) (7.1) (7.9) (5.7)

FLOW @ 18 inHg (61 kPa) SCFM (Nl/m) 0.6 0.6 0.6 0.6 0.6

(17) (17) (17) (17) (17)

CONNECTION THREADS 3/8 NPT G3/8 BSPP 1/4 NPT G1/4 BSPP G1/8 NPS

TRI-FLOW VALVES VACUUM

PRESSURE OR ATMOSPHERE

VACUUM

0.62 [15.7]

ORIFICE

1.14 [29]

FILTER

FULLY OPEN TO 0.5 SCFM FLOWRATE

TRI-FLOW VALVES

Tri-Flow Valves limit vacuum leakage in a system where some of the suction cups may not be in sealing contact with the work piece. Tri-Flow Valves are a cross between Flow Sensor Valves and Dual-Flow Valves because they are fully open until the Flow Sensor section closes at the factory preset vacuum flow rate, then a bypass orifice meters vacuum flow to limit leakage to a manageable rate. Part release is accomplished by removing the vacuum source and admitting atmospheric air which will also reset any closed Tri-Flow Valves to open position. For a faster cycle time, use a blow-off pulse of compressed air to break the vacuum and release the part more quickly. Tri-Flow Valves can handle greater porosity flow than Dual-Flow Valves due to the fact that they’re initially held open. Another advantage is the Tri-Flow metering orifice is protected by an integral filter for greater tolerance of contamination.

HOW TO ORDER:

To order a cup assembled with a Tri-Flow Valve, add suffix -18FTF to the cup part number. Cup fittings must have G 1/8” NPSF femal thread. Example: XP-B50N-18FTF CUP SIZE 20, 25, 30 40 50

REVERSE FLOW

ORIFICE FLOW

CHECK VALVE WILL REOPEN IF POROSITY FLOW IS BELOW ABOUT HALF OF CLOSING SETPOINT.

TRI-FLOW FITTING 32-18FTF 40-18FTF 50-1818FTF

The normal way to set up a vacuum system using TriFlow equipped suction cups is to bring them into contact with the work and then turn on the vacuum source. Nonsealing cups will leak and cause the associated Tri-Flow Valve to close to orifice flow only. Tri-Flow Valves on cups in sealing contact with the work will remain fully open to handle higher porosity flow rates (normal leakage through the part) than Dual-Flow Valves can. For a system handling non-porous parts, operation can be as described above or the vacuum source may be turned on before the suction cups are in sealing contact with the work. Tri-Flow Valves can pass vacuum flow through the metering orifice to establish vacuum within the suction cups after they are placed in sealing contact with the work and the Tri-Flow Valves will reset to fully open. This feature is also convenient for use in vacuum holding fixtures. This capability is the only advantage that Tri-Flow Valves have over Flow Sensor Valves. For mid-to-high porosity parts, we recommend using Flow Sensor Valves where the closing set point can be adjusted to suit the application. To order for use inline: TF18F-XX with G1/8 NPS Female. XX= Specify 0.4, 0.5 or 0.6 SCFM. Pay attention to cup size when ordering.

CLOSING FLOW RATE 0.4 scfm 0.5 scfm 0.6 scfm

4:4

FLOW @ 18inHG. 0.2 scfm 0.4 scfm 0.5 scfm

FLOW SENSOR VALVES: PATENTED Flow Sensor Valves (FSV) are normally-open valves that snap closed when the factory preset flow rate is exceeded. Our FSV is insensitive to acceleration forces and may be used in any physical orientation. System vacuum level has no effect on the FSV set point, however, higher system vacuum levels will cause greater flow rates through a porous work place.

Flow Sensor Valves eliminate the problem of vacuum loss through non-working standard cups or through valved cups overhanging the work piece edge. These are especially useful where work piece size and orientation will vary. For maximum effective-ness, each suction cup in the system should be equipped with a Flow Sensor Valve. Flow Sensor Valves may be manifold or located in-line rather than at the suction cup. Piping integrity is important since the FSV will sense a fitting leak as easily as leakage at a suction cup. Wherever installed, a suitable filter must be used upstream of the FSV. When used with EDCO fittings, a filter screen nests inside the fitting bore. The optimum flow rate set point is best determined by testing the porosity of sample work pieces with a flow meter using the same suction cup size and style as will be used in the actual system. Porosity of items such as corrugated board can vary greatly from lot to lot so it is important to find the most porous part to be handled by the system. A factor of safety must be added to the highest porosity test value to allow for variations in work piece porosity, system vacuum level, increased leakage due to wear and other factors. For porous work pieces such as paper and corrugated cases, the factor of safety probably should be in the 50% range. For non-porous work pieces such as plastic or metal, the factor of safety may be reduced. It is necessary to size the vacuum pump to have enough capacity to close all Flow Sensor Valves where cups are not sealed against a work piece plus the total “porosity” flow through the sealed cups. EDCO air powered multi-stage vacuum pumps are ideally suited since they produce large vacuum flow rates at low vacuum levels (0-10 in-Hg) and can provide the flow necessary to close a large number of Flow Sensor Valves.

4:5

When used with large bellows-style suction cups, the cup should be pressed against the work piece to collapse the bellows before turning on the vacuum. This prevents accidentally activating the FSV by the high instantaneous flow rate caused by the bellows collapsing under vacuum. The FSV will automatically reset when the vacuum is turned off for a short period of time. If desired, a pressure pulse can be used to back flow the FSV and clean off the inlet filter. This blow-off pulse will reset the FSV and will quickly release the work piece. The FSVM version includes a monitor port where a vacuum sensor can be used to monitor whether the FSV is open or closed. The FSV 12 is a larger 1/2” NPT version that is for use with larger suction cups but is functionally the same as FSV 18. The FSV 10 is for use with 15mm and smaller suction cups but is functionally the same as an FSV 18.

HOW TO ORDER: FSV18 + FLOWRATE (SCFM x 10) + FITTING SIZE. EXAMPLES: FSV18- 9-50 is a standard FSV that is set to close when a flow rate exceeds 0.9 SCFM and includes a size 50 cup fitting and filter screen. FSV18-6-18M is an FSV set to close when flow rate exceeds 0.6 SCFM and includes a 1/8” NPT male fitting and filter screen for inline mounting. AVAILABLE FLOWRATE SETPOINTS: FSV 10 = 0.1 to 0.6 SCFM in 0.1 increments FSV 18 = 0.3 to 2.3 SCFM in 0.1 increments FSV 12 = 0.5 to 6.0 SCFM in 0.1 increments Conversion: 1 SCFM = 28.32 NI /m

FLOW SENSOR VALVES: PATENTED FSV-10-XX

FLOW DIRECTION FLOW DIRECTION BASIC FLOW SENSOR FSV–10–XX VALVE 0.375 HEX M5 x 0.8 0.71 FLOW DIRECTION FSV–10–XX VACUUM SUCTION (10 mm) (10-32 UNF) SUCTION [18] 0.71FSV–10–XX VACUUMFLOW DIRECTION M5 xx0.8 X 0.8 0.375 0.375HEX HEX0.375 HEX M5M5 0.8 PUMP (18) (10-32 UNF) (10-32 UNF) (10 [9.5] PUMP CUPCUP SUCTION 0.71 VACUUM (10-32 (10mm) mm) UNF)

SUCTION 0.71 VACUUM (18) CUP (18) PUMP CUP PUMP G1/8 NPT FLOW FLOW FLOW DIRECTION FSV–10–XX G1/8 FLOW 0.375 HEX G1/8NPT NPT FLOW M5 x 0.8 0.35 (8.8) FSV–18–XX (10-32 (10 mm) UNF) SUCTION 0.71 FS350 FilterVACUUM 0.35 (8.8) 0.350.35 (8.8) FSV-18-XXBasic Flow (18) Sensor Valve [8.9] Screen, typical FSV–18–XX CUP PUMP FSV–18–XX FS350 BASIC FLOW SENSOR VALVE FS350Filter Filter –50 Basic Flow Sensor Valve Screen, typical Basic Flow Sensor Screen, typical 0.74Valve 1.6 Size 50–50 Fitting 1.60 G1/8 NPSF –50 -50 G1/8 NPT FLOW (40.6) 0.74 (18.7)DIA. [40.6] 0.74 1.6 Size 50 Fitting SIZE 0.74 1.6 G1/8NPSF NPSF Size 50 Fitting50 [18.8] G1/8 (40.6) G1/8 NPSF (18.7)DIA. 0.35 (8.8) FITTING (40.6) (18.7)DIA. FLOW FSV–18–XX FS350 Filter FLOW Basic Flow Sensor Valve 0.44 (11.1) FLOW Screen, typical –50[11.2] 0.44 0.44 0.44(11.1) (11.1) FS350 FILTER 0.74 1.6 Size 50 Fitting SCREEN, TYPICAL G1/8 NPSF –18M (40.6) FLOW (18.7)DIA. -18M

FSVM–18–XX With vacuum FSVM–18–XX FSVM–18–XX monitoring port.

(18.7)DIA. 0.74 0.74 G1/8 FSVM–18–XX G1/8NPSF NPSF (18.7)DIA. (18.7)DIA. 0.74 With vacuum G1/8 NPSF monitoring port. [18.8]

M5 x 0.8 OPTIONAL CLOSE (10-32 UNF) N-G18MX16 Monitor Port

NOTE: Flow Sensors are calibrated using a flow meter. Field adjustment is not practical.

5 mm HEX

FSV–12–XX FSV-12-XX

0.35 (8.8) –18M 0.35 (8.8) 1/8 NPTF 0.35 (8.8)

-40

40 –40 SIZE FITTING Size 40–40 Fitting –40

Size 40 Fitting 0.35Size (8.8)40 Fitting

0.50 [12.7]

M5 X 0.8 (10-32 UNF) MONITOR PORT

NIPPLE

G1/8 NPS

1.50

1/2 NPTF MALE 1/2FSV–12–XX NPTF Male

FSV–12–XX

0.97

0.87 0.97 [24.6] 1/2 1/2NPTF NPTFMale Male(22) (24.2) 0.87 0.97 0.87 0.97 (22) (24.2) (22) dia. (24.2) dia. dia. FSV–12–XX

1/2 NPTF Male

0.35 [8.9]

1.6 (40.6) 1.6 1.6 (40.6) 1.60 (40.6) FLOW[40.6] FLOW FLOW

M5 x 0.8 1.6 0.74 (40.6) UNF) (18.7)DIA. (10-32 M5 0.8 x0.8 M5xPort Monitor (10-32 UNF) (10-32UNF) FLOW FLOW Monitor Port MonitorPort

G1/8 NPSF

1/8 –18M NPTF 1/8 NPTF –18M 1/8 NPTF 1/8 NPTF 0.44 (11.1)

FLOW

With Monitor Withvacuum vacuum monitoring port. Port monitoring port. Monitor FSVM-18-XX Monitor 0.74 Port BASIC FLOWG1/8 SENSOR VALVE WITH MONITOR PORT NPSF Port

Monitor Port

0.87 0.87 0.97 (22) [22.1] (24.2) dia.

G1/8 NPT

FLOW [38.1] FLOW 1.5FLOW (38.1) 1.5 1.5 (38.1) (38.1) FLOW

0.05 [1.3]

0.5 (12.7) –40-M5 M5 X 0.8 Size 40 Fitting 0.5 (12.7) 0.5 (12.7)

(10-32 UNF)

FOR SIZE 10 & –M5 15 FITTINGS M5 x 0.8 (10-32 –M5 –M5 UNF)

for size 10 & 15[9.9] Fittings 0.39 M5 M5xx0.8 0.8(10-32 (10-32UNF) UNF) for size 10 & 15 0.5 (12.7) for size 10 & 15Fittings Fittings

-32

0.39 (9.9) SIZE 32 –M5FITTING 0.39 0.39(9.9) (9.9) M5 x 0.8 (10-32 UNF) –32 for size 10 & 15 Fittings Size 32–32 Fitting –32 Size 32 Size 32Fitting Fitting FS500 0.39 (9.9) FILTER DISK

–32

Size 32 Fitting

1.5 FLOW (38.1) FS500 Filter Disk FS500 FS500Filter FilterDisk Disk

FS500 Filter Disk

4:6

RELEASE CHECK RC18A

Competitive products are simply check valves with a 30-40 psi (2-3 bar) cracking pressure. The high cracking pressure is necessary to insure a tight seal against vacuum developed by the pump. When a compressed air supply is applied to open the valve for blow-off, the internal spring immediately tries to close the valve as soon as flow begins. This has the effect of subtracting the valve cracking pressure from the blow-off air pressure. Because of this these systems normally have to operate above 50 psi (3.3 bar), which wastes compressed air.

The RC18A employs a normally closed valve to seal against pump vacuum without leaking. When a compressed air supply is applied, the release valve shifts open at only 5 psi (0.3 bar) so that a full-flow burst of air can quickly dissipate (blow-off) system vacuum. Once shifted, the valve doesnâ&#x20AC;&#x2122;t try to close, but remains open. Once the compressed air source is removed it automatically resets to a closed position. The RC18A should be used for high-flow vacuum release applications such as those involving vacuum reservoirs or larger single-stage or multi-stage vacuum pumps.

50 psi Maximum Pressure Weight: .107 lbs. (48.5g)

0.3 [7.6] 0.98 [24.9] G1/8 NPSF Release Air 5 psi Minimum

1.63 [41.4] G1/8 NPSF O-ring Seal

0.11 0.55 [2.8] [14]

0.5 [12.7]

0.1 [2.5]

Compressed Air 0.11 [2.8] 2

0.3 [7.6]

1.63 [41.4]

0.98 [24.9]

RC18A

0.5 [12.7]

0.55 [14]

0.1 [2.5]

RC18-040A The RC18-040A operates the same as the RC18A but includes a 0.040 in. (1 mm) balancing orifice to meter the air flow when multiple Release Checks are supplied air from the same blow-off control valve. Without the balancing orifice in each release check, the air would follow the path of least resistance. This would starve some release valves of air while others would have a flow many times greater than necessary.

0.3 [7.6] 0.98 [24.9] G1/8 NPSF Release Air 5 psi Minimum ÂŠ2012 EDCO USA. www.edcousa.net

1.63 [41.4]

Weight: .107 lbs. (48.5g)

0.5 [12.7]

0.55 [14] 0.11 [2.8]

0.3 1[7.6] 0.98 [24.9]

0.1 [2.5]

1.63 [41.4]

Compressed Air 0.11 [2.8]

RC18-040A

0.5 [12.7]

0.55 [14]

0.1 [2.5]

50 psi Maximum Pressure

0.04 in. 1.0 mm Orfice

G1/8 NPSF O-ring Seal

4:7

VACUUM CHECK

One application for the Vacuum Check valves is for energy saver circuits using a vacuum storage tank to accumulate and store vacuum for highvolume, short duration, flow rate requirements.

dropped if the systemâ&#x20AC;&#x2122;s vacuum source is lost. The vacuum trapped by the Vacuum Check will eventually leak down. The rate at which the vacuum diminishes will depend on the condition of all the components in the vacuum system. To increase the time delay interval, a volume chamber can be added to the auxiliary port. If the volume chamber is equal 2A internal volume, the time delay interval will to twice the cup be approximately tripled, and so forth. The VC18 should be used with cup diameters of 50mm and 2 smaller. The VC12 should be used with cup diameters of 75mm and larger that are available with G1/2 NPS female fittings. 0.95 [24.1]

More commonly, a vacuum check valve with release check valve would be used with a single suction cup so a nonporous, high value work piece would not be immediately

0.48 [12.2]

G1/8 NPSF

0.0

VC18

1.80 [45.7] 1.60 [40.6]

0.18 [4.6] THRU 2 PLACES

1.36 [34.5]

G1/8 NPSF

0.63 [16] 0.18 [4.6] 0.0

0.0

0.0 G1/8 NPSF

0.48 [12.2]

0.95 [24.1]

0.0 0.0

Vacuum Source

0.99 [25.1] 1.16 [29.5]

G1/8 NPSF

VC12

G1/8 NPSF

Weight: .19 lbs. (86g) 0.18 [4.6] 0.0

0.99 [25.1] 1.16 [29.5]

0.0

0.48 [12.2] 0.0

Vacuum Source 1

1.36 [34.5]

G1/8 NPSF

0.48 [12.2]

0.18 [4.6] THRU 2 PLACES G1/8 NPSF

2.21 [56.1] 2A

G1/2 NPSF

2A 2

O-ring Seal 0.48 [12.2]

0.0

0.0 0.0

0.18 [4.6] 0.0

0.99 [25.1] 1.16 [29.5]

1.28 [32.5]

0.47 [11.9]

0.0

0.61 [15.5]

0.63 [15.9]

G1/8 NPSF

0.63 [16]

0.0

Weight: .15 lbs. (68g)

1.22 [31]

G1/8 NPSF

0.0

1.80 [45.7] 1.60 [40.6]

0.0

0.63 [16]

0.95 [24.1]

0.48 [12.2]

1.36 [34.5]

0.18 [4.6] THRU 2 PLACES

1.28 [32.5]

0.0

1.80 [45.7] 1.60 [40.6]

0.0

0.47 [11.9]

0.0

0.61

The Vacuum Check valve is designed to prevent the reverse flow of ambient air into a vacuum system. Vacuum Check valves are used to hold vacuum downstream whenever the vacuum source is removed or lost. Internally, a normally closed valve allows vacuum flow in the pump direction, but seals off when vacuum flow ceases. When a vacuum check valve is used in a system, some provision must be made to release the trapped vacuum in order to release the work piece. The RC18 and RC18040 release check valves are designed for this purpose.

4:8

G1/2 NPSF

0.98 [24.9]

ÂŠ2012 EDCO USA. www.edcousa.net

VACUUM CHECK WITH RELEASE CHECK

The Vacuum Check valve with Release Check is used with a single suction cup so a non-porous, high value work piece won’t be immediately dropped if the system vacuum source is lost. The vacuum trapped by the Vacuum Check will eventually leak down. The rate at which the vacuum diminishes will depend on the condition of all the

VC18–RCA, VC18–RC040A

components in the vacuum system. To increase the time delay interval, a volume chamber can be added to the auxiliary port. If the volume of the chamber is twice the internal cup volume, the time delay interval will be approximately tripled, and so forth.

See Page 4:7 for RC040A description.

2.32 [58.9]

G1/8 NPSF

2.79 [70.9] 1.16 [29.5] 1.63 [41.4]

1.18 [30]

0.17 [4.3]

0.18 [4.6]

0.98 [24.9]

1.80 [45.7]

0.63 [16]

0.23 [5.8] G1/8 NPSF

G1/8 NPSF

2.32 [58.9]

Vacuum Source

1 RC18-040A 0.04 in. 1.0 mm Orfice

3 2

4:9

Blow-off Air 5psi (0.3bar) min.

Compressed Air

VACUUM CHECK WITH RELEASE CHECK VC12–RCA, VC12–RC040A

G1/2 NPSF 1.22 [31]

2.21 [56.1]

2.12 [53.8]

0.98 [24.9]

G1/8 NPSF

0.63 [16] O-ring Seal

G1/2 NPSF

0.23 [5.8] G1/8 NPSF

Vacuum Source

1.22 [31]

1 RC18-040A 2A

63 16]

0.04 in. 1.0 mm Orfice

0.23 [5.8]

Blow-off Air 5psi (0.3bar) min.

Compressed Air 3

LOW-PROFILE CONE VALVES HOW TO ORDER XP -

F30

CUP SIZE

CUP MATERIAL1

30 = 30mm 40 = 40mm 50 = 50mm

A = Ameriflex D = Duramax N = Nitrile S = Silicone V = Viton

G1/8 NPSF Male

FITTING -

18F

18M = G1/8 NSF Male, 30mm Only 18F = G1/8 NSF Female, 40 & 50mm Only

F40

G1/8 NPSF Female

4:10

All cups are available in Nitrile and Silicone. Check availability for other materials before ordering.

F50

G1/8 NPSF Female

XP -

B110 110 = 110 mm

N N = Nitrile S = Silicone V = Viton

- 12F - MV

[1]

MECHANICAL VALVE B40, B50 & 2B50 MV XP XP -

CUP SIZE CUP SIZE F75 B40 75 = 75 mm 40 = 40 mm 50 = 50 mm 2B50 50 = 50 mm

CUP CUP MATERIAL MATERIAL N - 12F - MV N - 16X40MV N = Nitrile N = Nitrile S = Silicone S = Silicone V = Viton V = Viton

M16X1 M16X1

1.38 [35.1] 1.38 [35.1]

2X JN-M16X1 2X JN-M16X1 2.30 [58.4] 2.30 [58.4]

CUPto dimensions For overall height, refer CUP SIZE MATERIAL for selected cup..

XP -

F110 N 110 = 110 mm N = Nitrile 150 = 150 mm S = Silicone V = Viton

M16X1 M16X1

1/8-27 NPSF 1/8-27 NPSF

XP -

B110 110 = 110 mm

CUP SIZE XP -

B40 40 = 40 mm 50 = 50 mm 2B50 50 = 50 mm

0.05 [1.3] 0.05 [1.3]

- 12F - MV

0.05 [1.3] 0.05 [1.3] G1/2 NPS G1/2 NPS

CUP MATERIAL N N = Nitrile S = Silicone V = Viton

- 12F - MV

XP -

F75 75 = 75 mm CUP SIZE

XP -

F75 75 = 75 mm CUP SIZE

CUP MATERIAL N N = Nitrile S = Silicone V = Viton

- 16X40MV

0.10 [2.5] 0.10 [2.5]

G1/2 NPS

CUP MATERIAL

G1/2 NPS

N - 12F - MV N = Nitrile CUP S MATERIAL = Silicone V = Viton N - 12F - MV N = Nitrile S = Silicone CUP V = Viton MATERIAL

MV-F110 XP F110& MV-F150 N

110 = 110 mm N = Nitrile CUP CUP SIZE 150 = 150 mm S MATERIAL = Silicone V = Viton XP F110 N 110 = 110 mm N = Nitrile 150 = 150 mm S = Silicone CUP CUP SIZE V = Viton MATERIAL

XP -

2.20 [55.9] 2.20 [55.9]

1.25 [32] HEX 1.25 [32] HEX

MV-F75 CUP SIZE

2X JN-M16X1 2X JN-M16X1 2.30 [58.4] 2.30 [58.4]

1.38 [35.1] 1.38 [35.1]

MV-B110

CUP SIZE

1/8-27 NPSF 1/8-27 NPSF

0.04 [1] 0.04 [1] 1.25 [32] HEX

- 12F - MV

1.25 [32] HEX 1.26 [32] 1.26 [32]

- 12F - MV

G1/2 NPS G1/2 NPS

ADJUSTABLE PROJECTION

ADJUSTABLE 0.04 PROJECTION [1] 0.04 [1]

B110 110 = 110 mm CUP SIZE

M16X1

4:11

1/8-27 NPSF

M16X1 M16X1

1/8-27 NPSF 1/8-27 NPSF

SWIVEL JOINTS 30° 30°

G1/2 G1/2 NPSNPS

30° 30°

1.751.75 [44.5] [44.5]

30° 30°

NPTF 1/4 1/4 NPTF

NPTF 1/8 1/8 NPTF

1.271.27 [32.3] [32.3]

G1/2 G1/2 NPSNPS

SJ12 SJ12

SJ12-14M SJ12-14M

SJ12-18M SJ12-18M

G 1/2 Swivel Joint G 1/2 NPSNPS Swivel Joint 75mm to 150mm cups. For For useuse withwith 75mm to 150mm cups. Brass body, stainless steel shaft, nitrile seals. Brass body, stainless steel shaft, nitrile seals. Weight: (145g) Weight: 0.320.32 (145g)

30° 30°

1.131.13 [28.7] [28.7] G 1/8 Swivel Joint G 1/8 NPSNPS Swivel Joint 20mm to 50mm cups. For For useuse withwith 20mm to 50mm cups. Brass body, stainless steel shaft, nitrile seals. Brass body, stainless steel shaft, nitrile seals. Weight: 0.049 (22g) Weight: 0.049 (22g)

0.230.23 [5.8][5.8]

SJ18 SJ18

TEE ADAPTORS 5/16-18 5/16-18 UNFUNF REMOVABLE REMOVABLE PLUG 1/8 1/8 NPTNPT PLUG

Mounts suction having a female Mounts anyany suction cupcup having a female fitting allows daisy chaining vacuum tubing fitting andand allows daisy chaining vacuum tubing to cup to simplify plumbing. A plug fromfrom cupcup to cup to simplify plumbing. A plug is is provided so the TA can be used as an provided so the TA can alsoalso be used as an angle adaptor to allow vacuum to routed be routed angle adaptor to allow vacuum lineslines to be perpendicular to the suction perpendicular to the suction cupcup axis.axis.

TA18 TA18 1.121.12 [28.4] [28.4]

0.600.60 [15.2] [15.2]

1.351.35 [34.3] [34.3]

TA12 & TA12-38 TA12 & TA12-38

3/8-16 UNC (TA12-38) 3/8-16 UNC (TA12-38) OR OR 5/16-18 UNC (TA12) 5/16-18 UNC (TA12)

0.560.56 [14.2] [14.2]

REMOVABLE REMOVABLE G1/2 NPSF PLUG G1/2 NPSF PLUG

2.142.14 [54.4] [54.4] 1.08 1.08 [27.4] [27.4]

G1/8 G1/8 NPSNPS 0.620.62 [15.7] [15.7]

Construction: Construction: Anodized Aluminum Anodized Aluminum WEIGHT: 0.022 (9.9g) WEIGHT: 0.022 (9.9g)

G1/2 G1/2 NPSNPS

Construction: Construction: Chromate ZincZinc Chromate WEIGHT: (95g) WEIGHT: 0.210.21 (95g)

4:12

1.001.00 [25.4] [25.4] 1.261.26 [32][32]

LEVEL COMPENSATORS

5:1

LEVEL COMPENSATORS

CONTENTS

LC18 5

LC12 EXTERNAL SPRING LC10

HEAVY-DUTY LEVEL COMPENSATORS

EXTERNAL SPRING LEVEL COMPENSATORS

LC18 CLAMP-MOUNT

LC10 NON-ROTATING

LEVEL COMPENSATOR PUMPS

LEVEL COMPENSATORS LC10 LC10 Non-Rotating LC18 LC18 Clamp-Mount LC18 Non-Rotating LC12 External Spring Heavy-Duty Level Compensators External Spring Level Compensators Level Compensator Pumps

5:3 5:3 5:4 5:4 5:4 5:4 5:5 5:6 5:7 – 5:8

LC18 NON-ROTATING

5:2

LEVEL COMPENSATORS

Level compensators are primarily used to compensate for height differences on a work piece surface and they should be installed so that all of the level compensators are fully extended while supporting the load. For special applications, such as sheet feeding, level compensators can be staggered so that lifting begins at the edge or corner

LC10X5-10

G1/8 NPSF

to assist sheet separation. Level compensators also serve as shock absorbers to prevent damage to work pieces and allow greater positioning latitude for robotic applications. Extensive use of aluminum has reduced the weight of EDCO USA compensators by as much as 60 percent.

0.6 [15.2] 0.2 [5]

M5 x 0.8 (10-32 UNF) 5

0.05 [1.3]

Barb for 10 & 15mm Cups. Weight: 0.22 oz. (6.4 g)

1.22 [31]

LC10: STANDARD B

M5 x 0.8 (10-32 UNF) Female 2 Places

LC10 LC10X20 LC10X30 LC10X50

A LENGTH in. (mm)

1.7 (43.2) 3.4 (86.4) 4.17 (106) 5.77 (147)

JN-G18 2 Included

G1/8 BSPP PART NUMBER

B SLEEVE HEIGHT in. (mm) 0.76 (19.3) 1.83 (46.5) 2.23 (56.6) 3.03 (77)

C STROKE in. (mm)

0.3 (7.6) 0.83 (21) 1.2 (30.5) 2.0 (50.8)

0.25 [6.4] Hex D COUPLER in. (mm) 0.28 (7.1) 0.37 (9.4) 0.37 (9.4) 0.37 (9.4)

WEIGHT oz. (g)

0.2 (6.8) 0.4 (11.6) 0.5 (13.6) 1.1 (31.3)

LC10: NON-ROTATING

PART NUMBER LC10-NR LC10X50-NR

ÂŠ2012 EDCO USA. www.edcousa.net

A LENGTH in. (mm)

1.95 (49.5) 5.92 (150)

B SLEEVE HEIGHT in. (mm) 0.91 (23.1) 3.18 (80.8)

5:3

C STROKE in. (mm)

0.3 (7.6) 2.0 (50.8)

D COUPLER in. (mm) 0.37 (9.4) 0.37 (9.4)

WEIGHT oz. (g)

0.3 (9.0) 1.1 (31.1)

LEVEL COMPENSATORS LC18: STANDARD G1/8 NPSF Female

PART NUMBER LC18 LC18X35 LC18X50

2.89 (73.4) 4.47 (114) 5.75 (146)

G1/8 NPSF Male

JN-M16X1 2 Included

M16 x 1.0

A LENGTH in. (mm)

B SLEEVE HEIGHT in. (mm) 1.38 (35.1) 2.33 (59.2) 2.97 (75.4)

C STROKE in. (mm)

0.79 (20.1) 1.4 (35.6) 2.0 (50.8)

D HEX HEIGHT in. (mm)

WEIGHT oz. (g)

0.13 (3.3) 0.13 (3.3) 0.13 (3.3)

1.0 (28.3) 1.5 (42.5) 1.8 (51)

0.5 [12.7] Hex

LC18: 20mm CLAMP MOUNT B

G1/8 NPSF Female

LC18-20 LC18X35-20 LC18X50-20

A LENGTH in. (mm)

G1/8 NPSF Male

0.78 [20] O.D.

0.5 [12.7] Hex PART NUMBER

2.91 (73.9) 4.47 (114) 5.75 (146)

B SLEEVE HEIGHT in. (mm) 1.38 (35.1) 2.33 (59.2) 2.97 (75.4)

C STROKE in. (mm)

0.79 (20.1) 1.4 (35.6) 2.0 (50.8)

D HEX HEIGHT in. (mm)

WEIGHT oz. (g)

0.13 (3.3) 0.13 (3.3) 0.13 (3.3)

1.3 (36.1) 2 (56.2) 2.5 (71.4)

LC18: NON-ROTATING

PART NUMBER LC18-NR LC18X35-NR LC18X50-NR

LC12: STANDARD

A LENGTH in. (mm)

2.95 (75) 4.51 (115) 5.82 (148)

B SLEEVE HEIGHT in. (mm) 1.6 (40.6) 2.5 (63.5) 3.2 (81.3)

0.79 (20.1) 1.4 (35.6) 2.0 (50.8)

WEIGHT oz. (g)

1.0 (29.3) 1.4 (39.7) 1.8 (51)

O-RING SEAL 2 PLACES

0.7 [17.8]

G1/2 NPSF 1.0 (25.4) HEX 2 PLACES

C STROKE in. (mm)

G1/2 NPSF

Weight: 5.8 oz. (164.4 g)

2.36 [59.9]

5:4

LEVEL COMPENSATORS HEAVY-DUTY INTERNAL SPRING LEVEL COMPENSATORS Heavy-duty Level Compensators have the strength necessary for loads associated with larger suction cup

LC HEAVY-DUTY: 25mm STROKE

diameters. Widely spaced shaft bearings allow mounting in either vertical-shaft or horizontal-shaft orientations.

HOW TO ORDER LC

INLET THREAD 14F

14F = 1/4 NPT 38M = 3/8 NPTF 12M = 1/2 NPTF G14F = G1/4 BSPP G38M = G3/8 BSPP G12M = G1/2 BSPP

X25

CUP END THREAD 38M

14F = 1/4 NPT 38M = 3/8 NPTF 12M = 1/2 NPTF G14M = G1/4 BSPP G14F = G1/4 BSPP G38M = G3/8 BSPP G12M = G1/2 BSPP

INLET END

CUP END

38M: 3/8 NPTF G38M: G3/8 BSPP Weight: 0.3oz. (8.4g)

14F: 1/4 NPT G14F: G1/4 BSPP Weight: 0.26oz. (7.3g)

JN-M22X1.5 M22 x 1.5 2 Included G14M: G1/4 BSPP

12M: 1/2 NPTF G12M: G1/2 BSPP Weight: 0.51oz. (14.5g)

LC HEAVY-DUTY: 50mm STROKE

Weight: 7.3oz. (205g)

12M: 1/2 NPTF G12M: G1/2 BSPP Weight: 0.51oz. (14.5g)

HOW TO ORDER LC

INLET THREAD 14F

14F = 1/4 NPT 38M = 3/8 NPTF 12M = 1/2 NPTF G14F = G1/4 BSPP G38M = G3/8 BSPP G12M = G1/2 BSPP

X50

INLET END

CUP END THREAD 38M

14F = 1/4 NPT 38M = 3/8 NPTF 12M = 1/2 NPTF G14M = G1/4 BSPP G14F = G1/4 BSPP G38M = G3/8 BSPP G12M = G1/2 BSPP

CUP END

38M: 3/8 NPTF G38M: G3/8 BSPP Weight: 0.3oz. (8.4g)

14F: 1/4 NPT G14F: G1/4 BSPP Weight: 0.26oz. (7.3g)

12M: 1/2 NPTF G12M: G1/2 BSPP Weight: 0.51oz. (14.5g)

JN-M22X1.5 2 Included

G14M: G1/4 BSPP M22 x 1.5

Weight: 10.2oz. (288g)

5:5

12M: 1/2 NPTF G12M: G1/2 BSPP Weight: 0.51oz. (14.5g)

LEVEL COMPENSATORS

LCE: EXTERNAL SPRING LEVEL COMPENSATORS care should be taken to avoid side loads, which will cause premature shaft and bearing wear. For a more robust design, see the EDCO USA standard LC level compensators with an internal spring and a superior bearing system.

LCE level compensators are only suitable for vertical mount applications where low cost is the primary consideration. EDCO USA increased the bearing length and used improved construction materials compared to the competition. Despite these changes the short bearing length dictates a shaft-vertical mounting orientation, and

0.75 [19.1]

1.38 [35.1]

HOW TO ORDER

A B

LCE

0.19 [4.8]

T Jam Nut 2 Included

M16 x 1.0 PART NUMBER SLEEVE PITCH FINE (M16X1.0) COARSE (M16X1.5) LCEF14X10 LCEF14X30 LCEF14X50 LCEF14X70

T A LENGTH in. (mm)

B STROKE in. (mm)

T THREAD1

LCEC14X10 3.11 (79) 0.39 (10) 1/4 NPT LCEC14X30 4.69 (119) 1.18 (30) 1/4 NPT LCEC14X50 6.26 (159) 1.97 (50) 1/4 NPT LCEC14X70 7.85 (199) 2.76 (70) 1/4 NPT 1 With the "-G" option the threads change from NPT to BSPP.

LCE: FEMALE

PORTS G Blank = NPT G = BSPP

WEIGHT oz. (g)

2.65 (75.1) 3.47 (98.4) 4.3 (122) 5.22 (148)

HOW TO ORDER LCE

T M16 x 1.0

Jam Nut 2 Included

PART NUMBER SLEEVE PITCH FINE (M16X1.0) COARSE (M16X1.5)

LCEF14X10-14F LCEF14X30-14F LCEF14X50-14F LCEF14X70-14F

A LENGTH in. (mm)

B STROKE in. (mm)

T THREAD1

M16 x 1.0 PART NUMBER SLEEVE PITCH FINE (M16X1.0) COARSE (M16X1.5)

WEIGHT oz. (g)

2.74 (77.8) 3.57 (101) 4.4 (122) 5.32 (151)

HOW TO ORDER LCE

LCEF14X10 LCEF14X30 LCEF14X50 LCEF14X70

STROKE PORTS SLEEVE2 C 14X 30 - 14F G C = COARSE 10 = 10mm Blank = NPT F = FINE 30 = 30mm G = BSPP 2 50 = 50mm Coarse thread is M16 x 1.5, 70 = 70mm Fine thread is M16X1.0

LCEC14X10-14F 3.67 (93.2) 0.39 (10) 1/4 NPT LCEC14X30-14F 5.25 (133) 1.18 (30) 1/4 NPT LCEC14X50-14F 6.82 (173) 1.97 (50) 1/4 NPT LCEC14X70-14F 8.41 (214) 2.76 (70) 1/4 NPT 1 With the "-G" option the threads change from NPT to BSPP.

LCE: INTEGRAL CUP FITTING

T Jam Nut 2 Included

STROKE SLEEVE2 C 14X 30 C = COARSE 10 = 10mm F = FINE 30 = 30mm 2 50 = 50mm Coarse thread is M16 x 1.5, 70 = 70mm Fine thread is M16X1.0

LCE: MALE

A LENGTH in. (mm)

STROKE BUTTON SIZE PORTS SLEEVE2 C 14X 30 40 G C = COARSE 10 = 10mm 32 = 20 - 30mm Cups Blank = NPT F = FINE 30 = 30mm 40 = 40mm Cups G = BSPP 2 50 = 50mm 50 = 50mm Cups Coarse thread is M16 x 1.5, 70 = 70mm Fine thread is M16X1.0

B STROKE in. (mm)

T THREAD1

LCEC14X10 3.31 (84.1) 0.39 (10) 1/4 NPT LCEC14X30 4.89 (124) 1.18 (30) 1/4 NPT LCEC14X50 6.46 (164) 1.97 (50) 1/4 NPT LCEC14X70 8.05 (204) 2.76 (70) 1/4 NPT 1 With the "-G" option the threads change from NPT to BSPP.

5:6

WEIGHT oz. (g)

2.74 (77.8) 3.57 (101) 4.4 (122) 5.32 (151)

LEVEL COMPENSATORS

LCP: LEVEL COMPENSATOR PUMPS

A vacuum pump integrated within a level compensator provides a simple point-of-use system that is easier to apply than the two components are separately. While the level compensator provides compliance, vacuum is generated directly at the suction cup, which improves response time for both attaching to and detaching from a work piece. Project costs are reduced because the plumbing components

between the vacuum pump and level compensator mounted suction cup are eliminated, which also reduces assembly labor. Compressed air is supplied to the inlet port; vacuum is generated and supplied to the suction cup and the exhaust exits just above the cup fitting. Vacuum on/off can be controlled via a separate 3-way air control valve.

HOW TO ORDER

LCP -

VENTURI SIZE 07

ROTATIONAL PREFERENCE NR

STROKE - 14X

20 20 = 20mm 35 = 35mm 50 = 50mm

07 09 10 10L

(Blank) = Rotating NR = Non-Rotating

LCP PERFORMANCE

SCFM 1.5

Vacuum Flowrate vs. Vacuum Level for LCP-style pumps at 72 psi (5bar) 1.0 LCP-10 Air Consumption: 1.75 SCFM (50 Nl/m)

LCP-10L @ 60 psi Air Consumption: 1.65 SCFM (47 Nl/m)

LCP-09 Air Consumption: 1.4 SCFM (40 Nl/m)

0.5

LCP-10L @ 72 psi Air Consumption: 1.9 SCFM (54 Nl/m)

LCP-07 Air Consumption: 0.8 SCFM (23 Nl/m)

0 0

LCP: 20 mm STROKE

inHg

JN-M16X1.0 2 Included

LCP-07-14X20, LCP-09-14X20 LCP-10-14X20, & LCP-10L-14X20

Exhaust

Weight: 1.08 oz. (30.6 g)

Air Supply G1/8 NPSF

M16 x 1.0

Vacuum G1/4 BSPP

LCP: 35 mm STROKE

LCP-07-14X35, LCP-09-14X35, LCP-10-14X35, & LCP-10L-14X35

Weight: 1.4 oz. (39.9 g)

ÂŠ2012 EDCO USA. www.edcousa.net

Air Supply G1/8 NPSF JN-M16X1.0 2 Included

5:7

M16 x 1.0

Exhaust

Vacuum G1/4 BSPP

LEVEL COMPENSATORS LCP: 50 mm STROKE

LCP-07-14X50, LCP-09-14X50, LCP-10-14X50, & LCP-10L-14X50 Weight: 1.74 oz. (49.2 g)

0.6 [15.2]

2.73 [69.3]

5.57 [141]

2.05 [50]

Air Supply G1/8 NPSF

Vacuum G1/4 BSPP M16 x 1.0

Exhaust 5

JN-M16X1.0 2 Included

0.2 [5.1]

LCP: 20 mm STROKE, NON-ROTATING LCP-07-14X20NR, LCP-09-14X20NR, LCP-10-14X20NR, & LCP-10L-14X20NR Weight: 1.13 oz. (32 g)

LCP: 35 mm STROKE, NON-ROTATING LCP-07-14X35NR, LCP-09-14X35NR, LCP-10-14X35NR, & LCP-10L-14X35NR

Weight: 1.46 oz. (41.3 g)

LCP: 50 mm STROKE, NON-ROTATING LCP-07-14X50NR, LCP-09-14X50NR, LCP-10-14X50NR, & LCP-10L-14X50NR Weight: 1.73 oz. (49 g)

5:8

SYSTEM ACCESSORIES

6:1

SYSTEM ACCESSORIES

MECHANICAL PRESSURE SWITCH

INLINE VACUUM FILTER

MECHANICAL VACUUM SWITCH

VACUSTAT

CONTENTS

602-SERIES DIGITAL PRESSURE & VACUUM SENSORS

T-STYLE VACUUM FILTER

DVN-100-4

V-STYLE VACUUM SENSOR 61-SERIES & 62-SERIES DIGITAL VACUUM SENSORS

VACUUM SYSTEM ACCESSORIES Vacustat Mechanical Pressure Switches Mechanical Vacuum Switches V-Style Vacuum Sensors 61-Series & 62-Series Digital Vacuum Sensors DVN-100-4 200-Series Pressure & Vacuum Sensors 602-Series Pressure & Vacuum Sensors T-Style Vacuum Filters Inline Vacuum Filters

6:3 – 6:4 6:5 6:6 6:7 6:8 6:9 6:10 6:11 6:12 6:12

6:2

200-SERIES DIGITAL PRESSURE & VACUUM SENSORS

VACUSTAT

The Vacustat is the basis for energy-saver controls and is used with any suitable vacuum pump in conjunction with a vacuum check valve. Vacuum pumps that are equipped with an integral non-return valve or a vacuum pump and external vacuum check valve such as VC18 fit the requirements for a vacustat control. As always, energy-saver controls can only be used in leak-free systems and some provision must be made to dissipate the checked vacuum and release the work piece when desired. VU-18F is an adjustable vacuum-controlled 2/2 valve that supplies compressed air to the vacuum pump whenever system vacuum level is shallower than the Vacustat set point. When the set point is achieved, the Vacustat shuts off the pump air supply until system vacuum level again requires replenishment.

Weight: lb. (g) 0.23 (102)

HOW TO ORDER VU-18F

CODE 1 2 3

PORT CONNECTIONS

FUNCTION Air Supply - Main Vacuum Sense Port Air Supply to Pump

Thread G1/8 NPSF G1/8 NPSF G1/8 NPSF

0.23 [5.8]

1.9 [48.3] 1.68 [42.7]

1.72 [43.7]

1.32 [33.5]

0.95 [24.1]

0.48 [12.2]

0.0 2

ÂŠ2012 EDCO USA. www.edcousa.net

0.18 [4.6] Thru Hole 2 Places

0.0

0.31 [7.9]

1.26 [32]

1.2 [30.5] 1.4 [35.6]

0.7 [17.8]

0.0 0.2 [5.1]

1.55 [39.4]

1.06 [26.9]

0.71 [18]

0.36 [9.1]

0.0

0.95 [24.1]

1 1.22 [31] 0.84 [21.3]

0.0 Set Point Adjustment

6:3

0.13 [3.3] Thru Hole 2 Places

0.12 [3] 0.0

VACUSTAT

Fittings and vacuum pump not included

VACUSTAT MOUNTED ON AN AX-STYLE PUMP WITH NON-RETURN VALVE

VACUSTAT MOUNTED ON A J-SERIES PUMP WITH NON-RETURN VALVE

Fittings and vacuum pump not included

6:4

MECHANICAL PRESSURE SENSORS ELECTRICAL OUTPUT

Electrical pressure sensors come with UL and CSA snap action silver contact SPDT (Single Pole Double Throw) switch with 0.187in (4.75mm) spade terminals. Triple terminal electrical connector and insulator kit for attaching wires is included.

Set Point Adjustment

1.00 [25.1] 1.50 [38.1]

1.38 [35.1]

0.36 [9.1]

1/8 NPT

1.00 [25.4]

0.5 [12.7]

OUTPUT PART NUMBER SPECIFICATIONS ELECTRICAL PS18-E Pressure Adjustment Range: 10 to 140 psi (0.69 to 9.65 bar) N.C. PNEUMATIC PS18-NCL Temperature Range: -20 to +140 °F (-29 to 60 °C) N.O. PNEUMATIC PS18-NOP Electrical: 5 Amp @ 125 VAC, 250 VAC Maximum WEIGHT 2.3 oz (66g) Air Valve: 20 to 115 psi (1.4 to 7.9 bar); Cv = 0.06; 2.5 scfm (71 Nl/m) Construction: Housing: Zinc/Aluminum, Diaphram: Polymide, Spring: Stainless Steel. For Pneumatic Sensors: Port #1 - Air Supply ; Port #2 - Output Signal

PNEUMATIC OUTPUT

Pneumatic pressure sensors are available in normally-closed (NCL) and normallyopen (NOP) versions. Normally-closed (NCL) sensors open to pass air when the desired set point is achieved. Normallyopen sensors close to block air when the desired set point is achieved. Both versions have integral 5/32 (4mm) tube connectors.

Set Point Adjustment

1.00 [25.4] 1.50 [38.1] 1.14 [29] 1.38 [35.1]

0.36 [9.1]

1.35 [34.3]

6:5

0.82 [20.8]

0.5 [12.7]

MECHANICAL VACUUM SENSORS

1.38 [35.1]

ELECTRICAL OUTPUT

Electrical vacuum sensors come with UL and CSA snap action silver contact SPDT (Single Pole Double Throw) switch with 0.187in (4.75mm) spade terminals. Triple terminal electrical connector and insulator kit for attaching wires is included.

0.95 [24.1]

0.48 [12.2]

0.64 [16.3]

0.39 [9.9]

1/8 NPT

Set Point Adjustment OUTPUT

0.3 [7.6]

PART NUMBER

0.3 [7.6]

0.72 [18.3]

0.5 [12.7]

1.76 [44.7]

SPECIFICATIONS

ELECTRICAL VSA18-E Vacuum Adjustment Range: -8 to -28 inHg (-27.1 to 94.8 kPa) N.C. PNEUMATIC VSA18-NCL Temperature Range: -20 to +140 °F (-29 to 60 °C) N.O. PNEUMATIC VSA18-NOP Electrical: 5 Amp @ 125 VAC, 250 VAC Maximum WEIGHT 2.1 oz (59g) Air Valve: 20 to 100 psi (1.4 to 6.9 bar); Cv = 0.06; 2.5 scfm (71 Nl/m) Construction: Housing: Aluminum, Diaphram: Nitrile, Spring: Stainless Steel. For Pneumatic Sensors: Port #1 - Air Supply ; Port #2 - Output Signal

PNEUMATIC OUTPUT

1.73 [43.9]

Pneumatic vacuum sensors are available in normally-closed (NCL) and normallyopen (NOP) versions. Normally-closed (NCL) sensors open to pass air when the desired set point is achieved. Normallyopen sensors close to block air when the desired set point is achieved. Both versions have integral 5/32 (4mm) tube connectors.

0.95 [24.1]

0.64 [16.3]

0.48 [12.2]

0.39 [9.9] 1.72 [43.7]

0.5 [12.7]

1.39 [35.3] 1/8 NPT

Set Point Adjustment

0.3 [7.6]

1.88 [47.8]

6:6

0.47 [11.9]

0.72 [18.3]

0.3 [7.6]

ELECTRONIC SENSORS OPTIONAL -18M MOUNT

OUTPUT LED

0.72 [18.3] 0.3 [7.6] 0.0 G1/8 NPSF 0.4 [10.2] 0.68 [17.3]

1.01 [25.7]

0.26 [6.6] 0.0 M5 x 0.8 6

150mm CABLE WITH 8mm MALE 3-PIN OR 4-PIN CONNECTOR

HOW TO ORDER OUTPUT V

A* = Analog N = NPN P = PNP

HYSTERESIS

CONNECTOR -

3 = 3-pin 4 = 4-pin

MOUNTING THREADS -

OUTPUT

18M

OFF

(Blank) = M5 x 0.8 (10-32 UNF) Male 18M = G1/8 NPSF Male

*Analog output only available with 3-pin connector.

RATED PRESSURE -100kPa = 29.9" Hg = 100% VACUUM

ORDER CABLE SEPARATELY

3-PIN CABLES PART NUMBER 3QD2 3QD5

SET POINT

ATMOSPHERIC PRESSURE: 0 kPa = 0" Hg = 0% VACUUM

4-PIN CABLES DESCRIPTION

3-pin, Quick Disconnect, 2 meter cable 3-pin, Quick Disconnect, 5 meter cable

Specifications Media Maximum Pressure Rated Pressure Range Operating Temperature Storage Temperature Humidity Electrical Connection Operating Voltage Current Consumption Display Circuit Setting Accuracy Hysteresis Switching Capacity Response Time Vibration Shock Insulation Resistance Dielectric Strength Analog Output Voltage NPN Output Voltage PNP Output Voltage

PART NUMBER 4QD2 4QD5

DESCRIPTION 4-pin, Quick Disconnect, 2 meter cable 4-pin, Quick Disconnect, 5 meter cable

Non lubricated air, Non-corrosive gas. 29 psi (200 kPa) 0 ~ -29.5 inHg (0 ~ -100 kPa) 14 ~ 122 ℉ (-10 ~ 60 ℃) -4 ~ 158 ℉ (-20 ~ 70 ℃) 35 ~ 85% RH -3: 3 pin pico 8 mm connector OR -4: 4 pin pico 8 mm connector 10.8 ~ 30 VDC (including ripple) 20 mA maximum Red LED Analog, NPN, PNP ±3% F.S. max. Fixed, 2% F.S. max. 30 VDC, 80 mA max. Approx. 1 ms 10 ~ 55 Hz 1.5 mm maximum, XYZ for 2 hrs 1000 m/s2, XYZ 100 MΩ minimum 500 VAC for 1 min. 0 inHg (0 kPa) = 1 ± 0.04 VDC, -29.5 inHg (-100 kPa) = 5 ± 0.04 VDC 0.8 VDC max. 1.8 VDC max.

6:7

ELECTRICAL CONNECTION M8 Male Connector 3 - Pin 2 3

1. Brown Wire: +24 VDC 2. Black Wire: Output 3. Blue Wire: Common 4 - Pin 2

1. Brown Wire: +24 VDC 2. White Wire: Not Used 3. Blue Wire: Common 4. Black Wire: Output

DIGITAL SENSORS -18M Option G1/8 NPSF

Output Red LED

61 0.33 [8.4]

0.3 [7.6] 0.2 [5.1] 0.1 [2.5] 0.0

Output 1 Red LED

Output 2 Green LED

62 0.13 [3.3] Thru Hole 2 Places

0.39 [9.9] 0.98 [24.9] 0.73 [18.5]

0.87 [22.1] 0.49 [12.4] 0.12 [3.0] 0.0 M3 x 0.5 2 Places

150mm CABLE WITH 8mm MALE 4-PIN CONNECTOR

2.07 [52.6]

0.0

0.18 [4.6]

-5F Option M5 x 0.8 (10-32 UNF)

0.26 [6.6] 0.0

ORDER CABLE SEPARATELY

HOW TO ORDER OUTPUT DV

N = NPN P = PNP

NUMBER OF OUTPUTS 62

61 = 1 Output + Analog 62 = 2 Outputs

Specifications Media Maximum Pressure Rated Pressure Range Operating Temperature Storage Temperature Humidity Electrical Connection Operating Voltage Current Consumption Display Rated Display Units Output Display Display Cycle Resolution Accuracy Hysteresis Switching Capacity Response Time Vibration Shock Insulation Resistance Dielectric Strength Analog Output Voltage Analog Output Current Analog Hysteresis / Linearity NPN Output Voltage PNP Output Voltage Thermal Error

MOUNTING THREADS -

18M

5F = M5 x 0.8 (10-32 UNF) Female 18M = G1/8 NPSF Male

PART NUMBER 4QD2 4QD5

Non lubricated air, Non-corrosive gas. 29 psi (200 kPa) 0 ~ -29.5 inHg (0 ~ -100 kPa) 14 ~ 140 ℉ (-10 ~ 60 ℃) -4 ~ 158 ℉ (-20 ~ 70 ℃) 35 ~ 85% RH 4 pin pico 8 mm connector 10.8 ~ 26.4 VDC (including ripple) 35 mA maximum 2-digit, 7 segment Red LED 0 ~ 99 Percent Vacuum (kPa) SET (1) - Red LED: SET 2 - Green LED 4 Hz ±1 count ±3% F.S. max. 61 - Adjustable approx. 0 ~ 15% F.S. : 62 - Fixed 2% F.S. max. 30 VDC, 80 mA max. Approx. 2 ms 10 ~ 500 Hz 1.5 mm maximum, XYZ for 2 hrs 196 m/s2, XYZ 100 MΩ minimum 500 VAC for 1 min. 0 inHg (0 kPa) = 1 ± 0.1 VDC, -29.5 inHg (-100 kPa) = 5 ± 0.2 VDC 1 mA max. ± 0.5% F.S. 0.8 VDC max. 1.2 VDC max. ±0.1% F.S./℃ max. in range of 0 ~ 50℃ (32 ~ 122℉)

6:8

DESCRIPTION 4-pin, Quick Disconnect, 2 meter cable 4-pin, Quick Disconnect, 5 meter cable

ELECTRICAL CONNECTION M8 Male 4-pin Connector

61 2

1. Brown Wire: Power Supply 2. White Wire: Analog Output 3. Blue Wire: Common 4. Black Wire: Output

62 2

DIGITAL SENSORS HOW TO ORDER DVN–100–4

Output 1 Red LED

Output 2 Green LED Up

G1/8 NPSF Male

Menu Selection Mode

Down

M5 x 0.8 (10-32 UNF) Female

1.11 [28.2]

0.39 [9.9]

0.0

2.76 [70.1]

2.29 [58.2]

0.0

0.31 [7.9]

0.0

0.31 [7.9]

0.0 0.63 [16]

0.0

0.31 [7.9]

0.49 [12.4]

HYSTERESIS ON

ORDER CABLE SEPARATELY

OUTPUT OFF

PART NUMBER 4QD2 4QD5

DESCRIPTION 4-pin, Quick Disconnect, 2 meter cable 4-pin, Quick Disconnect, 5 meter cable

Specifications Media Maximum Pressure Electrical Connection Operating Voltage Current Consumption Display Rated Display Units Output Display Transistor Output Electromagnetic Comp. Body Material Hysteresis Protection Programming Shock

RATED PRESSURE -100kPa = 29.9" Hg = 100% VACUUM

Non lubricated air, Non-corrosive gas. 58 psi (400 kPa) 4 pin pico 8 mm connector 18 ~ 30 VDC polarity protection ± 10% <100 mA 2-digit, 7 segment Red LED 0 ~ 99 Percent Vacuum (kPa) Output 1 - Red LED: Output 2 - Green LED 125 mA 24 VDC, Programable N.O. or N.C. Industrial Standard, Class B Polyacetal Adjustable IP 65 Push Buttons 10 G, XYZ

6:9

SET POINT

ATMOSPHERIC PRESSURE: 0 kPa = 0" Hg = 0% VACUUM

ELECTRICAL CONNECTION M8 Male 4-pin Connector 2

1. Brown Wire: Power Supply 2. White Wire: Output 2 3. Blue Wire: Common 4. Black Wire: Output 1

DIGITAL SENSORS HOW TO ORDER

OUTPUT

V = Vacuum P = Pressure

1.22 [31]

SEPARATE OUTPUT MODE (HI OPERATION) HYSTERESIS

–

N = NPN P = PNP

200

OFF P1 : SW1

P2 : SW2

(LO OPERATION)

0.61 [15.5]

1.46 [37.1]

HYSTERESIS

HYSTERESIS OFF

P1 : SW1

0.63 [16]

P2 : SW2

WINDOW COMPARATOR MODE (A OPERATION)

HYSTERESIS

1.22 [31]

HYSTERESIS ON

OFF

G1/8 NPSF

150mm CABLE WITH 8mm MALE 4-PIN CONNECTOR

0.33 [8.4]

0.61 [15.5] ORDER CABLE SEPARATELY

4QD2 4QD5

DESCRIPTION 4-pin, Quick Disconnect, 2 meter cable 4-pin, Quick Disconnect, 5 meter cable

SPECIFICATIONS Media Maximum Pressure Rated Pressure Range Operating Temperature Storage Temperature Humidity Electrical Connection Operating Voltage Current Consumption Display Output Display Display Cycle Repeatability Hysteresis Switching Capacity Response Time Vibration Shock Insulation Resistance Dielectric Strength Thermal Error kPa MPa kgf/cm2 Set Pressure bar psi Resolution inHg mmHg mmH2O

P2 : SW2

(B OPERATION) HYSTERESIS

HYSTERESIS

OFF

G1/8 NPSF

PART NUMBER

P1 : SW1

STYLE

OFF P2 : SW2

ELECTRICAL CONNECTION M8 Male 4-pin Connector 2

1. Brown Wire: Power Supply 2. White Wire: Output 2 3. Blue Wire: Common 4. Black Wire: Output 1

Optional Mounting Brackets Kit BT200-A

DV☐-200 DP☐-200 Non lubricated air, Non-corrosive gas, Incombustible gases. 29.5 psi (200 kPa) 200 psi (1379 kPa) 0 ~ -29.5 inHg (0 ~ -100 kPa) 0 ~ 145 psi (1000 kPa) 32 ~ 122 °F (0 ~ 50 °C) -4 ~ 140 °F (-20 ~ 60 °C) 35 ~ 85% RH 4 pin pico 8 mm connector 12 ~ 24 VDC ± 10%, Ripple (P-P) 10% or less ≤ 55mA 3-digit, 7 segment Red LED OUT 1 - Green LED: OUT 2 - Red LED 5 Hz ≤ ±0.2% F.S. ±1 digit (ambient temp. 25 ± 3°C) Hysteresis Mode: Adjustable, Window Comparator Mode: Fixed (3 digits) 30 VDC, 80 mA max. ≤ 2.5 ms (chattering-proof function: 24 ms, 192 ms & 768 ms selections) Total amplitude 1.5 mm, 10Hz - 55Hz - 10Hz scan for 1 min, 2 hrs each XYZ 980 m/s2 (100G), 3 times each XYZ 50 MΩ minimum (at 500 VDC M, between case and lead wire) 1000 VAC in 1 min. (between case and lead wire) ≤ ± 2% F.S. of detected press. (25 °C) at temp. Range of 0 ~ 50°C (32 ~ 122°F) 0.1 ⎯ ⎯ 0.001 0.001 0.01 0.001 0.01 0.01 0.1 0.1 ⎯ 1 ⎯ 0.1 ⎯

6:10

DIGITAL SENSORS HOW TO ORDER STYLE D

OUTPUT

V = Vacuum P = Pressure

MOUNTING THREADS

–

N = NPN P = PNP

602

–

18M

5F = M5 x 0.8 (10-32 UNF) Female 18M = G1/8 NPSF Male

-18M Option G1/8 NPSF

SEPARATE OUTPUT MODE (HI OPERATION) HYSTERESIS

0.33 [8.4]

HYSTERESIS ON

OFF P1 : SW1

0.4 [10.2]

P2 : SW2

(LO OPERATION)

0.0

HYSTERESIS

HYSTERESIS OFF

0.12 [3.0] Thru Hole 2 Places

0.98 [24.9] 0.73 [18.5]

0.49 [12.4]

WINDOW COMPARATOR MODE (A OPERATION)

HYSTERESIS

P1 : SW1

0.26 [6.6] 0.0 2.24 [56.9]

2.07 [52.6]

DISPLAY MODE:

OFF P1 : SW1

6:11

OFF P2 : SW2

ck Bla hitewn W ro B lue B

DESCRIPTION

JST1.5X4W

Non lubricated air, Non-corrosive gas. 29 psi (200 kPa) -29.5 ~ 29.5 inHg (-100 ~ 100 kPa) 14 ~ 122 °F (-10 ~ 50 °C) -4 ~ 158 °F (-20 ~ 70 °C) 35 ~ 85% RH 4 pin pico 8 mm connector 10.8 ~ 26.4 VDC (including ripple) 30 mA maximum 3-digit, 7 segment Red LED P1 - Red LED: P2 - Red LED 4 Hz ±1 count ±0.3% F.S. max. Adjustable, 0 ~ 30 counts 30 VDC, 100 mA max. Adjustable, approx. 5, 25, or 250 ms 10 ~ 500 Hz 1.5 mm maximum, XYZ for 2 hrs 490 m/s2, XYZ for 2 times each in the power off condition. 100 MΩ minimum 500 VAC for 1 min. 1.2 VDC max. 2.2 VDC max. ±3% F.S. max. in range of 32 ~ 122 °F (0 ~ 50 °C)

HYSTERESIS

ORDER CABLE SEPARATELY

PART NUMBER

P2 : SW2

Press any button to activate the display for 10 seconds. Decimal point blinks in non-display mode.

Specifications Media Maximum Pressure Rated Pressure Range Operating Temperature Storage Temperature Humidity Electrical Connection Operating Voltage Current Consumption Display Output Display Display Cycle Resolution Repeatability Hysteresis Switching Capacity Response Time Vibration Shock Insulation Resistance Dielectric Strength NPN Output Voltage PNP Output Voltage Thermal Error

HYSTERESIS ON

(B OPERATION) HYSTERESIS

0.17 [4.3]

0.2 [5.1] 0.0

0.0

P2 : SW2

OFF

0.0

-5F Option M5 x 0.8 (10-32 UNF)

P1 : SW1

4-pin, Plug, 2 meter cable

PRESSURE

DISPLAY RANGE UNITS 2 -0.10 ~ 1.00 MPa 4 -1.0 ~ 10.0 bar 5 -14 ~ 145 psi MAXIMUM PRESSURE: 210 psi (1.5 MPa)

CODE

VACUUM

DISPLAY RANGE UNITS 1 -100 ~ 100 kPa 3 -75 ~ 75 cmHg 4 -1.00 ~ 1.00 bar 5 -14.5 ~ 14.5 psi 6 29.5 ~ 0 inHg MAXIMUM PRESSURE: 58 psi (200 kPa)

CODE

OTHER ACCESSORIES

VACUUM SWITCH PROTECTORS

0.50 [12.7]

VSP-18 - Bi-directional VSP protects vacuum switches or gauges from positive pressure spikes by relieving pressure in excess of 10 psi (0.7 bar) to atmosphere. Connects to 1/8” NPTF or 1/8” BSPP threads.

0.60 [15.2]

0.33 [8.4]

0.24 [6.1]

T-STYLE FILTERS

Made of rugged nylon 6/6 body with transparent bowl for checking filter condition at a glance. HDPE filter element can be easily and quickly replaced without disturbing system plumbing. T-Style Filters are rated for full vacuum or pressure up to 150 psi. A B

C FILTER NUMBER PPSF125MX10 PPSF250MX10 PPSF375MX10 PPSF125X10 PPSF250X10 PPSF375X10 PPSF500X35 PPSF750X35 PPSF100X50 PPSF150X75

PORTS 1/8 NPT M 1/4 NPT M 3/8 NPT M 1/8 NPT F 1/4 NPT F 3/8 NPT F 1/2 NPT F 3/4 NPT F 1 NPT F 1-1/2 NPT F

WITH MOLDED POLYETHYLENE ELEMENT A B C D in. (mm) in. (mm) in. (mm) in. (mm) 3.06 (77.7) 2.42 (61.5) 1.86 (47.2) 1.98 (50.3) 3.06 (77.7) 2.42 (61.5) 1.86 (47.2) 1.98 (50.3) 3.06 (77.7) 2.42 (61.5) 1.86 (47.2) 1.98 (50.3) 3.06 (77.7) 2.42 (61.5) 1.86 (47.2) 1.98 (50.3) 3.06 (77.7) 2.42 (61.5) 1.86 (47.2) 1.98 (50.3) 3.06 (77.7) 2.42 (61.5) 1.86 (47.2) 1.98 (50.3) 3.64 (92.5) 5.35 (136) 2.95 (74.9) 4.8 (122) 3.64 (92.5) 5.35 (136) 2.95 (74.9) 4.8 (122) 4.62 (117) 6.36 (162) 4 (102) 5.6 (142) 5.16 (131) 8.1 (206) 4 (102) 6.93 (176)

WEIGHT lb. (g) 0.13 (59) 0.11 (49.9) 0.16 (72.6) 0.13 (59) 0.11 (49.9) 0.16 (72.6) 0.37 (168) 0.4 (181) 0.94 (426) 1.18 (535)

ELEMENT (3 PACK) PPX10RE3 PPX10RE3 PPX10RE3 PPX10RE3 PPX10RE3 PPX10RE3 PPX35RE3 PPX35RE3 PPX50RE3 PPX75RE3

Some sizes are available in polypropylene. Call for availability. Add suffix - PP for polypropylene body and bowl. Bowl will be opaque, NOT transparent. For example: PPSF750X35-PP would be a 3/4 NPTF filter made of Black polypropylene.

INLINE FILTER F10-18F

The rugged F10-18F inline filter is designed to carry the full load of 50mm and smaller suction cups. The inline filter is ideal for use with Flow Sensor or TriFlow Valves in extremely dusty environments such as woodworking shops. The F10-18F provides more than 10 times the surface area of the standard FSV filter disk, providing a longer life. A Quick Release (blow-off) may be used to momentarily back flow the filters to help keep them clean. Replacement Filter Disk - FD-116

G1/8 NPSF

1.74 [44.2]

1.0 [25.4]

G1/8 NPSF Anodized aluminum body, polyethylene element, and stainless steel fasteners.

6:12

AX MULTI-STAGE PUMPS

7:1

AX MULTI-STAGE PUMPS

CONTENTS

GENERAL INFORMATION 7:3 7:26 7:27 - 7:30

Features Replacement Parts Performance

BASES Z - Zero Base (No Base) 7:4 18 - G1/8 NPSF Base 7:5 18B19 - G1/8 NPSF Base with Automatic Blow-Off 7:6 12 - G1/2 NPSF Base 7:7 12B19 - G1/2 NPSF Base with Automatic Blow-Off 7:8 12S24D - G1/2 NPSF Base with N.C. Solenoid Controlled Air Supply 7:9 12S24DB19 - G1/2 NPSF Base with N.C. Solenoid Controlled Air Supply & Auto. Blow-Off 7:10 312 - Large Capacity Base 7:11 - 7:12 F18 - G1/8 NPSF Base with Vacuum Filter 7:13 F18B19 - G1/8 NPSF Base with Vacuum Filter & Automatic Blow-Off 7:14 F18PS - G1/8 NPSF Base with Vacuum Filter & Piloted Air Supply 7:15 F18PSB - G1/8 NPSF Base with Vacuum Filter, Piloted Air Supply, & Piloted Blow-Off 7:16 F18PSB19 - G1/8 NPSF Base with Vacuum Filter, Piloted Air Supply, & Auto. Blow-Off 7:17 F18S24D - G1/8 NPSF Base with Vacuum Filter & N.C. Solenoid Controlled Air Supply 7:18 F18S24DB19 - G1/8 NPSF Base with Vacuum Filter, N.C. Solenoid Controlled Air Supply & Auto. Blow-Off 7:19 F18SB24D - G1/8 NPSF Base with Vacuum Filter, N.C. Solenoid Controlled Air Supply & Blow-Off 7:20 F18OS24D - G1/8 NPSF Base with Vacuum Filter & N.O. Solenoid Controlled Air Supply 7:21 F18OSB24D - G1/8 NPSF Base w/ Vacuum Filter, N.O. Sol. Con. Air Supply, & N.C. Sol. Con. Blow-Off 7:22 Manifold Bases 7:23 - 7:26

7:2

ÂŠ2012 EDCO USA. www.edcousa.net

AX MULTI-STAGE PUMPS

EDCO AX multi-stage vacuum pumps provide a wide array of styles and configurations to meet system requirements. • • • • • • • •

• • • • • • • • • • • •

Modular design allows stacking for up to four pump capacities. Wide-range ejector nozzles can operate from 45 to 87 psi (3-6 bar). Proven Coaxial Technology for greater efficiency than conventional ejectors. M-Series Ejectors may be operated at low air feed pressure for protection from fluctuating factory air supply pressures. L-Series Ejectors produce high-vacuum flow - suitable for handling porous objects or for overcoming other system leakage. Operate at lower air pressure so fluctuations in plant air pressure will not affect vacuum pump performance. Multi-stage pump modules for fast evacuation and greater efficiency. Integrated solenoid valves eliminate extra plumbing. Low power 24VDC, 1.3W coils are employed to reduce loads on PLC controllers. Choose from solenoid, air pilot, or simple air supply controls. Integrated solenoid controlled blow-off with adjustable flow control. Automatic blow-off module for single-input control. Choose from four different vacuum switches for system monitoring. Replaceable vacuum filters. Manifold versions with 1-10 stations and choice of common or separate air supply to all stations, plus control and sensing options. Manifolds include piped exhaust. Exhaust silencer(s) are optional. High-quality finish includes anodizing or electroless nickel plating, stainless steel fasteners and tie-rods, plus glass-reinforced PPS pump modules and valve plate. Choose from many standard EDCO pump bases or select the “Z” Zero base option for integration into your custom design. Call if you don’t see what you want – we may already have it designed! AX pumps come fully factory-assembled and ready for installation. EDCO provides unmatched product availability. If a product is in our catalog, it is also on our shelf.

HIGH FLOW

HIGH VACUUM

INDUCED VACUUM FLOW

7:3

BLOW-OFF

EXHAUST FLOW

AX PUMP ZERO BASE (No Base)

18 and Zero Base

•

Complete pump module for integration into custom design. • M3 Mounting screws and pump seals are included. • Can be configured with one or two pump modules for more vacuum flow capacity.

1 3

HOW TO ORDER

0.098 [2.5], Tap M3x0.5, 2 Places 2

0.2 [5.1] 0.06 [1.5] CL 0.0

CODE 1 2 3

2.3 [58.4]

1.53 [38.9]

1.18 [30]

0.2 [5.1] 0.0 0.06 [1.5]

OPTIONAL NON-RETURN

NUMBER OF SEAL NON SERIES RETURN EJECTORS MATERIAL L 1 N - Z L 1 N = Nitrile (Blank) = No M 2 R = Yes

PORT CONNECTIONS HOLE DIAMETER FUNCTION in. (mm) Air Supply- Main 0.188 (4.8) Vacuum- Main 1 0.34 (8.6) Exhaust 0.34 (8.6)

WEIGHT: 1.7oz (46g)

19 cc

7:4

18B19 3

18 and Zero Base AX PUMP G1/8 NPSF BASE • •

Basic pump with two exhaust ports at 90 degrees – use the one most suitable for your installation. Can be configured with one or two pump modules for more vacuum flow capacity.

1 3

OPTIONAL NON-RETURN

HOW TO ORDER SERIES AX

L L M

CODE 1 2 3

NUMBER OF SEAL NON RETURN EJECTORS MATERIAL 1 N 1 N = Nitrile (Blank) = No 2 R = Yes

OPTIONS 18 -

PORT CONNECTIONS FUNCTION PORT Air Supply- Main G1/8 NPSF Vacuum- Main G1/8 NPSF Exhaust G1/8 NPSF

NUMBER OF NOZZLE SETS 1 2

A in. (mm) 1.61 (40.9) 2.01 (51.1)

2 SILENCER

602P VA3 = VA-3 Sensor, Analog 3-pin VN3 = VN-3 Sensor, NPN 3-pin VN4 = VN-4 Sensor, NPN 4-pin VP3 = VP-3 Sensor, PNP 3-pin VP4 = VP-4 Sensor, PNP 4-pin 61N = DVN-61-18M Sensor, NPN 61P = DVP-61-18M Sensor, PNP 62N = DVN-62-18M Sensor, NPN 62P = DVP-62-18M Sensor, PNP 602N = DVN-602-18M Sensor, NPN 602P = DVP-602-18M Sensor, PNP

(Blank) = None ST = STA18M

0.76 [19.3] 0.0

Optional Digital Vacuum Switch

Optional Vacuum Switch

18B19

0.26 [6.6] Thru Hole 2 Places

0.0

3.18 [80.8] 3.30 [83.8]

2.36 [59.9]

0.0

0.78 [19.8]

0.38 [9.7]

0.0

0.38 [9.7] 19 cc

0.38 [9.7]

2 0.0

7:5

2.76 [70.1]

0.0

1.48 [37.6]

0.38 [.97]

WEIGHT: 2.8 oz (81g)

AX PUMP G1/8 NPSF BASE WITH AUTOMATIC BLOW-OFF •

18B19

Automatic 19cc blow-off when air supply is exhausted. Pump with two exhaust ports at 90 degrees – use the one most suitable for your installation. Optional M5 vacuum switch port for VN-3 NPN or VP-3 PNP switches.

• •

1 3

19 cc

HOW TO ORDER SERIES

SILENCER 18B19

(Blank) = None ST = STA18M

PORT CONNECTIONS FUNCTION PORT Air Supply- Main G1/8 NPSF Vacuum- Main G1/8 NPSF Exhaust G1/8 NPSF

0.76 [19.3] 0.0 2.80 [71.1]

0.0 0.0

0.0 3.18 [80.8] 3.30 [83.8]

0.0

2.36 [59.9]

0.38 [9.7]

0.78 [19.8]

0.38 [9.7]

0.0

0.38 [9.7]

0.26 [6.6] Thru Hole 2 Places

0.0

2 0.38 [9.7]

7:6

2.76 [70.1]

1.48 [37.6]

0.0 0.0

CODE 1 2 3

L L M

0.38 [9.7]

NUMBER OF SEAL EJECTORS MATERIAL 1 N 1 N = Nitrile

AX PUMP • • • •

12B19 G1/2 NPSF

BASE

Basic pump with two exhaust ports at 90 degrees use the 1 one most suitable for your installation. Can be configured with two to four pump modules 3 for more vacuum flow capacity. Two side auxiliary vacuum ports. Three vacuum switch options with either NPN or PNP output. 2

1 3

19 cc

A in. (mm.) 1.85 (47) 2.25 (57.2) 2.25 (57.2)

602P VA3 = VA-3 Sensor, Analog 3-Pin VN3 = VN-3 Sensor, NPN 3-Pin VN4 = VN-4 Sensor, NPN 4-Pin VP3 = VP-3 Sensor, PNP 3-Pin VP4 = VP-4 Sensor, PNP 4-Pin 61N = DVN-61-18M Sensor, NPN 61P = DVP-61-18M Sensor, PNP 62N = DVN-62-18M Sensor, NPN 62P = DVP-62-18M Sensor, PNP 602N = DVN-602-18M Sensor, NPN 602P = DVP-602-18M Sensor, PNP

AIR SUPPLY SOLENOID

B1 in. (mm.) 1.85 (47) 1.85 (47) 2.25 (57.2)

2 2A

2A Optional Vacuum Switch 0.18 [4.6] Thru Hole 2 Places

0.66 [16.8] 0.66 [16.8] 0.55 [14] [14] 0.55

0.48 [12.2] 0.0 0.0 0.0 0.5 [12.7] 0.5 [12.7]

0.0

0.76 [19.3]

1.42 [36.1]

0.0 0.0

M4 x 0.7 4 Places

0.0 0.18 [4.6] 0.71 [18] 1.24 [31.5] 2.28 [57.9] 2.82 [71.6]

7:7

1.04 [26.4]

3 0.0 0.18 4.6]

(BLANK) = None ST = STB38M

19 cc

0.38 [9.7] 0.0

B 1

SILENCER

12S24DB19

Optional Digital Vacuum Switch A

- 12 -

(BLANK) = No R = Yes

PORT CONNECTIONS FUCTION PORT Air Supply G1/8 NPSF Vacuum - Main G1/2 NPSF Vacuum - Alternate G1/8 NPSF Exhaust 3/8 NPSF

NUMBER OF NOZZLE SETS 2 3 4

OPTIONS

0.71 [18]

CODE 1 2 2A 3

N N = Nitrile

NON RETURN

0.0

L L M

SEAL MATERIAL

3.0 [76.2] [76.2] 3.0

NUMBER OF EJECTORS 3 2 3 4

1.25 [31.8] [31.8] 1.25 1.8 [45.7] [45.7] 1.8

SERIES

OPTIONAL NON-RETURN

2A 2A

HOW TO ORDER

WEIGHT: 7.1 oz (201g)

12B19

AX PUMP G1/2 NPSF BASE WITH AUTOMATIC BLOW-OFF

Automatic 19cc blow-off when air supply is exhausted. Basic pump with two exhaust ports at 90 degrees – use the one most suitable for your installation. Can be configured with two or three pump modules for more vacuum flow capacity. Optional “ST” silencer. STB38M Two side auxiliary vacuum ports.

• •

19 cc

•

2 2A 2A

HOW TO ORDER NON RETURN

OPTIONS - 12B19 -

(BLANK) = No R = Yes

PORT CONNECTIONS FUCTION PORT Air Supply G1/8 NPSF Vacuum - Main G1/2 NPSF Vacuum - Alternate G1/8 NPSF Exhaust 3/8 NPSF

NUMBER OF NOZZLE SETS 2 3

SILENCER

(BLANK) = None ST = STB38M

12S24

N N = Nitrile

AIR SUPPL SOLENOID 1

A in. (mm.) 1.85 (47) 2.25 (57.2)

19 cc

Optional Vacuum Switch

Optional Digital Vacuum Switch

0.18 [4.6] Thru Hole 2 Places

0.66 [16.8] 0.66 [16.8] 0.55 0.55 [14] [14] 0.0 0.0 3.0 [76.2]

1.8 [45.7]

1.25 [31.8]

0.48 [12.2] 0.0 0.0 0.5 [12.7]

M4 x 0.7 4 Places

0.0 0.18 [4.6] 0.71 [18] 1.24 [31.5]

7:8

2.28 [57.9] 2.82 [71.6]

3 1.04 [26.4]

0.38 [9.7] 0.0

0.0

2.99 [75.9]

0.0 0.18 [4.6]

CODE 1 2 2A 3

SEAL MATERIAL

0.0

L L M

0.76 [19.3]

NUMBER OF EJECTORS 3 2 3 4

1.42 [36.1]

SERIES

0.71 [18]

• •

WEIGHT: 8.4 oz (239g)

12S24D

AX PUMP G1/2 NPSF BASE WITH SOLENOID SUPPLY VALVE •

AIR SUPPLY SOLENOID

Normally-closed solenoid valve controls vacuum-on, 24VDC, 1.3W coil. Order solenoid cable separately. SV10-QD-1M Basic pump with two exhaust ports at 90 degrees – use the one most suitable for your installation. Can be configured with two to four pump modules for more vacuum flow capacity. Two side auxiliary vacuum ports.

• • • •

1 3

OPTIONAL NON-RETURN

2 2A

HOW TO ORDER SERIES AX

L L M

NUMBER OF EJECTORS 3 2 3 4

CODE 1 2 2A 3

SEAL MATERIAL N N = Nitrile

NON RETURN (BLANK) = No R = Yes

12B19

PORT CONNECTIONS FUCTION PORT Air Supply G1/8 NPSF Vacuum - Main G1/2 NPSF1 Vacuum - Alternate G1/8 NPSF Exhaust 3/8 NPSF A in. (mm.) 1.85 (47) 2.25 (57.2) 2.25 (57.2)

SILENCER

(BLANK) = None ST = STB38M

12 1

B in. (mm.) 1.85 (47) 1.85 (47) 2.25 (57.2)

19 cc

NUMBER OF NOZZLE SETS 2 3 4

OPTIONS - 12S24D -

22A 2A 2A 2A

Optional Vacuum Switch Optional Digital Vacuum Switch

0.18 [4.6] Thru Hole 2 Places

1.86 [47.2]

0.0

19 cc

2.94 [74.7] 3.48 [88.4]

7:9

1.7 [43.2]

0.84 [21.3]

2A 0.0

M4 x 0.7 4 Places

0.0 0.18 [4.6] 0.71 [18] 1.24 [31.5]

0.71 [18]

3.66 [93] [93] 3.66

[48.5] [48.5] [62.5] [62.5] 1.91 1.91 2.46 2.46

1.16 [29.5] [29.5] 1.16

0.48SUPPLY [12.2] AIR SOLENOID0.0 0.0 0.0 0.37 [9.4] [9.4] 0.37

0.0

1.42 [36.1]

0.0

12S24DB19

0.66 [16.8] 0.66 [16.8] 0.55 0.55 [14] [14] 0.38 [9.7] [9.7] 0.38 0.0 0.0

3 WEIGHT: 9.6 oz (273g)

AX PUMP G1/2 NPSF BASE WITH SUPPLY VALVE & AUTOMATIC BLOW-OFF • •

12S24DB19 AIR SUPPLY SOLENOID

Automatic 19cc blow-off when solenoid valve is turned off. Normally-closed solenoid valve controls vacuum-on. 24VDC, 1.3W coil. Order solenoid cable separately. SV10-QD-1M Basic pump with two exhaust ports at 90 degrees – use the one most suitable for your installation. Can be configured with two or three pump modules for more vacuum flow capacity. Two side auxiliary vacuum ports.

• •

•

19 cc

•

HOW TO ORDER (BLANK) = No R = Yes

OPTIONS - 12S24DB19 -

2 3

A in. (mm.) 1.85 (47) 2.25 (57.2)

1.86 [47.2]

Optional Vacuum Switch

0.18 [4.6] Thru Hole 2 Places

A 0.66 [16.8] 0.55 [14] 0.38 [ [9.7] 0.38 9.7] 0.0 3.66 [93] [93] 3.66

2.46 [62.5] [62.5] 2.46

1.91 [48.5] [48.5] 1.91

1.16 [29.5] [29.5] 1.16

0.48 [12.2] 0.0

M4 x 0.7 4 Places

7:10

3 2.94 [74.7] 3.48 [88.4]

1.7 [43.2]

0.0 0.18 [4.6] 0.71 [18] 1.24 [31.5] 0.84 [21.3]

0.0

(BLANK) = None ST = STB38M

Optional Digital Vacuum Switch

2.99 [75.9]

0.71 [18]

NUMBER OF NOZZLE SETS

SILENCER

PORT CONNECTIONS FUCTION PORT Air Supply G1/8 NPSF Vacuum - Main G1/2 NPSF Vacuum - Alternate G1/8 NPSF Exhaust 3/8 NPSF

NON RETURN

0.0

N N = Nitrile

0.0 0.0 0.37 [9.4] [9.4] 0.37

CODE 1 2 2A 3

SEAL MATERIAL

1.42 [36.1]

L L M

0.0

SERIES AX

NUMBER OF EJECTORS 3 2 3 4

AX PUMP BASE - LARGE CAPACITY

3 3

OPTIONAL NON-RETURN

HOW TO ORDER L L M

SEAL MATERIAL N N = Nitrile

NON RETURN (Blank) = No R = Yes

PORTS -

OPTIONS

312 312 = 1/2" NPT G312 = 1/2" BSPP

7 PORT CONNECTIONS FUNCTION STANDARD (NPT) Air Supply G1/8 NPSF Vacuum - Main 1/2 NPTF Vacuum - Alternate G1/8 NPSF Exhaust 1/2 NPTF

NUMBER OF NOZZLE SETS 2 3 4 5 6

A in. (mm.) 1.85 (47) 1.85 (47) 2.25 (57.2) 2.25 (57.2) 2.25 (57.2)

Optional Digital Vacuum Switch

1.03 [26.2] 0.30 [7.6] 0.0

1.68 [42.7] 1.17 [29.7] 0.90 [22.9]

1.35 [34.3]

0.0

2 0.0 0.40 [10.2]

2.20 [55.9] 1.95 [49.5] 1.10 [27.9] 0.26 [6.6] 0.0

(BLANK) = No ST = STC12M

Optional Vacuum Switch

A 2

-G (BSPP) G1/8 BSPP G1/2 BSPP G1/8 BSPP G1/2 BSPP

1.46 [37.1]

CODE 1 2 2A 3

SILENCER

0.0 0.47 [11.9]

3.60 [91.4]

NUMBER OF EJECTORS 3 2 3 4 5 6

2.88 [73.2]

SERIES

0.30 [7.6] 0.0 M5X0.8 4 PLACES (2 PER SIDE)

1.95 [49.5]

• •

1.10 [27.9]

•

Modular design includes rugged aluminum base for ease of installation and servicing. Three 1/2” pump vacuum ports simplify vacuum system plumbing - use the most convenient ports and plug the rest. Low noise level and fast evacuation time. Optional vacuum gauge, exhaust, silencer, and foot-mount brackets.

0.0 0.26 [6.6]

•

4 PLACES M6X1.0 1/4-20 (NPT) 4 PLACES M6X1.0 (BSPP)

1.99 [50.5]

7:11

0.73 [18.5]

0.0

1.73 [43.9]

WEIGHT: 24.3 oz (690g)

AX-312 PUMP - MOUNTING BRACKETS

The stainless steel mounting brackets attach at the ends of the base. Straight (AX312-BKT-180) or right angle (AX312-BKT-90) versions are available. AX312-BKT-180 - 1 Straight Mounting Bracket AX312-BKT-90 - 1 Right Angle Mounting Bracket

0.84 [21.3]

0.58 [14.7]

0.84 [21.3]

1.02 [25.9] 1.27 [32.3] R.109

0.261 [6.6] 1.58 [40.1]

R.109

2.15 0.261 [54.6] [6.6]

2.75 [69.9] 1.58

0.58 [14.7]

1.44 [36.6] 1.05 [26.7]

1.49 1.02 [37.8]

[25.9] 1.27 [32.3]

1.44 [36.6] 1.05 [26.7]

1.49 [37.8]

[40.1]

EXAMPLES

2.15 [54.6]

With three vacuum ports, two alternative vacuum ports, three 2.75 exhaust ports, two air supply ports, and available options, the 312 [69.9] base is very versatile for adaptation into your system to meet your needs.

7:12

ÂŠ2012 EDCO USA. www.edcousa.net

F18 AX PUMP G1/8 NPSF BASE WITH INTEGRAL VACUUM FILTER Pump with filter and two vacuum ports at 90 degrees – use the one most suitable for your installation. • Can be configured with one or two pump modules for more vacuum flow capacity. • Filter element RE10X50 is included.

1 3

•

OPTIONAL NON-RETURN

2 2

HOW TO ORDER SERIES AX

L L M

NUMBER OF SEAL NON RETURN EJECTORS MATERIAL 1 N 1 N = Nitrile (Blank) = No 2 R = Yes

OPTIONS F18 -

7 CODE 1 2 3

PORT CONNECTIONS FUNCTION PORT Air Supply- Main G1/8 NPSF Vacuum- Main G1/8 NPSF Exhaust G1/8 NPSF NUMBER OF NOZZLE SETS 1 2

SILENCER

(Blank) = None ST = STA18M

F18PS

OPTIONAL NON-RETURN

A in. (mm) 3.34 (84.8) 3.74 (95)

2 2

0.63 [16] 0.0

0.213 [5.4] Thru Hole 3 Places

1.6 [40.6]

1.18 [30] [30] 1.18 0.88 [22.4]

0.51 [13] 0.0

Optional Digital Vacuum Switch

2.95 [74.9] [74.9] 2.95 2.32 [58.9] [58.9] 2.32

2.6 [66]

Optional Vacuum Switch 2

2.04 [51.8]

2.02 2.02 [51.3] [51.3]

0.59 [15]

0.0 0.0 0.25 [6.4] 0.25 [6.4]

0.0

BLOW INTENSITY

0.0

0.32 [8.1]

0.0 0.0 0.32 [8.1]

F18PSB

7:13

WEIGHT: 6.1 oz (175g)

OPTIONAL NON-RETURN

F18 BASE WITH AX PUMP G1/8 NPSF F18B19 INTEGRAL VACUUM FILTER & AUTOMATIC BLOW-OFF •

Pump with 1 filter and two vacuum ports at 90 degrees – use the one most suitable for your 3 installation. • Automatic 19cc blow-off when air supply is exhausted. • Filter element RE10X50 is included. 2

2 SILENCER

F18B19

F18PS

PORT CONNECTIONS FUNCTION PORT Air Supply- Main G1/8 NPSF Vacuum- Main G1/2 NPSF 4 Exhaust G1/8 NPSF Vacuum Filter -

(Blank) = None ST = STA18M

F18PSB19 7

4 1

0.63 [16] 0.0

F18PSB 2.95 [74.9]

2.32 [58.9]

1 1.6 [40.6]

1.18 [30] 3 0.88 [22.4]

4.48 [114]

2.02 [51.3]

2.04 [51.8]

0.25 [6.4]

OPTIONAL NON-RETURN

0.59 [15]

BLOW INTENSITY

0.0

0.0 0.32 [8.1] 0.0

0.51 [13] 5 0.0 2

0.213 [5.4] Thru Hole 3 Places

1 2.6 [66]

19 cc

OPTIONAL NON-RETURN

0.0

CODE 1 2 3 VF

L L M

NUMBER OF SEAL EJECTORS MATERIAL 1 N 1 N = Nitrile

0.32 [8.1]

HOW TO ORDER SERIES

19 cc

OPTIONAL NON-RETURN

7:14

F18PS AX PUMP G1/8 NPSF BASE WITH INTEGRAL VACUUM FILTER & AIR PILOTED SUPPLY VALVE

4 1 3

•

Includes internal air-piloted air supply control valve. • Pump with filter and two vacuum ports at 90 degrees – use the one most suitable for your installation. • Can be configured with one or two pump modules for more vacuum flow capacity. • Filter element RE10X50 is included.

OPTIONAL NON-RETURN

2 2

HOW TO ORDER

OPTIONS F18PS

7 PORT CONNECTIONS FUNCTION PORT Air Supply- Main G1/8 NPSF Vacuum- Main G1/2 NPSF Exhaust G1/8 NPSF Pilot for Vacuum Control M5 x 0.8 (10-32 UNF) Vacuum Filter -

1 2.6 [66] 2.09 [53.1] 1.6 [40.6]

0.213 [5.4] Thru Hole 3 Places

0.51 [13] 0.0 0.63 [16] 0.32 [8.1] 0.0

BLOW INTENSITY

0.32 [8.1] 0.0

A in. (mm) 3.34 (84.8) 3.74 (95)

0.0

NUMBER OF NOZZLE SETS 1 2

F18PSB

(Blank) = None ST = STA18M

OPTIONAL NON-RETURN

3.27[83.1] [83] 3.27 2.95 [74.9] 2.32 [58.9]

Optional Digital Vacuum Switch

1.18 [30] 0.88 [22.4] [22.4] 0.88

Optional Vacuum Switch

0.0 2

0.0 0.0 0.25 [6.4] [6.4] 0.25

CODE 1 2 3 4 VF

SILENCER

602P VA3 = VA-3 Sensor, Analog 3-pin VN3 = VN-3 Sensor, NPN 3-pin VN4 = VN-4 Sensor, NPN 4-pin VP3 = VP-3 Sensor, PNP 3-pin VP4 = VP-4 Sensor, PNP 4-pin 1 NPN 61N = DVN-61-18M Sensor, 61P = DVP-61-18M Sensor, PNP 62N = DVN-62-18M Sensor, NPN 62P = DVP-62-18M Sensor, PNP 602N = DVN-602-18M Sensor, NPN 602P = DVP-602-18M Sensor, PNP

L L M

1.59 [40.4]

NUMBER OF SEAL NON RETURN EJECTORS MATERIAL 1 N 1 N = Nitrile (Blank) = No 2 R = Yes

2.02 2.02 [51.3] [51.3]

SERIES

0.32 [8.1]

7:15

2.04 [51.8]

0.59 [15]

0.0

WEIGHT: 6.6 oz (186g)

AX PUMP G1/8 NPSF BASE WITH INTEGRAL VACUUM FILTER, AIR PILOTED SUPPLY & BLOW-OFF VALVES 1 Internal air-piloted air supply (vacuum-on) valve. Internal air-piloted blow-off valve with adjustable flow control. • Pump with filter and two vacuum ports at 90 degrees – use the one most suitable for your installation. • Can be configured with one or two pump modules for more vacuum flow capacity. • Filter element RE10X50 is included.

F18PSB

• •

3 5 2 BLOW INTENSITY

PORT CONNECTIONS FUNCTION PORT Air Supply- Main G1/8 NPSF Vacuum- Main G1/2 NPSF Exhaust G1/8 NPSF Pilot for Vacuum Control M5 x 0.8 (10-32 UNF) Pilot for Blow-Off M5 x 0.8 (10-32 UNF) Blow-Off Intensity Adjustment Vacuum Filter -

(Blank) = None ST = STA18M

0.32 [8.1]

A in. (mm) 3.34 (84.8) 3.74 (95)

0.51 [13] 0.0

[83.1] [83.1] [74.9] [74.9] [58.9] [58.9]

Optional Digital Vacuum Switch

1.18 [30] [30] 1.18 0.88 [22.4] [22.4] 0.88

Optional Vacuum Switch

0.0 0.0

A A

2.6 [66] 2.09 [53.1] 1.6 [40.6]

3.27 3.27 2.95 2.95 2.32 2.32

0.0 0.32 [8.1]

7:16

2.04 [51.8]

0.213 [5.4] Thru Hole 3 Places

2.02 [51.3] [51.3] 2.02

1.59 [40.4]

0.0

1.03 [26.2]

0.0

0.0 0.0 0.25 [6.4] [6.4] 0.25

NUMBER OF NOZZLE SETS 1 2

SILENCER

0.0

CODE 1 2 3 4 5 BI VF

OPTIONS F18PSB

0.0

L L M

0.63 [16] 0.32 [8.1]

NUMBER OF SEAL NON RETURN EJECTORS MATERIAL 1 N 1 N = Nitrile (Blank) = No 2 R = Yes

0.59 [15]

SERIES

HOW TO ORDER

OPTIONAL NON-RETURN

WEIGHT: 6.6 oz (186g)

AX PUMP G1/8 NPSF BASE WITH INTEGRAL VACUUM FILTER, AIR PILOTED SUPPLY F18PS VALVE & AUTOMATIC BLOW-OFF 4

• •

Includes internal air-piloted air supply control valve. 4 vacuum ports at 90 degrees – Pump with filter and two use the one most suitable for your installation. 1 • Automatic 19cc blow-off when air pilot signal is exhausted. 3 • Filter element RE10X50 is included.

1 3

L L M

OPTIONAL NUMBER OF SEAL MATERIAL EJECTORS NON-RETURN 1 N 1 N = Nitrile

CODE 1 2 3 BI VF

F18PSB19

PORT CONNECTIONS FUNCTION Air Supply- Main Vacuum- Main Exhaust Blow-Off Intensity Adjustment 4 Vacuum Filter

19 cc

HOW TO ORDER SERIES

SILENCER2

F18PSB19

2 2

(Blank) = None ST =2STA18M

PORT G1/8 NPSF G1/2 NPSF G1/8 NPSF -

F18PSB

1 3 0.32 [8.1]

OPTIONAL 2 NON-RETURN Optional Vacuum Switch

2.6 [66] 2.09 [53.1] 1.6 [40.6]

[86.4] 3.43.4[86.4] 2.95[74.9] [74.9] 2.95 2.32[58.9] [58.9] 2.32

0.00.0

4.48 [114] 4.48 [114]

0.0

1.18[30] [30] 1.18 0.88 0.88[22.4] [22.4]

2.02 [51.3] 2.02 [51.3]

0.51 [13] 0.0 0.63 [16] 0.32 [8.1]

0.213 [5.4] Thru Hole 3 Places

0.0 0.0 0.25 [6.4] 0.25 [6.4]

BLOW INTENSITY

1.59 [40.4]

0.91 [23.1]

0.0

0.32 [8.1]

7:17

2.04 [51.8]

0.59 [15]

0.0

WEIGHT: 7.9 oz (224g)

F18S24DB19 AX PUMP G1/8 NPSF BASE WITH INTEGRAL AIR SUPPLY N.C. SOLENOID VACUUM FILTER & N.C. SOLENOID SUPPLY VALVE 1

F18S24D AIR SUPPLY SOLENOID N.C.

•

Normally-closed solenoid valve controls vacuum-on. 3 24VDC, 1.3W coil. • Order solenoid cable separately. SV10-QD-1M • Pump with filter and two vacuum ports at 90 degrees – use the one most suitable for your installation. • Can be configured with one or two pump modules 2 for more vacuum flow capacity. • Filter element RE10X50 is included. 2

19 cc

OPTIONAL NON-RETURN 2

HOW TO ORDER

AIR SUPPLY SOLENOID N.C. 1

SOLENOID N.C.

PORT G1/8 NPSF G1/2 NPSF G1/8 NPSF -

A in. (mm) 3.34 (84.8) OPTIONAL 3.74 (95) NON-RETURN

(Blank) = None ST = STA18M

F18OS24D

AIR SUPPLY SOLENOID N.O. 3

0.63 [16] 0.0

OPTIONAL NON-RETURN

2 Vacuum Supply Solenoid

4.18 [106] [106] 4.18

2.6 [66] 2.09 [53.1] 1.6 [40.6]

F18OSB24D

Optional Digital Vacuum Switch

AIR SUPPLY SOLENOID N.O.

1.18 [30] [30] 1.18 0.88 [22.4] 0.88 1[22.4]

0.51 [13] 0 2

3.27 [83.1] [83.1] 3.27 2.95 2.95 [74.9] [74.9] 2.32 [58.9] [58.9] 2.32

Optional Vacuum Switch

0.0 0.0

BLOW-OFF SOLENOID N.C.

2 OPTIONAL 0.32 [8.1] NON-RETURN 0.0

7:18

2.02 [51.3]

0.213 [5.4] Thru Hole 2 3 Places 2

2.04 [51.8]

NUMBER OF NOZZLE SETS 1 2

0.32 [8.1] 0.0

CODE 1 2 3 BI VF

PORT CONNECTIONS FUNCTION Air Supply- Main Vacuum- Main Exhaust Blow-Off Intensity Adjustment Vacuum Filter BLOW-OFF

SILENCER

F18SB24D

OPTIONS

0.59 [15]

L L M

0.0 0.25 [6.4]

NUMBER OF SEAL NON RETURN EJECTORS MATERIAL 1 N - F18S24D 1 N = Nitrile (Blank) = No 2 R = Yes

0.0

SERIES

WEIGHT: 7.7 oz (219g)

AX PUMP G1/8 NPSF BASE WITH INTEGRAL F18S24DB19 VACUUM FILTER, N.C. SOLENOID SUPPLY VALVE & AUTOMATIC BLOW-OFF AIR SUPPLY •

SOLENOID N.C.

Normally-closed solenoid valve controls vacuum-on, 24VDC, 1.3W coil. Order solenoid cable separately. SV10-QD-1M Pump with filter and two vacuum ports at 90 degrees – use the one most suitable for your installation. Automatic 19cc blow-off when vacuum solenoid valve is turned off. Can be configured with one or two pump modules for more vacuum flow capacity. Filter element RE10X50 is included.

• • •

•

19 cc

•

HOW TO ORDER SERIES AX

L L M

CODE 1 2 3 BI VF

NUMBER OF SEAL EJECTORS MATERIAL 1 N 1 N = Nitrile

PORT CONNECTIONS FUNCTION Air Supply- Main Vacuum- Main Exhaust Blow-Off Intensity Adjustment Vacuum Filter

SILENCER F18S24DB19

(Blank) = None ST = STA18M

F18SB24D

PORT G1/8 NPSF G1/2 NPSF G1/8 NPSF -

AIR SUPPLY SOLENOID N.C. 1 3

0.32 [8.1]

Optional Vacuum Switch

0.91 [23.1]

0.0

BLOW-OFF SOLENOID N.C. Vacuum Supply OPTIONAL Solenoid NON-RETURN

4.31 4.31[109] [109] BI

2.32 2.32[58.9] [58.9]

F18OSB

1.18 1.18[30] [30] 0.88 [22.4] 0.88 [22.4]

AIR SUPP SOLENOID

0.0 0.0 0.0 0.0 0.25 [6.4] 0.25 [6.4]

0.63 [16] 0.32 [8.1] 0.0

0.51 [13] 0.0

3.4 3.4[86.4] [86.4] 2.95 [74.9]

BLOW-OFF SOLENOID N.C.

0.0

2.04 [51.8]

7:19

0.59 [15]

0.0

0.32 [8.1]

4.48 [114] 4.48 [114]

2.6 [66] 2.09 [53.1] 1.6 [40.6]

0.213 [5.4] Thru Hole 3 Places

2.02 [51.3] 2.02 [51.3]

OPTIONAL NON-RETURN WEIGHT: 9 oz (257g)

AX PUMP G1/8 NPSF BASE WITH INTEGRAL F18SB24D VACUUM FILTER, N.C. SOLENOID SUPPLY AIR SUPPLY & BLOW-OFF VALVES • • • • •

Normally-closed solenoid valve controls vacuum-on. 24VDC, 1.3W coil. Normally-closed solenoid blow-off valve with adjustable flow control. Order solenoid cables separately. SV10-QD-1M Pump with filter and two vacuum ports at 90 degrees – use the one most suitable for your installation. Can be configured with one or two pump modules for more vacuum flow capacity. Filter element RE10X50 is included.

SOLENOID N.C.

1 3

BLOW-OFF SOLENOID N.C. OPTIONAL NON-RETURN

HOW TO ORDER

CODE 1 2 3 BI VF

PORT CONNECTIONS FUNCTION Air Supply- Main Vacuum- Main Exhaust Blow-Off Intensity Adjustment Vacuum Filter

NUMBER OF NOZZLE SETS 1 2

OPTIONS F18SB24D

PORT G1/8 NPSF G1/2 NPSF G1/8 NPSF -

SILENCER

(Blank) = None ST = STA18M

F18OSB24D AIR SUPPLY SOLENOID N.O. 1

A in. (mm) 3.34 (84.8) 3.74 (95)

BLOW-OFF SOLENOID N.C. Vacuum Supply Solenoid

Blow-Off Solenoid 4.18 [106] 1 BI

3.27 [83.1] 2.95 [74.9] 2.32 [58.9]

Optional Digital Vacuum Switch

1.18 [30] VF 2

OPTIONAL NON-RETURN

Optional Vacuum Switch

0.88 [22.4] 0.0

7:20

L L M

2.02 [51.3]

NUMBER OF SEAL NON RETURN EJECTORS MATERIAL 1 N 1 N = Nitrile (Blank) = No 2 R = Yes

0.0 0.25 [6.4]

SERIES

•

0.213 [5.4] Thru Hole 3 Places

WEIGHT: 7.7 oz (219g)

F18SB24D

F18OS24D

AX PUMP G1/8 NPSF BASE WITH AIR SUPPLY N.C. SOLENOID INTEGRAL VACUUM FILTER & N.O. SOLENOID1SUPPLY VALVE •

AIR SUPPLY SOLENOID N.O.

Normally-open solenoid valve controls vacuum-off. 24VDC, 3 1.3W coil. Normally-on vacuum retains parts in event of a power failure. Order solenoid cable separately; SV10-QD-1M BLOW-OFF Pump with filter 2 – use N.C. and two vacuum ports at 90 degrees SOLENOID the one most suitable for your installation. Can be configuredOPTIONAL with one or two pump modules for more 2 vacuum flow capacity. NON-RETURN Filter element RE10X50 is included.

• • • •

1 3

HOW TO ORDER SERIES AX

L L M

NUMBER OF SEAL NON RETURN EJECTORS MATERIAL 1 N 1 N = Nitrile (Blank) = No 2 R = Yes

OPTIONS F18OS24D

PORT CONNECTIONS FUNCTION Air Supply- Main Vacuum- Main Exhaust Blow-Off Intensity Adjustment Vacuum Filter

NUMBER OF NOZZLE SETS 1 2

A in. (mm) 3.34 (84.8) 3.74 (95)

PORT G1/8 NPSF 1 G1/2 NPSF G1/8 NPSF -

0.63 [16] BLOW-OFF SOLENOID N.C.0.0

1 BI

0.51 [13] 0

2 Vacuum Supply 2Solenoid

3.27[83.1] [83.1] 3.27 2.95[74.9] [74.9] 2.95 2.32[58.9] [58.9] 2.32

Optional Digital Vacuum Switch

1.18[30] [30] 1.18 0.88 [22.4] 0.88 [22.4]

Optional Vacuum Switch

A A

2.02 [51.3] 2.02 [51.3]

0.0 0.0 0.25 [6.4] 0.25 [6.4]

0.0 0.0 0.32 [8.1] 0.0

(Blank) = None ST = STA18M

OPTIONAL NON-RETURN 4.18[106] [106] 4.18

2.6 [66] 2.09 [53.1] 1.6 [40.6]

SILENCER

602P VA3 = VA-3 Sensor, Analog 3-pin VN3 = VN-3 Sensor, NPN 3-pin VN4 = VN-4 Sensor, NPN 4-pin VP3 = VP-3 Sensor, PNP 3-pin VP4 = VP-4 Sensor, PNP 4-pin 61N = DVN-61-18M Sensor, NPN AIR 61PSUPPLY = DVP-61-18M Sensor, PNP 62N = DVN-62-18M Sensor, NPN N.O. SOLENOID 62P = DVP-62-18M Sensor, PNP 602N = DVN-602-18M Sensor, NPN 602P = DVP-602-18M Sensor, PNP

F18OSB24D

7 CODE 1 2 3 BI VF

0.213 [5.4] Thru Hole 3 Places

0.32 [8.1]

7:21

2.04 [51.8]

0.59 [15]

0.0

OPTIONAL NON-RETURN

WEIGHT: 7.7 oz (219g)

AX PUMP G1/8 NPSF BASE WITH INTEGRAL VACUUM FILTER, N.O. SOLENOID SUPPLY & BLOW-OFF VALVES •

Normally-open solenoid valve controls vacuum-off; 24VDC, 1.3W coil. Normally-on vacuum retains parts in event of a power failure. Normally-closed solenoid blow-off valve with adjustable flow control. Order solenoid cables separately; SV10-QD-1M Pump with filter and two vacuum ports at 90 degrees – use the one most suitable for your installation. Can be configured with one or two pump modules for more vacuum flow capacity. Filter element RE10X50 is included.

• • • • •

F18OSB24D AIR SUPPLY SOLENOID N.O.

1 3

BLOW-OFF SOLENOID N.C.

OPTIONAL NON-RETURN

HOW TO ORDER

CODE 1 2 3 BI VF

PORT CONNECTIONS FUNCTION Air Supply- Main Vacuum- Main Exhaust Blow-Off Intensity Adjustment Vacuum Filter

NUMBER OF NOZZLE SETS 1 2

PORT G1/8 NPSF G1/2 NPSF G1/8 NPSF -

A in. (mm) 3.34 (84.8) 3.74 (95)

SILENCER

Blow-Off Solenoid

(Blank) = None ST = STA18M

OPTIONS F18OSB24D -

Vacuum Supply Solenoid

4.18 [106] 1

3.27 [83.1] 2.95 [74.9] 2.32 [58.9]

Optional Digital Vacuum Switch Optional Vacuum Switch

1.18 [30] 0.88 [22.4] 0.0

7:22

L L M

2.02 [51.3]

NUMBER OF SEAL NON RETURN EJECTORS MATERIAL 1 N 1 N = Nitrile (Blank) = No 2 R = Yes

0.0 0.25 [6.4]

SERIES

0.213 [5.4] Thru Hole 3 Places

AX MANIFOLD PUMPS 2.83 [71.9]

0.22 [5.6] Thru Hole 4 Places STATION 1 STATION 2

STATION 3

STATION 4

STATION 3

STATION 2

STATION 1

STATION 4

0.4 [10.2]

0.21 [5.3] Optional Digital Vacuum Switch

1C 1S 7

3.05 [77.5] 2.58 [65.5] 3

1 2 3 4 5 6 7 8 9 10

1.89 (48) 2.52 (64) 3.15 (80) 3.78 (96) 4.41 (112) 5.04 (128) 5.67 (144) 6.30 (160) 6.93 (176) 7.56 (192)

VA LV ES O TE D PI A LO TE IR S U D N P .C B LO PL .S Y O W VA N .O LEN -O LV F .S O F ID VA E O N L : LV .C E A IR . S NO E SU ID O 19 LE :A PP C N IR C L O A SU Y ID U TO : B PP L LY M AT OW -O IC F B LO F W -O FF

A in. (mm)

PI L

NUMBER OF STATIONS

N O

PORT CONNECTIONS CODE FUNCTION Standard (NPT) -G (BSPP) 1C Main Air Supply- Common 1/4 NPTF G1/4 BSPP 1S Main Air Supply- Separate G1/8 NPSF G1/8 NPSF 2 Vacuum- Main G1/8 NPSF G1/8 NPSF 3 Exhaust - Common G1/2 NPSF G1/2 NPSF NPT ports are Standard, add suffix "-G" for optional BSPP ports.

2.84 [72.1] 3.24 [82.3]

0.63 [16]

0.0 0.4 [10.2] 0.82 [20.8]

0.63 [16] 0.95 [24.1]

0.9 [22.9] 0.32 [8.1] 0.0 1.5 [38.1]

AXM1N AXM2N AXL1N AXL2N COMMON AIR SUPPLY COMMON AIR SUPPLY X C18 C18 X C18PS C18PS X X C18PSB C18PSB X C18S24D C18S24D X X C18SB24D C18SB24D X C18OS24D C18OS24D X X C18OSB24D C18OSB24D X X C18B19 N/A X X C18PSB19 N/A X X C18S24DB19 N/A For a separate external air supply to each pump segment, change the "C" in the above models to an "S".

7:23

AX MANIFOLD PUMPS

HOW TO ORDER AX MANIFOLDS MODULE TYPE AXL1N-C18OS24D-VA3

THREADS -E

See prior pages referring to the F18 base to select pump module and control options. Replace the F18 with C18 for common air supply, or S18 for independent air supply.

SILENCER -

1 2 3 4 5 6 7 8 9 10

2ST90

(BLANK) = None ST1 = One STC12M 2ST = Two STC12M 1 ST90 = One STB38M & 90° Adaptor 2ST90 = Two STB38M & 90° Adaptor 1 For use with 4 or less modules.

Include all options. Do not include silencers.

N = NPTF G = BSPP

NUMBER OF MODULES

AX MANIFOLD OPTIONS

NORMALLY OPEN (N.O.) SOLENOID VALVES: are used for a constant-on vacuum mode that eliminates the possibility of dropping a part in the event of a power failure. The N.O. solenoid must be energized in order to turn off the vacuum pump and release the part. While this fail-safe mode is effective, it is also wasteful of compressed air so a separate main air supply shut-off valve is recommended for long periods of inactivity. NON-RETURN VALVES: are specified by adding “R” after the basic pump number (AXM1NR). They are used to prevent manifold exhaust air from flowing into inactive pump segments Non-return valves must not be used for safety circuits.

For more details about the various manifold pump segment configurations, refer to the corresponding AX catalog page for the F18 series of single-base pumps. Schematic circuits, available vacuum switches, etc. will be the same. EDCO will need specific, written assembly instructions if a mixed segment-type manifold is required (where all segments are not the same).

7:24

AX MANIFOLD PUMPS

AX MANIFOLD OPTIONS (continued) MANIFOLD END PLATES: Each manifold assembly requires a set of end plates and tie-rods of the correct length as designated by the number of pump segments in the assembly. For example: EN4 would be for a 4-segment assembly with NPT ports and EG6 would be for a 6-segment assembly with BSPP ports. Manifolds can be built with any number of segments between 1 and 10. Both end plates include a 1/4” air supply and a 1/2” pump exhaust port.

7 MANIFOLD SILENCER OPTIONS: Order ST90 for one STB38M silencer and 90 degree adaptor with jackscrews for orientation of exhaust in any convenient direction. Order 2ST90 whenever the manifold contains 5 or more pump segments. An alternative is to order ST (2ST for 5 or more pump segments) for one STC12M silencer screwed directly into the manifold end plate. However, this will greatly increase the overall size of the assembly.

ST90

2ST90

2ST

7:25

AX MANIFOLD PUMPS

AX MANIFOLD OPTIONS (continued) SOLENOID CABLES: Order SV10-QD-1M as a separate line item for each solenoid valve. 1 Meter length VACUUM SWITCH CABLES: Refer to the Vacuum Switch section of this catalog for selection of M8 cables which are available in 2M and 5M lengths.

REPLACEMENT PARTS

RE10X50 Vacuum Filter Element

AX-50 Pilot Operated Cartridge Valve

S08-1525 Solenoid Pilot Valve 1.3 Watt 24V (DC), Normally Closed (not passing)

S10MM-31-24LW-4 Solenoid Pilot Valve 0.5 Watt 24V (DC), Normally Open (passing) 7:26

ÂŠ2012 EDCO USA. www.edcousa.net

AX MULTI-STAGE PUMPS PERFORMANCE DATA M SERIES GRAPHS

SCFM

SCALE M2 M1 3.0

1.5

2.0

1.0

0.5

M Series

Air Supply = 50 psi (345 kPa) Air Consumption X1 = 1.15 SCFM (32.6 Nl/m) Air Consumption X2 = 1.30 SCFM (65.2 Nl/m)

in-Hg

SCFM

SCALE M2 M1 3.0

1.5

2.0

1.0

0.5

M Series

Air Supply = 60 psi (414 kPa) Air Consumption X1 = 1.15 SCFM (36.8 Nl/m) Air Consumption X2 = 1.30 SCFM (73.6 Nl/m)

7:27

in-Hg

AX MULTI-STAGE PUMPS

PERFORMANCE DATA (continued) M SERIES GRAPHS

SCFM

SCALE M2 M1 3.0

1.5

1.0

0.5

2.0

M Series

Air Supply = 72 psi (496 kPa) Air Consumption X1 = 1.5 SCFM (42.5 Nl/m) Air Consumption X2 = 3.0 SCFM (85.0 Nl/m)

in-Hg

SCFM

SCALE M2 M1 3.0

1.5

2.0

1.0

0.5

M Series

Air Supply = 87 psi (600 kPa) Air Consumption X1 = 1.8 SCFM (51 Nl/m) Air Consumption X2 = 3.6 SCFM (102 Nl/m)

7:28

in-Hg

AX MULTI-STAGE PUMPS

PERFORMANCE DATA (continued) L SERIES GRAPHS

SCFM

SCALE L2 L1 6.0

3.0

2.0

1.0

4.0

L Series

Air Supply = 60 psi (414 kPa) Air Consumption X1= 1.8 SCFM (51 Nl/m) Air Consumption X2 = 3.6 SCFM (102 Nl/m)

in-Hg

SCFM

SCALE L2 L1 6.0

3.0

4.0

2.0

1.0

L Series

Air Supply = 72 psi (600 kPa) Air Consumption X1 = 2.0 SCFM (56.6 Nl/m) Air Consumption X2 = 4.0 SCFM (113.2 Nl/m)

7:29

in-Hg

AX MULTI-STAGE PUMPS

PERFORMANCE DATA (continued) L SERIES GRAPHS

SCFM

SCALE L2 L1 3.0

4.0

2.0

1.0

L Series

Air Supply = 87 psi (600 kPa) Air Consumption X1 = 2.3 SCFM (65.1 Nl/m) Air Consumption X2 = 4.6 SCFM (130.2 Nl/m)

6.0

in-Hg

QUICK REFERENCE VACUUM FLOW IN SCFM

MODEL AXM1N AXM1N AXM1N AXM1N AXL1N AXL1N AXL1N

AIR SUPPLY PSI

AIR CONS. SCFM

MAX VACUUM inHg

3 inHg

6 inHg

60 72 87

1.8 2.0 2.3

21.6 24 25.1

2.03 2.28 2.57

1.35 1.65 1.95

50 60 72 87

1.2 1.3 1.5 1.8

25.5 25.1 24.8 24.4

SCFM AT VACUUM LEVEL 1.30 1.32 1.31 1.23

0.91 1.00 1.10 1.05

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 0.46 0.67 0.86 0.78

1.06 1.03 1.30

0.37 0.37 0.40 0.59

0.79 0.84 0.84

0.29 0.29 0.34 0.41

0.55 0.70 0.70

0.22 0.20 0.17 0.30

0.29 0.51 0.51

0.10 0.10 0.06 0.05

0.07 0.24 0.33

0.03 0.02 0.01 0.004

0.13

SCFM X 28.32 = Nl/m Seconds/100 cu. in. X 0.61 = Sec./ Liter EVACUATION TIME IN sec/100 cu-in

MODEL AXM1N AXM1N AXM1N AXM1N AXL1N AXL1N AXL1N

AIR SUPPLY PSI

AIR CONS. SCFM

MAX VACUUM inHg

3 inHg

6 inHg

60 72 87

1.8 2.0 2.3

21.6 24 25.1

0.12 0.11 0.10

0.31 0.27 0.24

50 60 72 87

1.2 1.3 1.5 1.8

25.5 25.1 24.8 24.4

SECONDS TO VACUUM LEVEL 0.43 0.43 0.20 0.15

0.50 0.47 0.48 0.50

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 0.57 0.91 0.89 0.94

0.61 0.53 0.47

7:30

1.82 1.67 1.57 1.62

1.07 0.96 0.84

3.1 2.9 2.7 2.7

1.8 1.6 1.5

5.3 4.9 4.6 4.5

3.1 2.7 2.4

9.3 8.7 8.3 8.0

5.5 4.7 4.3

18.3 16.9 16.1 15.7 9.2 8.1

CHIP PUMPS

SECTION 8 CHIP PUMPS

8:1

CHIP PUMPS

CONTENTS

GENERAL INFORMATION What are Chip Pumps Pump Performance

8:3 8:13, 8:14

Blow-Off Pipe Plugs PA5F PA18F

8:11 8:11 8:12 8:12

ACCESSORIES

BASES AA Style Base A & B Style Bases C Style Base D Style Base G Style Base M Style Base Z & ZS - No Base Option

8:5 8:6 8:7 8:8 8:9 8:10 8:11

8:2

CHIP PUMPS EDCO vacuum Chip pumps were named after electronic circuit chips whose small size and versatility have made modern products more efficient, compact, and affordable. Our low-cost Chip pumps will do the same things for your vacuum systems. Chip pumps provide the performance you expect from a multi-stage, multi-ejector, air powered vacuum pump. To increase pump capacity, we simply add another pump module to the assembly stack. Our standard seal and valve elastomer is Nitrile, but we also offer Viton and E.P.D.M. seal materials at reasonable cost. To make your system easier to design and install, we offer nonreturn valves and direct mounted electronic sensors. We are always open to suggestion, so give us a call if you need an accessory that you don’t see in our catalog.

EDCO Chip pumps are offered with eleven standard base configurations plus a “Z” option for no base at all. This allows a designer complete freedom to integrate a Chip pump module into a proprietary assembly. However, it is more common to select an EDCO vacuum pump having one of the eleven standard bases depending on which one best suits the particular application. EDCO USA will design and manufacture custom bases and pump assemblies for O.E.M.’s that have special needs which are not satisfied by our standard products. Just drop us a note with a sketch describing what you need and the annual quantity required and we will do the rest.

8:3

We have selected 40% glass-filled Polyphenylene Sulphide (PPS, Ryton) for its extremely high strength, light weight and chemical resistance. The pump body, ejector nozzles and “A” and “B” bases are all made of PPS to eliminate chemical compatibility problems caused when different materials are used for parts within the same vacuum pump. All other bases are made of anodized aluminum for those applications requiring maximum ruggedness or a larger capacity vacuum pump. Fasteners are 304 series stainless steel. When comparing our Chip pumps to “Brand P” please conduct your own tests because their catalog performance data is grossly exaggerated and inaccurate. EDCO Chip pumps will test out the same as, or better than, “Brand P” but we choose to publish accurate, and repeatable, performance data rather than use sales puffery to describe an already value-filled product. Thank you for choosing EDCO USA as your vacuum component supplier. We believe you will be pleased with our products and the value you receive. But, if you are not satisfied for any reason, please let us know.

CHIP PUMPS

VENTURI SELECTION SERIES

CODE 4M 5L 6E 6M

AIR PRESSURE bar psi 60 72 87 87

4 5 6 6

SEAL MATERIAL

MAX VACUUM inHg (-kPa) 25.5 22.8 25.5 25.5

(86.4) (77.2) (86.4) (86.4)

CODE

DESCRIPTION

N Nitrile1 E EPDM V Viton2 1 Standard material 2 Viton is a trademark of Du Pont Dow Elastomers.

MATERIAL SELECTION FOR COMMERCIAL FLUIDS AND CHEMICALS MATERIAL MEDIUM PPS ALUMINUM NITRILE EPDM VITON* Weather, Ozone E G L E E Heat, Aging E E G G E Oil, Petrol E L E U E Hydrolosis E E G G G Acid, Alkali E U G E G Acetone E E U E U Ammonia G G L E U Amyl Alcohol E G G E G Benzene E G U U E Butanol E G G G E Cyclohexane E E G U E Ethanol E G L E E Ethyl Acetate E G U G U Hexane E E E U E Carbone Tetrachloride E U U U E Chloro Benzene E E U U E Chloroform E L U U E Methanol E G E E L Methelene Chloride E L U G E Methyl Ethyl Keytone E G U E U NaOH E U G E G Propanol E G E E E Sulphuric Acid E U L G E Tetrahydrofuran E U U G U Tetrachlorethelene E U U U E Toulene E E U U E Trichlorethane E U U U E Trichlorethylene E U U U E Xylene E G U U E Acetic Acid E L E E G E = Excellent, G = Good, L = Limited, U = Unsuited

8:4

CHEMICAL COMPATIBILITY

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CHIP PUMPS AA STYLE BASE HOW TO ORDER C

SERIES

CAPACITY

4M 6M 5L 6E

M Series 10 E & L Series 14

SEAL MATERIAL N E = EPDM N = Nitrile V = Viton

SERIES E, L M 14

CODE 1 2

NON RETURN

(Blank) = No R = Yes

OPTIONS -

AA -

BO = Blow-off (Blank) = NPSF PA5F = Port Adaptor, M5 x 0.8 G = BSPP PA18F = Port Adaptor, G1/8 NPSF RC18A = Release Check RC18A-040 = Release Check PFC = Pump Filter Combo1 VA3 = VA-3 Sensor, NPN 3-pin VN3 = VN-3 Sensor, NPN 3-pin VN4 = VN-4 Sensor, NPN 4-pin VP3 = VP-3 Sensor, PNP 3-pin VP4 = VP-4 Sensor, PNP 4-pin 1 PFC includes a T-style vacuum filter and a 3-pack of replacement filter elements.

WEIGHT oz. (g)

2.1 (59.5)

PORT CONNECTIONS FUNCTION PORTS

Air Supply - Main Vacuum - Main

PORTS

M5 x 0.8 (10-32 UNF) G1/8 NPSF

Groove for -014 O-ring (not supplied)

0.65 [16.5] 0.0 Exhaust 3 Places

0.13 [3.3] Thru Hole 2Places

0.3 [7.6]

0.0

PPS Pump Module & Aluminum Base

ÂŠ2012 EDCO USA. www.edcousa.net

8:5

0.15 [3.8]

0.14 [3.6] 2.46 [62.5]

0.61 [15.5]

0.89 [22.6]

0.61 [15.5]

0.0

0.15 [3.8] 0.0

0.0

0.92 [23.4]

0.73 [18.5]

0.61 [15.5]

1.08 [27.4]

0.0

1.22 [31]

CHIP PUMPS A & B STYLE BASE HOW TO ORDER C

SERIES

CAPACITY

4M 4M 6M 5L 6E

20 M Series 10 20 E & L Series 14 28

SERIES E, L M

10 20

NON RETURN (Blank) = No R = Yes

A BASE WEIGHT oz. (g) 2.1 (59.5) 2.7 (78.5)

BASE -

OPTIONS

PORTS

B A = 1/8 Vacuum Port B = 3/8 Vacuum Port

SERIES E, L M 14 10 28 20

A in. (mm)

0.9 (22.9) 1.2 (30.5)

A in. (mm) 0.9 (22.9) 1.2 (30.5)

14 28

SEAL MATERIAL N E = EPDM N = Nitrile V = Viton

CODE 1 2

PORT CONNECTIONS FUNCTION PORTS

Air Supply - Main Vacuum - Main

CODE

PORT CONNECTIONS FUNCTION Standard (NPSF)

-G (BSPP)

1 Air Supply- Main G1/8 NPSF G1/8 NPSF 2 Vacuum- Main 3/8 NPSF G3/8 BSPP NPSF ports are Standard, add suffix "-G" for optional BSPP ports.

G1/8 NPSF G1/8 NPSF

G1/8 NPSF Vacuum Port Groove for -014 O-ring (not supplied)

3/8 NPSF Vacuum Port

PPS Pump Module & Base 0.13 [3.3] Thru Hole 2 Places

1 1.21 [30.7]

Exhaust

1.08 [27.4] 0.61 [15.5]

0.58 [14.7]

0.14 [3.6]

8:6

2.55 [64.8]

0.98 [24.9]

0.82 [20.8]

0.09 [2.3]

0.0

0.0 0.3 [7.6]

0.0

CHIP PUMPS C STYLE BASE HOW TO ORDER C

SERIES

CAPACITY

6M 4M 6M 5L 6E

30 M Series 10 20 30 40 E & L Series 14 28 42 56

SEAL MATERIAL

NON RETURN

N E = EPDM N = Nitrile V = Viton

(BLANK) = No R = Yes

SILENCER -C-

PORTS

OPTIONS

(BLANK) = None ST = STB38M

BO = Blow-Off PA5F = Port Adaptor, M5X0.8 PA18F = Port Adaptor, G1/8 NPSF RC18A = Release Check RC18A-040 = Release Check

(BLANK) = NPSF G = BSPP

PFC = Pump Filter Combo1 VA3 = VA-3 Sensor, Analog 3-Pin VN3 = VN-3 Sensor, NPN 3-Pin VN4 = VN-4 Sensor, NPN 4-Pin VP3 = VP-3 Sensor, PNP 3-Pin VP4 = VP-4 Sensor, PNP 4-Pin 1 PFC includes a T-Style vacuum filter and a 3-Pack of replacement filter elements.

SERIES E, L M

14 28 42 56

10 20 30 40

WEIGHT oz. (g) 3.5 4.1 4.6 5.2

A in. (mm)

(99.2) (116) (130) (147)

1.01 1.31 1.61 1.91

CODE

(25.7) (33.3) (40.9) (48.5)

PORT CONNECTIONS FUNCTION Standard (NPSF)

-G (BSPP)

1 Air Supply- Main G1/8 NPSF G1/8 NPSF 2 Vacuum- Main 3/8 NPSF G3/8 BSPP 3 Exhaust 3/8 NPSF G3/8 BSPP NPSF ports are Standard, add suffix "-G" for optional BSPP ports.

0.09 [2.3] A

0.58 [14.7] 0.3 [7.6]

0.13 [3.3] Thru Hole 2 Places

1.51 [38.4]

PPS Pump Module & Aluminum Base

0.57 [14.5]

0.0

1.22 [31] 1.08 [27.4] 0.61 [15.5]

0.61 [15.5] 0.14 [3.6]

8:7

2.55 [64.8]

2.05 [52.1]

0.98 [24.9]

0.82 [20.8]

0.0

0.41 [10.4]

0.0

CHIP PUMPS D STYLE BASE HOW TO ORDER 5L

4M 6M 5L 6E

M Series 10 20 30 E & L Series 14 28 42

SERIES E, L M 14 28 42

10 20 30

SEAL MATERIAL N E = EPDM N = Nitrile V = Viton

WEIGHT oz. (g) 3.3 (93.6) 3.7 (105) 4.4 (125)

NON RETURN (Blank) = No R = Yes

OPTIONS -

PORTS

A in. (mm)

PORT CONNECTIONS FUNCTION Standard (NPSF)

CODE

1.01 (25.7) 1.31 (33.3) 1.61 (40.9)

-G (BSPP)

1 Air Supply- Main G1/8 NPSF G1/8 NPSF 2 Vacuum- Main 3/8 NPSF G3/8 BSPP NPSF ports are Standard, add suffix "-G" for optional BSPP ports.

0.09 [2.3] A

0.18 [4.6]

0.13 [3.3] Thru Hole 2 Places

0.51 [13]

0.0

PPS Pump Module & Aluminum Base

1.49 [37.8]

0.0 0.18 [4.6] Thru Hole 2 Places

Exhaust 2 Places

1.22 [31] 0.81 [20.6]

0.61 [15.5]

0.41 [10.4]

0.14 [3.6]

8:8

0.44 [11.2]

0.0 0.0

2.55 [64.8]

0.98 [24.9]

0.0 0.82 [20.8]

0.0

1.08 [27.4]

0.0

0.61 [15.5]

0.41 [10.4]

CAPACITY

SERIES

ÂŠ2012 EDCO USA. www.edcousa.net

CHIP PUMPS G STYLE BASE HOW TO ORDER C

SERIES

CAPACITY

6M 4M 6M 5L 6E

60 M Series 10 20 30 40 50 60 E & L Series 14 28 42 56 70 84

E, L

28 42 56 70 84

SERIES

SEAL MATERIAL N E = EPDM N = Nitrile V = Viton

NON RETURN (BLANK) = No R = Yes

SILENCER -G-

PORTS

OPTIONS -

(BLANK) = None ST = STB38M

BO = Blow-Off PA5F = Port Adaptor, M5X0.8 PA18F = Port Adaptor, G1/8 NPSF RC18A = Release Check RC18A-040 = Release Check

(BLANK) = NPSF G = BSPP

20 30 40 50 60

WEIGHT oz. (g) 7.4 8.0 8.5 9.1 9.6

(210) (227) (241) (258) (272)

A in. (mm)

PORT CONNECTIONS FUNCTION Standard (NPSF)

CODE

1.82 (46.2) 2.12 (53.8) 2.42 (61.5) 2.72 (69.1) 3.02 0.0 (76.7)

-G (BSPP)

1 Air Supply- Main G1/8 NPSF G1/8 NPSF 2 Vacuum- Main 3/8 NPSF G3/8 BSPP A 3 Exhaust 3/8 NPSF G3/8 BSPP A A"-G" for optional BSPP ports. [18.5] NPSF ports are Standard,0.73 add suffix

0.0

0.73 [18.5]

0.0

1.22 [31] 1.22 [31]

0.73 [18.5]

0.0 1.22 [31]

0.61 [15.5] 0.61 [15.5] 1

1.22 [31] Optional STB38M Silencer Optional STB38MOptional STB38M Silencer Silencer

0.61 [15.5] 0.61 [15.5]

Optional STB38M

Silencer PPS Pump Module & Aluminum Base

5.36 [136.1] 5.36 [136.1] 5.36 [136.1] 5.36 [136.1]

0.0 0.73 0.26 [18.5] [6.6]

0.0 0.26 [6.6]

2.6 [66]

8:9

0.18 [4.6] Thru Hole

0.0 0.95 [24.1] 1.3 [33]

2.1 [53.34] 0.95 [24.1] 2.1 [53.34] [53.34] [33] 2.6 [66] 2.11.3 2.6 [66] 2.6 [66] 2.1 [53.34]

1.2 [30.5] 1.2 [30.5] 1.45 [36.8] 1.45 [36.8]

0.95 [24.1] 0.95 [24.1] 1.3 [33] 1.3 [33]

0.0

0.18 [4.6] 2 Hole Thru 0.18 [4.6] 0.18 [4.6] Thru Hole Thru Hole

0.73 [18.5] 0.73 [18.5]

0.0

1.2 [30.5] 0.73 [18.5] 1.45 [36.8] 1.2 [30.5] 0.0 1.450.0 [36.8] 0.26 [6.6] 0.26 [6.6]

0.0

3 3

CHIP PUMPS M STYLE BASE HOW TO ORDER CAPACITY

6M 4M 6M 5L 6E

10 M Series 10 20 E & L Series 14 28

SEAL MATERIAL N E = EPDM N = Nitrile V = Viton

NON RETURN (BLANK) = No R = Yes

SILENCER -M-

(BLANK) = None ST = STA18M

OPTIONS -

BO = Blow-Off PA5F = Port Adaptor, M5X0.8 PA18F = Port Adaptor, G1/8 NPSF RC18A = Release Check RC18A-040 = Release Check PFC = Pump Filter Combo1 VA3 = VA-3 Sensor, Analog 3-Pin VN3 = VN-3 Sensor, NPN 3-Pin VN4 = VN-4 Sensor, NPN 4-Pin VP3 = VP-3 Sensor, PNP 3-Pin VP4 = VP-4 Sensor, PNP 4-Pin PFC includes a T-Style vacuum filter and a 3-Pack of replacement filter elements. 1

14 28

WEIGHT oz. (g)

10 20

6.5 (184) 7.1 (201)

A in. (mm)

CODE 1 2 3

1.17 (29.7) 1.47 (37.3)

PORT CONNECTIONS

FUNCTION Air Supply Vacuum Exhaust

PORTS G1/8 NPSF G1/8 NPSF G1/8 NPSF

E, L

SERIES

0.14 [3.6] Thru Hole 4 Places

0.0

0.33 [8.4] 0.98 [24.9]

2.8 [71.1]

0.65 [16.5] 2 2

1.63 [41.4]

4.37 [111]

0.0

1.59 [40.4] 1.72 [43.7]

0.0 0.13 [3.3]

0.87 [22.1]

0.32 [8.1]

PPS Pump Module & Aluminum Base

0.0

1.95 [49.5]

2.32 [58.9] 2.6 [66] 0.38 [9.7]

SERIES

Optional AA18M Silencer

8:10

CHIP PUMPS Z OPTION: NO BASE

0.098 [2.5], Tap M3x0.5, 6 Places 0.18 [4.6] Air Supply

Pump modules include all components necessary for operation and can be easily incorporated into an O.E.M. design for custom applications.

0.38 [9.7] Vacuum 0.38 [9.7] Exhaust 0.98 [24.9]

SERIES C

4M 6M 5L 6E

CAPACITY 10

M Series 10 E & L Series 14

SEAL MATERIAL N E = EPDM N = Nitrile V = Viton

NON RETURN

2.16 [54.9]

HOW TO ORDER

1.51 [38.4]

0.0 0.1 [2.5] 0.71 [18] 0.79 [20.1]

0.49 [12.4] Cap Module 0.0 Stack Module

MODULE

(Blank) = No R = Yes

Z = Cap ZS = Stack

BLOW-OFF MODULE

Pneumatic Blow-off module provides 25cc of stored compressed air to give a robust pulse to dissipate vacuum in a system whenever the vacuum pump air supply is vented. All connections to the vacuum pump are internal for a very compact, foolproof, and neat installation.

A single 3-way normally-closed air supply valve can be used to control the pump and blow-off functions. When the 3-way valve supplies air to the pump, the blow-off reservoir is charged. When the 3-way valve shuts off and exhausts the pump air supply, the stored reservoir air will automatically discharge directly into the pump vacuum chamber to dissipate system vacuum.

1.21 [30.7] 2.41 [61.2] 1.45 [36.8]

TO ORDER: Add suffix “-BO” to a Chip pump assembly number. Not available on H and Z bases. Weight including Port Adaptor, 4 oz.

PIPE PLUGS, WITH O-RING SEAL MODEL P10

B A

P18 P14

FITS THREAD

10-32 UNF M5 x 0.8 1/8 NPT G1/8 BSPP 1/4 NPT G1/4 BSPP

A in. (mm)

B in. (mm)

C in. (mm)

HEX WRENCH

WEIGHT oz. (g)

0.31 (7.9)

0.07 (1.8)

0.12 (3)

2 mm

0.01 (0.34)

0.47 (12)

0.12 (3)

0.24 (6)

4 mm

0.07 (2)

0.56 (14)

0.08 (2)

0.26 (6.6)

6 mm

0.1 (2.9)

P38

G3/8 BSPP

0.71 (18)

0.12 (3)

0.27 (6.9)

5 mm

0.18 (5.2)

P12

G1/2 BSPP

0.95 (24)

0.12 (3)

0.43 (11)

10 mm

0.98 (28)

ALL PIPE PLUGS ARE NICKEL PLATED ALUMINUM WITH A NITRILE O-RING SEAL EXCEPT FOR THE P12 WHICH IS NICKEL PLATED BRASS WITH A NITRILE O-RING SEAL

8:11

CHIP PUMPS VACUUM PORT ADAPTOR & DIRECT MOUNT VACUUM SENSOR

PA5F

1.21 [30.7]

0.97 [24.6]

Electronic Sensor option is available for all base styles except the H-style base.

0.0

Additional vacuum port allows a vacuum monitoring port. Not available on the H-style base.

0.61 [15.5]

Add suffix “-PA5F” to model code.

0.0 WEIGHT 0.34 oz. (9.8 g)

Refer to the Sensor Section of the 0.6 [15.2] catalog for Sensor Specifications.

VN3, VN4, VP3, & VP4

1.2 [30.5]

0.14 [3.6]

WEIGHT 0.66 oz. (18.8 g)

VACUUM PORT ADAPTOR & DIRECT MOUNT RELEASE CHECK Add suffix “-PA18F” to model code.

Additional vacuum port allows mounting of a vacuum switch, RC18A, or RC18A-040 release check to the pump. Refer to Release Check Section of the catalog for full details about RC18A and RC18A-040. RC18A, RC18A-040

Not available on the H-style base.

PA18F

WEIGHT 2.3 oz. (64 g)

WEIGHT 0.83 oz. (23.6 g)

8:12

(scfm/pump scale) Flow Index scale) Index (scfm/pump Vacuum FlowVacuum

CHIP PUMP PERFORMANCE DATA 1.25

1.0 1.25

SCALE FOR L & E SERIES PUMPS C5L & C6E 7 14 SCALE 1 2

28 4

42 6

56 8

70 10

84 12

98 14

112 16

SCALE FOR M SERIES PUMPS C4M & C6M 5 10

SCALE

0.75 1.0

0.5 0.75

C5L @ 72 PSI

0.25 0.5

C6M @ 87 PSI

C5L @ 72 PSI 0 0.25 0

6 C6M @ 87 PSI

Vacuum Level (inHg)

0 0

(scfm/pump scale) Flow Index scale) Index (scfm/pump Vacuum FlowVacuum

Vacuum Level (inHg) 1.25

1.0 1.25 0.75 1.0

0.5 0.75

C6E @ 87 PSI

0.25 0.5

C4M @ 55 PSI

C6E @ 87 PSI 0 0.25 0

6 9 C4M @ 55 PSI

8:13

Vacuum Level (inHg)

CHIP PUMP PERFORMANCE DATA VACUUM FLOW IN SCFM

C5L14 C5L28 C5L42 C5L56 C5L70 C5L84 C6E14 C6E28 C6E42 C6E56 C6E70 C6E84 C4M10 C4M20 C4M30 C4M40 C4M50 C4M60 C6M10 C6M20 C6M30 C6M40 C6M50 C6M60

AIR SUPPLY PSI 72 72 72 72 72 72 87 87 87 87 87 87 55 55 55 55 55 55 87 87 87 87 87 87

AIR CONS. SCFM 2.0 4.0 6.0 8.0 10.0 12.0 2.3 4.6 6.9 9.2 11.5 13.8 1.6 3.2 4.8 6.4 8.0 9.6 1.6 3.2 4.8 6.4 8.0 9.6

MAX VACUUM inHg 23.6 23.6 23.6 23.6 23.6 23.6 25.6 25.6 25.6 25.6 25.6 25.6 25.5 25.5 25.5 25.5 25.5 25.5 25.5 25.5 25.5 25.5 25.5 25.5

SCFM AT VACUUM LEVEL 3 inHg 1.6 3.3 4.9 6.6 8.2 9.8 1.8 3.7 5.5 7.4 9.2 11.0 1.1 2.2 3.3 4.4 5.5 6.6 1.8 3.5 5.2 7.0 8.8 10.5

6 inHg 1.0 2.0 3.1 4.1 5.1 6.1 1.0 2.1 3.1 4.1 5.2 6.2 0.65 1.3 2.0 2.6 3.3 3.9 0.72 1.4 2.2 2.9 3.6 4.3

9 inHg 0.83 1.7 2.5 3.3 4.2 5.0 0.78 1.6 2.3 3.1 3.9 4.7 0.53 1.1 1.6 2.1 2.7 3.2 0.44 0.88 1.3 1.8 2.2 2.6

12 inHg 0.64 1.30 1.9 2.6 3.2 3.8 0.64 1.30 1.9 2.6 3.2 3.8 0.40 0.80 1.2 1.6 2.0 2.4 0.35 0.70 1.0 1.4 1.8 2.1

15 inHg 0.45 0.90 1.4 1.8 2.3 2.7 0.50 1.0 1.5 2.0 2.5 3.0 0.32 0.64 1.0 1.3 1.6 1.9 0.31 0.62 0.93 1.2 1.6 1.9

18 inHg 0.35 0.70 1.1 1.4 1.8 2.1 0.35 0.70 1.1 1.4 1.8 2.1 0.22 0.44 0.66 0.88 1.1 1.3 0.20 0.40 0.60 0.80 1.0 1.2

21 inHg 0.09 0.18 0.27 0.36 0.45 0.54 0.18 0.36 0.54 0.72 0.90 1.1 0.14 0.28 0.42 0.56 0.70 0.84 0.20 0.40 0.60 0.80 1.0 1.2

24 inHg

21 inHg 6.8 3.4 2.3 1.7 1.4 1.1 6.3 3.2 2.1 1.6 1.3 1.1 9.3 4.7 3.1 2.3 1.9 1.6 7.5 3.8 2.5 1.9 1.5 1.3

24 inHg

0.03 0.06 0.09 0.12 0.15 0.18 0.05 0.11 0.33 0.44 0.27 0.66 0.06 0.12 0.18 0.24 0.3 0.36

MODEL

SCFM X 28.32 = Nl/m Seconds/100 cu. in. X 0.61 = Sec./ Liter

EVACUATION TIME IN sec/100 cu-in MODEL C5L14 C5L28 C5L42 C5L56 C5L70 C5L84 C6E14 C6E28 C6E42 C6E56 C6E70 C6E84 C4M10 C4M20 C4M30 C4M40 C4M50 C4M60 C6M10 C6M20 C6M30 C6M40 C6M50 C6M60

AIR SUPPLY PSI 72 72 72 72 72 72 87 87 87 87 87 87 55 55 55 55 55 55 87 87 87 87 55 87

AIR CONS. SCFM 2.0 4.0 6.0 8.0 10.0 12.0 2.3 4.6 6.9 9.2 11.5 13.8 1.6 3.2 4.8 6.4 8.0 9.6 1.6 3.2 4.8 6.4 8.0 9.6

MAX VACUUM inHg 23.6 23.6 23.6 23.6 23.6 23.6 25.6 25.6 25.6 25.6 25.6 25.6 25.5 25.5 25.5 25.5 25.5 25.5 25.5 25.5 25.5 25.5 25.5 25.5

SECONDS TO VACUUM LEVEL 3 inHg 0.14 0.07 0.05 0.04 0.03 0.02 0.13 0.07 0.04 0.03 0.03 0.02 0.16 0.08 0.05 0.04 0.03 0.03 0.12 0.06 0.04 0.03 0.02 0.02

6 inHg 0.39 0.20 0.13 0.10 0.08 0.07 0.34 0.17 0.11 0.09 0.07 0.06 0.50 0.25 0.17 0.13 0.10 0.08 0.37 0.19 0.17 0.09 0.07 0.06

9 inHg 0.77 0.39 0.26 0.19 0.15 0.13 0.71 0.36 0.24 0.18 0.14 0.12 1.0 0.50 0.33 0.25 0.20 0.17 0.79 0.40 0.26 0.20 0.16 0.13

8:14

12 inHg 1.40 0.68 0.45 0.34 0.27 0.23 1.3 0.64 0.42 0.32 0.25 0.21 1.9 1.0 0.63 0.48 0.38 0.32 1.5 0.74 0.49 0.37 0.30 0.25

15 inHg 2.3 1.2 0.76 0.57 0.46 0.38 2.2 1.1 0.72 0.54 0.43 0.36 3.2 1.6 1.1 0.80 0.64 0.53 2.5 1.3 0.83 0.63 0.50 0.42

18 inHg 3.9 1.9 1.3 0.97 0.77 0.64 3.6 1.8 1.2 0.91 0.73 0.61 5.4 2.7 1.8 1.4 1.1 0.90 4.3 2.2 1.4 1.1 0.86 0.72

7.1 3.6 2.4 1.8 1.4 1.2 18.2 9.1 6.1 4.6 3.6 3.1 14.5 7.3 4.8 3.6 2.9 2.4

CLASSIC PUMPS

SECTION 9 CLASSIC PUMPS

9:1

CLASSIC PUMPS CLASSIC

CONTENTS

Basic Info How To Order Basic Pump Piloted Vacuum Supply Option (2PS) Piloted Vacuum Supply & Blow-Off Option (2PSB) Solenoid Controlled Vacuum Supply Option (2S24D & 2S110A) Solenoid Controlled Vacuum Supply & Blow-Off Option (2SB24D & 2SB110A) Energy Saver Option (2ES) Surface Mount Option (SM) Surface Mount Side Gauge Option (SMS) Release Check Option (RC) Quick Release - Timed Option (RT) Mounting Brackets Direct Interchange Mounts (FP & SP) Base With Coaxial Aligned Ports (6010 & 6034) Mini-Classic (-12) Performance

9:3 9:4 9:5 - 9:6 9:7 9:8 9:9 9:10 9:11 9:12 9:12 9:13 9:14 9:15 9:16 9:17 - 9:18 9:19 - 9:20 9:32 - 9:38

Basic Info How To Order Basic Piloted Vacuum Supply Option (PS) Solenoid Controlled Vacuum Supply Option (S24D & S110A) Performance

9:3 9:21 9:22 9:23 9:23 9:32 - 9:38

DUAL BASE

TRIPLE BASE Basic Info How To Order Basic Pump Piloted Vacuum Supply Option (PS) Solenoid Controlled Vacuum Supply Option (S24D & S110A) Piloted Variable Capacity Option (PV) Solenoid Controlled Variable Capacity Option (SV) Energy Saver Option (ES) Automatic Variable Capacity Option (AV) Piloted Release Option (RP) Solenoid Controlled Release Option (RS) Collected Exhaust Option (CE) Performance

9:3 9:21 9:24 9:25 9:25 9:26 9:26 9:30 9:30 9:31 9:31 9:31 9:32 - 9:38

QUAD BASE Basic Info How To Order Basic Pump Piloted Vacuum Supply Option (PS) Solenoid Controlled Vacuum Supply Option (S24D & S110A) Piloted Variable Capacity Option (PV) Solenoid Controlled Variable Capacity Option (SV) Energy Saver Option (ES) Automatic Variable Capacity Option (AV) Piloted Release Option (RP) Solenoid Controlled Release Option (RS) Collected Exhaust Option (CE) Performance

9:3 9:21 9:27 9:28 9:28 9:29 9:29 9:30 9:30 9:31 9:31 9:31 9:32 - 9:38

9:2

ÂŠ2012 EDCO USA. www.edcousa.net

CLASSIC PUMPS MULTI-STAGE PUMPS: PRINCIPLE OF OPERATION Exhaust

MULTI-EJECTOR Larger capacity vacuum pumps are created by placing identical nozzle sets in a parallel configuration, either in the same body or in a stacking module. Additional vacuum flow capacity is attained but maximum vacuum level is not affected since that is determined by the nozzle series. This method provides a specific repeatable increment of capacity increase that is very handy when sizing a pump for an application since the basic shape of the performance curve doesn’t change. Vacuum flow and air consumption is increased in proportion to the number of nozzle sets, and system evacuation time is decreased proportionately.

COMPRESSED AIR FLOW

INDUCED VACUUM FLOW

HIGH FLOW MODE

An air supply to the pump is turned on and high-pressure air flows thru the first nozzle, generating a vacuum flow when it passes into the second nozzle. As air is evacuated from the system, induced air flows into the vacuum port and is drawn into the first stage ejector (gap between first and second nozzles) and combines with the compressed air flow from the first nozzle before passing into the second stage ejector (gap between second and third nozzle). The powerful combined airflow induces a high vacuum flow rate thru the second stage ejector until the increasing vacuum level causes the flap check valve to close. The valve closing point is dependent on nozzle series (A, E, L, M, ML, or X) and the operating air pressure. For example at 87 psi the flap valve will close at 11” Hg for an ML-series pump and at 18” Hg for an E-series pump. This closing is evident by the change in slope of the performance curve.

HIGH VACUUM MODE

After the flap valve closes, induced air continues to be drawn into the first stage ejector and the vacuum level will increase to the maximum level allowed by the nozzle series. At this point the second stage is isolated and is not contributing to evacuation of the system. Some of our competitors offer three and four stage vacuum pumps but these provide very little benefit for industrial systems since a third stage will shut down at 3” Hg and a fourth stage will shut down at 1.5” Hg. EDCO nozzles are optimized to give extra vacuum flow at higher vacuum levels to more-than make up for lower flows from zero to 3” Hg. EDCO evacuation times to 12” Hg or higher will be equal or better than our competition. ©2012 EDCO USA. www.edcousa.net

2nd Stage: High Flow

9:3

1st Stage: High Vacuum Air Supply

EXHAUST FLOW

CLASSIC PUMPS: HOW TO ORDER CAPACITY

ML A E L ML ML MLSS X See chart below for information.

100 25 50 75 100 125 150 175 200 X SIZES 40 80 120 160 200 240 280 320

SEAL MATERIAL N E N S V VH See chart below for information.

SERIES CODE

DESCRIPTION

PORTS

PUMP STYLE

SB24D

(BLANK) ] NPTF G = BSPP

(Blank) = Basic Pump 6010 = 1" Aligned Style Base SERIES 6034 = 3/4" Aligned Style Base CODE 2ES = Energy Saver

PFC NR = Non-Return Valve

DESCRIPTION

2PS = Piloted Supply Valve

A Ultra-High Flow 2PSB = Piloted Supply & Blow-Off Valves 2OS24D = Supply Valve, 24VDC 2.3W, Normally Open E Ultra-High Flow 2OS110A = Supply Valve, 110V 50/60Hz, Normally Open 2OSB24D = Supply & Blow Valves, L 24VDC 2.3W, Normally High FlowOpen

2OSB110A = Supply & Blow Valves, 110V 50/60Hz, Normally Open M Normally Closed Low Pressure 2S24D = Supply Valve, 24VDC 2.3W, 2S110A = Supply Valve, 110V 50/60Hz, Normally Closed Multi-Characteristic 2SB24D = Supply & Blow Valves,ML 24VDC 2.3W, Normally Closed

2SB110A = Supply & Blow Valves, 110V 50/60Hz, Normally ML Venturi made Closed out of MLSS 316 Stainless Steel SM = Surface Mount w/ Top Gauge SMS = Surface Mount w/ Side Gauge X High Vacuum

MAX VACUUM inHG (-kPa)

SUPPLY PRESSURE psi (bar)

SEAL MATERIAL CODE

ELASTOMER Ethylene Propylene (EPDM) Nitrile (Buna-n)

Ultra-High Flow

27 (91.4)

87 (6)

Ultra-High Flow

26.7 (90.4)

87 (6)

High Flow

22.8 (77.2)

87 (6)

Silicone

Low Pressure

27.1 (91.8)

49 (3.4)

V¹

Multi-Characteristic

27.5 (93.1)

58 - 87 (4 - 6)

Fourocarbon (Viton)¹ Fourocarbon (Viton)¹

MLSS

ML Venturi made out of 316 Stainless Steel

27.5 (93.1)

58 - 87 (4 - 6)

High Vacuum

28.3 (95.8)

87 (6)

SEAL MATERIAL CODE E N

ELASTOMER Ethylene Propylene (EPDM) Nitrile (Buna-n)

Silicone

V¹

Fourocarbon (Viton)¹ Fourocarbon (Viton)¹

VH²

WORKING TEMPERATURE -4°F - 230°F -20°C - 110°C -4°F - 230°F -20°C - 110°C -100°F - 400°F -70°C - 205°C -40°F - 450°F 4°C - 230°C -40°F - 450°F 4°C - 230°C

VH²

OPTIONS

RT3 = Quick Release Timed PFC = 3/4" Filter & Elements SUPPLY PRESSURE MAX VACUUM SP3 =(-kPa) Side Mount psi (bar) inHG FP = Face Mount 27 (91.4) 87 (6) 3 Specify side "A" or side "B" when(90.4) ordering these 87 (6) 26.7 additions. 22.8 (77.2) 87 (6) 27.1 (91.8)

49 (3.4)

27.5 (93.1)

58 - 87 (4 - 6)

27.5 (93.1)

58 - 87 (4 - 6)

28.3 (95.8)

87 (6)

WORKING TEMPERATURE -4°F - 230°F -20°C - 110°C -4°F - 230°F -20°C - 110°C -100°F - 400°F -70°C - 205°C -40°F - 450°F 4°C - 230°C -40°F - 450°F 4°C - 230°C

COLOR Black Black Orange

¹For operating temperatures above 180°F (82.2°C).

Grey Grey

The pump will be assembled using high temperature sealant, metal end plugs, and will be supplied without exhaust silencer and vacuum gauge. Available for basic pumps only.

SERIES

²Viton is a registered trademark of Du Pont Dow Elastomers. ³Many pump styles and options can be combined. Call for more info.

COLOR Black Black Orange

BASIC

¹For operating temperatures above 180°F (82.2°C).

Grey Grey

2SB24D

2PSB

The pump will be assembled using high temperature sealant, metal end plugs, and will be supplied without exhaust silencer and vacuum gauge. Available for basic pumps only.

²Viton is a registered trademark of Du Pont Dow Elastomers. ³Many pump styles and options can be combined. Call for more info.

6034

2ES

9:4

CLASSIC PUMP 25-100 BASIC PUMP

TECHNICAL DATA SERIES

25 50 75 100

40 80 120 160

1.55 [39.4]

PORT CONNECTIONS CODE FUNCTION Standard (NPT) -G (BSPP) 1 Air Supply- Main 1/4 NPTF G1/4 BSPP 1A Alternate - Air Signal M5 x 0.8 (10-32) M5 x 0.8 (10-32) 2 Vacuum- Main 3/4 NPTF G3/4 BSPP 2A Vacuum- Alternate G1/8 NPSF G1/8 NPSF 3 Exhaust 3/4 NPTF G3/4 BSPP NPT ports are Standard, add suffix "-G" for optional BSPP ports.

2A 3

5.18 [132]

2.40 [61]

(739) (739) (739) (739)

4.77 [121] 5.42 [138] 5.60 [142]

3.54 [89.9]

0.0 0.22 [5.6] 1.00 [25.4] 1.15 [29.2]

4.12 [105]

1.24 [31.5] 2.32 [58.9] 2.48 [63] M4 x 0.7 6 Places

2A 2

Optional Non-Return

ÂŠ2012 EDCO USA. www.edcousa.net

1.63 1.63 1.63 1.63

0.0 0.17 [4.3]

1.41 [35.8]

1.82 [46.2]

1.81 [46] 2.49 [63] 2.60 [66]

0.69 [17.5]

0.0

0.36 [9.1] 0.23 [5.8] 0.36 [9.1] 0.0 0.0 M5 x 0.8 x 6mm 3 Places Both Sides

WEIGHT lb. (g)

0.15 [3.8]

1.47 [37.3]

0.0 0.43 [10.9]

2.73 [69.3]

A, E, L, M, ML CAPACITY

The pump is controlled via air supply through the pump base inlet port. Vacuum gauge and silencer included.

9:5

0.18 [4.5] Thru 4 Places

CLASSIC PUMP 125-200 BASIC PUMP

TECHNICAL DATA SERIES A, E, L, M, ML

200 240 280 320

WEIGHT lb. (g)

2.21 2.21 2.21 2.21

(1002) (1002) (1002) (1002)

0.15 [3.8]

1.55 [39.4]

2.18 [55.4]

2A 1

2.40 [61]

2A 2A

Optional Non-Return

4.77 [121] 5.42 [138] 5.60 [142]

3.54 [89.9]

2.73 [69.3]

1.82 [46.2]

0.0 0.22 [5.6] 1.00 [25.4] 1.15 [29.2]

4.12 [104.6]

0.0 0.17 [4.3] 1.24 [31.5]

5.18 [132]

1.41 [35.8]

0.36 [9.1] 0.23 [5.8] 0.36 [9.1] 0.0 0.0 M5 x 0.8 x 6mm 3 Paces Both Sides

0.0 0.43 [10.9]

1.81 [46] 2.49 [63] 2.60 [66]

0.69 [17.5]

0.0

125 150 175 200

CAPACITY

The pump is controlled via air supply through the pump base inlet port. Vacuum gauge and silencer included.

2.32 [58.9] 2.48 [63] M4 x 0.7 6 Places

9:6

0.18 [4.5] Thru 4 Places

ÂŠ2012 EDCO USA. www.edcousa.net

CLASSIC PUMP WITH SINGLE AIR PILOT CONTROL 2PS – PILOTED SUPPLY OPTION

TECHNICAL DATA

CAPACITY

The pump base contains an integral pilot operated 3-way air valve that controls vacuum on/off via a pneumatic pilot signal. When the pilot signal is present the vacuum pump turns on. When the pilot signal is exhausted, the pump turns off. Available in any nozzle series (A, E, L, M, ML or X). See chart for available capacities.

A, E, M 25 50 75 100 125 150 200

SERIES L, ML 25 50 75 100 125 150 200

WEIGHT lb. (g) 2.81 (1275) 2.81 (1275) 2.81 (1275) 2.81 (1275) 3.41 (1547) 3.41 (1547) 3.41 (1547)

X 40 80 120 160 200 240 320

"A" Dimension 1.96 (49.8) 1.96 (49.8) 1.96 (49.8) 1.96 (49.8) 2.67 (67.8) 2.67 (67.8) 2.67 (67.8)

1.32 [33.5]

Standard (NPT) 1/4 NPTF 3/4 NPTF G1/8 NPSF 3/4 NPTF G1/8 NPSF

7.21 [183]

0.12 [3] 0.0 0.21 [5.3] -G (BSPP) G1/4 BSPP G3/4 BSPP G1/8 NPSF G3/4 BSPP G1/8 BSPP

4.12 [104.6]

0.0 0.16 [4.1]

6.82 [173.2] 7.40 [188] 7.65 [194.3]

PORT CONNECTIONS

FUNCTION Air Supply Vacuum - Main Vacuum - Alternate Exhaust Pilot Signal - Air Control

M5 x 0.8 x 6mm 2 Places Both Sides

0.0 0.40 [10.2]

CODE 1 2 2A 3 4

0.89 [22.6] 0.21 [5.3] 0.0

0.62 [15.4] 0.0

1.94 [49.3]

2.60 [66]

0.52 [13.2] 0.49 [12.4] 0.0

1.60 [40.6]

4.78 [121.4]

9 A

0.15 [3.8]

4.78 [121.4]

Pilot Exhaust

Pilot for Vacuum Control

1.23 [31.2] 2.31 [58.7]

9:7

M4 x 0.7 4 Places

CLASSIC PUMP WITH DUAL AIR PILOT CONTROL

2PSB – PILOTED SUPPLY & BLOW-OFF OPTION WEIGHT lb. (g) 2.81 (1275) 2.81 (1275) 2.81 (1275) 2.81 (1275) 3.41 (1547) 3.41 (1547) 3.41 (1547)

"A" Dimension 1.96 (49.8) 1.96 (49.8) 1.96 (49.8) 1.96 (49.8) 2.67 (67.8) 2.67 (67.8) 2.67 (67.8)

Pilot for Vacuum Control

0.15 [3.8]

7.21 [183]

4.78 [121.4]

4.12 [104.6]

0.0 0.16 [4.1]

6.82 [173.2] 7.40 [188] 7.65 [194.3]

-G (BSPP) G1/4 BSPP G3/4 BSPP G1/8 NPSF G3/4 BSPP G1/8 BSPP

M5 x 0.8 x 6mm 2 Places Both Sides

0.0 0.40 [10.2]

Standard (NPT) 1/4 NPTF 3/4 NPTF G1/8 NPSF 3/4 NPTF G1/8 NPSF

X 40 80 120 160 200 240 320

1.60 [40.6]

0.52 [13.2] 0.89 [22.6] 0.49 [12.4] 0.21 [5.3] 0.0 0.0 Blow-Off Flow Control

PORT CONNECTIONS

FUNCTION Air Supply Vacuum - Main Vacuum - Alternate Exhaust Pilot Signal - Air Control

0.20 [5.1] 0.0 0.21 [5.3]

1.94 [49.3]

2.60 [66]

0.62 [15.4] 0.0

Pilot for Blow-Off Control

SERIES L, ML 25 50 75 100 125 150 200

4.78 [121.4]

Pilot Exhaust

CODE 1 2 2A 3 4

A, E, M 25 50 75 100 125 150 200

1.55 [39.4]

TECHNICAL DATA

CAPACITY

The pump base contains two pilot operated 3-way air valves that provide full pump control via two externally supplied pneumatic pilot signals. With a constant air supply to the pump base, one pilot signal controls vacuum pump on/off and the second pilot signal controls blow-off air to dissipate vacuum for faster system cycle time. Available in any nozzle series (A, E, L, M, ML or X). See chart for available capacities.

1.23 [31.2] 2.31 [58.7]

M4 x 0.7 4 Places

9:8

CLASSIC PUMP WITH SINGLE SOLENOID CONTROL

Order DIN T-9 Molded Cords Separately: 923-2M01 = Std. 2M 923-2M31 = L.E.D. 0-50V, 2M 923-2M81 = L.E.D.70-250V, 2M

2S24D & 2S110A – SOLENOID CONTROL OPTION

The pump base contains an integral pilot operated 3-way air valve that controls vacuum on/off via a solenoid pilot valve. When the solenoid valve is energized the vacuum pump turns on. When the solenoid valve is de-energized, the pump turns off. Available in any nozzle series (A, E, L, M, ML or X). See chart for available capacities.

CAPACITY

Pump Style -2S24D — 24 VDC, 2.3 W solenoid control valve. Pump Style -2S110A — 120 VAC, 60 Hz, (110 VAC, 50 Hz) 2.3 W solenoid control valve. For Normally Open: 2OS24D / 2OS110A

-G (BSPP) G1/4 BSPP G3/4 BSPP G1/8 NPSF G3/4 BSPP G1/8 BSPP

4.12 [104.6]

0.0 0.16 [4.1]

1.23 [31.2] 2.31 [58.7]

9:9

M4 x 0.7 4 Places

6.82 [173.2] 7.40 [188] 7.65 [194.3]

Standard (NPT) 1/4 NPTF 3/4 NPTF G1/8 NPSF 3/4 NPTF G1/8 NPSF

M5 x 0.8 x 6mm 2 Places Both Sides

4.78 [121.4]

PORT CONNECTIONS

"A" Dimension 1.96 (49.8) 1.96 (49.8) 1.96 (49.8) 1.96 (49.8) 2.67 (67.8) 2.67 (67.8) 2.67 (67.8)

7.21 [183]

0.12 [3] 0.0 0.21 [5.3]

0.62 [15.4] 0.0

1.94 [49.3]

WEIGHT lb. (g) 2.87 (1301) 2.87 (1301) 2.87 (1301) 2.87 (1301) 3.47 (1574) 3.47 (1574) 3.47 (1574)

4.78 [121.4]

2.01 [51.1] 1.20 [30.5] 0.89 [22.6 0.21 [5.3] 0.0

0.52 [13.2] 0.49 [12.4] 0.0

2.60 [66]

X 40 80 120 160 200 240 320

0.15 [3.8]

0.0 0.40 [10.2]

9 A

FUNCTION Air Supply Vacuum - Main Vacuum - Alternate Exhaust Pilot Signal - Air Control

SERIES L, ML 25 50 75 100 125 150 200

Solenoid for Vacuum Control

Pilot Exhaust

CODE 1 2 2A 3 4

A, E, M 25 50 75 100 125 150 200

N.O. Option Adaptor Plate Weight 0.02 (9.1) Thickness .225 [5.7]

1.55 [39.4]

TECHNICAL DATA

CLASSIC PUMP WITH DUAL SOLENOID CONTROL

2SB24D & 2SB110A – SOLENOID CONTROL OPTION

The pump base contains two pilot operated 3-way air valves that provide full pump control via two solenoid pilot valves. With a constant air supply to the pump base, one solenoid valve controls vacuum pump on/off and the second solenoid valve controls blow-off air to dissipate vacuum for faster system cycle time. Available in any nozzle series (A, E, L, M, ML or X). See chart for available capacities.

TECHNICAL DATA

CAPACITY

Pump Style -2SB24D — 24 VDC, 2.3 W solenoid control valve. Pump Style -2SB110A — 120 VAC, 60 Hz, (110 VAC, 50 Hz) 2.3 W solenoid control valve. For Normally Open: 2OSB24D / 2OSB110A

Order DIN T-9 Molded Cords Separately: 923-2M01 = Std. 2M 923-2M31 = L.E.D. 0-50V, 2M 923-2M81 = L.E.D.70-250V, 2M

A, E, M 25 50 75 100 N/A N/A 200

SERIES L, ML 25 50 75 100 125 150 200

X 40 80 120 160 200 240 320

WEIGHT lb. (g) 2.94 (1334) 2.94 (1334) 2.94 (1334) 2.94 (1334) 3.54 (1606) 3.54 (1606) 3.54 (1606)

"A" Dimension 1.96 (49.8) 1.96 (49.8) 1.96 (49.8) 1.96 (49.8) 2.67 (67.8) 2.67 (67.8) 2.67 (67.8)

N.O. Option Adaptor Plate Weight 0.02 (9.1) Thickness .225 [5.7]

-G (BSPP) G1/4 BSPP G3/4 BSPP G1/8 NPSF G3/4 BSPP G1/8 BSPP

7.21 [183]

4.12 [104.6] 6.82 [173.2] 7.40 [188] 7.65 [194.3]

Standard (NPT) 1/4 NPTF 3/4 NPTF G1/8 NPSF 3/4 NPTF G1/8 NPSF

M5 x 0.8 x 6mm 2 Places Both Sides

4.78 [121.4]

0.62 [15.4] 0.0

PORT CONNECTIONS

FUNCTION Air Supply Vacuum - Main Vacuum - Alternate Exhaust Pilot Signal - Air Control

1.20 [30.5] 0.89 [22.6] 0.21 [5.3] 0.0 Blow-Off Flow Control

4.78 [121.4]

CODE 1 2 2A 3 4

1.94 [49.3]

2.60 [66]

0.52 [13.2] 0.49 [12.3] 0.0

0.15 [3.8]

2.01 [51.1]

0.20 [5.8] 0.0 0.21 [5.3]

Solenoid for Blow-Off Control

0.0 0.40 [10.2]

Pilot Exhaust

Solenoid for Vacuum Control

1.32 [33.5]

0.0 0.16 [4.1] 1.23 [31.2] 2.31 [58.7] M4 x 0.7 4 Places

9:10

CLASSIC PUMP WITH PNEUMATIC ENERGY SAVER OPTION

2ES – ENERGY SAVER OPTION

TECHNICAL DATA SERIES

CAPACITY

The pump includes a non-return valve and an air piloted supply valve controlled via an adjustable pneumatic vacuum sensor. The vacuum sensor cycles the pump off when a preset vacuum level is achieved, and cycles the pump on when the vacuum level decreases from the preset level. A regulated air supply is connected to port 1 (Air Supply– Main), and the pump is controlled by a positive pilot signal to port 4 (Pilot Signal- Air Control). The energy saver control will operate only when the pilot signal is present. Best suited for non-porous or volume tank applications. Because of the nonreturn valve, a quick release valve (RC18A) or some other means should be provided for dissipating the vacuum.

WEIGHT

"A"

A, E, M 25

L, ML 25

X 40

lb. (g) 2.71 (1229)

DIMENSION 1.72 (43.7)

120

2.71 (1229)

1.72 (43.7)

150

240

100 125

200

150

2.71 (1229)

160 200

2.71 (1229) 3.34 (1501)

3.34 (1501)

320

3.34 (1501)

1.72 (43.7)

1.72 (43.7) 2.43 (61.7)

2.43 (61.7)

1 1A

2A 2A

Non-Return Installed

2.28 [57.9]

0.0

3.52 [89.4]

5.26 [133.6]

0.14 [3.6] 0.0

For futher details of pumps dimensions, see pages 9:7 - 9:10. CODE

PORT CONNECTIONS FUNCTION Standard (NPT)

-G (BSPP)

1 Air Supply- Main 1/4 NPTF G1/4 BSPP 1A Alternate - Air Signal M5 x 0.8 (10-32) M5 x 0.8 (10-32) 2 Vacuum- Main 3/4 NPTF G3/4 BSPP 2A Vacuum- Alternate G1/8 NPSF G1/8 NPSF 3 Exhaust 3/4 NPTF G3/4 BSPP 4 Pilot Signal - Air Control M5 x 0.8 (10-32) M5 x 0.8 (10-32) PE Pilot Exhaust M5 x 0.8 (10-32) M5 x 0.8 (10-32) NPT ports are Standard, add suffix "-G" for optional BSPP ports.

9:11

Pilot Exhaust

1.21 [30.7]

SURFACE MOUNT PUMPS

2.95 [74.9]

0.0

0.64 [16.3] A

3.31 [84.1] 2.95 [74.9]

1.33 [33.8]

The SM (Surface Mount) option features a pump base with 1/2 NPTF (G1/2 BSPP on “-G”) vacuum ports at three locations and a flat backside for panel mounting. One to three vacuum lines can be run directly from the pump base and any unused vacuum ports are simply plugged, which make this pump configuration ideal for robotic end-effectors.

0.0

SM – SURFACE MOUNT OPTION

1.55 [39.4]

0.15 [3.8]

2.95 [74.9]

2.17 [55.1] 0.47 [11.9] 0.24 [6.1] 0.0

SERIES A, E, L, M, ML 25 50 75 100 125 150 125 150

X 40 80 120 160 200 240 200 240

WEIGHT lb. (g) 2.27 (1030) 2.27 (1030) 2.27 (1030) 2.27 (1030) 3.05 (1383) 3.05 (1383) 3.05 (1383) 3.05 (1383)

CODE 1 1A 2 2A 3

FUNCTION

PORT CONNECTIONS STANDARD (NPTF)

Air Supply - Main Alternate - Air Signal Vacuum - Main Vacuum - Alternate Exhaust

1/4 NPTF M5 x 0.8 (10-32) 3/4 NPTF G1/8 NPSF 1/2 NPTF

9.72 [246.9]

4.25 [108]

0.64 [16.3] 1.21 [30.7]

0.0 CAPACITY

TECHNICAL DATA

0.88 [22.4]

3 0.0

0.0

1.04 [26.4]

-G (BSPP)

G1/4 BSPP M5 x 0.8 (10-32) G3/4 BSPP G1/8 NPSF G1/2 BSPP

NPT ports are Standard, add suffix “-G” for optional BSPP ports.

SMS – SURFACE MOUNT SIDE GAUGE OPTION The SMS (Surface Mount Side gauge) option features the same pump base as the SM option with a side mounted vacuum gauge (VG20-LM) for direct interchangeability with brand “V-C” including the mounting holes and end ports. Refer to the EDCO USA website for a complete “V-C” to EDCO USA interchange list. EDCO USA pump valves have 4.3 times the area of “V-C” valves for improved efficency and performance with any of our six nozzle series (A, E, L, M, ML, or X).

2A 1

2 2

5.55 [141]

Optional Non-Return

2 2 1 0.0

9:12

CLASSIC PUMP WITH RELEASE CHECK VALVE

The quick release check valve is used to admit a burst of compressed air into the vacuum pump base to quickly release a work piece and to momentarily reverse flow through the vacuum filter elements to provide a cleaning action. One 3-position exhaust center 4-way valve, or two separate air valves can be used to alternately supply compressed air to the vacuum pump and RC release check. NOTE: This page is for information purposes only. Order pump and Release Check Valve separate. RC18A can be found on page 4:7.

4 0.98 [24.9] 0.59 [15]

CODE

PORT CONNECTIONS FUNCTION Standard (NPT)

0.0 2A

-G (BSPP)

1 Air Supply- Main 1/4 NPTF G1/4 BSPP 1A Alternate - Air Signal M5 x 0.8 (10-32) M5 x 0.8 (10-32) 2 Vacuum- Main 3/4 NPTF G3/4 BSPP 2A Vacuum- Alternate G1/8 NPSF G1/8 NPSF 3 Exhaust 3/4 NPTF G3/4 BSPP 4 Air Supply- Quick Release G1/8 NPSF G1/8 NPSF NPT ports are Standard, add suffix "-G" for optional BSPP ports.

PUMP ON 2A

PUMP AIR SUPPLY QUICK RELEASE 4 QUICK RELEASE AIR SUPPLY, 5 psi MINIMUM

ÂŠ2012 EDCO USA. www.edcousa.net

1A 2A

2A 2A

Optional Non-Return

9:13

1.41 [35.8]

4.11 [104]

0.0

2.48 [63]

0.36 [9.1] 0.0

CLASSIC PUMP WITH QUICK RELEASE OPTION

RT – QUICK RELEASE - TIMED OPTION

Automatically admits an adjustable 0 to 5 second burst of compressed air into the vacuum pump base to quickly release a work piece whenever the pump air supply is turned off. A 60 - 100 psi (4.14 - 6.89 bar) maintained air supply to port 5 (Air Supply- Quick Release) is required.

SIDE

Option suffix -RTA — RT option mounted on A-side. Option suffix -RTB — RT option mounted on B-side.

SIDE

5 1.32 [33.5]

SIDE 2.42 [61.5] 1.96 [49.8]

0.63 [16]

2.64 [67.1]

0.0

3.78 [96]

3.16 [80.3]

2.48 [63]

0.0

RT Weight = 0.57 lbs (259 g) PORT CONNECTIONS

CODE

FUNCTION

Standard (NPT)

-G (BSPP)

1 Air Supply- Main 1/4 NPTF G1/4 BSPP 1A Alternate - Air Signal M5 x 0.8 (10-32) M5 x 0.8 (10-32) 2 Vacuum- Main 3/4 NPTF G3/4 BSPP 2A Vacuum- Alternate G1/8 NPSF G1/8 NPSF 3 Exhaust 3/4 NPTF G3/4 BSPP 4 Air Supply- Quick Release G1/8 NPSF G1/8 NPSF 5 Timed Pulse Output M5 x 0.8 (10-32) M5 x 0.8 (10-32) NPT ports are Standard, add suffix "-G" for optional BSPP ports.

2A 1

4 4

1A 2A

2A 2A

Optional Non-Return Pilot signal for duration of release pulse. Can be used for part ejection circuit.

9:14

CLASSIC PUMP MOUNTS

BASIC CLASSIC PUMP MOUNTING BRACKETS

The stainless steel mounting brackets attach at the side or end of any basic Classic vacuum pump. Straight (ML-BKT-180) and Right Angle (MLBKT-90) versions are available for many mounting possibilities. Dual hole patterns provide attachment to both metric and inch structural framing extrusion T-slots. Brackets and fastener kits must be ordered separately. ML-BKT-180 – 1 Straight Mounting Bracket ML-BKT-90 – 1 Right Angle Mounting Bracket MOUNTING BRACKET FASTENER KITS PUMP CAPACITY

CONTENTS

ML-M4-E1 25 - 100 (X40 - X160) ML-M4-E2 125 - 200 (X200 - X320) ML-M4-S1 25 - 100 (X40 - X160) ML-M4-S2 125 - 200 (X200 - X320)

2 - M4 x 10 & 2 - M4 x 30 Screws 2 - M4 x 10 & 2 - M4 x 50 Screws 2 - M4 x 50 Screws & 2 - M4 Nuts 2 - M4 x 70 Screws & 2 - M4 Nuts

END MOUNT

SIDE MOUNT 1.61 [40.9] 0.22 [5.6] for M5 1.39 [35.3] (3/16") Screw, 4 Places 1.14 [29]

1.72 [43.7]

KIT

1.50 [38.1] for 1-1/2" T-slots 0.18 [4.5] for M4 Screw, 4 Places

1.62 [41.1] 1.41 [35.8] 1.15 [29.2]

1.58 [40.1] for 40mm T-slots 2.15 [54.6] SIDE MOUNT

0.0

0.67 [17]

1.61 [40.9]

9:15

0.58 [14.7] 0.84 [21.3] 1.05 [26.7]

CLASSIC PUMP MOUNTS

BASIC CLASSIC PUMP DIRECT INTERCHANGE MOUNTS SP – SIDE MOUNT OPTION

The SP Option directly interchanges with the brand “P” MLD-series mounting dimensions.

—

A* A B

GAUGE POSITION* 3* SP

1 2 3 4 *See drawing for location and layout of these choices.

SIDE

“3”

0.62 [15.7] 0.25 [6.4] 0.0

WEIGHT = 0.40 lbs

M5 x 0.8 4 Places

Select a Basic Classic Pump Model

SIDE*

“4”

PUMP MODEL ML50N

0.75 [19.1]

7.5 [191] 7.26 [184] 6.88 [175]

“2”

HOW TO ORDER

0.75 [19.1]

“1”

Specify Gauge & Mounting Position To mount on the A-side with the gauge readable at position “3”: Add suffix -A3SP to the pump model code.

FP – FACE MOUNT OPTION

2.5 [63.5] 1.93 [49] T

0.25 [6.4]

“1”

PUMP MODEL ML50N Select a Basic Classic Pump Model

GAUGE MOUNTING POSITION* THREADS — 3* FP* 1 FP = M5 x 0.8 2 FP-14 = 1/4-20 UNC 3 4 *See drawing for layout of this item.

6.26 [159]

HOW TO ORDER

“2”

M5 x 0.8 1/4-20 UNC

7.01 [178]

FP FP-14

T THREAD

7.5 [191]

SUFFIX

“4”

The FP Option directly interchanges with the brand “P” MLD-series mounting dimensions. Specify Gauge Read Position & Mounting Threads To mount the gauge readable at position “3” with M5 x 0.8 Threads: Add suffix -3FP to the pump model code. To mount the gauge readable at position “3” with 1/4-20 UNC Threads: Add suffix -3FP-14 to the pump model code.

“3”

WEIGHT = 0.44 lbs 2.13 [54.1]

9:16

0.22 [5.6] Thru Hole 4 Places

CLASSIC PUMP PORT CONNECTIONS WITH COAXIAL EJECTORS

CODE FUNCTION BSPP 6010 BASE OPTIONSTANDARD - 1 INCHG1/4 PORTS 1 Air Supply 1/4 NPSF BSPP

1” Vacuum and Exhaust atNPSF oppositeG3/4 ends of the 2 Vacuum - Main ports3/4 BSPP base. The pump is controlled via air supply through the 2A Vacuum - Alternate 1/8 NPSF G1/8 BSPP inlet port. Vacuum gauge, silencer, and full-length T-slot 3 Exhaust 3/4 NPSF G3/4 BSP are included. PORT CONNECTIONS

FUNCTION

STANDARD

Air Supply Vacuum - Main Vacuum - Alternate Exhaust Exhaust Alternate

1.55 [33.5]

3A 3

0.0

M5X0.8 4 PLACES

0.44 [11.2] 2.01 [51.1] 5.83 [148.1]

0.0 0.22 [5.6]

4.12 [104.6]

Optional Non-Return

M5X0.8 4 PLACES

0.0 0.60 [15.2]

25 50 75 100 N/A N/A N/A N/A

25 50 75 100 125 150 175 200

40 80 120 160 200 240 280 320

WEIGHT lb. (g)

2.43 (1102) 2.43 (1102) 2.43 (1102) 2.43 (1102) 3.02 (1370) 3.02 (1370) 3.02 (1370) 3.02 (1370)

"A" Dimension 2.69 (68.3) 2.69 (68.3) 2.69 (68.3) 2.69 (68.3) 3.40 (86.4) 3.40 (86.4) 3.40 (86.4) 3.40 (86.4)

1.58 [40.1]

9:17

5.83 [148.1]

CAPACITY

A, E, M

SERIES L, ML

0.0 0.22 [5.6]

TECHNICAL DATA

0.0 0.0

0.0

1/4" [6mm] T-SLOT 0.94 [23.9]

6.05 [153.7]

2.46 [62.5]

0.0

1.93 [49] 1.57 [39.9] 1.09 [27.7] 0.49 [12.4] 0.0 4.92 [125]

0.94 [23.9]

1.24 [31.5]

0.0

G1/4 BSPP G1 BSPP G1/8 BSPP G3/4 BSPP G1/8 BSPP

0.15 [3.8]

BSPP

1/4 NPSF 1 NPSF 1/8 NPSF 3/4 NPSF 1/8 NPSF

2.92 [74.2]

1 2 2A 3 3A

0.81 [20.6] 1.42 [36.1]

CODE

CLASSIC PUMP WITH COAXIAL EJECTORS & SIDE PORTS 6034 BASE OPTION - 3/4 INCH PORTS

3/4” Vacuum and Exhaust ports at opposite ends of the base plus on one side. The pump is controlled via air supply through the inlet port. Vacuum gauge, silencer and full-length T-slot are included.

G1/4 BSPP G3/4 BSPP G1/8 BSPP G3/4 BSP

3 1/4" [6mm] T-SLOT 0.94 [23.9]

0.49 [12.4] 0.0

0.0

2.46 [62.5]

1.23 [31.2]

0.0

BSPP

G1/4 BSPP 1 G1 BSPP 1.93 G1/8 [49] BSPP 1.57 [39.9] G3/4 BSPP 1.09 [27.7] G1/8 BSPP

0.0

STANDARD

Air Supply 1/4 NPSF Vacuum - Main 2 1 NPSF Vacuum - Alternate 1/8 NPSF A Exhaust 3/4 NPSF 0.94 [23.9] Exhaust Alternate 1/8 NPSF

0.0

FUNCTION

1.23 [31.2]

PORT CONNECTIONS

6.05 [135.7]

1[3.8] 2 2A 3 3A

BSPP

1/4 NPSF 3/4 NPSF 1/8 NPSF 3/4 NPSF

492 [125]

CODE 0.15

STANDARD

Air Supply Vacuum - Main Vacuum - Alternate Exhaust

2.92 [74.2]

1 2 2A 3

PORT CONNECTIONS

FUNCTION

0.81 [20.6] 1.42 [36.1]

CODE

4.12 [104.6]

3 3

0.0 0.45 [11.4]

1.55 [33.5]

M5X0.8 4 PLACES

CAPACITY

A, E, M 25 50 75 100 N/A N/A N/A N/A

25 50 75 100 125 150 175 200

40 80 120 160 200 240 280 320

WEIGHT lb. (g)

2.58 (1170) 2.58 (1170) 2.58 (1170) 2.58 (1170) 3.17 (1438) 3.17 (1438) 3.17 (1438) 3.17 (1438)

"A" Dimension

1.58 [40.1]

2.69 (68.3) 2.69 (68.3) 2.69 (68.3) 2.69 (68.3) 3.40 (86.4) 3.40 (86.4) 3.40 (86.4) 3.40 (86.4)

9:18

5.83 [148.1]

TECHNICAL DATA

SERIES L, ML

M5X0.8 4 PLACES

0.0 0.60 [15.2]

0.0 0.22 [5.6]

Optional Non-Return

5.83 [148.1]

0.0 0.22 [5.6]

2.02 [51.3]

MINI-CLASSIC PUMPS WITH 1/2in. PORTS HOW TO ORDER

PUMP SEAL SIZE SERIES MATERIAL ML 50 N A 25 N = NITRILE E 50 V = VITON L X-SIZES M 40 ML 80 X

BASE –

12 12 = 1/2" NPT 12G = 1/2" BSPP

PORT CONNECTIONS CODE FUNCTION 12 12G 1 Air Supply- Main 1/4 NPTF G1/4 BSPP 2 Vacuum- Main 1/2 NPTF G1/2 BSPP 2A Vacuum- Alternate G1/8 NPSF G1/8 NPSF 3 Exhaust 1/2 NPTF G1/2 BSPP NPT ports are Standard, add suffix "-G" for optional BSPP ports.

2.79 [70.8] 2A

1.47 [35.5]

0.0

1.48 [37.6] 2A

Optional Non-Return

4.85 [123] 5.42 [138] 5.6 [142]

3.54 [89.9]

1.82 [46.2]

0.0

1.0 [25.4]

1.21 [30.7]

4.12 [105] 2.78 [71.6]

0.74 [18.8]

0.0

0.36 [9.1] 0.0

0.0 0.17 [4.2]

0.74 [18.8]

1.31 [33.4] 1.48 [37.6] M4 x 0.7 4 Places

9:19

0.18 [4.6] Thru 4 Places

MINI-CLASSIC PUMPS WITH 1/2in. PORTS HOW TO ORDER PUMP SERIES ML A E L M ML X

SIZE 100 100 X-SIZE

SEAL MATERIAL N

N = NITRILE V = VITON

BASE –

12 = 1/2" NPT 12G = 1/2" BSPP

160

3.23 [82]

1.9 [48.3] 1

0.0

1.48 [37.6]

0.74 [18.8]

0.0

0.36 [9.1] 0.0

4.85 [123] 5.42 [138] 5.6 [142]

3.54 [89.9]

2.78 [71.6]

1.82 [46.2]

1.0 [25.4]

0.0

1.21 [30.7]

4.12 [105]

0.0 0.17 [4.2]

0.74 [18.8]

Optional Non-Return

1.31 [33.4] 1.48 [37.6] M4 x 0.7 4 Places

9:20

0.18 [4.6] Thru 4 Places

MULTI-BASE CLASSIC PUMPS HOW TO ORDER

DUAL BASE PUMPS SERIES

SIZE

SEAL MATERIAL

200

A E L M ML MLSS X

E N S V¹ VH²

200 300 400 X SIZE 320 480 640

PORTS

PUMP STYLE³

(BLANK) = NPTF G = BSPP

OPTIONS NR

NR = Non-Return Valve

(BLANK) = Basic Pump PS = Piloted Supply Valve S24D = 24V DC Supply Valve S110A = 110V AC Supply Valve

TRIPLE, & QUAD BASE PUMPS BASE

SERIES

T = Triple Base Q = Quad Base

A E L M ML MLSS X

SIZE

SEAL MATERIAL

200

TRIPLE 200 300 400 500 600 700 800 900 QUAD 400 800 900 1000 1100 1200 X SIZE

TRIPLE 320 480 640 800 1120 1280 1440 QUAD 640 1280 1440 1600 1760 1920

SERIES CODE

DESCRIPTION

E N S V¹ VH²

PORTS

(BLANK) = NPTF G = BSPP

PUMP STYLE³ PS

(BLANK) = Basic Pump AV = Automatic Variable Capacity ES = Energy Saver PS = Piloted Supply S = Solenoid Supply PV = Piloted, Variable Capacity SV = Solenoid, Variable Capacity S24D = 24V DC Supply Valve S110A = 110V AC Supply Valve SV24D = 24V DC Variable Capacity SV110A = 110V AC Variable Capacity

CODE

DESCRIPTION

Ultra-High Flow

Order Molded Cords Separately: L 923-2M01 = Std. 2M 923-2M31 = L.E.D. 0-50V, 2MM 923-2M81 = L.E.D.70-250V, 2M ML

MAX VACUUM inHG (-kPa)

SUPPLY PRESSURE psi (bar)

Low Pressure

27.1 (91.8)

49 (3.4)

Multi-Characteristic

27.5 (93.1)

58 - 87 (4 - 6)

MLSS

ML Venturi made out of 316 Stainless Steel

27.5 (93.1)

58 - 87 (4 - 6)

High Vacuum

28.3 (95.8)

87 (6)

SEAL MATERIAL CODE

ELASTOMER Ethylene Propylene (EPDM) Nitrile (Buna-n)

26.7 (90.4)

87 (6)

High Flow

22.8 (77.2)

87 (6)

Silicone Fourocarbon (Viton)¹ Fourocarbon (Viton)¹

Low Pressure

27.1 (91.8)

49 (3.4)

V¹

Multi-Characteristic

27.5 (93.1)

58 - 87 (4 - 6)

VH²

MLSS

ML Venturi made out of 316 Stainless Steel

27.5 (93.1)

58 - 87 (4 - 6)

High Vacuum

28.3 (95.8)

87 (6)

N S

Silicone

WORKING TEMPERATURE -4°F - 230°F -20°C - 110°C -4°F - 230°F -20°C - 110°C -100°F - 400°F

Black Orange

WORKING TEMPERATURE -4°F - 230°F -20°C - 110°C -4°F - 230°F -20°C - 110°C -100°F - 400°F -70°C - 205°C -40°F - 450°F 4°C - 230°C -40°F - 450°F 4°C - 230°C

COLOR Black Black Orange

¹For operating temperatures above 180°F (82.2°C).

9:21

Grey Grey

The pump will be assembled using high temperature sealant, metal end plugs, and will be supplied without exhaust silencer and vacuum gauge. Available for basic pumps only.

²Viton is a registered trademark of Du Pont Dow Elastomers. ³Many pump styles and options can be combined. Call for more info.

COLOR Black

87 (6) 87 (6)

Ultra-High Flow

Nitrile (Buna-n)

87 (6)

22.8 (77.2)

Ethylene Propylene

27 (91.4)

High Flow

SUPPLY PRESSURE psi (bar)

Many pump styles and options can be Ultra-High combined. Call for26.7 more info. E Flow (90.4)

87 (6)

MAX VACUUM

inHG (-kPa) Viton is a registered trademark of Du Pont Dow Elastomers.

27 (91.4)

ELASTOMER

CE = Collected Exhaust NR = Non-Return Valve RP = Quick Release Piloted RS = Quick Release Solenoid

For operating temperatures above 180°F (82.2°C). The pump will be assembled using high temperature sealant, metal end plugs, and will be supplied without exhaust silencer and vacuum gauge. (Available for basic pumps only). SERIES

Ultra-High Flow

CODE

OPTIONS

SEAL MATERIAL

DUAL BASE PUMP

Dual-base pumps incorporate our "classic" pump modules in a very compact and cost-effective package. As always, our modular pump design allows field expan(260) and is available in sion of capacity, is fully10.23 repairable, 6.1 all (155) five nozzle series.

-15

-10

-0.4

-5

-0.2

BAR 0 X KPA

Both NPTF and BSPP bases are available. Refer to pump model code. Specifications & performance data on pages 9:30 – 9:36.

"Hg

3.0 76.2)

G3/4 NPS EXHAUST, 4 PLACES

3.40 [86.4]

0.15 [3.8]

10.22 [259.6]

1.55 [39.4]

6.10 [154.9]

G 3/4" NPS EXHAUST 4 PLACES STC34M SUPPLIED

5.7 (145)

G 1/2" NPS AIR SUPPLY

3.40 [86.4]

1-1/2" NPTF VACUUM

3.05 [77.5] M5X0.8 MOUNTING HOLES 4 PLACES

2.88 [73.2]

2A 3

5.70 [144.8]

SERIES

NR- OPTIONAL

E, L, M, ML 200 300 400

320 480 640

WEIGHT lb. (kg)

6.75 (3.1) 7.28 (3.3) 7.81 (3.5)

A LENGTH in. (mm)

4.97 (126.2) 5.68 (144.3) 6.39 (162.3)

9:22

DUAL BASE PUMP WITH CONTROL VALVES PS OPTION: PILOTED SUPPLY

1.47 [37.3]

G 1/8" NPSF AIR SIGNAL PORT

G 1/2" NPS AIR SUPPLY 0.32 [8.1]

S24D / S110A OPTIONS: SOLENOID SUPPLY

1.47 [37.3]

G 1/2" NPS AIR SUPPLY

MANUAL OVERRIDE PUSHBUTTON

0.32 [8.1]

FOUR STC34M EXHAUST SILENCERS SUPPLIED

9:23

0.86 [21.8] "A"

1.32 (33.5)

1.55 [39.4] "C"

Z 80

2.95 [74.9]

inHg

8 10 100 X KPA

PSI

-0.2

BAR 100 X KPA

100

4 2 BAR

-0.4

-1

-5

-25

-20

-15

-0.6

-0.8

120

"C"

2.95 (75)

"B"

2.95 [74.9]

6 PLACES

3 -10

"C"

1.55 Z [39.4]

140

0.15 1 [3.8]

"A"

"B"

4.61 [117.1]

"C" 7.92 "A" [201.2] "B" 1.55 [39.4] "C" 7.92 "C" [201.2] "B"

"A"

5.95 [151.9]

"B"

-30

1 0.15 [3.8]

4.61 [117.1]

Basic pump assembly has an air supply bypass plate for control via on/off air supply to the pump base inlet port. Includes air pressure gauge and vacuum gauge. NR= Non-Return Valve is installed between the base and the primary ejector cavity and is used to prevent cross flow between two vacuum pumps connected to the same system. A quick release option should always be considered whenever the NR option is specified since the vacuum can no longer dissipate through the ejector "B"vacuum "C" "B" nozzle. Do not"A" use"A" NR to trap in"C"a system where 0.15 the pumps are off and load holding safety is involved. [3.8]

7.92 [201.2] "B" 0.86 7.92 "A" (201) [21.8]

5.95 [151.9]

E,L,M,ML SIZES 200 TO 900 X SIZES 320 TO 1440

TRIPLE BASE PUMP BASIC

"A"

2.95 [74.9]

NR - OPTIONAL 3 PLACES

"A"

3 3 3

"B"

3 3

"C"

+ X

CODE 1 2 2A 3

PORT CONNECTIONS FUNCTION BLANK (NPTF)

Air Supply - Main Vacuum - Main Vacuum - Alternate Exhaust

3/4 NPTF 2 NPTF G1/8 NPSF 3/4 NPTF

-G (BSPP)

G3/4 BSPP G2 BSPP G1/8 BSPP G3/4 BSPP

X 2A

PUMP SIZE 200-300 400-600 700-900

Z 0.76 (19.3) 1.47 (37.3) 2.18 (55.3)

Size 300 (X480) WEIGHT = 11.9 lbs. (5.4 kg) For Larger sizes: Add 0.37 lbs. (0.16 kg) per pump module. CODE 1 2 2A

PORT CONNECTIONS FUNCTION BLANK (NPTF)

Air Supply - Main Vacuum - Main Vacuum - Alternate

3/4 NPTF 2 NPTF G1/8 NPSF

-G (BSPP)

G3/49:24 BSPP G2 BSPP G1/8 BSPP

ÂŠ2012 EDCO USA. www.edcousa.net

TRIPLE BASE PUMP PS & S OPTIONS

E,L,M,ML SIZES 200 TO 900 X SIZES 320 TO 1440 PS = Includes Piloted Supply Valve that is operated by one remote air pilot signal. This option requires a maintained air supply to the pump base OPTIONAL "RP", OR "RT" port. 1 QUICK - RELEASE (BLOW-OFF) VALVE.

S2.32= Includes Solenoid Supply Valve that is oper4.63 (118) 5.95remote (151) ated by one electric signal. This option (59) requires a maintained air supply to the pump base port.

2.33 2.33 [59.2] [59.2]

5.95 5.95 [151.9] [151.9]

OPTIONAL"RP" "RP"OR OR"RS" "RS" OPTIONAL QUICK-RELEASE QUICK-RELEASE (BLOW-OFF)VALVE VALVE (BLOW-OFF) 4.61 4.61 [117.1] [117.1]

7.92 7.92 44 [201.2] [201.2] "A,BB&&C" C" "A,

"A" 7.92 (201)

1.55 1.55 [39.4] [39.4]

"B"

"C"

1.32 (33.5)

0.15 0.15 [3.8] [3.8] CODE

11 1 2 2A 3

-15

-0.2

BAR

120

140

1 2 2A 3 4

11 16

20 BAR

PSI

PORT CONNECTIONS FUNCTION BLANK (NPTF)

Air Supply - Main 2A Vacuum - Main Vacuum - Alternate Exhaust Pilot Signal - Air Control

3/4 NPTF 2 NPTF G1/8 NPSF 3/4 NPTF 1/8 NPTF

2A 2A

SOLENOID SUPPLY

"A"

PILOTED SUPPLY

G3/4 BSPP G2 BSPP G1/8 BSPP G3/4 BSPP G1/8 BSPP

PUMP SIZE 200-300 400-600 700-900

Z 0.76 (19.3) 1.47 (37.3) 2.18 (55.3)

Size 300 (X480) WEIGHT = 13.5 lbs. (6.1 kg) For Larger sizes: Add 0.37 lbs. (0.16 kg) per pump module.

"B"

ONE VALVE CONTROLS FULL PUMP CAPACITY

"C"

+ X

-G (BSPP)

NR OPTIONAL

24VDC OR 110AC SOLENOID CONTROL

[74.9] [74.9]

inHg

10 100 X KPA

G3/4 BSPP G2 BSPP G1/8 BSPP G3/4 2.95 BSPP 2.95

3/4 NPTF 2 NPTF 6 PLACES 3 G1/8 NPSF 3/4 NPTF

-5

-25

-0.4

100

Air Supply - Main Vacuum - Main Vacuum - Alternate Exhaust 22

100 X KPA

-30 80

CODE

SOLENOID SOLENOID

"C" "C"

-10

-0.6

-0.8 -1

2.95 (75)

"B" "B"

PORT CONNECTIONS 1.56 1.56 ZZ [39.6] FUNCTION BLANK (NPTF) [39.6] -G (BSPP)

-20

"A" "A"

X 2A

9:25

TRIPLE BASE PUMP PV & SV OPTIONS

E,L,M,ML SIZES 200 TO 900 X SIZES 320 TO 1440 PV = Piloted Variable Capacity- Includes three air 1.62 1.62 piloted supply valves and non-return valves for indepen[41.1] [41.1] dent control of each station via separate remote pilot sig44 nals with a constant air supply to the pump base inlet port. With this option, one pump assembly can have up "A" "A" to 6 different capacities that can be selected to exactly suit the system requirements at any given time. A quick 44 release valve (RP, RS) should also be specified. When 7.92 "B" RP is used, the Pilot line is connected at the time of instal- 7.92 [201.2] [201.2] "B" lation to suit the application.

44 "C" "C" 1.55 1.55 [39.4] [39.4]

SOLENOID SOLENOID

"B"

0.15 0.15 [3.8] [3.8] CODE

"C"

1.32 (33.5)

PORT CONNECTIONS 1.56 1.56 FUNCTION BLANK (NPTF) [39.6] -G (BSPP) [39.6] Air Supply - Main 3/4 NPTF G3/4 BSPP Vacuum - Main 2 NPTF G2 BSPP Vacuum - Alternate G1/8 NPSF G1/8 BSPP Exhaust 3/4 NPTF G3/4 BSPP 2.95 2.95 22 [74.9] 6 PLACES [74.9]

1 11 2 2A 3

PORT CONNECTIONS FUNCTION BLANK (NPTF)

-15

-20

-0.6

-0.4 -0.2

-0.8 -1

140

BAR

100 X KPA

100

PSI

Air Supply - Main Vacuum - Main Vacuum - Alternate 2A Exhaust Pilot Signal - Air Control

inHg

120

100 X KPA

-30

1 2 2A 3 4

BAR

-5

-25

-10

CODE 2.95 (75)

5.95 5.95 [151.9] [151.9]

SOLENOID VARIABLE

PILOTED VARIABLE

3/4 NPTF 2 NPTF G1/8 NPSF 3/4 NPTF 1/8 NPTF

SV = Solenoid Variable Capacity- Includes three solenoid supply valves and non-return valves for independent control of each station viaOPTIONAL separate "RP", OR "RT"remote pilot signals - RELEASE 1 with a constant air supplyQUICK to the pump base inlet port. (BLOW-OFF) VALVE. With this option, one pump assembly can have up to 6 1.63 4.63 (118) 5.95 (151) (41.4) different capacities that can be selected to exactly suit the 4 system requirements at any given time. A quick release valve (RP, RS) should also be specified. When RP is "A" used, the Pilot line is connected at the time of installation 7.92 (201) to suit the application. "A" "B" "C" "A" "B" "C"

OPTIONAL OPTIONAL "RP" "RP" OR OR "RS" "RS" QUICK-RELEASE QUICK-RELEASE (BLOW-OFF) (BLOW-OFF) VALVE VALVE 4.61 4.61 [117.1] [117.1]

2A 2A

-G (BSPP)

G3/4 BSPP G2 BSPP G1/8 BSPP G3/4 BSPP G1/8 BSPP

PUMP SIZE 200-300 400-600 700-900

Z 0.76 (19.3) 1.47 (37.3) 2.18 (55.3)

NR INSTALLED 3 PLACES

"A"

3 3

"B"

3 3 4 S24D OR S110A SOLENOID CONTROL

"C"

Size 300 (X480) WEIGHT = 13.5 lbs. (6.1 kg) For Larger sizes: Add 0.37 lbs. (0.16 kg) per pump module.

THREE VALVES INDEPENDENTLY CONTROL EACH STATION TO VARIABLY SELECT PUMP CAPACITY

X 2A

9:26

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"A"

QUAD BASE PUMP BASIC

"B" 10.52 [267.2] 0.86

E,L,M,ML SIZES 400 TO 1200 X SIZES 640 TO 1920

10.52 (267)"A"

Basic Pump assembly has an air supply bypass plate for control via on/off air supply to the pump base inlet port. Includes air pressure gauge and vacuum gauge.

"C"

"D"

NR= Non-Return Valve is installed between the base and the primary ejector cavity and is used to prevent cross flow between two vacuum pumps connected to the same system or to allow NR equipped pump stations to be cycled on/off (PV). A quick release should always be"D" considered "A" option"B" "C" 0.15 whenever the NR option is specified since the vacuum can [3.8] no longer dissipate through the ejector nozzle. Do not use NR to trap vacuum in a system where the pumps are off and load holding safety is involved. 1"A" "B" "C" "D"

4.61 [117.1]

5.95"B" [151.9]

[21.8] "C"

"B"1.55 10.52 [34.9] [267.2]

"D"

"C" 1.32 (33.5)

"D"

3 8 PLACES 3

2.95 1.55 [74.9] [34.9]

-25

2.95 [74.9]

100 6

140

11 BAR 100 X KPA

PSI

-5

-0.2

inHg

120

2.950 (75)

-0.4

BAR 100 X KPA

"D"

-30

"B"

-1

0.15 [3.8]

"A"

2 "C"

-10

-20

-15 -0.6

-0.8

NR - OPTIONAL 3 PLACES

"A" 3 3

"B"

3 3 3

"C"

3 3 3

"D" + X

CODE 1 2 2A 3

PORT CONNECTIONS FUNCTION BLANK (NPTF)

Air Supply - Main Vacuum - Main Vacuum - Alternate Exhaust

3/4 NPTF 2 NPTF G1/8 NPSF 3/4 NPTF

-G (BSPP)

G3/4 BSPP G2 BSPP G1/8 BSPP G3/4 BSPP

Size 300 (X480) WEIGHT = 11.9 lbs. (5.4 kg) For Larger sizes: Add 0.37PORT lbs. (0.16 kg) per pump module. CONNECTIONS CODE

FUNCTION

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1 2

Air Supply - Main Vacuum - Main

BLANK (NPTF) 3/4 NPTF 2 NPTF

9:27

-G (BSPP)

G3/4 BSPP G2 BSPP

X 2A

PUMP SIZE 400 500-800 900-1200

Z 0.76 (19.3) 1.47 (37.3) 2.18 (55.3)

QUAD BASE PUMP PS & S OPTIONS

2.33 [59.2] 2.33 [59.2]

E,L,M,ML SIZES 400 TO 1200 X SIZES 640 TO 1920 PS= Includes two Piloted Supply Valves that are operated simultaneously by one remote air pilot signal at port 4. This option requires a maintained air supply to the pump base port. S= Includes two Solenoid Supply Valves that are operated simultaneously by one electric signal. This option requires a maintained air supply to the pump base port.

OPTIONAL "RP" OR "RS" QUICK-RELEASE (BLOW-OFF) VALVE OPTIONAL "RP" OR "RS" 4.61 QUICK-RELEASE (BLOW-OFF) [117.1] VALVE 4.61 [117.1]

5.95 1[151.9] 5.95 [151.9]

4 "A & 4B" 10.52 "A & B" [267.2] 10.52 "C & D" [267.2]

"C & 4D"

4 1.55 [34.9] 1.55 [34.9]

0.15 [3.8] CODE 0.15 1 1 [3.8] 2 12A 3

CODE 1 2 2A 3 4

"A"

"B"

"C"

SOLENOID

"D"

PORT CONNECTIONS "B" "C" "D" FUNCTION BLANK (NPTF)

Air Supply - Main Vacuum - Main Vacuum - Alternate Exhaust 2

3/4 NPTF 2 NPTF G1/8 NPSF 3/4 NPTF

2 PORT CONNECTIONS FUNCTION BLANK (NPTF)

Air Supply - Main Vacuum - Main Vacuum - Alternate Exhaust Pilot Signal - Air Control

3/4 NPTF 2 NPTF G1/8 NPSF 3/4 NPTF 1/8 NPTF

SOLENOID 1.56-G (BSPP) Z [39.6] G3/4 BSPP 1.56 Z [39.6] G2 BSPP G1/8 BSPP G3/4 BSPP 2.95 [74.9] 2 2.95 [74.9] 2

"A"

2A 2A

-G (BSPP)

G3/4 BSPP G2 BSPP G1/8 BSPP G3/4 BSPP G1/8 BSPP

PUMP SIZE 400 500-800 900-1200

Z 0.76 (19.3) 1.47 (37.3) 2.18 (55.3)

Size 400 (X640) WEIGHT = 16.94 lbs. (7.7 kg) For Larger sizes : Add 0.37 lbs. (0.16 kg) per pump module.

9:28

QUAD BASE PUMP PV & SV OPTIONS

E,L,M,ML SIZES 400 TO 1200 X SIZES 640 TO 1920 PV= Piloted Variable Capacity- Includes four air piloted supply valves and non-return valves for independent control of each station via separate remote pilot signals with a constant air supply to the pump base inlet port. With this option, one pump assembly can have up to 9 different capacities that can be selected to exactly suit the system requirements at any given time. A quick release valve (RP, RS) should also be specified. When RP is used, the Pilot line is connected at the time of installation to suit the application.

0.15 [3.8] CODE 11

2 2A 3

"B"

"C"

4 4 "B"

10.52 [267.2]

"C"

4 4 "D"

1.55 [34.9]

"D"

SOLENOID

PORT CONNECTIONS FUNCTION BLANK (NPTF)

Air Supply - Main Vacuum - Main Vacuum - Alternate Exhaust

5.95 [151.1]

"A"

SV= Solenoid Variable Capacity- Includes four solenoid supply valves and non-return valves for independent control of each station via separate remote pilot signals with a constant air supply to the pump base inlet port. With this option, one pump assembly can have up to 9 different capacities that can be selected to exactly suit the system requirements at any given time. A quick release valve (RP, RS) should also be specified. When RP is used, the Pilot line is connected at the time of installation to suit the application. "A"

1.62 [41.1]

3/4 NPTF 2 NPTF G1/8 NPSF 3/4 NPTF

1.56 -G (BSPP) [39.6] G3/4 BSPP G2 BSPP G1/8 BSPP G3/4 BSPP

CODE 1 2 2A 3 4

PUMP SIZE 400 500-800 900-1200

3/4 NPTF 2 NPTF G1/8 NPSF 3/4 NPTF 1/8 NPTF

Z 0.76 (19.3) 1.47 (37.3) 2.18 (55.3)

Size 300 (X480) WEIGHT = 11.9 lbs. (5.4 kg) For Larger sizes: Add 0.37 lbs. (0.16 kg) per pump module.

ÂŠ2012 EDCO USA. www.edcousa.net

PORT CONNECTIONS FUNCTION BLANK (NPTF)

Air Supply - Main Vacuum - Main Vacuum - Alternate Exhaust Pilot Signal - Air Control

OPTIONAL "RP" OR "RS" QUICK-RELEASE (BLOW-OFF) VALVE 4.61 [117.1]

9:29

-G (BSPP)

G3/4 BSPP G2 BSPP G1/8 BSPP G3/4 BSPP G1/8 BSPP

NR INSTALLED 3 PLACES

TRIPLE & QUAD BASE PUMP ES & AV OPTIONS Energy Saver assembly includes Non-return Valves and Air Pilot Supply Valves controlled via one adjustable Pneumatic Vacuum Sensor to cycle the entire pump off when a preset vacuum level is achieved and back on when the vacuum level decreases. Primary pump control is via one remote air pilot signal with a maintained air supply to the pump base inlet port. Suited for non-porous or volume tank applications. A Quick Release valve (RP, RS) should also be specified.

3 3

"B"

"C" +

3 3 3

"B"

"C"

+ X

AV - AUTOMATIC VARIABLE CAPACITY

For Dimensions, refer to Triple-PS on page 9:23 or to Quad- PS on page 9:26

"A"

For Dimensions, refer to Triple-PS on page 9:23 or to Quad- PS on page 9:26

Automatic Variable Capacity configuration where Air Pilot Valves are controlled via one remote air pilot signal plus adjustable Pneumatic Vacuum Sensors to switch on/off sections of the pump as required by the sensor settings. One station of a triple and two stations of a quad pump remain active at all times. Non- return valves are included and a Quick Release valve (RP, RS) should be specified. Suited for both porous and non-porous applications or for any application where the system duty cycle includes high flowrate "roughing" plus long holding periods of high vacuum with lower flow rate requirement. Leakage or porosity losses during high vacuum phase are compensated for by the stations remaining active.

NR INSTALLED 3 PLACES

NR INSTALLED, 4 PLACES

ES - ENERGY SAVER OPTION

"A"

"A" 3 3 1

"B"

NR INSTALLED, 4 PLACES

"A"

"C"

3 3

"B"

"D" +

3 3 3 3

"C"

3 3

"D" + -

9:30

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PILOTED RELEASE VALVE (RP) SOLENOID RELEASE VALVE (RS) RP = Quick Release Piloted: 2-way valve is controlled via remote air pilot signal. Used to admit a burst of compressed air into the base vacuum chamber to quickly release a work piece, and to momentarily reverse flow through filter elements to provide a cleaning action. This option requires a maintained air supply to the pump base inlet port.

3 3 VACUUM "ON" PILOT SIGNAL

+ X 2A

VACUUM RELEASE (BLOW-OFF) PILOT SIGNAL

G 1/8" NPSF PILOT PORT

RS = Quick Release Solenoid: 2-way valve is controlled via solenoid valve. Used to admit a burst of compressed air into the base vacuum chamber to quickly release a work piece, and to momentarily reverse flow through filter elements to provide a cleaning action. This option requires a maintained air supply to the pump base inlet port. WEIGHT = 0.53 lbs. (0.24 kg)

AIR SUPPLY 9

AIR SUPPLY

CAPTURED EXHAUST OPTION (CE) CAPTURED EXHAUST OPTION: To specify add suffix "CE" to pump model code. Use with 3" (75MM) I.D. Hose. Add 0.86 lbs. (0.39 kg) to total pump weight.

2.96 [75.2]

TRIPLE BASE

2.96 [75.2]

QUAD BASE ÂŠ2012 EDCO USA. www.edcousa.net

9:31

2.96 [75.2]

HOW TO USE THE GRAPH

VACUUM FLOW RATE:

When pump size, operating pressure, and desired vacuum level is known:

EXAMPLE: ML75 Pump @ 72 psi Air Pressure.

1.) From the performance graph, read the flow index at the intersection of performance curve with selected vacuum level line. 2.) Multiply flow index by pump scale to get SCFM flow rate at selected vacuum level.

What is vacuum flow rate at 6 inHG?

AIR CONSUMPTION:

When pump size and operating pressure is known:

1.) From the lower chart, read the consumption index next to the air supply pressure 2.) Multiply air consumption index by pump scale to get SCFM air consumption.

1.) At intersection of 6 inHG and 72 psi curve, flow index = 4.1 2.) Pump Scale = 3 for size 75 pumps. Vacuum flow = 4.1 X 3 = 12.3 SCFM

EXAMPLE: ML75 Pump @ 72 psi Air Pressure. 1.) Consumption index = 3.5 at 72 psi 2.) Pump Scale = 3 for size 75 pumps. Vacuum flow = 3.5 X 3 = 10.5 SCFM

SELECT A VACUUM PUMP: 1.) From the performance graph, read the flow index at the intersection of performance curve with selected vacuum level line. 2.) Divide required flow rate by the flow index to obtain a minimum pump scale. 3.) Refer to the pump scale chart to select the next larger pump size. This is the smallest pump that will produce the required flow rate at the desired vacuum level.

SYSTEM EVACUATION TIME:

1.) Calculate the total system volume in cubic inches by adding together the internal volumes of all system components. 2.) From the chart, find the evacuation time index for the required system vacuum level at the desired pump operating pressure. 3.) Multiply the time index by pump scale X 1000 to obtain system evacuation time in seconds.

PUMP SPECIFICATIONS: GENERAL:

Maximum air supply pressure: 100 psi. Weight: See individual pump pages. Sound pressure level: • ML = 60 - 65 dBA • TML, QML = 70 - 75 dBA

EXAMPLE: System requires 3.3 SCFM at 15 inHG with 60 psi pump operating pressure. 9

When vacuum flow rate at a particular level is known:

1.) At intersection of 15 inHG and 60 psi curve, flow index = 1.0 2.) Minimum Pump Scale = 3.3 / 1 = 3.3 3.) From the pump scale chart, the next larger pump scale is 4, which is a size 100 pump that will flow 4 SCFM at 15 inHG for 21% extra capacity. Depending on system variables such as porosity, a larger factor of safety may be desirable.

EXAMPLE: For a system volume of 120 in3 a vacuum level of 15 inHG and ML50 pump at 72 psi 1.) From charts, Pump Scale = 2 Evacuation Time Index = 6.6 2.) Time = 120 x 6.6/2 X 1000 = 0.4 seconds

MATERIAL: Structural parts: • 6061 Anodized Aluminum • Stainless Steel Fasteners Valve Plates: Type 304 Stainless Steel Ejectors: CA360 Brass Nozzles, Delrin Plugs Silencers: PVC, Urethane

9:32

Vacuum Flow Index (scfm/pump scale)

PUMP PERFORMANCE 8

Vacuum Flowrate vs. Vacuum Level for EDCO USA ML-series Pumps

87 72

7 60 6

Graphed data was obtained from actual EDCO pump tests and should be representative of production pumps in the series. Tests were performed at 29.9 inHg barometric pressure and your local barometric pressure will affect pump performance proportionately.

When comparing EDCO vacuum pumps to other brands, please conduct your own tests. We have found that their catalog data often overstates performance and understates air consumption.

60 0

Vacuum Level (inHg)

SCALE FOR ML SERIES PUMPS ML SCALE

25 1

50 2

75 3

100 4

125 5

150 6

175 7

200 8

300 12

400 16

500 20

600 24

700 28

800 32

900 36

1000 40

1100 44

1200 48

SCFM X 28.32 = Nl/m Seconds/1000 cu. in. X .061 = Sec./ Liter

AIR CONSUMPTION MAX SUPPLY INDEX VACUUM PSI SCFM inHg 3 inHg 87 72 60

4.0 3.5 3.0

ÂŠ2012 EDCO USA. www.edcousa.net

27.5 26.8 23.6

0.35 0.36 0.39

EVACUATION TIME INDEX SECONDS TO EVACUATE 1000 IN3 TO VACUUM LEVEL 6 inHg 0.87 0.93 1.1

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 26 inHg

9:33

1.7 1.9 2.9

3.3 3.8 4.3

5.9 6.6 7.5

10.2 11.4 12.9

18.4 20.2 29.3

35.8 39.5

64 70

Vacuum Flowrate vs. Vacuum Level for EDCO USA A, E, M, L and X-series Pumps

A2 @

0@ X4

PS I

P 87 SI

5@ M2

P 49

Vacuum Flow Index (scfm/pump scale)

PUMP PERFORMANCE

When comparing EDCO vacuum pumps to other brands, please conduct your own tests. We have found that their catalog data often overstates performance and understates air consumption.

L25 @ 87

PS 9

Vacuum level (inHg)

SCALE FOR A, E, L, M & X SERIES PUMPS A, E, L & M X SCALE

25 40 1

50 80 2

75 120 3

100 160 4

125 200 5

150 240 6

175 280 7

200 320 8

300 480 12

400 640 16

500 800 20

600 960 24

700 1120 28

800 1280 32

900 1440 36

1000 1600 40

1100 1760 44

1200 1920 48

SCFM X 28.32 = Nl/m Seconds/1000 cu. in. X .061 = Sec./ Liter PUMP SERIES A E L M X

AIR CONSUMPTION MAX SUPPLY INDEX VACUUM PSI SCFM inHg 3 inHg 87 87 87 49 87

6.8 6.8 4.0 4.3 5.4

27.1 26.7 22.8 27.1 28.3

0.31 0.4 0.44 0.48 0.4

EVACUATION TIME INDEX

SECONDS TO EVACUATE 1000 IN3 TO VACUUM LEVEL 6 inHg 0.75 0.99 1.04 1.18 1.0

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 26 inHg 1.4 1.8 1.9 2.3 2.0

9:34

2.5 3.0 3.6 4.2 3.6

4.3 5.09 6.34 7.36 6.4

7.4 8.7 10.8 12.7 11.1

13.2 15.6 19.3 22.5 19.6

25.6 30.6

45 56

43.7 38

77 67

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QUICK REFERENCE VACUUM FLOW RATE SCFM X 28.32 = Nl/m

AIR MODEL SUPPLY PSI E25 87 E50 87 E75 87 E100 87 E125 87 E150 87 E175 87 E200 87 E300 87 L25 87 L50 87 L75 87 L100 87 L125 87 L150 87 L175 87 L200 87 L300 87 M25 49 M50 49 M75 49 M100 49 M125 49 M150 49 M175 49 M200 49 M300 49 ML25 87 ML50 87 ML75 87 ML100 87 ML125 87 ML150 87 ML175 87 ML200 87 ML300 87 X40 87 X80 87 X120 87 X160 87 X200 87 X240 87 X280 87 X320 87 X480 87

AIR CONS. SCFM 6.8 13.6 20.4 27.2 34.0 40.8 47.6 54.4 81.6 4.0 8.0 12.0 16.0 20.0 24.0 28.0 32.0 48.0 4.3 8.6 12.9 17.2 21.5 25.8 30.1 34.4 51.6 4.0 8.0 12.0 16.0 20.0 24.0 28.0 32.0 48.0 5.4 10.8 16.2 21.6 27.0 32.4 37.8 43.2 64.8

MAX VACUUM inHg 3 inHg 26.7 6.24 26.7 12.5 26.7 18.7 26.7 25.0 26.7 31.2 26.7 37.4 26.7 43.7 26.7 49.9 26.7 74.9 22.8 5.57 22.8 11.1 22.8 16.7 22.8 22.3 22.8 27.9 22.8 33.4 22.8 39.0 22.8 44.6 22.8 66.8 27.1 5.32 27.1 10.6 27.1 16.0 27.1 21.3 27.1 26.6 27.1 31.9 27.1 37.2 27.1 42.6 27.1 63.8 27.5 7.17 27.5 14.3 27.5 21.5 27.5 28.7 27.5 35.9 27.5 43.0 27.5 50.2 27.5 57.4 27.5 86.0 28.3 6.33 28.3 12.7 28.3 19.0 28.3 25.3 28.3 31.7 28.3 38.0 28.3 44.3 28.3 50.6 28.3 76

SCFM AT VACUUM LEVEL (inHg) 6 inHg 5.44 10.9 16.3 21.8 27.2 32.6 38.1 43.5 65.3 4.63 9.26 13.9 18.5 23.2 27.8 32.4 37.0 55.6 4.05 8.1 12.2 16.2 20.3 24.3 28.4 32.4 48.6 5.12 10.2 15.4 20.5 25.6 30.7 35.8 41.0 61.4 4.89 9.78 14.7 19.6 24.5 29.3 34.2 39.1 58.7

9 inHg 4.67 9.34 14.0 18.7 23.4 28.0 32.7 37.4 56.0 3.15 6.30 9.45 12.6 15.8 18.9 22.0 25.2 37.8 2.55 5.1 7.65 10.2 12.8 15.3 17.9 20.4 30.6 2.91 5.82 8.73 11.6 14.6 17.5 20.4 23.3 34.9 2.73 5.46 8.19 10.9 13.7 16.4 19.1 21.8 32.8

9:35

12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 26 inHg 27 inHg 3.3 1.98 0.6 0.29 0.11 0.012 6.6 3.96 1.2 0.58 0.22 0.024 9.9 5.94 1.8 0.87 0.33 0.036 13.2 7.92 2.4 1.16 0.44 0.048 16.5 9.9 3.0 1.45 0.55 0.06 19.8 11.9 3.6 1.74 0.66 0.072 23.1 13.9 4.2 2.03 0.77 0.084 26.4 15.8 4.8 2.32 0.88 0.096 39.6 23.8 7.2 3.48 1.32 0.14 1.8 1.37 1.06 0.74 3.6 2.74 2.12 1.48 5.4 4.11 3.18 2.22 7.2 5.48 4.24 2.96 9.0 6.85 5.3 3.7 10.8 8.22 6.36 4.44 12.6 9.59 7.42 5.18 14.4 11.0 8.48 5.92 21.6 16.4 12.7 8.88 1.24 0.9 0.61 0.38 0.15 0.03 2.48 1.8 1.22 0.76 0.3 0.06 3.72 2.7 1.83 1.14 0.45 0.09 4.96 3.6 2.44 1.52 0.6 0.12 6.2 4.5 3.05 1.9 0.75 0.15 7.44 5.4 3.66 2.28 0.9 0.18 8.68 6.3 4.27 2.66 1.05 0.21 9.92 7.2 4.88 3.04 1.2 0.24 14.9 9.72 7.32 4.56 1.8 0.36 1.27 0.84 0.51 0.34 0.16 0.06 0.017 2.54 1.68 1.02 0.68 0.32 0.12 0.034 3.81 2.52 1.53 1.02 0.48 0.18 0.051 5.08 3.36 2.04 1.36 0.64 0.24 0.068 6.35 4.2 2.55 1.7 0.8 0.3 0.085 7.62 5.04 3.06 2.04 0.96 0.36 0.102 8.89 5.88 3.57 2.38 1.12 0.42 0.119 10.2 6.72 4.08 2.72 1.28 0.48 0.136 15.2 10.1 6.12 4.08 1.92 0.72 0.20 1.4 0.9 0.61 0.5 0.33 0.15 0.067 2.8 1.8 1.22 1.0 0.66 0.3 0.134 4.2 2.7 1.83 1.5 0.99 0.45 0.201 5.6 3.6 2.44 2.0 1.32 0.6 0.268 7.0 4.5 3.05 2.5 1.65 0.75 0.335 8.4 5.4 3.66 3.0 1.98 0.9 0.402 9.8 6.3 4.27 3.5 2.31 1.05 0.469 11.2 7.2 4.88 4.0 2.64 1.2 0.536 16.8 10.8 7.32 6.0 3.96 1.8 0.8

QUICK REFERENCE EVACUATION TIME sec. / ft3 X 35.32 = sec. / m3

MAX VACUUM inHg 3 inHg 26.7 0.7 26.7 0.35 26.7 0.23 26.7 0.18 26.7 0.14 26.7 0.12 26.7 0.1 26.7 0.088 26.7 0.058 22.8 0.8 22.8 0.4 22.8 0.27 22.8 0.2 22.8 0.16 22.8 0.13 22.8 0.11 22.8 0.1 22.8 0.07 27.1 0.83 27.1 0.42 27.1 0.28 27.1 0.21 27.1 0.17 27.1 0.14 27.1 0.12 27.1 0.1 27.1 0.069 27.5 0.6 27.5 0.3 27.5 0.2 27.5 0.15 27.5 0.12 27.5 0.1 27.5 0.086 27.5 0.075 27.5 0.05 28.3 0.69 28.3 0.35 28.3 0.23 28.3 0.17 28.3 0.14 28.3 0.12 28.3 0.1 28.3 0.086 28.3 0.058

SECONDS TO EVACUATE 1 ft 3 TO VACUUM LEVEL 6 inHg 1.7 0.85 0.57 0.43 0.34 0.28 0.24 0.21 0.14 1.9 0.95 0.63 0.48 0.38 0.32 0.27 0.24 0.16 2.03 1.02 0.68 0.51 0.41 0.34 0.29 0.25 0.17 1.51 0.76 0.5 0.38 0.3 0.25 0.22 0.19 0.13 1.71 0.86 0.57 0.43 0.34 0.29 0.24 0.21 0.14

9 inHg 3.1 1.55 1.03 0.78 0.62 0.52 0.44 0.39 0.26 3.7 1.85 1.23 0.93 0.74 0.62 0.53 0.46 0.31 3.96 1.98 1.32 0.99 0.79 0.66 0.57 0.5 0.33 3.04 1.52 1.01 0.76 0.61 0.51 0.43 0.38 0.25 3.38 1.69 1.13 0.85 0.68 0.56 0.48 0.42 0.28

12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 26 inHg 27 inHg 5.23 8.8 15.0 27.0 52.8 93.7 2.62 4.4 7.5 13.5 26.4 46.9 1.74 2.93 5.0 9.0 17.6 31.2 1.31 2.2 3.75 6.75 13.2 23.4 1.05 1.76 3.0 5.4 10.6 18.7 0.87 1.47 2.5 4.5 8.8 15.6 0.75 1.26 2.14 3.86 7.54 13.4 0.65 1.1 1.88 3.38 6.6 11.7 0.44 0.73 1.25 2.25 4.4 7.81 6.6 12.3 19.0 33.2 3.3 6.15 9.5 16.6 2.2 4.1 6.3 11.1 1.65 3.08 4.75 8.3 1.32 2.46 3.8 6.64 1.1 2.05 3.17 5.53 0.94 1.76 2.71 4.74 0.83 1.54 2.38 4.15 0.55 1.03 1.58 2.77 7.23 12.7 21.9 38.8 75.4 134 3.62 6.35 11.0 19.4 37.7 67.0 2.41 4.23 7.3 12.9 25.1 44.7 1.81 3.18 5.48 9.7 18.9 33.5 1.45 2.54 4.38 7.76 15.1 26.8 1.21 2.12 3.65 6.47 12.7 22.3 1.03 1.81 3.13 5.54 10.8 19.1 0.9 1.59 2.74 4.85 9.43 16.8 0.6 1.06 1.83 3.23 6.28 11.2 5.7 10.2 17.7 31.8 61.9 110 159 2.85 5.1 8.85 15.9 31.0 55.0 79.5 1.9 3.39 5.9 10.6 20.6 36.7 53.0 1.43 2.54 4.43 7.95 15.5 27.5 39.8 1.14 2.03 3.54 6.36 12.4 22.0 31.8 0.95 1.69 2.95 5.3 10.3 18.3 26.5 0.81 1.45 2.53 4.54 8.84 15.7 22.7 0.71 1.27 2.21 3.98 7.74 13.8 19.9 0.48 0.85 1.48 2.65 5.16 9.17 13.3 6.21 11.0 19.1 33.9 65.6 116 167 3.11 5.5 9.6 17.0 32.8 58.0 83.5 2.07 3.67 6.37 11.3 21.9 38.7 55.7 1.55 2.75 4.8 8.48 16.4 29.0 41.8 1.24 2.2 3.8 6.78 13.1 23.2 33.4 1.04 1.83 3.18 5.65 10.9 19.3 27.8 0.89 1.57 2.73 4.84 9.37 16.6 23.9 0.78 1.38 2.39 4.24 8.2 14.5 20.9 0.52 0.92 1.59 2.83 5.47 9.6 13.9

9:36

QUICK REFERENCE VACUUM FLOW RATE SCFM X 28.32 = Nl/m

AIR MODEL SUPPLY PSI E400 87 E500 87 E600 87 E700 87 E800 87 E900 87 E1000 87 E1100 87 E1200 87 L400 87 L500 87 L600 87 L700 87 L800 87 L900 87 L1000 87 L1100 87 L1200 87 M400 49 M500 49 M600 49 M700 49 M800 49 M900 49 M1000 49 M1100 49 M1200 49 ML400 87 ML500 87 ML600 87 ML700 87 ML800 87 ML900 87 ML1000 87 ML1100 87 ML1200 87 X640 87 X800 87 X960 87 X1120 87 X1280 87 X1440 87 X1600 87 X1760 87 X1920 87

AIR CONS. SCFM 109 136 163 190 218 245 272 299 326 64.0 80.0 96.0 112 128 144 160 176 192 68.8 86 103 120 138 155 172 189 206 64.0 80.0 96.0 112 128 144 160 176 192 86.4 108 130 151 173 194 216 238 259

MAX VACUUM inHg 3 inHg 26.7 99.8 26.7 125 26.7 150 26.7 175 26.7 200 26.7 225 26.7 250 26.7 275 26.7 300 22.8 89.1 22.8 111 22.8 134 22.8 156 22.8 178 22.8 201 22.8 223 22.8 245 22.8 267 27.1 85.1 27.1 106 27.1 128 27.1 149 27.1 170 27.1 192 27.1 213 27.1 234 27.1 255 27.5 114 27.5 143 27.5 172 27.5 201 27.5 229 27.5 258 27.5 287 27.5 315 27.5 344 28.3 101 28.3 127 28.3 152 28.3 177 28.3 203 28.3 228 28.3 253 28.3 279 28.3 304

SCFM AT VACUUM LEVEL (inHg) 6 inHg 87.0 109 131 152 174 196 218 240 262 74.1 92.6 111 130 148 167 185 204 222 64.8 81.0 97.2 113 130 146 162 178 194 81.9 102 123 143 164 184 205 225 246 78.2 97.8 117 137 156 176 196 215 235

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 26 inHg 27 inHg 74.7 52.8 31.7 9.6 4.64 1.76 0.19 93.4 66.0 39.6 12.0 5.8 2.2 0.24 112 79.2 47.5 14.4 6.96 2.64 0.29 131 92.4 55.4 16.8 8.12 3.08 0.34 149 106 63.4 19.2 9.28 3.52 0.38 168 119 71.3 21.6 10.4 3.96 0.43 187 132 79.2 24 11.6 4.4 0.48 205 145 87.1 26.4 12.8 4.84 0.53 224 158 95.0 28.8 13.9 5.28 0.58 50.4 28.8 21.9 17 11.8 63.0 36.0 27.4 21.2 14.8 75.6 43.2 32.9 25.4 17.8 88.2 50.4 38.4 29.7 20.7 101 57.6 43.8 33.9 23.7 113 64.8 49.3 38.2 26.6 126 72.0 54.8 42.4 29.6 139 79.2 60.3 46.6 32.6 151 86.4 65.8 50.9 35.5 40.8 19.8 14.4 9.76 6.08 2.4 0.48 51.0 24.8 18.0 12.2 7.6 3.0 0.6 61.2 29.8 21.6 14.6 9.12 3.6 0.72 71.4 34.7 25.2 17.1 10.6 4.2 0.84 81.6 39.7 28.8 19.5 12.2 4.8 0.96 91.8 44.6 32.4 22.0 13.7 5.4 1.08 102 49.6 36.0 24.4 15.2 6.0 1.2 112 54.6 39.6 26.8 16.7 6.6 1.32 122 59.5 43.2 29.3 18.2 7.2 1.44 46.6 20.3 13.4 8.16 5.44 2.56 0.96 0.27 58.2 25.4 16.8 10.2 6.8 3.2 1.2 0.34 69.8 30.5 20.2 12.2 8.16 3.84 1.44 0.41 81.5 35.6 23.5 14.3 9.52 4.48 1.68 0.48 93.1 40.6 26.9 16.3 10.9 5.12 1.92 0.54 105 45.72 30.2 18.4 12.2 5.76 2.16 0.61 116 50.8 33.6 20.4 13.6 6.4 2.4 0.68 128 55.9 37 22.4 15.0 7.04 2.64 0.75 140 61.0 40.3 24.5 16.3 7.68 2.88 0.82 43.7 22.4 14.4 9.76 8.0 5.28 2.4 1.07 54.6 28.0 18.0 12.2 10.0 6.6 3.0 1.34 65.5 33.6 21.6 14.6 12.0 7.92 3.6 1.61 76.4 39.2 25.2 17.1 14.0 9.24 4.2 1.88 87.4 44.8 28.8 19.5 16.0 10.6 4.8 2.14 98.3 50.4 32.4 22.0 18.0 11.9 5.4 2.41 109 56.0 36 24.4 20.0 13.2 6.0 2.68 120 61.6 39.6 26.8 22.0 14.5 6.6 2.95 131 67.2 43.2 29.3 24.0 15.8 7.2 3.22

9:37

QUICK REFERENCE EVACUATION TIME sec. / ft3 X 35.32 = sec. / m3

MAX VACUUM inHg 3 inHg 26.7 0.044 26.7 0.035 26.7 0.029 26.7 0.025 26.7 0.022 26.7 0.019 26.7 0.018 26.7 0.016 26.7 0.015 22.8 0.05 22.8 0.04 22.8 0.03 22.8 0.029 22.8 0.025 22.8 0.022 22.8 0.02 22.8 0.018 22.8 0.017 27.1 0.052 27.1 0.042 27.1 0.035 27.1 0.03 27.1 0.026 27.1 0.023 27.1 0.021 27.1 0.019 27.1 0.017 27.5 0.038 27.5 0.03 27.5 0.025 27.5 0.021 27.5 0.019 27.5 0.017 27.5 0.015 27.5 0.014 27.5 0.013 28.3 0.043 28.3 0.035 28.3 0.029 28.3 0.025 28.3 0.022 28.3 0.019 28.3 0.017 28.3 0.016 28.3 0.014

SECONDS TO EVACUATE 1 ft3 TO VACUUM LEVEL 6 inHg 0.11 0.085 0.071 0.061 0.053 0.047 0.043 0.039 0.035 0.12 0.1 0.08 0.07 0.06 0.05 0.048 0.043 0.04 0.13 0.1 0.085 0.073 0.063 0.056 0.051 0.046 0.042 0.094 0.076 0.063 0.054 0.047 0.042 0.038 0.034 0.031 0.11 0.086 0.071 0.061 0.053 0.048 0.043 0.039 0.036

9 inHg 0.19 0.16 0.13 0.11 0.097 0.086 0.078 0.07 0.065 0.23 0.19 0.15 0.13 0.12 0.1 0.09 0.08 0.077 0.25 0.2 0.17 0.14 0.12 0.11 0.1 0.09 0.083 0.19 0.15 0.13 0.11 0.095 0.084 0.076 0.069 0.063 0.21 0.17 0.14 0.12 0.11 0.094 0.085 0.077 0.07

12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 26 inHg 27 inHg 0.33 0.55 0.94 1.69 3.3 5.86 0.26 0.44 0.75 1.35 2.64 4.69 0.22 0.37 0.63 1.13 2.2 3.9 0.19 0.31 0.54 0.96 1.89 3.35 0.16 0.28 0.47 0.84 1.65 2.93 0.15 0.24 0.42 0.75 1.47 2.6 0.13 0.22 0.38 0.68 1.32 2.34 0.12 0.2 0.34 0.61 1.2 2.1 0.11 0.18 0.31 0.56 1.1 2.0 0.41 0.77 1.19 2.08 0.33 0.62 0.95 1.66 0.28 0.51 0.79 1.38 0.24 0.44 0.68 1.19 0.21 0.38 0.59 1.04 0.18 0.34 0.53 0.92 0.17 0.31 0.48 0.83 0.15 0.28 0.43 0.75 0.14 0.26 0.40 0.69 0.45 0.79 1.37 2.43 4.71 8.38 0.36 0.64 1.1 1.94 3.77 6.7 0.3 0.53 0.91 1.62 3.14 5.58 0.26 0.45 0.78 1.39 2.69 4.79 0.23 0.39 0.68 1.21 2.36 4.19 0.2 0.35 0.61 1.08 2.09 3.72 0.18 0.32 0.55 0.97 1.89 3.35 0.16 0.29 0.5 0.88 1.71 3.05 0.15 0.26 0.46 0.81 1.57 2.79 0.36 0.64 1.12 1.99 3.87 6.88 9.94 0.29 0.51 0.89 1.59 3.1 5.5 7.95 0.24 0.42 0.74 1.33 2.58 4.58 6.63 0.2 0.36 0.63 1.14 2.21 3.93 5.68 0.18 0.32 0.55 0.99 1.93 3.44 4.97 0.16 0.28 0.49 0.88 1.72 3.06 4.42 0.14 0.26 0.44 0.8 1.55 2.75 3.98 0.13 0.23 0.4 0.72 1.41 2.5 3.61 0.12 0.21 0.37 0.66 1.3 2.29 3.31 0.39 0.69 1.19 2.12 4.1 7.25 10.4 0.31 0.55 0.96 1.7 3.28 5.8 8.35 0.26 0.46 0.8 1.41 2.73 4.83 6.96 0.22 0.39 0.68 1.21 2.34 4.14 5.96 0.19 0.34 0.6 1.06 2.05 3.63 5.22 0.17 0.31 0.53 0.94 1.82 3.22 4.64 0.16 0.28 0.48 0.85 1.64 2.9 4.18 0.14 0.25 0.43 0.77 1.49 2.64 3.8 0.13 0.23 0.4 0.71 1.37 2.42 3.48

9:38

ER SERIES

SECTION 10 ER SERIES

10:1

ER SERIES

CONTENTS

BASES & GENERAL INFORMATION ER2010 Body T18F Body 18F Inline Pump G14F18F Inline Pump X2-18F Inline Pump X4-18F Inline Pump Vacuum Bar Chip Pump Style T-Base DER18 - Piloted Supply Base DER18 - Piloted Supply & Blow-Off Base DER18 - Solenoid Controlled Supply Base DER18 - Solenoid Controlled Supply & Blow-Off Base Surface Mount Micro Pump Performance

10:3 10:4 10:5 10:5 10:6 10:6 10:7 10:8 1.45 [36.8] 10:9 10:10 10:11 10:12 10:13 10:13 – 10:14

AIR SUPPLY M16X1.0 (OUTER) G1/8 NPSF (INNER) SURFACE CAN USE JN-M16X1.0

MOUNT MICRO PUMP

EXHAUST 2 PLACES VACUUM G1/8 NPSF

T18F BODY Weight: 1.3 oz (38g)

AIR SUPPLY M16X1.0 (OUTER) G1/8 NPSF (INNER) CAN USE JN-M16X1.0

1.45 [36.8]

EXHAUST 2 PLACES

G14F18F INLINE PUMP

X2-18F INLINE PUMP

0.0

Weight: 2.2 oz (61g)

0.0

1.10 [27.9]

0.59 [15]

0.0

0.59 [15] 0.19 [4.8] 0.0

0.18 [4.6] Thru HoleAIR SUPPLY 2 Places M16X1.0 (OUTER)

[36.8]

0.73 [18.5]

DER18 SOLENOID SUPPLY

10:2

0.0

DER18 PILOTED SUPPLY 1.45& BLOW-OFF

0.97 [24.6]

G1/8 NPSF (INNER) CAN USE JN-M16X1.0

DER18 PILOTED SUPPLY

X4-18F INLINE PUMP

Weight: 1.3 oz (38g)

1.34 [34]

EXHAUST 4 PLACES

VACUUM G1/8 NPSF

0.34 [8.6]

1.13 [28.7]

0.0

1.46 [37.1]

VACUUM G1/8 NPSF

0.38 [9.7]

0.76 [19.3]

18F INLINE PUMP

AIR SUPPLY M16X1.0 (OUTER) G1/8 NPSF (INNER) CAN USE JN-M16X1.0

VACUUM BAR

0.38 [9.7]

ER2010

CHIP PUMP STYLE T-BASE

0.0

4.11 [104.4] Optional STA14M Straight-Thru Silencer

2.84 [72.1] Optional AA14M Side-Discharge Silencer

1.34 [34]

0.0

DER18 SOLENOID SUPPLY & BLOW-OFF

ER SERIES: MICRO PUMPS ER2010 MICRO-PUMP, M4

HOW TO ORDER

The ER2010 micro-pump has an anodized aluminum body available in two styles. The M4 style micro-pump has 4mm (5/32) push-in tube connectors for the air supply, two vacuum ports and a third M5 x 0.8 (10-32) threaded vacuum port. CODE 1 2 2A 3

ER2010

VENTURI SIZE – 05 – 05 07 09 10 08L 10L

PORT CONNECTIONS FUNCTION PORT

Air Supply Vacuum- Main Vacuum - Alternate Exhaust

4mm (5/32) Tube 4mm (5/32) Tube M5 x 0.8 (10-32 UNF) –

0.68 [17.3] 2A 0.65 [16.5]

0.17 [4.3] Thru Hole 2 Places

1.03 [26.2] 0.96 [24.4]

0.75 [19.1]

0.49 [12.4]

1.4 [35.6] 1.54 [39.1]

0.0 0.21 [5.3]

HOW TO ORDER

VENTURI SIZE – 05 –

Weight: 1.1 oz. (31 g)

0.98 [24.9]

0.43 [10.9]

0.21 [5.3] 0.0

0.0 0.0

0.21 [5.3] 0.0 0.42 [10.7] 0.21 [5.3] 0.0

ER2010 MICRO-PUMP, 5F

The ER2010 micro-pump has an anodized aluminum body available in two styles. The 5F style micro-pump has M5 x 0.8 (10-32) threaded ports for the air supply and three vacuum ports.

1 2 2A 3

PORT CONNECTIONS FUNCTION PORT

Air Supply Vacuum- Main Vacuum - Alternate Exhaust

M5 x 0.8 (10-32 UNF) M5 x 0.8 (10-32 UNF) M5 x 0.8 (10-32 UNF) -

0.68 [17.3] 2

0.75 [19.1]

10:3

0.98 [24.9] 1.25 [31.8] 1.34 [34]

0.43 [10.9]

0.21 [5.3] 0.0

0.0 0.0

0.21 [5.3] 0.0 0.42 [10.7] 0.21 [5.3] 0.0

0.49 [12.4]

2 2

0.17 [4.3] Thru Hole 2 Places

1.03 [26.2] 0.96 [24.4]

0.75 [19.1]

05 07 09 10 08L 10L

0.0 0.21 [5.3]

CODE

ER2010

Weight: 0.9 oz. (25 g)

ER SERIES: T18F BASE

The T18F base places high performance ER pumps in a compact traditional tee-style body with through holes for mounting and a threaded exhaust port for an optional silencer. The tee-style body is ideal for small systems or one-pump-per-suction-cup applications. The T18F base has G1/8 NPSF air supply and vacuum ports, G1/4 BSPP exhaust port. One-piece anodized aluminum body.

HOW TO ORDER VENTURI SIZE ER 05 –

PORT CONNECTIONS FUNCTION PORT Air Supply G1/8 NPSF Vacuum G1/8 NPSF Exhaust G1/4 BSPP

CODE 1 2 3

NONE AA ST

1.2 (33) 1.4 (39) 1.8 (49)

10:4

0.0 0.0 0.0 0.0 0.02 0.38 0.38 [9.7]0.38 [9.7][9.7] 0.38 [9.7] 0.38 [9.7]

0.0 0.0 0.0 0.0 0.0 0.19 [4.8] 0.0

0.0

2 2 2 2

0.38 [9.7]

0.0

0.34 [8.6] 0.0 0.0 0.0 0.00.0 0.38 [9.7] 0.0 0.380.38 [9.7][9.7] 0.38 [9.7] 0.38 [9.7]

0.340.34 [8.6][8.6] 0.0[8.6] 0.34 [8.6] 0.0 0.34 1.46 [37.1] 0.00.0 0.0 1.13 [28.7]

0.34 [8.6]

1.46 [37.1]

1.461.46 [37.1] [37.1] 1.13 [28.7] 1.46 [37.1] 1.46 [37.1] 1.131.13 [28.7] [28.7] 1.13 [28.7] 1.13 [28.7] 2

0.18 [4.6] Thru Hole 2 Places

0.73 [18.5]

WEIGHT oz. (g)

0.18 0.18 [4.6]0.18 [4.6][4.6] 0.18 [4.6] Thru Thru Hole Hole Thru Hole 0.18 [4.6] Thru Hole 2 Places 2 Places 2 Places 0.0 Thru Hole 2 Places 2 Places

1 1 1

0.59 0.59 [15]0.59 [15][15] 0.97 [24.6] 0.59 [15] 0.59 [15]

0.19 0.19 [4.8]0.19 [4.8][4.8] 0.19 [4.8] 0.0 0.19 0.0 0.0 [4.8] 0.0 0.0

0.59 [15]

0.0 0.0 0.0 0.0

SILENCER OPTION

0.97 0.97 [24.6] [24.6] 0.97 [24.6] 0.97 [24.6] 0.97 [24.6]

0.730.73 [18.5] [18.5] 0.73 [18.5] 0.73 [18.5] 0.0

PUMP WEIGHTS

0.73 [18.5]

0.0 0.0 0.0 0.0 0.0

0.0

3 3 3 3 0.59 0.59 [15]0.59 [15][15] 0.59 [15] 0.59 [15]

0.38 [9.7]

0.76 [19.3]

0.760.76 [19.3] [19.3] 0.76 [19.3] 0.38 [9.7] 0.76 [19.3] 0.380.38 [9.7][9.7] 0.38 0.0[9.7] 0.38 [9.7] 0.0 0.0 0.0 0.0

0.76 [19.3]

0.0

0.0 0.0 0.0 0.0

4.11 [104.4] Optional STA14M 4.114.11 [104.4] [104.4] Silencer Straight-Thru 4.11 [104.4] Optional STA14M Optional STA14M Optional STA14M 4.11 [104.4] Straight-Thru Silencer Straight-Thru Silencer Straight-Thru Silencer Optional STA14M Straight-Thru Silencer

(Blank) = None AA = AA14M ST = STA14M

0.0

–

2.84 [72.1] Optional AA14M Side-Discharge Silencer

T18F

2.84 [72.1] Optional AA14M 2.842.84 [72.1] [72.1] Side-Discharge Silencer 2.84 [72.1] Optional AA14M Optional AA14M Optional AA14M 2.84 [72.1] 4.11Side-Discharge [104.4] Silencer Side-Discharge Silencer Side-Discharge Silencer Optional AA14M Optional STA14M Side-Discharge Straight-Thru Silencer Silencer

05 07 09 10 08L 10L

SILENCER

ER SERIES: INLINE PUMPS SINGLE VENTURI: G1/8 NPSF AIR SUPPLY

HOW TO ORDER VENTURI SIZE ER 05 –

Compact, high-performance inline pumps can be conveniently located near the point of vacuum usage. Ideal for small systems or one pump-per-suction-cup applications. G 1/8 NPSF air supply and vacuum ports, one-piece anodized aluminum body.

SINGLE VENTURI: G1/4 BSPP AIR SUPPLY

05 07 09 10 08L 10L

VENTURI SIZE ER 05 –

05 07 09 10 08L 10L

05 07 08L 09 10 10L

0.51 SCFM (14.4 Nl/m) 0.66 SCFM (18.7 Nl/m) 1.2 SCFM (34 Nl/m) 1.4 SCFM (39.6 Nl/m) 1.8 SCFM (51 Nl/m) 1.9 SCFM (53.8 Nl/m)

Exhaust 0.88 [22.4]

Vacuum G1/8 NPSF Weight: 0.9 oz. (27 g)

10:5

0.66 [16.8]

Air Supply G1/4 BSPP

G14F18F 1.38 [35.1] Exhaust Vacuum G1/8 NPSF Weight: 0.98 oz. (28 g)

EQUIVALENT IP SERIES VENTURI PUMP DIAMETER REPLACEMENT 0.5 mm 0.7 mm 0.8 mm 0.9 mm 1.0 mm 1.0 mm

Air Supply G1/8 NPSF M16 x 1.0 0.66 [16.8]

18F

HOW TO ORDER

Inline pumps with same features and performance as the -T18F body, but with a larger G 1/4 BSPP air supply port. Vacuum port is G 1/8 NPSF.

AIR CONSUMPTION at ER VENTURI 72 psi (5 bar)

1.38 [35.1]

JN-M16X1.0

IP6M-5 IP6M-10

For use with -18F inline pumps.

ER SERIES: INLINE PUMPS DOUBLE VENTURI: G1/8 NPSF AIR SUPPLY

AIR SUPPLY M16X1.0 (OUTER) G1/8 NPSF (INNER) CAN USE JN-M16X1.0

Inline pumps with two venturis in parallel for additional flow capacity.

HOW TO ORDER VENTURI SIZE ER 09 X2 09 10 08L 10L

1.45 [36.8]

–

AIR SUPPLY M16X1.0 (OUTER) G1/8 NPSF (INNER) CAN USE JN-M16X1.0

18F

EXHAUST 2 PLACES

1.45 [36.8]

VACUUM G1/8 NPSF Weight: 1.3 oz (38g) EXHAUST 2 PLACES

1.34 [34]

ER VENTURI

AIR CONSUMPTION at 72 psi (5 bar)

VACUUM G1/8 NPSF

Weight: 1.3 oz (38g) EQUIVALENT IP SERIES VENTURI PUMP DIAMETER REPLACEMENT

QUAD VENTURI: G1/8 NPSF AIR SUPPLY

1.45 [36.8]

AIR SUPPLY M16X1.0 (OUTER) G1/8 NPSF (INNER) CAN USE JN-M16X1.0

Inline pumps with four venturis in parallel for additional flow capacity.

VENTURI SIZE ER 09 X4 09 10 08L 10L

EXHAUST 4 PLACES

1.45 [36.8]

HOW TO ORDER

–

18F

08LX2* 2.4 scfm (68 Nl/m) 1.1 mm IP6M-20 09X2 2.8 scfm (79 Nl/m) 1.34 1.2 mm IP6M-20 [34] 10X2* 3.8 scfm (108 Nl/m) 1.4 mm 10LX2* 3.6 scfm (102 Nl/m) 1.4 mm 08LX4* 4.8 SCFM (136 Nl/m) 1.6 mm AIR SUPPLY 09X4 5.6 scfm (158 Nl/m) 1.8 mmM16X1.0 (OUTER) IP6M-30 G1/8 NPSF (INNER) 10X4* 7.2 scfm (362 Nl/m) 2.0 mm CAN USE JN-M16X1.0 10LX4* 7.6 scfm (215 Nl/m) 2.0 mm *May require -18F fitting plus 1/8 in nipple for clearance to mount the cup.

VACUUM G1/8 NPSF

1.10 [27.9]

Weight: 2.2 oz (61g) EXHAUST 4 PLACES VACUUM G1/8 NPSF

1.10 [27.9]

10:6

Weight: 2.2 oz (61g)

ER SERIES: VACUUM BAR PUMP

The Vacuum Bar eliminates the clutter and plumbing complexity of small vacuum systems by incorporating multiple vacuum pumps that have common air supply and common exhaust ports within the bar manifold. Vacuum lines can be routed from the pumps directly to individual suction cups.

HOW TO ORDER

NUMBER OF STATIONS 4 1 2 3 4 5 6 7 8

Even though all of the vacuum pumps are operated by one air supply, the pump vacuum ports are independent of one another so it doesn’t matter if some vacuum lines are open to atmosphere due to missing work pieces. Vacuum loss in one line doesn’t affect performance of the other vacuum pumps. Integral polyethylene filter elements are easily serviced by removing a knurled retainer. The filters protect two ports per vacuum pump so either port can be used for a vacuum outlet, and the other for a vacuum switch. 0.44 [11.2]

2.65 [67.3]

0.38 [9.7] A 1

1.22 [31] 1.01 [25.7]

4 B

0.0

1.81 [46] 2B

0.2 [5.1]

0.22 [5.6] Thru 2 Places

1.2 [30.5]

NUMBER OF STATIONS 2 4 6 8

PORT CONNECTIONS FUNCTION PORTS

Air Supply- Main G1/8 NPSF Air Supply- Alternate G1/8 NPSF Vacuum- Position A M5 x 0.8 (10-32 UNF) Vacuum- Position B M5 x 0.8 (10-32 UNF) Exhaust G1/4 BSPP

0.2 [5.1]

05 05 07 09 10 08L 10L

1.85 [47]

1 1A 2A 2B 3

0.56 [14.2]

2.25 [57.1]

CODE

VENTURI SIZE

W in. (mm) 1.56 (39.6) 2.44 (62) 3.32 (84.2) 4.2 (106.7)

0.27 [6.9] 0.0 0.32 [8.1]

WEIGHT lbs. (g) 0.36 (162) 0.56 (255) 0.77 (349) 0.97 (442)

REFER TO ER PERFORMANCE GRAPH ON PAGE 10:14. USE THE X1 VALUES.

Alternate Sensor Locations B A Vacuum Ports

3 3

Filter Retainer

Air Supply RE7X32 Filter

Exhaust

Vacuum switch and cables sold separately.

10:7

ER SERIES: 12F T-BASE

A T-base allows either one, two, or three ER venturis to be internally connected in parallel to obtain a greater combined vacuum flow rate. For total vacuum flow, read the vacuum flow rate at the desired vacuum level from the ER performance graph then multiply by the number of venturis installed in the T-Base. Normally, only the larger ER venturis would be selected for this pump. The ER series T-base offers greater vacuum flow in the same foot print as the Chip Pump T-base.

HOW TO ORDER

T12F

–

PUMP WEIGHTS SILENCER OPTION NONE ST

WEIGHT oz. (g)

9.6 (271) 10.7 (303)

Optional STC12M Silencer

[43.4] [37.1] [24.6] [11.7] [2.54] 0.0

1.48 [37.6]

0.97 [24.6]

10:8

0.79 [20.1]

3.36 [85.3] 3.72 [94.5]

1.63 [41.4]

0.0 0.0 0.37 [9.4] 0.68 [17.3]

(Blank) = None ST = STC12M

PORT CONNECTIONS FUNCTION PORTS Air Supply- Main G1/8 NPSF Vacuum- Main G1/2 NPSF Exhaust G1/2 NPSF

CODE 1 2 3

1.71 1.46 0.97 0.46 0.1

–

X2 = 2 Venturis X3 = 3 Venturis

SILENCER

0.0

05 07 09 10 08L 10L

NUMBER OF VENTURIS X3

7.48 [190]

VENTURI SIZE ER 05

ER SERIES: DUAL BASE PUMP PILOTED SUPPLY

DER - SB24D Miniature DER-series pumps provide full control features DER - PSB in a very compact package. These lightweight pumps can Purge be mounted near 4 the point of vacuum usage to eliminateSolenoid long vacuum lines and improve system response. DER pumps are available with either one or two coaxial ejectors 1 to match pump performance to system 1requirements. Quick-release air is controlled via integral flow control Purge can be fine-tuned Vacuumfor delicate 3 valve so blow intensityIntensity lightweight parts. Includes 1/8 vacuum port to take Solenoid

NUMBEROptional OF Exhaust EJECTORS 2nd Ejector X1 – PS X1 = 1 Ejector X2 = 2 Ejectors

OptionalOPTIONS Non-return – – Blank = None NR = Non-return

3 2

Purge Intensity Adjustment

1.75 [44.5] 1.04 [26.4]

0.76 [19.3] 0.76 [19.3] 0.17 [4.3]

PORT CONNECTIONS FUNCTION PORT

Air Supply Vacuum Pilot- Vacuum

G1/8 NPSF G1/8 NPSF M5 x 0.8 (10-32 UNF)

0.13 [3.3] Thru Hole 4 Places

10:9

2.05 [52.1] 2.23 [56.6] 2.63 [66.8]

1 2 3

0.0

0.0 0.17 [4.3] 0.0

1.11 [28.2]

CODE

0.48 [12.2]

0.0 0.12 [3.1]

0.0

Optional Non-return

0.0 0.3 [7.6]

2.25 [57.2]

2.05 [52.1]

1.11 [28.2]

0.12 [3]

0.0

0.3 [7.6] 0.0 1.4 [35.6]

Optional Vacuum Switch

Exhaust

PE Silencer

Optional 2nd Ejector

Optional Non-return

0.59 [15] 0.3 [7.6] 0.0 Weight: 4.1 oz. (117 g)

0.13 [3.3] Thru Hole 4 Places 2.15 [54.6] 2.15 1.75[54.6] [44.5]

VACUUM Optional Exhaust SWITCH 2nd Ejector VP4 VA3 = Analog 3-wire VN3 = NPN 3-wire VP3 = PNP 3-wire VN4 = NPN 4-wire DER - PS VP4 = PNP 4-wire

1.95 [49.5]

EJECTOR Optional SIZE Non-return 10L 10L 08L 10 09 07 05

0.0

Optional Exhaust 2nd Ejector DER18 –

Select from numerous standard options to configure a 1 DER pump to suit your specific application requirements. Purge Vacuum Intensity Solenoid

0.64 [16.3]

HOW TO ORDER

advantage of the high vacuum flow produced by coaxial ejectors that are designed to handle porous materials at DER - S24D mid-range vacuum levels. An optional non-return valve is available for use in sealed non-porous systems.

ER SERIES: DUAL BASE PUMP PILOTED SUPPLY & BLOW-OFF

Miniature DER-series pumps provide full control features in a very compact package. These lightweight pumps can be mounted near the point of vacuum usage to eliminate long vacuum lines and improve system response. DER pumps are available with either one or two coaxial ejectors to match pump performance to system requirements. Quick-release air is controlled via integral flow control valve so blow intensity can be fine-tuned for delicate lightweight parts. Includes 1/8 vacuum port to take

advantage of the high vacuum flow produced by coaxial ejectors that are designed to handle porous materials at mid-range vacuum levels. An optional non-return valve is available for use in sealed non-porous systems. Select from numerous standard options to configure a DER pump to suit your specific application requirements.

HOW TO ORDER

PSB

–

VA3 = Analog 3-wire VN3 = NPN 3-wire VP3 = PNP 3-wire VN4 = NPN 4-wire DER - PSB VP4 = PNP 4-wire

Purge Intensity 2 Exhaust

Optional Non-return

2.05 [52.1] 2.25 [57.2]

Optional Vacuum Switch

2.15 [54.6]

0.0 0.3 [7.6]

Purge Intensity Adjustment

1.97 [50]

1.75 [44.5] 1.4 [35.6]

0.17 [4.3]

0.48 [12.2]

0.0

1.11 [28.2]

10:10

2.05 [52.1] 2.23 [56.6] 2.63 [66.8]

0.13 [3.3] Thru Holes 4 Places

1.03 [26.2]

PE Silencer

0.76 [19.3] 0.0

Va So

Optional 2nd Ejector

0.13 [3.3] Thru Hole 4 Places

1.95 [49.5]

1.39 [35.3]

0.59 [15] 0.3 [7.6] 0.0

1.11 [28.2]

Weight: 4.1 oz. (117 g)

0.0

G1/8 NPSF G1/8 NPSF M5 x 0.8 (10-32 UNF)

0.64 [16.3]

PORT CONNECTIONS FUNCTION PORT

Air Supply Vacuum Pilot- Vacuum

Blank = None NR = Non-return

0.0 0.12 [3]

1 2 3

–

X1 = 1 Ejector X2 = 2 Ejectors

10L 08L 10 09 07 05

VACUUM SWITCH VP4

OPTIONS

0.0 0.12 [3.1]

CODE

–

NUMBER OF EJECTORS X1

0.3 [7.6] 0.0

DER18

EJECTOR SIZE 10L

Op 2nd

ER SERIES: DUAL BASE PUMP SOLENOID SUPPLY VALVE

HOW TO ORDER

Vacuum Solenoid

Purge Intensity

Optional Non-return

0.0 0.12 [3]

Optional 2nd Ejector

Optional Vacuum Switch

0.13 [3.3] Thru Hole 4 Places

10:11

2.05 [52.1] 2.23 [56.6] 2.57 [65.3]

G1/8 NPSF G1/8 NPSF

1.11 [28.2]

Air Supply Vacuum

0.48 [12.2] Optional 2nd0.0 Ejector

0.17 [4.3] [4.3] 0.17 0.0 0

0.0 0.12 [3]

1 2

Purge Intensity Adjustment 2

0.76 [19.3]

PORT CONNECTIONS FUNCTION PORT

Optional Non-return

DER - PS

1.4 [35.6]

CODE

Exhaust

1 1.99 [50.5]

1.75 [44.5]

0.0

Vacuum Solenoid 2

3.2 [81.3]

0.59 [15] Optional Exhaust 0.0 2nd Ejector

Optional Non-return

VA3 = Analog 3-wire VN3 = NPN 3-wire VP3 = PNP 3-wire VN4 = NPN 4-wire VP4 = PNP 4-wire DER - S24D

0.3 [7.6] 0.0

Exhaust

Blank = None NR = Non-return

–

ORDER SV10-QD-1M Purge SOLENOID CABLES SEPARATELY. Solenoid

Optional 2nd Ejector

–

DER - SB24D

Weight: 4.8 oz. (134 g) Purge Intensity

S24D

0.0 0.3 [7.6]

DER - PSB

–

VACUUM SWITCH VP4

Exhaust

PE Silencer

X1 = 1 Ejector X2 = 2 Ejectors

10L 08L 10 09 07 4 05

OPTIONS

1.89 [48]

–

NUMBER OF EJECTORS X1

0.0

DER18

EJECTOR SIZE 10L

Optional Non-return

ER SERIES: DUAL BASE PUMP DUAL SOLENOID CONTROL

lightweight parts. Includes 1/8 vacuum port to take advantage of the high vacuum flow produced by coaxial ejectors that are designed to handle porous materials at mid-range vacuum levels. An optional non-return valve is available for use in sealed non-porous systems.

Select from numerous standard options to configure a DER pump to suit your specific application requirements.

HOW TO ORDER

X1 = 1 Ejector X2 = 2 Ejectors

SB24D

–

Blank = None NR = Non-return

ORDER SV10-QD-1M SOLENOID DER - PSB CABLES SEPARATELY.

VA3 = Analog 3-wire VN3 = NPN 3-wire VP3 = PNP 3-wire VN4 = NPN 4-wire - SB24D VP4 =DER PNP 4-wire Purge Solenoid

Weight: 5.1 oz. (146 g)

1 3

Purge Intensity

0.59 [15] 0.0

1 Purge Intensity

Vacuum Solenoid

2 Exhaust

Optional 2nd Ejector

Optional Non-return

0.0

0.3 [7.6] 0.0

Optional 2nd Ejector

Optional Vacuum Switch

3.38 [85.9]

–

0.13 [3.3] Thru Hole 4 Places

Exhaust

1.4 [35.6]

CODE 1 2

PORT CONNECTIONS FUNCTION PORT Air Supply Vacuum

G1/8 NPSF G1/8 NPSF

10:12

Op 2nd

PE Silencer

0.0

2.05 [52.1] 2.23 [56.6] 2.57 [65.3]

0.0

1.11 [28.2]

0.48 [12.2]

0.0 0.12 [3.1]

0.76 [19.3] 0.17 [4.3]

Optional Non-return

Purge Intensity Adjustment

1.99 [50.5]

1.75 [44.5]

Vac Sole

–

0.0 0.3 [7.6]

10L 08L 10 09 07 05

VACUUM SWITCH VP4

OPTIONS

1.89 [48]

–

NUMBER OF EJECTORS X1

0.0

DER18

EJECTOR SIZE 10L

ER SERIES: SM BASE

SURFACE MOUNT MICRO-PUMP

Application Example

Simply add a vacuum passage and two tapped holes to any flat surface to integrate our micro-vacuum pump into a machine component. An integral push-in 4mm (5/32”) tube fitting air supply and an atmospheric exhaust will almost eliminate assembly labor. Select from five ER venturi sizes to match vacuum pump specifications to your application requirements and minimize compressed air consumption.

05 07 09 10 08L 10L

0.14 [3.6]

Weight: 0.9 oz. (25 g)

0.37 [9.4] 0.13 [3.3] Thru Hole 2 Places

0.42 [10.7] 0.72 [18.3]

0.48 [12.2]

0.36 [9.1] 0.21 [5.3] 0.0

0.0

0.46 [11.7] 0.25 [6.4] 0.0

0.0 0.21 [5.3] Vacuum 0.68 [17.3] O-ring Seal 1.15 [29.2] 1.4 [35.6]

0.0

0.0 0.25 [6.4]

VENTURI SIZE ER 05 –

Air Supply 4mm (5/32) Tube

Exhaust

HOW TO ORDER

ER SERIES: PERFORMANCE VACUUM FLOW IN SCFM

MODEL ER05 ER07 ER09 ER10 ER08L ER10L ER08L ER10L

AIR SUPPLY PSI 72 72 72 72 72 72 60 60

AIR CONS. SCFM 0.4 0.8 1.4 1.8 1.2 1.9

1.0 1.65

MAX VACUUM inHg 26.7 26.7 25.5 28 23.6 23.6

20.4 21.6

SCFM AT VACUUM LEVEL 3 inHg 0.25 0.34 0.54 0.70 0.88 1.34

0.91 1.31

6 inHg 0.22 0.33 0.47 0.57 0.76 1.22

0.79 1.17

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 0.20 0.31 0.40 0.46 0.58 1.03

0.15 0.25 0.36 0.35 0.44 0.89

0.59 1.01

0.42 0.79

SCFM x 28.32 = Nl/min.

0.12 0.21 0.32 0.33 0.33 0.70

0.35 0.60

0.07 0.14 0.24 0.27 0.26 0.51

0.19 0.28

0.03 0.05 0.15 0.21 0.13 0.29

0.01 0.02 0.02 0.12

For X2, X3, & X4 flow rates multiply the value in the table by 2, 3, or 4 respectively. For example, an ER09X3 @ 15 inHg would flow: 0.32 x 3 = 0.96 SCFM.

0.04

EVACUATION TIME IN sec/100 in.3

MODEL ER05 ER07 ER09 ER10 ER08L ER10L

ER08L ER10L

AIR SUPPLY PSI 72 72 72 72 72 72

60 60

AIR CONS. SCFM 0.4 0.8 1.4 1.8 1.2 1.9

1.0 1.65

MAX VACUUM inHg 26.7 26.7 25.5 28 23.6 23.6

20.4 21.6

SECONDS TO VACUUM LEVEL 3 inHg 1 0.8 0.45 0.36 0.28 0.2

0.28 0.2

6 inHg 2.50 1.80 1.10 2.88 0.69 0.46

0.68 0.46

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 4.5 3.1 2 1.66 1.28 0.83

1.26 0.82

7.50 5.10 3.4 2.8 2.20 1.38

sec/100 in.3 x 0.61 = sec/Liter

2.1 1.4

10:13

12.5 8.1 5.40 4.6 3.7 2.2 3.6 2.3

20 13.1 8.7 7.50 6.10 3.6 6.1 3.8

35 22.8 14.8 12.7 10.5 6.1 11 6.8

For X2, X3, & X4 evacuation time multiply the value in the table by 2, 3, or 4 respectively. For example, an ER07X2 @ 15 inHg would evacuate 100 cu. in. in: 8.1 x 2 = 16.2 seconds.

ER SERIES: PERFORMANCE SCFM

SCALE X4 X3 X2 X1 6.0 4.5 3.0 1.5

Vacuum Flowrate vs. Vacuum Level at 60 psi (4 bar) air supply 10L

4.0 3.0 2.0 1.0

08L 2.0 1.5 1.0 0.5

inHg

SCFM

SCALE X4 X3 X2 X1 6.0 4.5 3.0 1.5

Vacuum Flowrate vs. Vacuum Level at 72 psi (5 bar) air supply 10

10L

4.0 3.0 2.0 1.0 08L

2.0 1.5 1.0 0.5

inHg

SCFM

SCALE X4 X3 X2 X1 4.0 3.0 2.0 1.0

Vacuum Flowrate vs. Vacuum Level at 72 psi (5 bar) air supply

10 09

2.0 1.5 1.0 0.5

07 05

10:14

inHg

VACUUM GRIPPERS

SECTION 11 VACUUM GRIPPER

11:1

VACUUM GRIPPERS

CONTENTS

GENERAL INFORMATION ER L-Series Coaxial Venturi Technology Centralized Systems Operating Pressure Discrete Systems Rugged Shear Key Mount Simple Installation & Flexible Positioning

11:3 11:3 11:3 11:4 11:4 11:4

SELECTION GUIDE Positive Pressure Purge (PP) Limited Pressure Purge (LP) Performance How To Order Suction Cup Selection Evacuation Time

11:4 11:4 11:12, 11:13 11:14 11:14 11:13

VG Silencer Option VG Sensor Option VG Standard M4 Mount Feature VG Swivel Mounts for VG38 T-Nut Kits DVG Option Cup Fitting Adaptors DVG Standard M4 Mount Feature

11:7 11:7 11:8 11:8 11:9 11:10 - 11:12 11:11 11:11

FEATURES, OPTIONS, & ACCESSORIES

VACUUM GRIPPERS VG18 VG18 with Positive Purge (PP) VG18 with Limited Purge (LP) VG38 VG38 with Positive Purge (PP) VG38 with Limited Purge (LP) Dual Vacuum Grippers

11:2

11:5 11:5 11:5 11:6 11:6 11:6 11:10

ÂŠ2012 EDCO USA. www.edcousa.net

VACUUM GRIPPERS

EDCO ER L-SERIES COXIAL VENTURI TECHNOLOGY

OPERATING PRESSURE

The ER L-series nozzles have been specifically tuned and optimized to provide the high-flow mid-range vacuum that a typical industrial system requires. This vacuum pump can efficiently handle a wide variety of both porous and nonporous applications at only 72 psi (5 bar) air supply. Additional benefits of EDCO ER L-series venturis are rugged metal nozzles, no internal flap valves to foul and a large nozzle throat gap that allows ingested debris to pass through and out the exhaust. When coupled with the PP or LP purge options, debris too large to pass can be expelled between cycles.

To make direct comparisons possible, air consumption at different operating pressures must be converted to a “standard’ or “naturalized” volume at standardized atmospheric conditions. For example, either 1.0 cfm (28.3 Nl/m) at 87 psi (6 bar) or 1.36 cfm (38.5 Nl/m) at 60 psi (4 bar) are equivalent to 6.9 scfm (195 Nl/m) at standard atmospheric conditions and are thus equivalent compressor loads.

CENTRALIZED SYSTEMS

A centralized system has one “central” vacuum pump supplying all vacuum cups in the system so all cups operate at the same system vacuum level. This vacuum level is affected by the flow capacity of the vacuum pump and the aggregate system leakage. System internal volume is increased by the necessary vacuum hoses, manifolds and tubing in a centralized system. The increased volume results in a longer evacuation time for the system to attain a safe vacuum level. Centralized vacuum pumps are necessarily oversized to provide enough extra vacuum flow capacity to overcome normal porosity and cup wear. However, in instances where there is gross leakage caused by non-sealing vacuum cups due to missing or damaged work pieces, pump capacity can’t overcome the leakage and system vacuum level can be reduced to the point where it is unsafe or impossible to pick up the work pieces. Interdependence of all suction 2 1 cups in a system is not desirable so EDCO has developed components such as Flow Sensor Valves and Dual-Flow 1 valves to make centralized systems perform better by limiting the flow loss from non-sealing suction cups. Part quick-release, 2 or blow-off, is accomplished by3injecting 3 a blast of2compressed air through an isolation check valve and into the centralized vacuum system somewhere prior to the suction cups. This pulse of air quickly dissipates system vacuum. Since flow follows the path of least resistance, most of the air can flow out of the pump exhaust instead of to the suction cups.

Operating a vacuum generator at a lower pressure will not result in reduced energy consumption per se. Energy usage of air-powered devices is measured by the volume flow rate of compressed air. Operating one machine device at 45 psi, for example, will not reduce the overall energy consumption of a manufacturing plant because of all the other machine devices that still require higher air pressures to function properly. The central compressed air system must be tuned to continuously provide at least the minimum air pressure required by any device in the plant.

11:3

Compressed air systems are designed with receivers (storage tanks) that are charged with high pressure air to serve as accumulators that can supply air flow in addition to what the compressor can produce for short periods of time. During extreme peak demands, the stored high pressure air may be drawn down, or depleted, causing the delivered system pressure to dip below optimum pressure. For this reason industrial machines are commonly designed to operate at only 80 psi, but some plants with marginal air systems may require machines to operate at only 60 psi. Systems that are optimized to operate at reduced air pressure should include air regulators set to deliver the proper minimum design pressure otherwise air consumption (energy costs) will be increased substantially whenever the system air pressure is higher.

CENTRAL VACUUM SYSTEM 3

4 3

2 2

1 4

1) Compressed Air Line, 2) Vacuum Generator, 3) Vacuum Line, 4) Vacuum Filter, 5) Vacuum Cup

VACUUM GRIPPERS DISCRETE SYSTEMS

A discrete system is made up of several mini-system units. Each unit consists of a small vacuum pump coupled to a single suction cup so that each unit operates independently of the others. Leakage at a non-sealing cup can only affect the vacuum level of that single cup so any leakage problems are automatically isolated. This gives the overall system the best possible chance to operate reliably even with a reduced number of active cups.

SIMPLE INSTALLATION AND FLEXIBLE POSITIONING Vacuum Grippers mount easily to extrusion profiles having 5/16” (8mm) T-slots so they can be easily repositioned to accommodate changing handling conditions. The twopoint mount provides security and rigidity.

An EDCO Vacuum Gripper integrates a vacuum pump and suction cup into one compact unit to eliminate all excess system volume so that evacuation time is minimized. A discrete system may be split into several zones that are each controlled by separate air supply valves to allow operation of one, several, or all zones as the application requirements change. All discrete units in a zone are simultaneously turned on or off via the compressed air supply - however, each mini-system unit still operates independently on the vacuum side.

1 2

Air pressure supplied to the venturi is diverted to the vacuum port by blocking the venturi exhaust with a piston operated by a pilot pressure signal. Push-in tube connector swivel accepts 5/32 (4MM) tubing. Tool separation movement must begin immediately (no dwell) when purge signal is initiated to prevent excessive positive pressure inside 3 suction cups due to 2forces pressing the tool onto the work surface. Do not use PP option with vacuum switches due to the limited over-pressure capability of switches. 3 4

POSITIVE PRESSURE PURGE (PP)

Part quick-release is accomplished by blocking the pump exhaust with an air piloted piston which causes the pump air supply to flow directly into the vacuum cup because there is no other possible flow path. This positive pressure reverse flow not only DISCRETE VACUUM SYSTEM provides a very fast part release but also provides a cleaning action to purge any debris that was ingested into the suction cup.

Loosen two screws, and slide the vacuum gripper to the desired location.

1) Compressed Air Line 2) Vacuum Generator 3) Vacuum Cup 360° SWIVEL

RUGGED SHEAR KEY MOUNT Two-point mount with shear keys eliminates the possibility of the pumps shifting out of position during operation. Work loads are efficiently and directly transferred to the mounting profile so that mounting screws carry only tensile loads. 1.) T-Nut - RS-5 2.) M5 Screw

LIMITED PRESSURE PURGE (LP)

Similar to Positive Purge except includes an orifice in the purge piston. Purge air flow is not as robust as with the PP option, but air pressure is limited inside the suction cups. 3 3 2 4

NOT INCLUDED See page 11:9

11:4

VACUUM GRIPPERS

Weight: 0.12 lbs (54.4 g)

1.01 [25.7] 1.27 [32.3]

1.01 [25.7] 0.88 [22.4] 0.33 [8.4] 0.2 [5.1] 0.0 0.0 0.2 [5.1] 0.46 [11.7]

VG18-10L VG18-08L VG18-10 VG18-09 VG18-07 VG18-05

0.89 [22.6] 0.45 [11.4]

0.45 [11.4]

0.6 [15.2]

1.46 [37.1] 1.72 [43.7]

0.6 [15.2]

0.73 [18.5]

Air Supply G1/8 NPSF Purge Pilot Signal 4mm (5/32) Tube Vacuum G1/8 NPSF Exhaust *G1/4 BSPP *Only available without purge option.

0.0

1 1A 2 3

1.2 [30.5] 1.07 [27.2] 0.6 [15.2] 0.13 [3.3] 0.0

PORT CONNECTIONS FUNCTION CONNECTION

0.58 [14.7]

CODE

0 0.0

0.0 0

0.0

11 1A

0.76 1.08 1.39 1.49

LP: LIMITED PRESSURE

0.0

VG18-10L-LP VG18-10L-PP VG18-08L-LP VG18-08L-PP

[19.3] [27.4] [35.3] [37.8]

PP & LP PURGE OPTION

CL 0.0

0.31 [7.9]

2 PP: POSITIVE PRESSURE

1 Weight: 0.174 lbs (78.9 g)

0.6 [15.2] 1A

Pilot can be rotated 360 degrees

0.88 [22.4]

CL 0.0 2

11:5

0.33 [8.4]

1.01 [25.7]

0.46 [11.7]

VG38-10L VG38-08L VG38-10 VG38-09 VG38-07 VG38-05

0.0

VACUUM GRIPPERS

0.0 Weight: 0.14 lbs (63.5 g)

0.33 [8.4] 0.88 [22.4]

0.0

0.35 [8.9] 0.4 [10.2]

0.75 [19.1]

0.6 [15.2]

0.0

1.23 [31.2] 1.46 [37.1] 1.72 [43.7]

0.73 [18.5]

0.0 0.23 [5.8]

0.6 [15.2]

0.0

1.2 [30.5]

0.75 [19.1]

1.1 [27.9] 0.73 [18.5]

0.0 0.2 [5.1]

0.6 [15.2] 1.01 [25.7]

PORT CONNECTIONS CODE FUNCTION CONNECTION 1 Air Supply G1/8 NPSF 1A Purge Pilot Signal 4mm (5/32) Tube 2 Vacuum 3/8 NPSF 3 Exhaust *G1/4 BSPP *Only available without purge option.

0.0 0.2 [5.1]

1.27 [32.3]

1.45 [36.8]

PP & LP PURGE OPTION 1A

[19.3] [27.4] [35.3] [37.8]

LP: LIMITED PRESSURE

0.76 1.08 1.39 1.49

0.0

VG38-10L-LP VG38-10L-PP VG38-08L-LP VG38-08L-PP

CL 0.0

0.31 [7.9]

0.6 [15.2]

PP: POSITIVE PRESSURE

0.88 [22.4]

Weight: 0.194 lbs (88.0 g)

Pilot can be rotated 360 degrees

CL 0.0

0.33 [8.4]

11:6

VACUUM GRIPPERS SILENCER OPTION: ST

VG18

VG38

SENSOR PORT OPTION

OPTION: A5F = M5 Port on side “A” OPTION: B5F* = M5 Port at side “B”

0.78 [19.8]

*B5F is not available with a swivel mount on the VG38 pump.

SIDE

M5 x 0.8

0.445 [11.3]

VG18

SIDE

0.65 [16.5]

Air Supply

VG38

CODE 1 1A 2 2A 3

FUNCTION

PORT CONNECTIONS VG18

0.95 [24.1]

BASIC VACUUM GRIPPER 2A

VG38

Air Supply G1/8 NPSF G1/8 NPSF Purge Pilot Signal 4mm (5/32) Tube 4mm (5/32) Tube Vacuum - Main G1/8 NPSF 3/8 NPSF Vacuum - Alternate M5 x 0.8 (10-32 UNF) M5 x 0.8 (10-32 UNF) Exhaust *G1/4 BSPP *G1/4 BSPP *Only available without purge option.

PP: POSITIVE PRESSURE 2A

LP: LIMITED PRESSURE 2A

11:7

VACUUM GRIPPERS

VG18

VG38

1.01 [25.7]

0.0

0.33 [8.4] 1.01 [25.7]

0.33 [8.4] 0.46 [11.7]

0.88 [22.4]

0.0

0.88 [22.4]

0.46 [11.7]

STANDARD M4 PLATE MOUNT FEATURE

SWIVEL MOUNTS FOR VG38 PUMPS BALL SWIVEL OPTION: B 1.13 (28.6)

1.13 (28.6)

0.73 [18.5]

0.0

APPLE CORE OPTION: A 0.74 0.74 (18.9) (18.9)

0.0 0.4 [10.2]

0.61 [15.5]

0.82 [20.8]

11:8

VACUUM GRIPPERS

T-NUT KIT FOR VG18 PUMPS: VG18-TKIT VG18-TKIT Includes 2 pieces of the following: 1) T-Nut, RS-5 2) M5 x 30 Screw

AIR SUPPLY FITTINGS NOT INCLUDED

VG18-10L-PP-B40N & VG18-10L-LP-B40N mounted with VG18-TKIT

VG18-10L-B40N mounted with VG18-TKIT

T-NUT KIT FOR VG38 PUMPS: VG38-TKIT VG38-TKIT Includes 2 pieces of the following: 1) T-Nut, RS-5 2) M5 x 35 Screw

AIR SUPPLY FITTINGS NOT INCLUDED

11 VG38-10L-PP-B50N & VG38-10L-LP-B50N mounted with VG38-TKIT

T-NUT KIT FOR DVG38 PUMPS: DVG38-TKIT DVG38-TKIT Includes 2 pieces of the following: 1) T-Nut, RS-5 2) M5 x 50 Screw

11:9

VG38-10L-B75N mounted with VG38-TKIT

1.369 [35.3]

0.0

BASIC

0.52 [13.2]

DUAL VENTURI VACUUM GRIPPERS

1.39 [35.3] 0.52 [13.2]

0.0

1.64 [41.7] 1.90 [49.3] 1.97 [50]

0.95 [24.1]

1.10 [27.9] 1.64 [41.7] 2.04 [51.8]

0.0 0.25 [6.4]

EXHAUST ADAPTOR

CONNECTION G1/8 NPSF 3/8 NPSF G1/8 NPSF

0.95 [24.1] 1.65 [41.9]

0.0

FUNCTION AIR SUPPLY VACUUM ALT VACUUM

0.65 [16.5]

PORT CONNECTIONS

0.0

2 CODE 1 2 2A

0.95 [24.1]

0.0 0.25 [6.4]

1.43 [36.3]

1.10 [27.9]

0.52 [13.2]

0.95 [24.1]

0.48 [12.2]

0.50 [21.7]

0.0

1.65 [41.9]

0.0

0.0 0.26 [6.6]

0.0

0.95

Weight: 0.20 lbs (90.7 g)

0.95 [24.1]

0.0

0.0 0.56 [14.2] 1.10 [27.9] 1.63 [41.4]

Exhaust: G3/8 BSPP

11:10

1.43 [36.3]

0.95 [24.1]

0.48 [12.2]

0.0

PURGE OPTION

0.74 [18.8] 1.12 [28.4]

DUAL VENTURI VACUUM GRIPPERS

0.0 0.56 [14.2] 1.10 [27.9] 1.63 [41.4] Purge Pilot Signal: G1/8 NPSF

PP: POSITIVE PRESSURE

LP: LIMITED PRESSURE

STANDARD M4 PLATE MOUNT FEATURE

11 1.39 [35.3]

0.52 [13.2]

1.39 [35.3]

0.52 [13.2]

0.0

CUP FITTING ADAPTORS 38MX12M with O-ring Seal

38MX38M with O-ring Seal

38MX18M with O-ring Seal 1.13 [28.6]

0.74 [18.9]

11:11 .1]

Weight: 0.034 lbs (15.4 g)

Weight: 0.02 lbs (9.1 g)

Weight: 0.017 lbs (7.7 g)

1.3

0.5

DUAL VENTURI VACUUM GRIPPERS SWIVEL MOUNTS FOR DVG38 PUMPS

1.13 [28.6]

0.0

0.95 [24.1]

0.74 [18.9]

0.0 0.50 [21.7]

0.61 [15.5]

0.82 [20.8]

VACUUM GRIPPERS PUMP PERFORMANCE

SCFM

1.5

Vacuum Flowrate vs. Vacuum Level for ER-08L & ER-10L Venturis

ER-10L AC = 1.65 SCFM @ 60 psi

1.0

ER-10L AC = 1.9 SCFM @ 72 psi

ER-08L AC = 1.0 SCFM @ 60 psi

ER-08L AC = 1.2 SCFM @ 72 psi

0.5

inHg

For information regarding the performance of our ER-10, ER-09, ER-07, and ER-05 venturis please see the ER series pumps in this catalog.

11:12

VACUUM GRIPPERS PUMP PERFORMANCE

SCFM

SCALE DVG VG 3.0

1.5

2.0

1.0

Vacuum Flowrate vs. Vacuum Level at 72 psi (5 bar) air supply

10L 08L

1.0

0.5

inHg

SCFM

SCALE DVG VG 3.0

1.5

2.0

1.0

Vacuum Flowrate vs. Vacuum Level at 60 psi (4 bar) air supply 10L

08L 1.0

0.5

EVACUATION TIME

inHg

In a non-porous system, evacuation time for any vacuum For example: XP-B75 @ 15 in-Hg (50.8 kPa): cup is calculated by multiplying the internal cup volume Volume Time Factor by the time factor for the desired vacuum level from the cu. in. sec. / cu. in. Evacuation Time Calculation Table. Evacuation Time = 6.7 x .022 = 0.15 seconds

ER-10L Evacuation Time Calculation Table

Vacuum Level: in-Hg (-kPa) Time Factor: sec./cu. in. ÂŠ2012 EDCO USA. www.edcousa.net

9 (30.5) 0.008

11:13

12 (40.6) 0.014

15 (50.8) 0.022

18 (61) 0.036

21 (71) 0.061

VACUUM GRIPPERS HOW TO ORDER VACUUM PORT VG

VENTURI

38 38 = 3/8 NPSF

10L 08L

18 = G1/8 NPS

10L 10 09 07 05

SWIVEL

PURGE1

SILENCER OPTION

SENSOR PORT

CUP SELECTION

MOUNT PP A A5F B50N ST4 (BLANK) = None (BLANK) = None (BLANK) = None (BLANK) = None (BLANK) = None 2

PP LP

A B

A5F

B5F

Only available with VG38.

Only available with 08L & 10L venturi. 1

ST = STA14M

Not available with Purge.

Not available with Swivel on VG38.

See information below.

*VG38 or VG18: For non-porous applications, any ER-series venturi nozzles can be selected for reduced air consumption. However, the PP and LP purge options are not available with these nozzles.

VENTURI 10L 08L 10L 10 09 07 05

LP (BLANK) = None EA = Exhaust Adaptor

LP = Limited Purge PP1 = Positive Purge 1

SWIVEL MOUNT A (BLANK) = None A = Apple Core B = Ball Swivel

See information below.

ST2 = STB38M

Only available with Exhaust Adaptor. 2

VG18 style pumps should only be used with 10 to 50mm cups due to the availability of fittings required to adapt to the G1/8” NPSF vacuum port.

Choose suction cup style, size and rubber material from section 2 of this catalog and add this information as a suffix to the VG pump model number. For example; VG38-10L-PP pump and XP-B50N cup are selected, so the complete Vacuum Gripper model number would be VG38-10L-PP-B50N. For simplified ordering, several Vacuum Gripper model numbers are tabulated, but other combinations are readily available at standard prices – contact your local EDCO USA distributor or call EDCO for assistance.

ER-10L Performance in Non-Porous Systems B30 B40 B50

Volume: cu. In. (cc) Evacuation Time2: sec. Force @ 15 in-Hg: lb (N)

CUP SELECTION B50N (BLANK) = None

Only available with 08L & 10L venturi. 1

SUCTION CUP SELECTION

Cup1

SILENCER OPTION ST (BLANK) = None

1 2

0.61 (10) 0.013 4.1 (18.2)

0.9 (14.7) 0.02 7.3 (32.5)

2.0 (32.8) 0.04 12.1 (53.8)

B75

6.7 (110) 0.15 30.8 (137)

DVG38 -

OPTIONS

VG38 style pumps should only be used with 40 to 150mm cups due to the availability of fittings required to adapt to the G3/8” BSPP vacuum port.

B110

19 (311) 0.42 64.1 (285)

Values apply to all cup materials. Evacuating to 15 in-Hg (50.8 -kPa) at 72 psi (5 bar).

11:14

BF80

1.8 (29.5) 0.04 35 (156)

BF100

4.9 (80.3) 0.11 65 (289)

F75

1.2 (19.7) 0.03 37.5 (167)

F110

4.3 (70.5) 0.1 78.3 (348)

FC75

2.3 (37.6) 0.05 29.1 (129)

FC100

4.9 (80.3) 0.11 53.3 (237)

RAIL SYSTEM

SECTION 12 RAIL SYSTEM

12:1

CONTENTS GENERAL INFORMATION The Ultimate Vacuum Gripper System Simple System Zoning Cleaning Operation Rugged Shear Key Mount Simple Module Alignment Rail Assemblies Palletizing Robot Application

12:3 12:3 12:3 12:3 12:5 12:6 12:8

SELECTION GUIDE Positive Pressure Purge (PP) Limited Pressure Purge (LP) How To Order RS18 Module Suction Cup Selection Evacuation Time Performance RS18 Module How To Order Rail System Assembly (RSA) Profile Length Rail System Assembly Weight Single Side Assembly Example Double Side Assembly Example Zoned Assembly Example

12:3 12:3 12:4 12:4 12:4 12:4 12:5 12:6 12:6 12:6 12:7 12:7 12:7

RAIL SYSTEM

FEATURES, OPTIONS, & ACCESSORIES Sensor Option LB25-10 Elbow Fitting P10 Pipe Plug

12:5 12:5 12:5

12:2

ÂŠ2012 EDCO USA. www.edcousa.net

RAIL SYSTEM

THE ULTIMATE VACUUM GRIPPER SYSTEM

Rail System Modules include all the features of EDCO Vacuum Grippers with a Positive or Limited Purge. In addition they include a pilot-operated cartridge valve for vacuum on/off control. The modules mount to the side of a lightweight 1-1/2 in. x 3 in. rail profile. Air supply plumbing is completely eliminated by utilizing the rail as a manifold to distribute compressed air to each module. Purge Pilot Signal Vacuum On/Off Pilot Signal

POSITIVE PRESSURE PURGE: Add Sufix PP

Air pressure supplied to the venturi is diverted to the vacuum port by blocking the venturi exhaust with a piston operated by a pilot pressure signal. Tool separation movement must begin immediately (no dwell) when purge signal is initiated to prevent excessive positive pressure inside suction cups due to forces pressing the tool onto the work surface. Vacuum switches should not be used due to their limited over-pressure capability.

LIMITED PRESSURE PURGE: Add Suffix LP Similar to Positive Purge except it is modified to limit the pressure applied to the suction cup. Purge air flow is not as robust as with the PP option but the pressure is limited so a vacuum switch can be used for part presence detection.

Vacuum Port

SIMPLE SYSTEM ZONING

Some systems may not require the quick-release provided by the PP or LP options. For these systems, the purge pilot ports can be plugged and not used. However, it would be worthwhile to connect all the purge pilot ports to one pilot valve to provide a brief reverse-flow cleaning action to blow out any ingested debris from the suction cups every few cycles depending on the application environment. This brief cleaning operation wonâ&#x20AC;&#x2122;t add to total cycle time and should be performed during the return-home period while suction cups are open to atmosphere.

One of the most important features of the Rail System is the ease and ability of zoning. Zoning groups several modules to a pair of 3-way solenoid pilot valves. One solenoid pilot valve controls the vacuum-on and the second controls the positive purge for each zone. Zones can include one to several modules and a system can have one to several zones. Systems should be configured with the smallest number of zones that provide the degree of control required for the application. If the requirements of the application change over time, the Rail System can easily be reconfigured by adjusting the number of modules per zone and/or the number of zones per system.

CLEANING OPERATION

Zones with small numbers of modules provide the most system control, however, they also require the largest number of solenoid pilot valves. Application example: Picking and placing various sizes of cases onto a single mixed pallet load.

RUGGED SHEAR KEY MOUNT

Two-point mount with shear keys eliminates the possibility of pumps shifting out of position during operation. Work loads are efficiently and directly transferred to the mounting profile so that mounting screws carry only tensile loads.

Systems with all modules controlled as a single zone are the simplest and require only two solenoid pilot valves. These systems are limited to basically on/off operation for all of the modules. Application example: Picking and placing identical cases onto a single pallet load.

1 2

1) M5 X 40 SCREW 2) T-NUT, RS-5

ÂŠ2012 EDCO USA. www.edcousa.net

12:3

RAIL SYSTEM

HOW TO ORDER MODULES RS

VENTURI

18 = G1/8 NPS

PURGE

10L

08L 10L

OPTIONS

PP = POSITIVE LP = LIMITED

CUP SELECTION

(BLANK) = STANDARD

B50N

(BLANK) = NO CUP SEE INFORMATION BELOW

SX = WITHOUT VALVE 1

Supply valve omitted for constant air supply. 1

SUCTION CUP SELECTION

Choose suction cup style, size and rubber material from section 2 of this catalog and add this information as a suffix to the RS18 pump model number. For example; RS18-10L-PP pump and XP-B50N cup are selected, so the complete Vacuum Gripper model number would be RS18-10L Performance in Non-Porous Systems B30 B40 B50

Cup1

Volume: cu. In. (cc) Evacuation Time2: sec. Force @ 15 inHg: lb (N)

1 2

0.61 (10) 0.013 4.1 (18.2)

0.9 (14.7) 0.02 7.3 (32.5)

2.0 (32.8) 0.04 12.1 (53.8)

B75

6.7 (110) 0.15 30.8 (137)

RS18-10L-PP-B50N. For simplified ordering, several Rail System model numbers are tabulated, but other combinations are readily available at standard prices – contact your local EDCO USA distributor or call EDCO for assistance. B110

BF80

19 (311) 0.42 64.1 (285)

1.8 (29.5) 0.04 35 (156)

Values apply to all cup materials. Evacuating to 15 inHg (50.8 -kPa) at 72 psi (5 bar).

EVACUATION TIME

In a non-porous system, evacuation time for any vacuum cup is calculated by multiplying the internal cup volume by the time factor for the desired vacuum level from the Evacuation Time Calculation Table.

BF100

4.9 (80.3) 0.11 65 (289)

9 (30.5) 0.008

F110

4.3 (70.5) 0.1 78.3 (348)

FC75

2.3 (37.6) 0.05 29.1 (129)

FC100

4.9 (80.3) 0.11 53.3 (237)

For example: XP-B75 @ 15 inHg (50.8 kPa): Volume Time Factor cu. in. sec. / cu. in. Evacuation Time = 6.7 x .022 = 0.15 sec

RS18-10L Evacuation Time Calculation Table

Vacuum Level: inHg (-kPa) Time Factor: sec./cu. in.

F75

1.2 (19.7) 0.03 37.5 (167)

12 (40.6) 0.014

15 (50.8) 0.022

18 (61) 0.036

21 (71) 0.061

VACUUM PORT

PERFORMANCE

SCFM

1.5

1.0

Vacuum Flowrate vs. Vacuum Level for ER-08L & ER-10L Venturis ER-10L AC = 1.9 SCFM @ 72 psi

ER-08L AC = 1.0 SCFM @ 60 psi ER-08L AC = 1.2 SCFM @ 72 psi

ER-10L AC = 1.65 SCFM @ 60 psi

0.5

12:4

inHg

RAIL SYSTEM DIMENSIONS

PILOT FITTINGS – ALUMINUM

1.27 [32.3]

1.2 [30.5]

LB25-10 – Elbow 10-32 UNF (M5), with O-ring seal 4mm (5/32 in) O.D. 3 Tubing Barb

1 3

3.0 [76.2]

P10 – Plug 10-32 UNF(M5), with O-ring seal

(actual size) weight as shown: 0.0005 lbs (0.28 g)

5 (actual size) weight as shown: 0.0045 lbs (2.14 3 g)

RS18-10L-PP / RS18-10L-LP 0.73 [18.4] 0.76 [19.3]

1) Purge Pilot Signal - M5 (10-32 UNF) 2) Air Supply - 3/8 NPSF 3) Vacuum On/Off - M5 (10-32 UNF)

Weight as shown: 0.275 lbs (125 g)

VACUUM SENSOR OPTION

SIMPLE MODULE ALIGNMENT

A P10 plug can be removed from the front or side of the RS18 module to accommodate a VP-3 or VN-3 vacuum sensor.

Placing the Reference Face of the module on the center line of the thru hole aligns the compressed air port with the thru hole.

CL CL Air Supply Reservoir

Front Mount

0.17 [4.2] Thru Hole

12:5

Reference Edge

RAIL SYSTEM

RAIL ASSEMBLIES

The 1-1/2”x3” Aluminum extrusion profiles include 3/8” NPSF ports at each end, one for air supply and the other for a plug or a pressure gauge. Rails are drilled to mount modules on center-to-center distances to your specifications. The minimum recommended spacing is 1-1/2 in. (38.1 mm) but is also dependent on suction cup diameter. RS18-10L modules will be mounted to the rail and tested by EDCO USA. Pilot port fittings, zone tubing, and 3-way air solenoid pilot valves must be installed by the system integrator because of the many possible configurations.

Slots in Rail are still accessable

G1/2 NPSF

HOW TO ORDER ASSEMBLIES CENTER SPACING

NUMBER OF MODULES

RSA

–

M = TOTAL NUMBER OF MODULES DESIRED

C C = DISTANCE FROM CENTER OF ONE MODULE TO THE CENTER OF THE NEXT MODULE

PROFILE LENGTH

Minimum recommended center-to-center spacing is 1.5in but is also dependent on suction cup diameter. The minimum recommended end spacing is 0.9 in. Profile Length Calculation +

END SPACING

–

SINGLE OR DOUBLE SIDED

–

E = DISTANCE FROM END OF PROFILE TO THE CENTER OF THE FIRST MODULE

S S = MODULES ON ONE SIDE D1 = MODULES ON BOTH SIDES 1 Option D is limited to 50mm and smaller cups.

RAIL ASSEMBLY WEIGHT

For total assembly weight add the Rail weight with RS18 Module weights, 0.253 lbs for the 3/8 NPSF End Caps, suction cup weights, and fitting weights. Weight Calculations

2 x End Spacing (in) Center Spacing (in) x (Number of Modules* - 1) = Profile Length (in)

Rail Weight (lbs)

* For a Double Sided rail divide the Number of Modules by 2.

Profile Length (in) x 0.138 Number of Modules x 0.275 + 0.267 (End Plates) = Rail Weight (lbs)

RSA-20-2.40-0.9-S

Single Sided Rail

Profile Length = 47.4 in

RSA-20-2.40-0.9-S End Spacing = 0.9 Center Spacing = 2.40 Number of Modules = 20

Example:

Examples:

2 x (0.9) 2.40 x (20-1) = 47.4 in.

Total Weight (lbs)

Double Sided Rail RSA-40-2.00-0.9-D End Spacing = 0.9 Center Spacing = 2.00 *Number of Modules = 40 For the calculation we need to divide the Number of Modules by 2. 40/2 = 20 +

47.4 x 0.138 20 x 0.275 0.267 = 11.21 lbs

Rail Weight (lbs) Number of P10 x 0.0005 Number of LB25-10 x 0.0045 Number of Cups x Cup Weight + Number of Cups x Cup Fitting Weight Total Weight (lbs)

Example:

2 x (0.9) 2.00 x (20-1) = 39.8 in.

RSA-20-2.40-0.9-S with RS18-10L-PP-B50N

Rail Weight 20 P10 Plugs 20 LB25-10 Elbows 20 XP-B50N Cups 20 50-38M Fittings

Total Weight

12:6

11.21 20 x 0.0005 20 x 0.0045 20 x 0.047 20 x 0.02 = 12.65 lbs

RAIL SYSTEM

SINGLE SIDE ASSEMBLY

C E

DOUBLE SIDE ASSEMBLY

ZONED RAIL ASSEMBLY 12

with Typical XP-B50 center-to-center spacing of 2.36in (60mm) 2.36 [60]

To Purge Solenoid Pilot Valve

To Purge Vacuum On/Off Solenoid Pilot Valve

12:7

RAIL SYSTEM

Palletizing Application with Double Sided Rail and XP-2B50 Cups

12:8

ÂŠ2012 EDCO USA. www.edcousa.net

J SERIES

SECTION 13 J SERIES

13:1

0.64[1[ 0.73

0.0

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

1.25 [31.8] 1.26 [32]

0.12 [3] 0.64 [16.3] 0.0 0.27 [6.9]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

1.25 [31.8] 1.26 [32]

0.22 [5.6] Thru Hole 2 Places 2.06 [52.3]

1.28 [32.5] 0.0

Air Pilot Controlled Vacuum Supply & Blow-Off Pumps

13:2

1.28 [32.5]

2.06 [52.3]

0.64 [16.3]

2.06 [52.3]

0.64 [16.3]

0.0

Solenoid Controlled Vacuum Supply Pumps

0.22 THRU 2 PLA

0.0

Air Pilot Controlled Vacuum Supply Pumps

THRU HOLE 2 PLACES

0.0

0.12 [3] 0.0 0.27 [6.9]

0.80 [20.3]

1.36 [34.5]

2.55 [64.8] 2.64 [67.1] 0.64 [16.3] 3.05 [77.5] 0.43 [10.9] 0.0

2.06 [52.3]

1.25 [31.8] 1.26 [32]

Basic Pumps

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

1.25 [31.8] 1.26 [32]

0.12 [3] 0.0 0.27 [6.9]

0.0

0.64 [16.3] 0.43 [10.9] 0.0

0.12 [3] 0.0 0.27 [6.9]

0.0

J SERIES

.80 [20.3]

0.64 [ 0.43 [ 0.0

0.73 [1

0.64 [ 0.43 [ 0.0

0.0 THRU HOLE 2 PLACES 2A 0.60 [15.2] 0.22 [5.6] 2.29 [58.2] 1 CONTENTS 1 2.22 [56.4] 2.22 [56.4] THRU HOLE 1.19 [30.2] 2 PLACES 1.90 [48.3] 1.90 [48.3] PUMP STYLES & GENERAL INFORMATION 1.70 [43.2] 1.70 [43.2] 1.55 [39.4] 1.55 [39.4] 1.58 [40.1] 1.58 [40.1] 1.15 [29] Basic Pumps 13:3 – 13:4 0.80 [20.3] 0.80 [20.3] Air Pilot Controlled Vacuum Supply Pumps 13:5 – 13:6 0.55 [11.7] [14] 0.55 [14] 0.43 [10.9] 0.46 0.43 [10.9] 0.20 [5.1] Air Pilot Controlled Vacuum 0.20 Supply & Blow-Off Pumps 13:7 – 13:8 [5.1] 0.0 0.0 0.0 0.0 Controlled Vacuum Supply 0.0Pumps Solenoid 13:9 – 13:10 Solenoid Controlled Vacuum Supply & Blow-Off Pumps 13:11 – 13:12 0.80 [20.3] 0.80 [20.3] Options 13:13 Accessories 13:13 0.17 [4.3] 0.17 [4.3] Thru Hole Performance 13:14 Thru Hole 2 2 Places 2 Places 3.03 [77] 3.03 [77] 0.0 0.0 2A 1 1 0.22 [5.6] 2.22 [56.4] 2.22 [56.4] 0.64 [16.3] 0.64 [16.3] Thru Hole 1.90 [48.3] 1.90 [48.3] 2 Places 1.70 [43.2] 1.70 [43.2] 1.28 [32.5] 1.28 [32.5] .55 [39.4] 1.55 [39.4] 1.58 [40.1] 1.58 [40.1] 1.15 [29] 0.80 [20.3] 0.80 [20.3] 0.55 [14] 0.55 [14] 0.46 [11.7] .43 [10.9] 0.43 [10.9] 0.20 [5.1] 0.20 [5.1] 0.0 0.0 0.0 0.00.0

J SERIES

BASIC PUMP

Optional Non-Return 2A

1.70 [43.2] 1.58 [40.1]

0.80 [20.3]

0.60 [15.2]

0.0

1.19 [30.2]

0.60 [15.2] 0.20 [5.1] 0.0

3.09 (78.5) 3.49 (88.7)

0.46 [11.7] 0.0

A in. (mm)

1.85 [47] 1.94 [49.3] 2.35 [59.7]

0.22 [5.6] Thru Hole 2 Places

0.0

0.60 [15.2]

25 30 2

1.15 [29.2]

4.47 (113.5)

4.87 (123.6) 5.71 (144.9)

0.60 [15.2]

0.0

A in. (mm)

0.0

VENTURI DIAMETER

A 1.36 [34.5]

0.0

1.36 [34.5]

0.0

1.15 1.19[29.2] [30.2]

12 15

0.0 0.20 [5.1] 0.55 [14] 0.56 [14.2]

0.0

0.17 [4.3] Thru Hole 2 Places

VENTURI 3 DIAMETER

1.85 [47] 1.94 [49.3] 2.35 [59.7]

0.0 0.20 [5.1] 0.55 [14] 0.56 [14.2]

1 0.0 1.90 [48.3] 0.60 [15.2]

-G (BSPP)

1 Air Supply- Main 1/4 NPTF G1/4 BSPP 2 Vacuum- Main G1/2 NPSF G1/2 NPSF 0.17 2A [4.3] Vacuum- Alternate 0.22 [5.6] 2A G1/8 NPSF G1/8 NPSF Thru Hole Thru Hole 3 Exhaust G1/2 NPSF G1/2 NPSF 2 Places 2 "-G" Places NPT ports are Standard, add suffix for optional BSPP ports.

1.85 [47] 1.94 [49.3] 2.35 [59.7]

0.0 0.20 [5.1] 0.60 [15.2] 0.55 [14] 0.56 [14.2] 0.0

0.80 [20.3]

PORT CONNECTIONS FUNCTION Standard (NPT)

CODE

1.15 [29.2]

0.46 [11.7]

0.0

2 0.0

NON-RETURN VALVE OPTION

0.60 [15.2]

1.36 [34.5]

0.0

1.19 [30.2]

13:3

WEIGHT 0.52 lbs (236 g)

0.60 [15.2]

0.0

0.60 [15.2]

1 0.17 [4.3] 0.22 [5.6] 2A Thru Hole Thru Hole 2 Places HOW TO2 Places ORDER 1.90 [48.3] 1.70 [43.2] 1.70 [43.2] VENTURI NON 1.58 [40.1] PORTS SILENCER 1.58 [40.1] 1.15 [29.2] RETURN DIAMETER 1.15 [29.2] J 12 H – – 0.60 120.60 = 1.2 [15.2] mm (BLANK) = NPTF (Blank) = No (Blank) = None[15.2] 0.20[11.7] [5.1] 0.46 15 0.20 = 1.5 mm G = BSPP NR = Yes AA = AA14M [5.1] 0.0 0.0 ST = STA14M 0.0 0.0

0.0

0.60 [15.2]

Basic J-series pumps may be ordered with any of five different coaxial ejectors to match pump performance to system requirements. Vacuum on/off control is accomplished via external control valves in the pump air supply. An optional non-return vacuum check valve is available for use in sealed systems, but some method of releasing vacuum must be added to the system – see RC18 Release Check. Vacuum sensors may be installed in either of the two 1/8” auxiliary vacuum ports to monitor system vacuum level.

J SERIES

BASIC PUMP

0.80 [20.3]

0.0 0.60 [15.2] 1.19 [30.2]

0.60 [15.2] 0.20 [5.1] 0.0

1.15 [29.2]

0.46 [11.7]

4.47 (113.5) 4.87 (123.6)

5.71 (144.9)

0.0

0.60 [15.2]

0.22 [5.6] 2 Thru Hole 2 Places

0.0

0.60 [15.2]

0.0

A 2A

0.0 0.20 [5.1] 0.55 [14] 0.56 [14.2]

0.17 [4.3] 2Thru Hole 2 Places 1.70 [43.2] 1.58 [40.1]

0.0

20 25

A in. (mm)

0.60 [15.2]

-G (BSPP)

1.15 [29.2]

0.46 [11.7]

0.0 13

0.0

1.19 [30.2]

0.46 [11.7]

0.0

1.15 [29.2]0.60 [15.2]

1.15 [29.2]

0.0

0.0 0.20 [5.1] 0.55 [14] 0.56 [14.2]

0.0

0.60 [15.2]

0.0

PORT CONNECTIONS FUNCTION Standard (NPT)

VENTURI DIAMETER

(Blank) = None AA = AA12M 0.60 [15.2] ST =0.20 STC12M [5.1]

0.0 0.20 [5.1] 0.55 [14] 0.56 [14.2]

1.90 [48.3]

(Blank) = No NR = Yes

0.0

0.80 [20.3]

2 Places SILENCER 1.70 [43.2] 1.58 [40.1] –

1.85 [47] 1.94 [49.3] 2.35 [59.7]

[15.2] 0.20 [5.1] 0.0

CODE

0.0

(BLANK) = NPTF G = BSPP

1 Air Supply- Main 1/4 NPTF G1/4 BSPP VENTURI A 2 Vacuum- Main G1/2 NPSF G1/2 NPSF DIAMETER in. (mm) 2A VacuumAlternate G1/8 NPSF G1/8 NPSF 0.22 [5.6] 2A 12 0.22 [5.6] 0.17 [4.3] 3 3.09 (78.5) G1/2 NPSF Exhaust G1/2 NPSF Thru Hole Thru Hole Thru HoleNPT ports are Standard, 15 add suffix "-G" 3.49 (88.7) 2 Places 2 Places for optional BSPP ports.

1.85 [47] 1.94 [49.3] 2.35 [59.7]

20 = 2.0 mm 25 = 2.5 mm 0.60 30 = 3.0 mm

–

1.15 [29.2]

25 1.58 [40.1] H

NON RETURN

Optional Non-Return

1.85 [47] 1.94 [49.3] 2.35 [59.7]

1.90 [48.3] VENTURI 2 Places PORTS DIAMETER 1.70 [43.2]

1.36 [34.5]

0.0

1.36 [34.5]

2 0.0 NON-RETURN VALVE OPTION

0.60 [15.2]

0.0

1.19 [30.2]

WEIGHT 0.54 lbs (245 g)

1.36 [34.5]

0.60 [15.2]

0.17 [4.3] HOW TO ORDER Thru Hole 0.0

0.60 [15.2]

WEIGHT 0.59 lbs (268 g)

13:4

J SERIES

AIR PILOT CONTROLLED VACUUM SUPPLY

1.15 [29]

0.0

0.64 [16.3]

20 25 30

4.47 (113.5) 4.87 (123.6) 5.71 (144.9)

3 2A

0.0 NON-RETURN VALVE OPTION

2 0.0 0.64 [16.3]

0.0

2.06 [52.3]

1.28 [32.5]

13:5

WEIGHT 0.74 lbs (336 g)

0.64 [16.3]

0.0

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

1.25 [31.8] 1.26 [32]

0.64 [16.3]

0.73 [18.5]

0.12 [3] A 0.0 0.27 [6.9]

A in. (mm)

0.46 [11.7]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.80 [20.3]

VENTURI DIAMETER

0.22 [5.6] THRU HOLE 2 PLACES

0.80 [20.3] 0.55 [14] 0.20 [5.1] 0.0

1.25 [31.8] 1.26 [32]

0.0

3.09 (78.5) 3.49 (88.7)

0.17 [4.3] THRU HOLE 2 PLACES

2A 1.28 [32.5]

2.29 [58.2] 2.22 [56.4] 1.90 [48.3] 1.70 [43.2] 1.58 [40.1]

2.06 [52.3]

0.43 [10.9]

0.64 [16.3]

0.12 [3] 0.0 0.27 [6.9]

0.0

1.55 [39.4]

0.0

A in. (mm)

12 15

0.0

VENTURI DIAMETER

2.06 [52.3]

0.73 [18.5]

0.64 [16.3] 0.43 [10.9] 0.0

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.96 [24.4] 0.0

0.64 [16.3] 1 1.28 [32.5]

0.0

0.64 [16.3] 0.43 [10.9] 0.0

0.73 [18.5]

0.0

0.80 [20.3]

20.3]

0.0

1.25 [31.8] 1.26 [32]

10.9]

0.12 [3] 0.0 0.27 [6.9]

39.4]

Large capacity J-series coaxial pumps provide full 3 4 control features in an integrated package. Pumps 4 may be ordered with any of five different coaxial ejectors to match pump performance to system0.96 [24.4] Optional requirements.0.96 An[24.4] integral pilot-operated valve 2A Non-Return provides on/off vacuum control. An optional non2 return vacuum check valve is available for use in 0.0 PORT CONNECTIONS sealed systems, but0.0 some method of releasing CODE FUNCTION Standard (NPT) -G (BSPP) vacuum must be added to the system – see 1 Air Supply- Main 1/4 NPTF G1/4 BSPP RC18 Release Check. Vacuum sensors may be 2 Vacuum- Main0.17 [4.3] G1/2 NPSF G1/2 NPSF installed in either of the two 1/8” auxiliary vacuum 2A Vacuum- Alternate G1/8 NPSF G1/8 NPSF THRU HOLE 0.17 [4.3] ports to monitor system vacuum 1/2” 1 level. Large 2A 3 Exhaust2 PLACES G1/2 NPSF G1/2 NPSF THRU HOLE vacuum port readily handles 2.29 [58.2] 2A the high vacuum 4 Pilot Signal - Vacuum M5 x 0.80.22 (10-32[5.6] UNF) M5 x 0.8 (10-32 UNF) 2 PLACES 2.22 [56.4] flow produced2.29 by coaxial [58.2] ejectors. "-G"HOLE for optional BSPP ports. THRU 0.22 [5.6] NPT ports are Standard, add suffix 1.90 [48.3] 2.22 [56.4] 2 PLACES HOLE 1.70THRU [43.2] 1.90 [48.3] HOW TO ORDER 1.55 [39.4] integration into Air-pilot operation simplifies 2 PLACES 1.58 [40.1] 1.70 [43.2] VENTURI field-bus systems by shifting electrical control NON 1.15 [29] SILENCER PORTS 1.58 [40.1] to a bank of pneumatic 3-way solenoid valves.0.80 [20.3] DIAMETER 3 RETURN 1.15 [29] J 15 H – PS – – 0.80wires [20.3]in an automation system 0.55 [14] Flexing control 0.46 [11.7] 0.43 [10.9] 12 = 1.2 mm (BLANK) = NPTF (Blank) = No (Blank) = None 0.20 [5.1] 0.55 [14] are replaced with small diameter air tubing for 2A 0.46 [11.7] 0.0 0.0 15 = 1.5 mm G = BSPP NR = Yes 0.0 AA = AA14M 0.20 [5.1] greater reliability. ST = STA14M 0.0 0.0 4

0.64 [16.3] 0.43 [10.9] 0.0

Optional Non-Return

2A 2

CODE

PORT CONNECTIONS Standard (NPT)

-G (BSPP)

Air Supply- Main 1/4 NPTF G1/4 BSPP 4 Vacuum- Main G1/2 NPSF G1/2 NPSF Vacuum- Alternate G1/8 NPSF G1/8 NPSF Exhaust G1/2 NPSF G1/2 NPSF Pilot Signal - Vacuum M5 x 0.8 (10-32 UNF) M5 x 0.8 (10-32 UNF) NPT ports are Standard, add suffix "-G" for optional BSPP ports.

A in. (mm)

0.64 [16.3]

4.87 (123.6) 0.0 5.71 (144.9)

1.15 [29]

1.28 [32.5]

0.46 [11.7]

3 2A

0.64 [16.3]

(Blank) = None

3.09 (78.5) AA = AA12M 3.49 (88.7) ST = STC12M

4.47 (113.5) 0.46 [11.7]

0.0

20 25 30

A in. (mm)

0.0

–

1.15 [29]

0.64 [16.3]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

1.25 [31.8] 1.26 [32]

0.12 [3] A 0.0 0.27 [6.9]

0.73 [18.5]

2.55 [64.8] 2.64 [67.1] 0.0 3.05 [77.5]

0.0 A

2.06 [52.3]

0.80 [20.3]

0.0

0.80 [20.3] 0.55 [14] 0.20 [5.1] 0.0

VENTURI DIAMETER

0.222[5.6] THRU HOLE 2 PLACES

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.0

0.17 [4.3] THRU HOLE 2 PLACES

0.0

1.28 [32.5]

0.43 [10.9]

0.0

SILENCER

THRU HOLE NR = Yes 2 PLACES15

0.46 [11.7]

1.25 [31.8] 1.26 [32]

0.64 [16.3]

0.12 [3] 0.0 0.27 [6.9]

1.55 [39.4]

0.0

2.29 [58.2] 2 2.22 [56.4] 1.90 [48.3] 1.70 [43.2] 1.58 [40.1]

2.06 [52.3]

G = BSPP

1.15 [29]

0.80 [20.3] 0.55 [14] 0.20 [5.1] 0.0

0.96 [24.4] 0.80 [20.3] 0.55 [14] 0.43 [10.9] 0.20 [5.1] 0.0 0.0 0.0 0.80 [20.3]

0.0

2.22 [56.4] 25 = 2.5 mm THRU 1.90HOLE [48.3] 30 = 3.0 mm 2 1.70 PLACES 4 [43.2] 1.58 [40.1]

2.22 [56.4] 1.90 [48.3] 1.70 [43.2] 1.55 [39.4] 1.58 [40.1]

0.3]

0.73 [18.5]

0.0

0.64 [16.3] 0.43 [10.9] 0.0

0.73 [18.5]

0.0

0.64 [16.3] 0.43 [10.9] 0.0

NON-RETURN VALVE OPTION

0.0 0.64 [16.3]

0.0

1.28 [32.5]

WEIGHT 0.76 lbs (345 g)

2.06 [52.3]

0.64 [16.3]

1 2 2A 3 4

FUNCTION

0.0

1.25 [31.8] 1.26 [32]

0.0

HOW TO ORDER Air-pilot operation 0.0 simplifies integration into fieldbus systems by shifting electrical control to a bank VENTURI NON 0.17 [4.3] PORTS [4.3] DIAMETER RETURN of pneumatic 3-way solenoid valves. 0.17Flexing THRU HOLE VENTURI HOLE J 25 H – 2 PLACES – PSDIAMETER control wires in an automation system THRU are replaced 2A 2 PLACES 2.29 [58.2] 20 = 2.0 mm (BLANK) = NPTF 0.22 [5.6] (Blank) = No 2A with small diameter air tubing for 1greater reliability.0.22 [5.6] 12 2.29 [58.2]

0.12 [3] 0.64 [16.3] 0.0 0.43 [10.9] 0.27 [6.9] 0.0

0.9]

Large capacity J-series coaxial pumps provide full control features in an integrated package. Pumps may be ordered with any of five different coaxial ejectors to match pump performance to system requirements. An integral pilot-operated valve provides on/off vacuum control. An optional nonreturn vacuum check valve is available for use in sealed systems, but some method of releasing vacuum must be added to the system – see RC18 Release Check. Vacuum sensors may be installed in either of the two 1/8” auxiliary vacuum ports to 4 monitor system vacuum level. Large 1/2” vacuum 0.96 [24.4] port readily handles the high vacuum flow produced 0.96 [24.4] by coaxial ejectors.

AIR PILOT CONTROLLED VACUUM SUPPLY

0.0

9.4]

J SERIES

13:6

J SERIES

4 VS

AIR PILOT CONTROLLED VACUUM SUPPLY & BLOW-OFF

0.64 [16.3]

0.0 1.15 [29] 0.46 [11.7]

0.0

A in. (mm)

3.09 (78.5) 3.49 (88.7) A in. (mm)

4.47 (113.5) 4.87 (123.6) 5.71 (144.9)

3 2A

NON-RETURN VALVE OPTION

2 0.0 0.64 [16.3]

0.0

2.06 [52.3]

1.28 [32.5]

13:7

0.64 [16.3]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

1.25 [31.8] 1.26 [32]

0.0

0.64 [16.3]

0.73 [18.5]

0.12 [3] A0.0 0.27 [6.9] 0.0

2.06 [52.3]

20 25 30

0.22 [5.6] THRU HOLE 2 PLACES

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.80 [20.3]

VENTURI DIAMETER

0.80 [20.3] 0.55 [14] 0.20 [5.1] 0.0 1.25 [31.8] 1.26 [32]

0.0

0.64 [16.3]

0.12 [3] 0.0 0.27 [6.9]

0.43 [10.9]

2.22 [56.4] 1.90 [48.3] 1.70 [43.2] 1.58 [40.1]

VENTURI DIAMETER 12 15

0.0

1.28 [32.5] 0.17 [4.3] THRU HOLE 2A 2 PLACES

1.28 [32.5]

1.55 [39.4]

2.06 [52.3]

0.64 [16.3] 1

0.0

0.32 [8.1] 0.0

0.0

0.64 [16.3] 0.43 [10.9] 0.0 0.0

0.0

0.64 [16.3] 0.43 [10.9] 0.0

0.73 [18.5]

0.0

0.96 [24.4]

0.73 [18.5]

20.3]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.0

1.25 [31.8] 1.26 [32]

10.9]

0.12 [3] 0.0 0.27 [6.9]

39.4]

Large capacity J-series coaxial pumps provide full 4 control features in an integrated package. Pumps 5 0.96 [24.4] may be ordered with any of five different coaxial BO 0.96 [24.4] Optional ejectors to match pump performance to system Non-Return 0.32 [8.1] requirements. An integral pilot-operated valve 2A 0.32 [8.1] 0.0 provides on/off vacuum control. A second integral Blow 2 0.0 Intensity pilot-operated valve provides quick-release air PORT CONNECTIONS control, while an integral flow control valve that CODE FUNCTION -G (BSPP) fine-tunes the blow intensity to suit the application. 0.17 [4.3]Standard (NPT) 1 Air SupplyMainHOLE 1/4 NPTF G1/4 BSPP 0.17in[4.3] An optional non-return valve is available for use THRU VacuumG1/2 NPSF 2A 2 THRU HOLE 2 Main PLACES G1/2 NPSF sealed non-porous systems. 1Vacuum sensors may 2A 2A VacuumAlternate G1/8 NPSF G1/8 NPSF 2 PLACES 0.22 [5.6] be installed in either of the two 1/8” auxiliary vacuum 2.22 [56.4] 3 Exhaust G1/2 NPSF G1/2 NPSF 0.22 [5.6] THRU HOLE ports to monitor 1/2” [48.3] 2.22system [56.4] vacuum level. Large 1.90 4 Pilot Signal - Vacuum M5 x 0.8 (10-32 UNF) M5 x 0.8 (10-32 UNF) THRU HOLE 2 PLACES 1.70 [43.2] vacuum port 1.90 readily handles the high vacuum flow [48.3] Exhaust M5 x 0.8 (10-32 UNF) M5 x 0.8 (10-32 UNF) 1.55 [39.4] 2 PLACES 5 1.70 [43.2] 1.58 [40.1] produced by coaxial ejectors. NPT ports are Standard, add suffix "-G" for optional BSPP ports. 1.15 [29] 1.58 [40.1] 0.80 [20.3] 3 1.15 [29] Air-pilot operation simplifies integration into field- HOW TO ORDER 0.80 [20.3] 0.55 [14] 0.46 [11.7] 0.43 [10.9] bus systems by0.55 shifting NON 0.20 [5.1] VENTURI0.46 [11.7]PORTS [14] electrical control to a bank SILENCER 2A of pneumatic 3-way solenoid0.0 valves. Flexing control RETURN 0.0 0.0DIAMETER 0.20 [5.1] 12 H 0.0 – PSB – – 0.0 system are replaced with J wires in an automation 12 = 1.2 mm (BLANK) = NPTF (Blank) = No (Blank) = None small diameter air tubing for greater reliability. 0.80 [20.3] 15 = 1.5 mm G = BSPP NR = Yes AA = AA14M 4 ST = STA14M

0.64 [16.3] 0.43 [10.9] 0.0

WEIGHT 0.74 lbs (336 g)

CODE4

2A 2

PORT CONNECTIONS Standard (NPT)

-G (BSPP)

0.64 [16.3]

Air Supply- Main 1/4 NPTF G1/4 BSPP Vacuum- Main G1/2 NPSF G1/2 NPSF Vacuum- Alternate G1/8 NPSF G1/8 NPSF Exhaust G1/2 NPSF G1/2 NPSF Pilot Signal - Vacuum M5 x 0.8 (10-32 UNF) M5 x 0.8 (10-32 UNF) Exhaust M5 x 0.8 (10-32 UNF) M5 x 0.8 (10-32 UNF) NPT ports are Standard, add suffix "-G" for optional BSPP ports.

0.64 [16.3]

0.0

FUNCTION 5

0.73 [18.5]

1 2 2A 3 4 5

0.64 [16.3] 0.43 [10.9] 0.0

Optional Non-Return

Blow Intensity

0.0

0.46 [11.7]

0.64 [16.3]

0.0 1.15 [29]

0.0 A

0.0

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.0

1.25 [31.8] 1.26 [32]

0.12 [3] A 0.0 0.27 [6.9]

0.73 [18.5]

2.55 [64.8] 2.64 [67.1] 0.0 3.05 [77.5]

0.80 [20.3]

2.06 [52.3]

0.0

1.28 [32.5]

0.80 [20.3] 0.55 [14] 0.20 [5.1] 0.0

0.22 [5.6] THRU HOLE 2 PLACES

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.43 [10.9]

0.17 [4.3] THRU HOLE 2 PLACES

1.25 [31.8] 1.26 [32]

[32.5] 1.551.28 [39.4]

2.22 [56.4] 1.90 [48.3] 1.70 [43.2] 1.58 [40.1]

0.0 2A 0.64 [16.3]

0.12 [3] 0.0 0.27 [6.9]

1 0.64 [16.3]

0.73 [18.5]

0.0

2.06 [52.3]

NON-RETURN VALVE OPTION

2 0.0

0.64 [16.3]

WEIGHT 0.76 lbs (345 g)

2.06 [52.3]

1.28 [32.5] 0.0

.3]

5 BO

0.17 [4.3] THRU HOLE THRU HOLE HOW TO ORDER 2 PLACES 2A Air-pilot operation simplifies integration into 2 PLACES VENTURI 2A NON 0.22 [5.6] PORTS SILENCER 1 0.22 [5.6] field-bus systems by shifting electrical control 2.22 [56.4]DIAMETER RETURN THRU HOLE VENTURI A 2.22 [56.4] THRU HOLE to a bank of pneumatic 3-way solenoid valves. 1.90 [48.3] J 25 H – PLACES PSB – – 2 DIAMETER in. (mm) 1.90 [48.3] 2 1.70 PLACES [43.2]20 = 2.0 mm (BLANK) = NPTF (Blank) = No (Blank) = None Flexing control wires 1.55 in an automation system 1.70 [43.2] [39.4] 12 NR = Yes 3.09AA (78.5) 1.58 [40.1]25 = 2.5 mm G = BSPP = AA12M are replaced with small diameter air tubing for 1.58 [40.1] 1.15 [29] 15 3.49 (88.7) 3 1.15 [29] 30 = 3.0 mm ST = STC12M greater reliability. 0.80 [20.3] 0.80 [20.3] 0.55 [14] 0.55 [14] 0.43 [10.9] 4 [5.1]5 0.46 [11.7] 2A VENTURI 0.46 [11.7] A 0.20 0.20 [5.1] DIAMETER in. (mm) 0.0 0.0 0.0 0.0 0.0 20 4.47 (113.5) 0.96 [24.4] 25 4.87 (123.6) 0.80 [20.3] 0.32 [8.1] 30 5.71 (144.9) 0.0 1.25 [31.8] 1.26 [32]

0.0

Large capacity J-series coaxial pumps provide full control features in an integrated package. Pumps may be ordered with any of five different coaxial ejectors to match pump performance to system requirements. An integral pilot-operated valve provides on/off vacuum control. A second integral pilot-operated valve provides quickrelease air control, while an integral flow control valve that fine-tunes the blow intensity to suit 4 5 the application. An optional non-return valve is available for use in sealed non-porous systems. Vacuum sensors may be installed in either of 0.96 [24.4] 0.96 [24.4] the two 1/8” auxiliary vacuum ports to monitor 0.32 [8.1] 0.32 level. [8.1] system vacuum Large 1/2” vacuum port 0.0 0.0high vacuum flow produced readily handles the by coaxial ejectors. 0.17 [4.3]

0.12 [3] 0.0 0.64 [16.3] 0.43 [10.9]0.27 [6.9] 0.0

.9]

4 VS

AIR PILOT CONTROLLED VACUUM SUPPLY & BLOW-OFF

0.0

.4]

J SERIES

13:8

J SERIES

Vacuum Supply Solenoid

SOLENOID CONTROLLED VACUUM SUPPLY

0.64 0.12[16.3] [3] 0.43 [10.9] 0.0 0.0 0.27 [6.9]

.3]

0.0

1.28 [32.5] 0.0 0.80 [20.3]

0.0

0.17 [4.3] Thru Hole 2 Places 3.03 [77] 2

2A 0.0

0.64 [16.3]

3.09 (78.5) 3.49 (88.7)

1.15 [29]

VENTURI 3 DIAMETER

2A20 25 30

A 0.46 [11.7] in. (mm)

4.47 (113.5) 0.0 4.87 (123.6) 5.71 (144.9)

2 0.22 [5.6] Thru Hole 2 Places

1.28 [32.5]

0.80 [20.3] 0.55 [14] 0.20 [5.1] 0.0

1.15 [29] 0.46 [11.7]

3 2A

0.0 NON-RETURN VALVE OPTION

2 0.0 0.64 [16.3]

0.0

2.06 [52.3]

1.28 [32.5]

13:9

WEIGHT 0.82 lbs (372 g)

0.0

0.64 [16.3]

AA = AA14M

0.80 [20.3]ST = STA14M 0.55 1.15 [14] [29] 0.20 [5.1] 0.0[11.7] 0.46

2.22 [56.4] 1.90 [48.3] 1.70 [43.2] 1.58 [40.1]

0.64 [16.3] 1.55 [39.4]

0.43 [10.9]

NR = Yes

0.0

12 15

1.70 [43.2] = No (Blank) = None 2 (Blank) Places 1.58 [40.1]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

.9]

2.06 [52.3] 0.12 [3] 0.0 0.27 [6.9]

.4]

1.25 [31.8] 1.26 [32]

(BLANK) = NPTF 1.55 [39.4] 24D = 24 VDC [48.3] G = BSPP 110A = 110 VAC [43.2] 1.58 [40.1] Order DIN T-9 Molded Cords Separately: 923-2M01 0.80 [20.3]= Std. 2M 0.43 [10.9] 0.55 923-2M31 = [14] L.E.D. 0-50V, 2M 0.0 0.20 [5.1] 923-2M81 = L.E.D.70-250V, 2M 0.0 0.80 [20.3] 12 = 1.2 mm 1.90 15 = 1.5 mm 1.70

0.64 [16.3] A

VOLTAGE 24D

VENTURIThru Hole A DIAMETER in. (mm) 2 Places

2.55 [64.8] 2.64 [67.1] 3.05 0.0 [77.5]

0.22 [5.6]

NON 2.22 [56.4] SILENCER RETURN 0.22 [5.6] 1.90 [48.3] – Thru Hole –

2.06 [52.3]

–

-G (BSPP)

1 Air Supply- Main 1/4 NPTF G1/4 BSPP 2 Vacuum- Main G1/2 NPSF G1/2 NPSF 0.17 [4.3] 2A Hole Vacuum- Alternate G1/8 NPSF G1/8 NPSF Thru G1/2 NPSF G1/2 NPSF 2 3Places Exhaust 2A "-G" for optional BSPP ports. [77] NPT ports are Standard, add suffix

1.25 [31.8] 1.26 [32]

2.22H[56.4]

PORT CONNECTIONS FUNCTION Standard (NPT)

CODE

0.12 [3] 0.0 0.27 [6.9]

2A 2

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

DIAMETER

Optional Non-Return

1SOLENOID

PORTS

1.25 [31.8] 1.26 [32]

3.03 2A

0.0

0.17 [4.3] Thru Hole HOW TO ORDER2 Places VENTURI 3.03 [77]

0.64 [16.3] 0.43 [10.9] 0.0

Large capacity J-series coaxial pumps provide full control features in an integrated package. Pumps may be ordered with any of five different coaxial ejectors to match pump performance to system requirements. An integral solenoid valve provides on/off vacuum control. An optional non-return vacuum check valve is available for use in sealed systems, but some method of releasing vacuum must be added to the system – see RC18 Release Check. Vacuum sensors may be installed in either of the two 1/8” auxiliary vacuum ports to monitor system vacuum level. Large 1/2” vacuum port readily handles the high vacuum flow produced by coaxial ejectors.

J SERIES

Vacuum Supply Solenoid

SOLENOID CONTROLLED VACUUM SUPPLY

–

3.03 [77] SOLENOID NON VOLTAGE RETURN 0.22 24D [5.6] – [56.4] 2.22

2A S

4.47 (113.5) 4.87 (123.6) 5.71 (144.9) 1.15 [29]

25 30

0.46 [11.7]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

1.25 [31.8] 1.26 [32]

A in. (mm)

0.0

2 0.22 [5.6] Thru Hole 2 Places

1.28 [32.5]

0.46 [11.7] 0.0

3 2A

2.06 [52.3]

0.0

1.15 [29]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.80 [20.3]

0.64 [16.3]

1.25 [31.8] 1.26 [32]

0.0

2.22 [56.4] 1.90 [48.3] 1.70 [43.2] 1.58 [40.1] 0.80 [20.3] 0.55 [14] 0.20 [5.1] 0.0 0.12 [3] 0.0 0.27 [6.9]

0.43 [10.9]

0.0

0.64 [16.3] 1.55 [39.4] 1.28 [32.5]

0.17 [4.3] Thru Hole 2 Places 3.03 2 [77]

2.06 [52.3]

1 0.0

0.12 [3] 0.0 0.27 [6.9]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.12 [3] 0.0 0.27 [6.9] 0.64 [16.3] 0.43 [10.9] 1.25 0.0 [31.8] 1.26 [32]

0.80 [20.3]

VENTURI

0.22 [5.6] DIAMETER Thru Hole 20 2 Places

–

2.22 [56.4] Thru 20 =[48.3] 2.0 mm (BLANK) = NPTF 24D = 24Hole VDC 1.90 [48.3] (Blank) = No (Blank) = None 1.90 Places 25 = 2.5 mm G = BSPP 110A2 = 110 VAC1.70 [43.2] NR = Yes AA = AA12M 1.70 [43.2] 1.55 [39.4] 30 = 3.0 mm ST = STC12M 1.58 [40.1] 1.58 [40.1] Order DIN T-9 Molded Cords Separately: 0.80 [20.3] 1.15 [29] 0.80 [20.3] 923-2M01 = Std. 2M 0.55 [14] 0.55 [14] 0.430-50V, [10.9] 2M 0.20 [5.1]0.46 [11.7] 923-2M31 = L.E.D. 0.20 [5.1] 0.0 0.0 923-2M81 = L.E.D.70-250V, 2M 0.0 0.0

3.49 (88.7)

0.64 [16.3]

SILENCER

-G (BSPP)

0.0

PORT CONNECTIONS FUNCTION Standard (NPT)

CODE

A 0.64 [16.3]

PORTS

2A 2

0.0

Optional Non-Return

2 Places

VENTURI 3.03 [77] DIAMETER

0.0

0.17 [4.3]

Hole HOW TO Thru ORDER

1 Air Supply- Main 1/4 NPTF G1/4 BSPP 2 Vacuum- Main VENTURI G1/2 NPSF G1/2 A NPSF 2A Vacuum- Alternate G1/8 NPSF G1/8 NPSF DIAMETER in. (mm) 0.17 [4.3] 3 Exhaust G1/2 NPSF G1/2 NPSF 12 3.09 (78.5) Thru Hole NPT ports are Standard, add suffix "-G" for optional BSPP ports.

0.64 [16.3] 0.43 [10.9] 0.0

Large capacity J-series coaxial pumps provide full control features in an integrated package. Pumps may be ordered with any of five different coaxial ejectors to match pump performance to system requirements. An integral solenoid valve provides on/off vacuum control. An optional non-return vacuum check valve is available for use in sealed systems, but some method of releasing vacuum must be added to the system – see RC18 Release Check. Vacuum sensors may be installed in either of the two 1/8” auxiliary vacuum ports to monitor system vacuum level. Large 1/2” vacuum port readily handles the high vacuum flow produced by coaxial ejectors.

NON-RETURN VALVE OPTION

2 0.0 0.64 [16.3]

WEIGHT 0.84 lbs (381 g)

2.06 [52.3]

0.0

1.28 [32.5]

13:10

–

0.80 [20.3]

2 Places3.09 (78.5) 3.49 (88.7)

VENTURI 3 DIAMETER 20

25 30

1.15 [29]

A in.0.46 (mm)[11.7]

4.47 (113.5)

4.87 (123.6) 5.71 (144.9)

1.15 [29]

0.0

0.46 [11.7]

3 2A

0.0

NON-RETURN VALVE OPTION

2 0.0 0.64 [16.3]

0.0

2.06 [52.3]

1.28 [32.5]

13:11

WEIGHT 0.9 lbs (408 g)

0.0

0.64 [16.3]

0.0

0.12 [3] 0.0 0.27 [6.9]

12 15

2.06 [52.3]

0.0

0.80 [20.3] 0.55 [14] 0.20 [5.1] 0.0

0.43 [10.9]

1.28 [32.5]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

1.28 [32.5]

VENTURI 0.22 [5.6] A DIAMETERThru Holein. (mm)

0.22 [5.6] Thru Hole 0.64 [16.3] 2 Places

1.25 [31.8] 1.26 [32]

0.64 [16.3] 1.55 [39.4]

2A 0.0

2.22 [56.4] 1.90 [48.3] 1.70 [43.2] 1.58 [40.1]

0.0

0.12 [3] 0.0 0.27 [6.9]

0.17 [4.3] Thru Hole 2 Places 3.03 [77] 2

2.06 [52.3]

.3]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

Thru Hole [56.4] (BLANK) = NPTF 24D = 24 V (Blank) = No 1.70 [43.2](Blank) = None DC 1.55 [39.4] [48.3]G = BSPP 2 Places 110A = 110 VAC NR1.58 = Yes [40.1] AA = AA14M 1.70 [43.2] ST = STA14M 0.80 [20.3] 1.58 [40.1] Cords Separately: Order DIN T-9 Molded 1.15 0.55[29] [14] 0.80 [20.3]= Std. 2M 0.43 [10.9] 923-2M01 0.20 [5.1] 0.55= [14] 923-2M31 L.E.D. 0-50V, 2M 0.0 0.0 0.46 [11.7] 0.20 [5.1] 923-2M81 = L.E.D.70-250V, 2M 0.0 0.0 0.80 [20.3]

2.22 12 = 1.2 mm 15 = 1.51.90 mm

-G (BSPP)

1 Air Supply- Main 1/4 NPTF G1/4 BSPP 2 Vacuum- Main G1/2 NPSF G1/2 NPSF [4.3] Alternate 2A0.17 VacuumG1/8 NPSF G1/8 NPSF Thru Hole Exhaust 3 G1/2 NPSF G1/2 NPSF 2 Places NPT ports are Standard, add suffix "-G" for optional BSPP ports.

PORT CONNECTIONS FUNCTION Standard (NPT)

2.55 [64.8] 2.64 [67.1] 0.0 3.05 [77.5] 0.64 [16.3]

CODE

SOLENOID NON 2A 1 SILENCER VOLTAGE RETURN 2.22 [56.4] 24D 0.22 –[5.6] 1.90 [48.3] –

PORTS

2A 2

1.25 [31.8] 1.26 [32]

[77]

Optional Non-Return

Blow Intensity

0.64 [16.3] 0.43 [10.9] 0.0

VENTURI 3.03 DIAMETER

Blow-Off Solenoid

3.03 [77]

2 Places

1.25 [31.8] 1.26 [32]

0.0

0.17 [4.3]

Thru Hole HOW TO ORDER

Large capacity J-series coaxial pumps provide full control features in an integrated package. Pumps may be ordered with any of five different coaxial ejectors to match pump performance to system requirements. An integral solenoid valve provides on/off vacuum control. A second integral pilot-operated valve provides quick-release air control while an integral flow control valve that fine-tunes the blow intensity to suit the application. An optional non-return valve is available for use in sealed nonporous systems. Vacuum sensors may be installed in either of the two 1/8” auxiliary vacuum ports to monitor system vacuum level. Large 1/2” vacuum port readily handles the high vacuum flow produced by coaxial ejectors.

0.12 [3] 0.64 0.0 [16.3] 0.43 [10.9] 0.27 [6.9] 0.0

.9]

Vacuum Supply Solenoid

SOLENOID CONTROLLED VACUUM SUPPLY & BLOW-OFF

0.0

.4]

J SERIES

Vacuum Supply Solenoid

0.80 [20.3]

0.22 [5.6] VENTURI Thru Hole DIAMETER 2 Places

(Blank) = None AA = AA12M ST = STC12M

0.64 [16.3]

SILENCER

A in. (mm)

20 25 30

4.47 (113.5) 4.87 (123.6) 1.15 [29] 5.71 (144.9)

0.46 [11.7]

0.64 [16.3] A

0.0

1.25 [31.8] 1.26 [32]

0.12 [3] 0.0 0.27 [6.9] 0.0

1.15 [29] 0.46 [11.7]

3 2A

-G (BSPP)

0.22 [5.6] Thru Hole 2 Places

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.0

1.25 [31.8] 1.26 [32]

0.43 [10.9]

1.28 [32.5]

0.12 [3] 0.0 0.27 [6.9]

0.0

1.28 [32.5] 1.55 [39.4]

0.0 0.64 [16.3]

2.22 [56.4] 1.90 [48.3] 1.70 [43.2] 1.58 [40.1] 0.80 [20.3] 0.55 [14] 0.20 [5.1] 0.0

PORT CONNECTIONS FUNCTION Standard (NPT)

2.06 [52.3]

1 0.64 [16.3]

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

0.12 [3] 0.0 0.27 [6.9] 0.64 [16.3] 0.43 [10.9] 0.01.25 [31.8] 1.26 [32]

0.0

0.17 [4.3] Thru Hole 2 2 Places 3.03 [77]

2A 2

SOLENOID 0.22 [5.6] 2.22 [56.4] NON PORTS VOLTAGE Thru Hole1.90 [48.3]RETURN J 1.90 [48.3] 25 H – SB 24D – – 2 Places 1.70 [43.2] 1.70 [43.2] 1.55 [39.4] 20 = 2.0 mm (BLANK) = NPTF 24D = 24 VDC (Blank) = No 1.58 [40.1] 1.58 25[40.1] = 2.5 mm G = BSPP 110A = 110 VAC NR = Yes 0.80 [20.3] 1.15 [29] 30[20.3] = 3.0 mm 0.80 0.55 [14] 0.43 [10.9] Order0.55 DIN[14] T-9 Molded Cords Separately: 0.46 [11.7] 0.20 [5.1] 0.20 [5.1] 923-2M01 = Std. 2M 0.0 0.0 0.0 0.0

923-2M31 = L.E.D. 0-50V, 2M 923-2M81 = L.E.D.70-250V, 2M 0.80 [20.3]

Blow Intensity

0.0 A

1 2A

VENTURI 2.22 [56.4] DIAMETER

2 Places

Optional Non-Return

2.55 [64.8] 2.64 [67.1] 3.05 [77.5]

3.03 [77]

Blow-Off Solenoid

2.06 [52.3]

Thru Hole 2 Places 3.03TO [77] ORDER HOW

Air Supply- Main 1/4 NPTF G1/4 BSPP VENTURI A Vacuum- Main G1/2 NPSF G1/2 NPSF DIAMETER in. (mm) Vacuum- Alternate G1/8 NPSF G1/8 NPSF 12 3.09 (78.5) 3 Exhaust G1/2 NPSF G1/2 NPSF 15"-G" for optional3.49 (88.7) NPT ports are Standard, add suffix BSPP ports.

0.0

0.64 [16.3] 0.43 [10.9] 0.0

Large capacity J-series coaxial pumps provide full control features in an integrated package. Pumps may be ordered with any of five different coaxial ejectors to match pump performance to system requirements. An integral solenoid valve provides on/off vacuum control. A second integral pilot-operated valve provides quick-release air control while an integral flow control valve that fine-tunes the blow intensity to suit the application. An optional non-return valve is available for use in sealed nonporous systems. Vacuum sensors may be installed in either of CODE the two 1/8” auxiliary vacuum ports to monitor system vacuum 1 level. Large 1/2” vacuum port readily handles the high vacuum 2 0.17 [4.3] [4.3] ejectors. flow produced 0.17 by coaxial Thru Hole 2A

0.0

SOLENOID CONTROLLED VACUUM SUPPLY & BLOW-OFF

NON-RETURN VALVE OPTION

2 0.0 0.64 [16.3]

WEIGHT 0.92 lbs (417 g)

2.06 [52.3]

0.0

1.28 [32.5]

13:12

J SERIES OPTIONS

0.74 [18.8]

2.65 [67.3]

SILENCERS

NON-RETURN VALVE

1.38 [35.1]

AA14M

0.8 [20.3]

STA14M

2.65 [67.3] 4.14 [105.2]

0.71 [18]

0.74 1.24 [18.8] [31.5]

WEIGHT 0.035 lbs (15.6 g)

0.96 [24.4]

1.87 [47.5]

AA12M

STC12M

WEIGHT 0.029 lbs (12.9 g)

1.48 [37.6]

4.12 [104.6]

WEIGHT 0.013 lbs (5.7 g)

WEIGHT 0.071 lbs (32 g)

ACCESSORIES 1.48 [37.6]

6.0 [152.4] 13

VSA18-NCL

VG15-18CB

DVN-61-18M, DVP-61-18M, DVN-62-18M, DVP-62-18M, DVN-602-18M, & DVP-602-18M

13:13

VACUUM FLOW - SCFM

J SERIES 9

J SERIES GRAPH Air Supply: 60 psi (4 bar)

EDCO J30H AC= 15.8 SCFM

8 EDCO J25H AC= 10.9 SCFM

EDCO J20H AC= 6.7 SCFM

3 EDCO J15H AC= 4.0 SCFM

EDCO J12H AC= 2.9 SCFM

VACUUM LEVEL - inHg

VACUUM FLOW IN SCFM

MODEL J12H J15H J20H J25H J30H

AIR SUPPLY PSI 60 60 60 60 60

AIR CONS. SCFM 2.9 4.0 6.7 10.9 15.8

MAX VACUUM inHg 26 26.7 26.7 26.3 26.7

SCFM AT VACUUM LEVEL 3 inHg 1.2 2.0 3.9 6.1 7.8

6 inHg 1.0 1.8 3.4 5.3 6.8

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 0.8 1.4 2.7 4.3 5.4

0.6 1.2 2.2 3.5 4.6

0.5 0.8 1.6 2.6 3.5

0.4 0.6 1.3 1.8 2.4

0.3 0.4 0.7 1.2 1.8

0.1 0.3 0.4 0.7 0.9

EVACUATION TIME IN sec/ cu-ft (1728 cu-in)

MODEL J12H J15H J20H J25H J30H

AIR SUPPLY PSI 60 60 60 60 60

AIR CONS. SCFM 2.9 4.0 6.7 10.9 15.8

MAX VACUUM inHg 26 26.7 26.7 26.3 26.7

SECONDS TO VACUUM LEVEL 3 inHg 3.7 2.2 1.1 0.7 0.6

6 inHg 1.0 5.2 2.7 1.7 1.4

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 16.5 9.7 5.1 3.2 2.5

13:14

28.4 16.4 8.5 5.4 4.3

47.2 27.0 14.0 8.9 7.0

78.0 63.3 23.1 14.7 11.4

134.0 77.0 39.8 25.3 19.6

252.0 147.0 76.2 48.0 37.2

SINGLE STAGE PUMPS

SECTION 14 EV SERIES, V SERIES, SM SERIES, & VARIABLE DISPLACEMENT PUMPS

14:1

SINGLE STAGE PUMPS

CONTENTS

EV SERIES PUMPS EV05HS EV10HS EV15HS EV20HS Performance

14:3 14:4 14:5 14:6 14:7

V SERIES PUMPS

0.38 [9.7]

0.97 [24.6] 0.59 [15]

14:15 14:16

0.0

0.73 [18.5]

0.18 [4.6] Thru Hole 2 Places

0.19 [4.8] 0.0

0.59 [15]

0.0

0.0 0.0

0.34 [8.6]

1.13 [28.7]

1.46 [37.1]

0.0

0.38 [9.7]

0.76 [19.3]

4.11 [104.4] Optional STA14M Straight-Thru Silencer

SM SERIES PUMPS SM24-38 Performance

14:8 14:9 14:9 14:9 14:9 14:10 14:10 14:11 14:11 14:11 14:11 14:11 14:11 14:12-14

2.84 [72.1] Optional AA14M Side-Discharge Silencer

General Info How To Order Cartridges V10 Body V20 Body V80 Body V90 Body V10 Body with Automatic Blow-Off (V10X) V10 Body with Adjustable Automatic Blow-Off (V10XA) V20 Body with Automatic Blow-Off (V20X) V20 Body with Adjustable Automatic Blow-Off (V20XA) V80 Body with Automatic Blow-Off (V80X) V80 Body with Adjustable Automatic Blow-Off (V80XA) Performance

0.0 0.38 [9.7]

VARIABLE DISPLACEMENT PUMPS VDS Silencers

14:17 14:18

14:2

ÂŠ2012 EDCO USA. www.edcousa.net

EV SERIES PUMPS

EV mono-stage vacuum generators provide a compact, lightweight, lowcost vacuum source for pick & place and material handling applications. The simple two-piece design allows ingested debris to exit the exhaust port. The optional “ST” straight-through exhaust silencer is a no-clog design that will pass ingested debris to atmosphere. Construction is aluminum with anodized pump body and brass ejectors.

HOW TO ORDER

SILENCER EV05HS

(BLANK) = None

EV15HS

SILENCER -

(BLANK) = None AA = AA18M ST = STA18M 0.0 0.0

EV10HS

PORT CONNECTIONS FUNCTION PORT Air Supply G1/8 NPSF Vacuum G1/8 NPSF Exhaust G1/4 BSPP

CODE 1 2 3

2.84 2.84 [72.1] [72.1] Optional Optional AA14M AA14M Side-Discharge Side-Discharge Silencer Silencer

4.11 4.11 [104.4] [104.4] Optional Optional STA14M STA14M Straight-Thru Straight-Thru Silencer Silencer

AA = AA14M ST = STA14M

SILENCER -

(BLANK) = None AA = AA14M

0.18 [4.6] [4.6] 0.18 Thru Hole Hole Thru Places 22 Places

0.0 0.0

0.19 [4.8] [4.8] 0.19 0.0 0.0 0.73 0.73 [18.5] [18.5]

0.59 [15] [15] 0.59

0.0 0.0

0.97 [24.6] [24.6] 0.97

ST = STC12M 0.59 [15] [15] 0.59

0.0 0.0

0.38 0.38 [9.7] [9.7]

0.0 0.0

0.34 0.34 [8.6] [8.6]

1.13 1.13 [28.7] [28.7]

(BLANK) = None 33 AA = AA12M

1.46 1.46 [37.1] [37.1]

0.0 0.0

SILENCER 0.38 0.38 [9.7] [9.7]

EV20HS

0.76 0.76 [19.3] [19.3]

ST = STA14M

0.38 [9.7] [9.7] 0.38

14:3

0.0 0.0

EV SERIES PUMPS

EV mono-stage vacuum generators provide a compact, lightweight, low-cost & place and material handling applications. The simple two-piece design allows ingested debris to exit the exhaust port. The optional “ST” straight -through exhaust silencer is a no-clog design that will SILENCER pass ingested debris to atmosphere. EV05HS A G1/8 NPSF auxiliary vacuum port is included so a gauge or vacuum switch (BLANK) = None can be easily added to complete a system. Construction is aluminum with AA = AA14M anodized pump body and electroless nickel-plated primary nozzle. ST = STA14M vacuum source for pick

HOW TO ORDER

SILENCER

1 2 2A 3

SILENCER

Air Supply Vacuum- Main Vacuum- Alternate Exhaust

(BLANK) = None AA = AA14M ST = STA14M

G1/8 NPSF G1/8 NPSF G1/8 NPSF G1/8 NPSF

0.0

EV15HS

CODE

(BLANK) = None AA = AA18M ST = STA18M

PORT CONNECTIONS FUNCTION PORT

0.0 0.0 0.0 0.0 0.0

4.85 [123.19] Optional STA18M 4.85 [123.19] Straight-Thru 4.854.85 [123.19] [123.19] Optional STA18M Silencer 4.85 [123.19] Optional Optional STA18M STA18M Straight-Thru Silencer OptionalSilencer STA18M Straight-Thru Straight-Thru Silencer 4.85 [123.19] Silencer Straight-Thru Optional STA18M Straight-Thru Silencer

3.28 [83.3] Optional AA18M 3.28 [83.3] SideAA18M Discharge Silencer 3.28Optional [83.3] 3.28 [83.3] 3.28 [83.3] Optional Optional AA18M AA18MSilencer Side Discharge Optional AA18M SideSide Discharge Discharge Silencer Silencer 3.28 Side[83.3] Discharge Silencer Optional AA18M Side Discharge Silencer

EV10HS

0.59 [15] 0.0 0.0 0.0 0.00.0 0.0 2A

0.0

3 0.0 0.0 0.0 0.0 0.38 [9.7] 0.38 0.0 [9.7] 0.38 [9.7] 0.38 [9.7] 0.38 [9.7]

0.38 [9.7]

1 1

0.59 [15] 1 0.59 [15] 0.59 [15] 0.59 0.59 [15] [15]

2A 2A 2A 2A2A

0.76 [19.3]

59 [15] 0.59 [15] 0.59 [15] 0.59 0.59 [15] [15]

0.0 0.0 0.0 0.38 [9.7] 0.0 0.38 [9.7] 0.380.38 [9.7][9.7] 0.76 [19.3] 0.0 0.38 [9.7] 0.76 [19.3] 0.760.76 [19.3] [19.3] 0.38 [9.7] 0.76 [19.3]

0.97 [24.6] 0.81 [20.6] 0.97 [24.6] 0.97 [24.6] 0.97 0.97 [24.6] [24.6] 0.81 [20.6] 0.81 [20.6] 0.81 0.81 [20.6] [20.6] 0.97 [24.6] 0.32 [8.1] 0.81 [20.6] 0.32 [8.1] 0.32 [8.1] 0.0 0.32 0.32 [8.1] [8.1] 0.0 0.320.0 [8.1] 0.0 0.0 0.18 [4.6] 0.0 Thru Hole0.18 [4.6] 0.18 [4.6] 2 Places 0.18 0.18 [4.6] [4.6] Thru Hole Thru Thru Thru Hole Hole 2Hole Places 0.18 [4.6] 2 Places 2 Places 2 Places 2 Thru Hole 2 Places

0.0

0.59 [15] 0.0 0.0 0.0 0.00.0 0.0

2 2 2

14:4

0.740.0 [18.8] 0.0 0.0 0.0 0.0

0.74 [18.8] 0.74 [18.8] 0.740.74 [18.8] [18.8] 0.74 [18.8]

3 3

0.0

(BLANK) = None AA = AA12M ST = STC12M

0.38 [9.7] 0.38 [9.7] 0.380.38 [9.7][9.7] 0.0 0.38 [9.7] 0.0 0.12 [3] 0.0 0.12 0.0 0.38[3] [9.7] 0.0[3] 0.120.12 [3] 0.12 [3] 0.0 0.12 [3]

2.20 [55.9] 2.20 [55.9] 2.202.20 [55.9] [55.9] 1.77 [45] 2.20 [55.9] 1.77 [45] 2.20 [55.9] 1.771.77 [45] [45] 1.77 [45] 1.04 [26.4] 1.77 [45] [24.9] 0.98 1.04 [26.4] 1.040.98 1.04 [26.4] [26.4] [24.9] 1.04 [26.4] 0.980.98 [24.9] [24.9] 0.98 [24.9] [10.9] 1.040.43 [26.4] 0.43 0.98[10.9] [24.9] 0.430.43 [10.9] [10.9] 0.0 0.43 [10.9] 0.0 0.43 [10.9] 0.0 0.0 0.0

EV20HS

0.0

SILENCER

EV05HS

(BLANK) = None EV SERIES PUMPS

AA =generators AA14M provide a compact, lightweight, lowEV mono-stage vacuum STA14M cost vacuum sourceST for=pick & place and material handling applications. The simple two-piece design allows ingested debris to exit the exhaust port. The optional “ST” straight-through exhaust silencer is a no-clog design that will passSILENCER ingested debris to atmosphere. A EV10HS G1/8 NPSF -auxiliary vacuum port is included so a gauge or vacuum switch can be easily added to complete a system. Construction is (BLANK) = None aluminum with anodized pump body and electroless nickel-plated AA = AA18M primary nozzle. ST = STA18M

HOW TO ORDER

SILENCER

2A 1

0.0

14:5

0.0 0.0

0.36 [9.1]

0.0

0.0 0.0

0.61 [15.5]

0.0 2

0.0

0.61 [15.5]

1.40 [35.6] 1.36 [34.5] 2

0.0

0.0 0.18 [4.6] 0.0 Thru Hole 2 Places 0.36 [9.1]

0.0

0.81 [20.6]

0.0

0.48 [12.2]

0.18 [4.6] Thru Hole 2 Places

1 0.0 0.81 [20.6] 1.00 [25.4]

0.0 0.81 [20.6]

0.48 [12.2] 1.22 [31] 1.04 [26.4] 0.0

1.00 [25.4]

3.09 [78.5]

1.22 [31] 1.04 [26.4] 0.0

0.36 [9.1]

0.72 [18.3]

0.81 [20.6]

3.09 [78.5]

0.0

0.36 [9.1]

(BLANK) = None AA = AA12M ST = STC12M

0.72 [18.3]

1.40 [35.6] 1.36 [34.5]

SILENCER

-G (BSPP)

1 Air Supply 1/4 NPTF G1/4 BSPP 2 Vacuum- Main 1/4 NPTF G1/4 BSPP 2A Vacuum- Alternate G1/8 NPSF G1/8 NPSF 3 Exhaust 1/4 NPTF G1/4 BSPP NPT ports are Standard, add suffix "-G" for optional BSPP ports.

2.38 [60.5]

5.74 [1458] 5.74 [1458] Optional STA14M Optional STA14M Straight Thru Silencer Straight Thru Silencer

AA = AA14M ST = STA14M

EV20HS

CODE

(BLANK) = None

PORT CONNECTIONS FUNCTION Standard (NPT)

2.38 [60.5]

4.47 4.47 Optional AA-14M Side-DischargeOptional Silencer AA-14M Side-Discharge Silencer

EV15HS

EV10HS

(BLANK) = None EV SERIES PUMPS

AA = AA18M EV mono-stage vacuum generators provide a compact, lightweight, lowST STA18M cost vacuum source for=pick & place and material handling applications. The simple two-piece design allows ingested debris to exit the exhaust port. The optional “ST” straight-through exhaust silencer is a no-clog SILENCER design that will pass ingested debris to atmosphere. AEV15HS G1/8 NPSF- auxiliary vacuum port is included so a gauge or vacuum switch can be easily added to complete a system. Construction is (BLANK) = None aluminum with anodized pump AA = AA14M body and electroless nickel-plated primary nozzle. ST = STA14M

HOW TO ORDER

SILENCER

0.00.0

0.61 [15.5] 0.61 [15.5]

0.0 0.0 0.0 0.0

0.0 0.0

0.71 [18] 0.71 [18]

1.81 [46] 1.81 1.64[46] [41.7] 1.64 [41.7]

0.0 0.0

3.07 [78] 3.07 [78]

0.90.9 [22.9] [22.9]

0.57 [14.5] 0.57 [14.5] 0.00.0 0.27 [6.9] 0.27 [6.9] Thru Hole Thru Hole 2 Places 2 Places

1 1

2A2A

2 2

0.00.0

0.0 0.0

0.00.0

1.47 [37.3] 1.47 [37.3] 1.21 [30.7] 1.21 [30.7]

-G (BSPP)

1 Air Supply 1/4 NPTF G1/4 BSPP 2 Vacuum- Main 3/8 NPTF G3/8 BSPP 2A Vacuum- Alternate G1/8 NPSF G1/8 NPSF 3 Exhaust G1/2 NPSF G1/2 NPSF NPT ports are Standard, add suffix "-G" for optional BSPP ports.

1.23 [31.2] 1.23 [31.2]

0.90 [22.9] 0.90 [22.9]

0.61 [15.5] 0.61 [15.5]

1.22 [31] 1.22 [31] 3 3

PORT CONNECTIONS FUNCTION Standard (NPT)

CODE

4.06 [103] 4.06 [103]

(BLANK) = None AA = AA12M ST = STC12M

8.18 [207.8] Optional STC12M 8.18 [207.8] Straight STC12M Thru Silencer Optional Straight Thru Silencer

5.93 [151] Optional 5.93 [151] AA12-M Side-Discharge Optional AA12-MSilencer Side-Discharge Silencer

EV20HS

2A 1

0.61 [15.5] 0.61 [15.5]

14:6

VACUUM FLOW - SCFM

EV SERIES PERFORMANCE 5

EV-SERIES PUMPS Air Supply: 70 psi (4.8 bar)

EV20HS AIR CONS. = 7.4 SCFM 4

EV15HS AIR CONS. = 4.0 SCFM

2 EV10HS AIR CONS. = 1.75 SCFM

EV05HS AIR CONS. = 0.8 SCFM

VACUUM LEVEL - inHg

VACUUM FLOW IN SCFM

MODEL

EV-05HS EV-10HS EV-15HS EV-20HS

AIR SUPPLY PSI 72 72 72 72

AIR CONS. SCFM 0.4 1.8 4.0 7.4

MAX VACUUM inHg 26.7 28 27.3 27.8

SCFM AT VACUUM LEVEL 3 inHg 0.25 0.70 2.27 4.01

6 inHg 0.22 0.57 1.94 3.48

9 inHg 0.20 0.46 1.56 2.74

12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 0.15 0.35 1.24 2.42

0.12 0.33 0.94 1.78

0.07 0.27 0.66 1.17

0.03 0.22 0.39 0.83

0.01 0.13 0.33 0.45

SCFM X 28.32 = Nl/m Seconds/100 cu. in. X 0.61 = Sec./ Liter EVACUATION TIME IN sec/100 cu-in

MODEL EV-05HS EV-10HS EV-15HS EV-20HS

AIR SUPPLY PSI 72 72 72 72

AIR CONS. SCFM 0.4 1.75 4.0 7.4

MAX VACUUM inHg 26.7 28 27.3 27.8

SECONDS TO VACUUM LEVEL 3 inHg 1 0.36 0.11 0.06

6 inHg 2.5 0.44 0.27 0.15

14:7

9 inHg 4.5 1.6 0.5 0.3

12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 7.5 2.8 0.86 0.5

12.5 4.6 1.4 0.8

20 7.6 2.3 1.3

35 12.6 4.1 2.2

23.6 7.8 4.2

V SERIES PUMPS V-series vacuum pumps are available in 24 models with anodized aluminum bodies plus 12 cartridge models for integration into custom vacuum manifold systems. EDCO single-stage pumps provide the instantaneous response common to air operated devices in addition to being compact, light and cost-effective. Rugged all-metal construction will provide years of trouble-free service. Our no-clog flow-through design is perfectly suited for packaging and other applications involving paper fibers or other debris that can be ingested into the vacuum system. Our optional straight-through silencer passes the exhaust directly to atmosphere after absorbing high-frequency noise from the air stream. Many of our competitors use closedend plastic exhaust mufflers where the exhaust is passed through a filter media that will accumulate debris,

AIR SUPPLY

eventually causing a loss of pump performance. In systems where conditions are very dirty, such as woodworking, a vacuum filter should be used to remove dust and debris so they will not be dispersed in the exhaust and breathed by workers. As always, to obtain maximum benefit of EDCO compressed air powered vacuum pumps, they should be mounted close to the point of vacuum usage to minimize line losses, reduce vacuum system volume and minimize system evacuation time. For ease of mounting, V-style pump bodies feature square or rectangular cross-sections and include mounting holes. A much simpler installation with better appearance will result than with cylindrical body vacuum pumps.

GAUGE PORT

SILENCER EXHAUST

Principle of Operation

To generate vacuum, compressed air is supplied to the inlet of a shaped primary nozzle to concentrate the air stream so that it increases in velocity as it passes through the nozzle throat. As velocity increases, pressure decreases until it is below atmospheric pressure (vacuum) and the high-velocity air stream is passed into a second nozzle that is spaced away from the end of the primary nozzle. The gap between the two nozzles occurs within a chamber with a threaded port for connecting to a system requiring a vacuum source. As evacuated air flows into the vacuum port, it is drawn into the second nozzle where it is mixed with the air from the primary nozzle and the combined flow is exhausted to atmosphere after passing through a silencer where expansion continues and noise is absorbed by an acoustic media. To stop the vacuum, the compressed air supply is removed and vented by a 3-way supply valve. When air flow stops, vacuum is no longer generated and ambient air flows into the exhaust and into the vacuum line to dissipate the

residual vacuum, thereby releasing work pieces from the suction cups or other vacuum holders in the system. Geometry of the primary and secondary nozzles determines the shape of the pump performance curve, depth of vacuum that can be achieved, and air consumption at a particular supply pressure. Nozzles are optimized for operation at specific pressures but can be used at other supply pressures to suit an application. When operating at some non-optimum air pressures, a rapid popping noise may be heard in the exhaust, which is caused when air velocity achieves unstable supersonic/subsonic velocity and can be eliminated by slightly increasing or reducing the air supply pressure.

VACUUM

There are many terms for these devices including “generator”, “ejector” and “venturi”, but they are commonly called vacuum pumps in industry so that is the term we use. No matter what the name, they are very useful for providing a fast, reliable, compact and low cost vacuum source for all manner of applications.

14:8

V SERIES PUMPS 10

10 20 80 90

(BLANK) = NONE X = BLOW-OFF XA = ADJUSTABLE BLOW-OFF

NOZZLE SET

SERIES

60 90 100 150 200 250 300 350

H H-60 M M-60

PORTS -

SILENCER -

(BLANK) = NPT G = BSPP

VENTURI

H V-60H

V-60

V-90 V-100 V-150 AIR PRESS.

Blow-Off options not available on 90 body size. Check pump descriptions for nozzle availability.

(BLANK) = NONE AA ST

V-90H V-100H V-150H 80 psi (5.5 bar)

H-60 V-60H-60

MODEL

V-90H-60 V-100H-60 V-150H-60 60 psi (4.1 bar)

M V-60M

V-90M V-100M V-150M 80 pis (5.5 bar)

CAVITY DETAIL FOR CUSTOM APPLICATIONS CAVITY DETAIL FOR CAVITY DETAIL FOR CUSTOM CAVITY APPLICATIONS DETAIL FOR CUSTOM APPLICATIONS CUSTOM APPLICATIONS

RETAINER PLATE .406 [10.3]

VENTURI CARTRIDGE VENTURI VENTURI CARTRIDGE AIR SUPPLY VENTURI CARTRIDGE CARTRIDGE

0.140 [3.6] MIN. .020 X 45°AIR SUPPLY

MINSUPPLY 0.14 [3.6] AIR

AIR SUPPLY VACUUM PORT MIN 0.14 [3.6] 0.3120.14 [7.9]VACUUM MAX. MIN [3.6] PORT MAX 0.312PORT [7.9] VACUUM MAX 0.312 [7.9]

.10 [27.9]

0.0 0.23 [5.8]

OR G1/4 BSPP

0.71 [18]

0.18 [4.6] 0.0

14:9

5.85 [148.6] 5.85 [148.6]

3.20 [81.3] 3.20 [81.3]

1.78 [45.2] 1.78 [45.2]

3.20 [81.3]

1.78 [45.2]

EXHAUST: 1/4 NPTF OR G1/4 BSPP

VACUUM: 1/8 NPSF OR G1/8 BSPP VACUUM: 1/8 NPSF OR G1/8 BSPP

OPTIONAL STA14M SILENCER OPTIONAL STA14M SILENCER

0.12 THRU

OR G1/4 BSPP EXHAUST: 1/4 NPTF OR G1/4 BSPP

VACUUM: 1/8 NPSF OR G1/8 BSPP

VACUUM: 1/ 4NPTF OR G1/4 BSPP VACUUM: 1/ 4NPTF OR G1/4 BSPP

5.85 [148.6] 5.85 [148.6]

0.12 THRU 2 PLACES EXHAUST: 1/4 NPTF OR G1/4 BSPP

2.98 [75.7] 2.98 [75.7] 3.20 [81.3] 3.20 [81.3]

1.10 [27.9] 1.10 [27.9]

0.0 0.0 0.36 [9.1] 0.36 [9.1]

0.00.0 0.00.0 0.23 [5.8] 0.23 [5.8]

0.71 [18] 0.71 [18]

[37.1]

EXHAUST: 1/4 NPTF OR G1/4 BSPP EXHAUST: 1/4 NPTF OR G1/4 BSPP

THRU STA14M 20.12 PLACES OPTIONAL 2 PLACES EXHAUST: 1/4 NPTF SILENCER

0.18 [4.6] G1/8 NPSF 0.0 GAUGE PORT 0.0

Weight = 0.43 lbs (195g) Weight = 0.43 lbs (195g)

0.0

0.12 THRU 2 PLACES 1.10 [27.9] 1.10 [27.9]

0.18 [4.6]

AIR SUPPLY: 1/4 NPTF 1.46 OR G1/4 BSPP AIR SUPPLY: 1/4 NPTF OR G1/4 BSPP

0.73 [18.5]

2 PLACES

2.98 [75.7] 3.20 [81.3]

0.36

0.73 [18.5] 0.73 [18.5] 0.0 0.0

1.10 [27.9]

0.0

0.71 [18]

G1/8 NPSF GAUGE PORT G1/8 NPSF GAUGE PORT [9.1]1.46 [37.1] 1.46 [37.1]

EXHAUST

2.21 [56.1] MINIMUM

1.775 [45.1] MINIMUM 2.21 [56.1] 0.12 THRU MINIMUM 0.12 THRU 2 PLACES

0.0

0.00.0

Weight = 0.33 lbs (149g) V20-60 V20-90 V20-60 V20-100 V20-90 V20-150 V20-100 V20-150

V20-60 V20-90 V20-100 V20-150

0.0 0.0 0.36 [9.1] 0.36 [9.1]

Weight = 0.33 lbs (149g) Weight = 0.33 lbs (149g)

0.0

AIR SUPPLY: 1/4 NPTF OR G1/4 BSPP

0.19 [4.8] 0.0

0.00.0

OR G1/4 BSPP AIR SUPPLY: 1/4 NPTF 0.0 OR G1/4 BSPP

0.0

0.48 [12.2] AIR SUPPLY: 1/4 NPTF

0.00.0

0.95 0.77 [19.6]

0.375 [9.5] 0.404 [10.3] EXHAUST 0.404 [10.3] 0.404 [10.3] 0.376 [9.6] .1875 MIN. 0.376 [9.6] 0.376 [9.6]

1.775 [45.1] 0.612 [15.5] 2.160 [54.9] MIN. 2.21 [56.1]

G1/8 NPSF GAUGE PORT G1/8 NPSF GAUGE PORT 0.95 [24.1] 0.95 [24.1] 0.77NPSF [19.6] G1/8 0.77 [19.6] GAUGE 0.19PORT [4.8] 0.19 [4.8] 0.0 [24.1] 0.0

0.71 [18] 0.71 [18]

0.48 [12.2] 0.48 [12.2] 0.0 0.0

0.00.0

V10-60 V10-90 V10-100 V10-150

V10-60 V10-90 V10-60 V10-100 V10-90 V10-150 V10-100 V10-150

V-90M-60 V-100M-60 V-150M-60 60 psi (4.1 bar)

EXHAUST .020 X 45° EXHAUST

0.612[15] [15.5] 0.590 0.612 [15.5] 1.770 [45] 1.775 [45.1]

VACUUM PORT MAX 0.312 [7.9]

M-60 V-60M-60

5.85 [148.6]

BLOW-OFF OPTIONS

OPTIONAL STA14M SILENCER OPTIONAL STA14M SILENCER

5.85 [148.6]

BODY SIZE

V SERIES PUMPS G1/8 NPSF GAUGE PORT 1.46 [37.1]

V80-200

EXHAUST: 3/8 NPTF OR G3/8 BSPP

0.206 [5.2] 2 PLACES

0.73 [18.5]

Weight = 0.53 lbs (240g)

0.0

8.14 [206.8]

3.72 [94.5] 4.00 [101.6]

1.13 [28.7]

0.0

0.96 [24.4]

0.0 AIR SUPPLY: 1/4 NPTF OR G1/4 BSPP

2.22 [26.4]

0.18 [4.6] 0.0

0.0

VACUUM: 3/8 NPTF OR G3/8 BSPP OPTIONAL STB38M SILENCER

0.48 [12.2]

G1/8 NPSF GAUGE PORT 1.46 [37.1]

V80-250

EXHAUST: 1/2 NPTF OR G1/2 BSPP

0.0

Weight = 0.51 lbs (231g)

V90-300 V90-350

8.12 [206.2]

3.72 [94.5] 4.00 [101.6]

2.22 [56.4]

1.13 [28.7]

0.0

AIR SUPPLY: 1/4 NPTF OR G1/4 BSPP

0.96 [24.4]

0.0

0.206 [5.2] 2 PLACES 0.18 [4.6] 0.0

0.73 [18.5]

VACUUM: 3/8 NPTF OR G3/8 BSPP OPTIONAL STC12M SILENCER

0.48 [12.2]

G1/8 NPSF GAUGE PORT 1.46 [37.1] 0.206 [5.2] 2 PLACES 0.18 [4.6] 0.0

Weight = 0.73 lbs (331g)

0.0

14 6.00 [152.4]

VACUUM: 1/2 NPTF OR G1/2 BSPP

5.00 [127]

3.50 [88.9]

0.0 0.0

AIR SUPPLY: 3/8 NPTF OR G3/8 BSPP

0.96 [24.4]

0.0

1.13 [29]

0.73 [18.5]

EXHAUST: 1/2 NPTF OR G1/2 BSPP

0.48 [12.2] L

OPTIONAL SILENCER: STC12M FOR 300 PUMP = 4.12 [104.6] STC12M-6 FOR 350 PUMP = 5.99 [152.1]

14:10

V SERIES PUMPS

WITH AUTOMATIC BLOW-OFF

OPTIONAL ADJUSTABLE BLOW-OFF

AIR SUPPLY: 1/4 NPTF OR G1/4 BSPP 2.79 [70.9]

Weight= 0.71 lbs (322g) Weight= 0.71 lbs (322g)

5.85 [148.6] 5.85 [148.6] 5.85 [148.6]

3.20 [81.3] 3.20 [81.3] 3.20 [81.3]

EXHAUST: 1/4 NPTF OR G1/4 BSPP

0.48 [12.2]

14:11

3.72 [94.5] 3.72 [94.5] 3.72 [94.5] 4.00 [101.6] 4.00 [101.6] 4.00 [101.6]

2.22 [56.4] 2.22 [56.4] 2.22 [56.4]

0.0 0.48 [12.2] 0.0

1.13 [28.7] 1.13 [28.7] 1.13 [28.7]

0.0

0.48 [12.2]

0.0 0.0 0.00.0

0.0

Weight= 0.71 lbs (322g)

0.0

V80X

OPTIONAL EXHAUST: 1/4 NPTF ADJUSTABLE BLOW-OFF OR G1/4 BSPP

EXHAUST: 1/4 NPTF OR G1/4 BSPP

OPTIONAL STA14M SILENCER

0.0 VACUUM: 1/8 NPTF OPTIONAL STA14M OR G1/8 BSPP 0.36 [9.1] SILENCER OPTIONAL 0.0 ADJUSTABLE BLOW-OFF Weight= 0.43 lbs (195g) VACUUM: 1/8 NPTF STA14M OPTIONAL 0.36 [9.1] OR G1/8 BSPP SILENCER 2.79 [70.9] OPTIONAL Weight= 0.43 lbs (195g) ADJUSTABLE BLOW-OFF VACUUM: EXHAUST:1/8 NPTF OR G1/8 BSPP V80-200 = 3/8 NPTF OR G3/8 BSPP AIR SUPPLY: 1/4 NPTF 2.79 [70.9] OPTIONAL V80-250 = 1/2 NPTF OR G1/2 BSPP OR G1/4 BSPP ADJUSTABLE BLOW-OFF EXHAUST: 0.206 [5.2] V80-200 = 3/8 NPTF OR G3/8 BSPP [70.9] 22.79 PLACES AIR SUPPLY: 1/4 NPTF 0.73 [18.5] V80-250 = 1/2 NPTF OR G1/2 BSPP OR G1/4 BSPP EXHAUST: 0.18 [4.6] 0.206 [5.2] V80-200 = 3/8 NPTF OR G3/8 BSPP AIR 0.0 0.0SUPPLY: 1/4 NPTF 2 PLACES V80-250 = 1/2LNPTF OR G1/2 BSPP OR G1/4 BSPP 0.73 [18.5] OPTIONAL SILENCER: 0.206 [5.2] 0.18 [4.6] STB38M FOR 200 PUMP = 4.14 [105.2] 2 PLACES 0.0 0.0 STC12M FOR 250L PUMP = 4.12 [104.6] 0.73 [18.5] 0.18 [4.6] OPTIONAL SILENCER: STB38M FOR 200LPUMP = 4.14 [105.2] 0.0 0.0 STC12M FOR 250 PUMP = 4.12 [104.6] VACUUM: 3/8 NPTF OPTIONAL SILENCER: OR G3/8 BSPP 0.0 STB38M FOR 200 PUMP = 4.14 [105.2]

0.96 [24.4] 0.96 [24.4] 0.96 [24.4]

V80X

SILENCER

OPTIONAL VACUUM: 1/8 NPSF STA14M ADJUSTABLE BLOW-OFF OPTIONAL OR G1/8 BSPP SILENCER

1.10 [27.9] 1.10 [27.9] 1.10 [27.9]

0.12 [3] AIR SUPPLY: 1/42.79 2NPTF PLACES [70.9] OR G1/4 BSPP 0.73 [18.5] 0.18 [4.6] 0.12 [3] AIR SUPPLY: 1/4 NPTF 0.0 0.0 2 PLACES OR G1/4 BSPP 0.73 [18.5] 0.12 [3] 0.18 [4.6] 2 PLACES 0.0 0.0 0.73 [18.5] 0.18 [4.6] 0.0 0.0 0.0 0.36 [9.1]

0.71 [18] 0.71 [18]0.71 [18]

0.0

V20X

VACUUM: 1/8 NPSF OPTIONAL STA14M OR G1/8 BSPP

OPTIONAL VACUUM: 1/8 NPSF ADJUSTABLE BLOW-OFF OR G1/8 BSPP

0.0 0.0 0.0 0.0 0.0 0.0 0.23 [5.8] 0.23 [5.8] 0.23 [5.8]

V20X

Weight= 0.43 lbs (195g)

V80X

0.0 0.0

0.0 0.36 [9.1] Weight= 0.33 lbs (149g) 2.79 [70.9]

OPTIONAL STA14M SILENCER

5.85 [148.6] 5.85 [148.6] 5.85 [148.6]

Weight= 0.33 lbs (149g) V20X

0.0 0.36 [9.1]

OPTIONAL 0.12 [3] ADJUSTABLE2BLOW-OFF PLACES EXHAUST: 1/4 NPTF OPTIONAL G1/4 0.12 [3]BSPP ADJUSTABLE OR BLOW-OFF 2 PLACES EXHAUST: 1/4 NPTF 0.12 [3]BSPP OR G1/4 2 PLACES EXHAUST: 1/4 NPTF OR G1/4 BSPP

2.98 [75.7] 2.98 [75.7] 2.98 [75.7] 3.20 [81.3] 3.20 [81.3] 3.20 [81.3]

Weight= 0.33 lbs (149g)

0.0 0.0 0.36 [9.1]

0.0 0.0

0.0

[19.6] AIR SUPPLY:0.77 1/4 NPTF 0.48 [12.2] 2.28 OR G1/4 BSPP 0.19[57.9] [4.8] 0.0 0.0 AIR SUPPLY:0.77 1/4 NPTF [19.6] OR G1/4 BSPP 0.48 [12.2] 0.19 [4.8] 0.0 0.0 0.77 [19.6] 0.48 [12.2] 0.19 [4.8]

0.71 [18] 0.71 [18]0.71 [18]

0.0

V10X

1.10 [27.9] 1.10 [27.9] 1.10 [27.9]

AIR SUPPLY: 1/4 NPTF OR G1/4 BSPP 2.28 [57.9]

0.0

VX PUMPS: Same performance as a standard V-series but with automatic quick-release blow-off module. Air supply to the pump fills a volume chamber via an integral quick exhaust valve. When the pump air supply is turned off and pressure drops about 5 psi (0,3 bar), the quick exhaust valve shifts and passes the stored volume directly into the pump vacuum port to quickly dissipate system vacuum for a faster cycle time.

Vacuum Switch Option: An M5 sensor port can be added to mount VN3 or VP3 switches.

2.28 [57.9]

V10X

1.78 [45.2] 1.78 [45.2] 1.78 [45.2]

V10X

STC12M FOR 250 PUMP = 4.12 [104.6]

VACUUM: 3/8 NPTF OR G3/8 BSPP VACUUM: 3/8 NPTF OR G3/8 BSPP

V SERIES PERFORMANCE SERIES DESCRIPTION M H

High Flow High Vacuum

MAX VACUUM 20 inHg 28 inHg

VACUUM FLOW IN SCFM

VACUUM FLOW AIR CONS MODEL (SCFM) @ 80 PSI 90H 1.7 100H 2.5 150H 4.7 200H 7.9 250H 13.4 300H 20.0 350H 27.0 90M 1.8 100M 1.9 150M 2.9 200M 5.2 250M 8.6 300M 13.3 350M 20.4

MAX VAC inHg 26.7 27.5 26.7 26.7 27.5 27.5 27.5 20.2 21.6 20.8 20 19.2 19.6 22.4

SCFM X 28.32 = Nl/m SCFM AT VACUUM LEVEL

3 inHg 0.7 1.4 2.1 4.3 7.1 12.9 14 0.73 1.8 2.7 5.1 8.9 14.4 18.4

EVACUATION TIME

6 inHg 0.6 1.2 1.8 3.5 6.1 11.3 12 0.52 1.5 2.3 4.3 7.2 12 15.9

9 inHg 0.4 1 1.4 2.8 5.1 9.2 10.2 0.45 1.3 1.8 3.4 5.3 9.8 13.5

12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 27 inHg 0.35 0.3 0.21 0.17 0.06 0 0.7 0.55 0.36 0.28 0.21 0.02 1.2 0.9 0.66 0.37 0.22 0 2.1 1.3 0.72 0.43 0.15 0 4 2.9 2.1 1.4 0.35 0.12 7.3 5.6 4.1 2.6 0.7 0.1 7.7 5.9 4.2 3 1.2 0.14 0.42 0.33 0.12 0 1 0.6 0.34 0.08 1.1 0.6 0.34 0 2.4 1.2 0.46 0 3.2 1.2 0.24 0 7.4 5.3 2.4 0 11.2 7.9 4.6 1.7

Seconds / 1000 in3 X .061 = Seconds / Liter EVACUATION TIME IN sec/1000 cu-in

MAX VAC inHg 26.7 27.5 26.7 26.7 27.5 27.5 27.5 20.2 21.6 20.8 20 19.2 19.6 22.4

SECONDS TO VACUUM LEVEL 3 inHg 3.5 1.9 1.2 0.64 0.36 0.2 0.18 3.4 1.7 0.93 0.48 0.29 0.18 0.14

6 inHg 13 4.5 2.9 1.5 0.87 0.48 0.44 12 3.5 2.3 1.2 0.69 0.43 0.34

9 inHg 17 8.3 5.4 2.9 1.6 0.87 0.81 17 6.4 4.2 2.2 1.3 0.81 0.64

12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 27 inHg 29 48 79 135 255 14 24 39 68 129 325 9.3 15 25 43 82 4.6 8.1 13 24 46 2.7 4.5 7.3 13 24 62 1.5 2.4 4 6.9 13 34 1.2 2.3 3.7 6.4 12 31 28 46 76 11 18 31 54 7.3 13 22 3.8 6.4 12 2.3 4.1 7.2 1.4 2.3 3.8 1 1.7 2.8 4.9 -

14:12

AIR CONS MODEL (SCFM) @ 80 PSI 90H 1.7 100H 2.5 150H 4.7 200H 7.9 250H 13.4 300H 20.0 350H 27.0 90M 1.8 100M 1.9 150M 2.9 200M 5.2 250M 8.6 300M 13.3 350M 20.4

V SERIES PERFORMANCE

20 350M

Vacuum Flow - SCFM

16 300M

10 250M

6 200M

4 14

150M

100M 90M

0 0

14:13

Vacuum Level (inHg)

V SERIES PERFORMANCE

350H

14 300H 12

8 250H 6

200H

150H

Vacuum Flow - SCFM

100H 90H

0 0

14:14

Vacuum Level (inHg)

SM SERIES

SM24-38 COMPACT PUMP • • • • • • • • • • • • • •

Compact Size Light Weight, 0.35 lbs Economical Maintenance Free Energy Efficient Quiet Operation High Flowrate Brass Nozzles Anodized Aluminum Body Through Hole Mount 100 psi Max. Air Supply Stainless Fasteners All Metal Construction Multi-characteristic pump with three operating pressures

CODE 1 2 2A

PORT CONNECTIONS FUNCTION

Air Supply - Main Vacuum - Main Vacuum - Alternate

SIZE

G1/8 NPS 3/8 NPS G1/8 NPS

1.02 [25.9] 0.60 [15.2]

1.20 [30.5] SQUARE

1.49 [37.8]

0.85 [21.6]

0 0.21 [5.3]

0.18 [4.6] 0

2 1.02 [25.9]

0.60 [15.2]

0.18 [4.6] 2 PLACES

14:15

3.00 [76.2]

0.12 [3]

1.49 [37.8]

0.0 0.21 [5.3]

0.85 [21.6]

0.18 [4.6] 0.0 MUFFLED EXHAUST

(10.6)

SM SERIES

VACUUM PORT 3/8 NPS

(18.7)

SM24-38 COMPACT PUMP 0.18 [4.5] 2 PLACES

AIR SUPPLY PRESSURE CONSUMPTION

80 PSI

3.9

26.7 inHg

72 PSI

3.6

25.5 inHg

60 PSI

3.1

20.4 "Hg EXHAUST

3.01 [76.5]

1.20 [30.5] SQUARE

1.28 [32.5]

0.21 [5.3]

MAXIMUM VACUUM

MUFFLED

2 0.84 [21.3]

80 psi.

1 G1/8 NPS AIR SUPPLY

0.18 [4.6] 0.42 [10.7]

60 psi. 9

0.42 [10.7]

0.64 [16.3]

72 psi.

Vacuum level : inHg

VACUUM PORT G1/8 NPS 3 PLACES

Mini-System pumps are equipped with 3 vacuum ports so separate manifolds can be eliminated from the system. “Pump-to-Point” plumbing reduces vacuum losses by eliminating extra system fitting.

Vacuum Flow : scfm

Vacuum Flowrate vs. Vacuum Level for SM24-series Pumps

14:16

VARIABLE DISPLACEMENT PUMPS

Model

VDS VDS VDS VDS

Bore I.D.

Air Supply

Vacuum

150 0.15 (3.8) G1/8 NPSF 1/4 OR G1/4 200 0.2 (5.1) G1/8 NPSF 1/4 OR G1/4 250 0.25 (6.3) G1/8 NPSF 1/4 OR G1/4 375 0.375 (9.5) 3/8 NPSF G1/2 NPSF

MODEL VDS-150 VDS-200 VDS-250 VDS-375

MAX VACUUM FLOW SCFM 3.2 6.0 10.0 30.0

Exhaust

1/4 OR G1/4 1/4 OR G1/4 1/4 OR G1/4 G1/2 NPSF

1.38 (35) 0.86 (21.8) 1.25 (31.8) 1.38 (35) 0.86 (21.8) 1.25 (31.8) 1.38 (35) 0.86 (21.8) 1.25 (31.8) 1.72 (43.7) 1.5 (38.1) 1.75 (44.5)

AIR CONSUMPTION vs. VACUUM LEVEL @ 80 PSI 0 inHg 0 0 0 0

5 inHg 1.3 2.4 4.0 6.2

10 inHg 1.7 3.7 6.0 11.5

15 inHg 2.4 4.7 8.3 17

20 inHg 3.2 6.0 9.7 21

25 inHg 4.5 6.8 12.0 29.0

VDS PUMPS VDS vacuum pumps can provide over 20â&#x20AC;? Hg (68 kPa) and their straight through non-clog design is ideal for very dusty and dirty applications such as bag filling or handling ceramics or masonry products. The square body and two mounting holes makes the VDS pump easy

3.81 (96.7) 3.81 (96.7) 3.81 (96.7) 5.99 (152)

1.02 1.02 1.02 1.32

(25.9) (25.9) (25.9) (33.5)

0.84 0.84 0.84 1.35

(21.3) (21.3) (21.3) (34.3)

0.74 0.74 0.74 0.98

(18.8) (18.8) (18.8) (24.9)

0.22 0.22 0.22 0.26

(5.5) (5.5) (5.5) (6.6)

3.05 (77.5) 3.05 (77.5) 3.05 (77.5) 4.12 (105)

SILENCER STA14M STA14M STA14M STC12M

to attach to any flat surface. An ST Straight Thru silencer will not accumulate debris and will pass it out with the exhaust air. For less critical applications where cost is more of an issue, a conventional AA silencer may be used.

OPERATION Loosen the jam nut and turn the diffuser nozzle clockwise, by hand, until it contacts the inlet nozzle. With the work piece against the suction cup or holding fixture, supply regulated compressed air to the side air supply port and gradually rotate the diffuser nozzle to adjust the annular gap between the two nozzles until the desired vacuum level or vacuum flow is achieved. To minimize air consumption, use the lowest pressure air supply that will yield the desired results. Turning the diffuser too far open will suddenly cause a decrease in ÂŠ2012 EDCO USA. www.edcousa.net

14:17

performance and this point will vary depending on the operating air pressure. Ingested debris passes directly from end-to-end through the pump bore without any turns and without passing through the annular venturi created by the inlet and diffuser nozzles, so there is no opportunity for clogging as long as the pump bore is large enough to pass the largest debris particle. As the pump bore size is increased, it can also generate more vacuum flow to overcome porosity and leakage.

B A SILENCERS B A T SIDE DISCHARGE SILENCERS T T

A A

B B

T T T

2.65 [67.3]

[18.8]

1.08 1.38 1.87 1.87

(27.4) (35.1) (47.5) (47.5)

0.61 0.77 0.96 0.96

(15.5) (19.6) (24.4) (24.4)

0.74 STRAIGHT THRU SILENCERS - Ø0.74 [18.8] 2.65 [67.3] [18.8] 0.74 [18.8]0.74 [18.8]

2.65 [67.3] 2.65 [67.3]

WEIGHT: 0.56 oz (15.8 g)

1.24 [31.5] 1.24

4.14 [105.2] T

AA18M AA14M AA38M AA12M

0.74 [18.8] 0.74

2.65 [67.3]

PART#

DIMENSIONS & TECHNICAL DATA A B WEIGHT in. (mm) in. (mm) oz. (g)

4.14 [105.2]

[31.5]

STRAIGHT THRU SILENCERS - Ø1.24 [31.5] T T T

4.14 [105.2] 4.14 [105.2] 4.14 [105.2] T

1.24 [31.5] 1.24 [31.5]1.24 [31.5]

WEIGHT: 2.11 oz (59.9 g)

STRAIGHT THRU SILENCERS - Ø1.48 [37.6] 1.48 T

4.12 [104.6]

T T T

4.12 [104.6] 4.12 [104.6] 4.12 [104.6]

[37.6] 1.48 [37.6]

1.48 [37.6] 1.48 [37.6]1.48 [37.6]

WEIGHT: 1.18 oz (33.6 g) ST10M: ADD 0.17 oz (4.8 g)

STRAIGHT THRU SILENCERSCONNECTIONS PART # THREAD (T) Ø1.48 [37.6] - 6 in. [152] LENGTH 6.0 [152.4] T

6.0 [152.4]

T T T

6.0 [152.4] 6.0 [152.4] 6.0 [152.4] WEIGHT: CONNECTIONS 1.65 oz (46.7 g) PART # ST10M: THREAD (T) STA18M ADD 0.17 ozG1/8 (4.8NPS g) STA14M G1/4 NPT CONNECTIONS

PART # STB38M STB12M

THREAD (T) G3/8 NPT G1/2 NPS

CONNECTIONS

STA18M STA14M

1.48G1/8 NPS [37.6] G1/4 1.48 NPT [37.6] CONNECTIONS PART # THREAD (T) 1.48 [37.6] STB38M G3/8 NPT 1.48 1.48 [37.6] STB12M G1/2 NPS [37.6] DISCONTINUED SILENCERS OLD CONNECTIONS PART # NEW PART # ST18M STA18M PART # THREAD (T) ST14M STC12M G1/2STA14M NPS ST38M-A STB38M STC34M G3/4 NPT ST38M-B STC10M G1STB38M NPT ST12M-B STB12M CONNECTIONS ST12M-C STC12M-6 PART # THREAD (T) 14:18 REVISEDG1/2 PART # STC12M-6 NPS OLD PART # G3/4 NEWNPT PART # STC34M-6

0.1 (2.9) 0.21 (5.7) 0.38 (10.9) 0.46 (12.9)

THREAD G1/8 NPT Male G1/4 NPT Male G3/8 NPT Male G1/2 NPT Male

CONNECTIONS

DIS

STA18M G1/8 NPS CONNECTIONS STA14M G1/4 NPT PART # THREAD (T)

DIS

PART #

THREAD (T)

STA18M G1/8 NPS CONNECTIONS STA14M G1/4 NPT CONNECTIONS PART # THREAD (T) PART # THREAD (T) STB38M G3/8 NPT CONNECTIONS STA18M G1/8 NPS STB12M G1/2 NPS PART CONNECTIONS # THREAD (T) STA14M G1/4 NPT PART # THREAD (T) STB38M G3/8 NPT CONNECTIONS STA18M G1/8 STB12M G1/2 NPS NPS CONNECTIONS PART # THREAD (T) STA14M G1/4 NPT PART # THREAD (T) STC12M G1/2 NPS CONNECTIONS STB38M G3/8 NPT STC34M G3/4 NPT CONNECTIONS PART # THREAD (T) STB12M G1/2 NPS STC10M G1 NPT(T) PART # THREAD STC12M G1/2 NPS STB38M G3/8 STC34M G3/4 NPT NPT CONNECTIONS CONNECTIONS STB12M G1/2 NPS STC10M G1 NPT PART # THREAD (T) PART # THREAD (T) STC12M G1/2 NPS STC12M-6 G1/2 NPS CONNECTIONS CONNECTIONS STC34M G3/4 NPT STC34M-6 G3/4 NPT PART THREAD (T) PART # # THREAD STC10M G1 NPT(T) STC10M-6 G1 NPT STC12M G1/2 STC12M-6 G1/2 NPS NPS STC34M G3/4 NPT STC34M-6 G3/4 CONNECTIONSNPT STC10M G1 STC10M-6 G1 NPT NPT(T) PART # THREAD DISCONTINUED SILENCERS STC12M-6 G1/2PART NPS # OLD PART # NEW CONNECTIONS ST18M STA18M STC34M-6 G3/4 NPT PART # THREAD (T) ST14M STA14M STC10M-6 G1 NPT STC12M-6 G1/2 NPS ST38M-A STB38M STC34M-6 G3/4 NPT ST38M-B STB38M STC10M-6 G1 NPT ST12M-B STB12M ST12M-C

OL S S S DISS S S OL S SS DIS SS OLD S S OLS S S S S OL S SS SS S OLS S

S OLD S S S S

STC12M-6

REVISED PART #

OLD PART # ST34M ST12M ST10M

NEW PART # STC34M STC12M STC10M

AIR AMPLIFIER & TRANSFER TUBES

SECTION 15 AIR AMPLIFIER & TRANSFER TUBES

AIR AMPLIFIER

TRANSFER TUBES

15:2

15:3 – 15:4

15:1

4.23 4.23 [107.4][107.4

2.83 2.83 [71.9] [71.9]

2.63 2.63 [66.8] [66.8]

1.75 1.75 [44.5] [44.5]

1.03 1.03 [26.2] [26.2]

0.0

CD-500H

1.48 [37.6]

0.99 [25.1]

1.48 [37.6]

0.99 [25.1] AIR SUPPLY: 1/4 NPTF OR G1/4 BSPP SEE MODEL CODE AIR SUPPLY: 1/4 NPTF OR G1/4 BSPP SEE MODEL CODE

INLET: 1/2 NPTF OR G1/2 BSPP SEE MODEL CODE INLET: 1/2 NPTF OR G1/2 BSPP SEE MODEL CODE MODEL

CD-500H

AMBIENT AIR FLOW

I.D. in. (mm)

0.5 (13)

0.5 [12.7] THROAT DIAMETER 0.5 [12.7] THROAT DIAMETER

AIR SUPPLY @ 80 PSI (5.5 bar)

INPUT FLOW SCFM (Nl/min) 9 (255) 5 (142) 3 (85)

OUTPUT FLOW SCFM (Nl/min) 75 (2124) 42 (1189) 22 (623)

VELOCITY ft/s (m/s)

910 (277) 530 (162) 265 (81)

AIR SUPPLY

LOCK NUT

AIR SUPPLY

LOCK NUT

AMBIENT AIR FLOW

AMPLIFIED EXHAUST FLOW AMPLIFIED EXHAUST FLOW

ADJUSTABLE COANDA NOZZLE ADJUSTABLE COANDA NOZZLE

CD-500H AIR AMPLIFIER

Applications include blow-drying, ventilation and handling highly porous but lightweight parts. 15

CD-style pumps use the Coanda effect to draw in large volumes of ambient air in relation to the small amount of compressed air consumed. OPERATION The Coanda principle employs a nozzle that causes high velocity compressed air to cling to its shaped airfoil wall. Ambient air is drawn into the inlet and down into the center of the vortex formed by the Coanda nozzle so that the discharge air flow at the exhaust is much greater than the compressed air consumption. Loosen the jam nut and turn the Coanda nozzle clockwise, by hand, until it stops, indicating the throat is fully closed. Supply regulated

compressed air to the side air supply port and gradually rotate the Coanda nozzle to increase the throat gap until the desired vacuum level or discharge flow is achieved. To minimize air consumption, use the lowest pressure air supply that will yield the desired results. Higher air pressure will increase the airflow but will also increase air consumption. Turning the Coanda nozzle too far open will suddenly cause air flow to reverse direction and the pump will not perform properly.

15:2

ÂŠ2012 EDCO USA. www.edcousa.net

D-STYLE TRANSFER PUMPS

INLET (VACUUM)

COMPRESSED AIR SUPPLY

DISCHARGE (EXHAUST)

FLOW

D-SERIES MATERIAL TRANSFER PUMPS Direct transfer pumps use high velocity compressed air to generate a vacuum in the inlet of a smooth bore tubular body to draw in bulk dry goods and then convey it in a turbulent air stream through a hose attached to the discharge end of the pump. Plastic pellets, powders, beans, peas, sawdust, and continuous fabric trimmings are only a few examples of the numerous items that can be transferred.

These versatile pumps can also be used to convey small parts from an assembly station at much lower cost than a pick & place device. Select a pump inside diameter that is a little larger than the part outside diameter then provide generous bends in the discharge hose for free passage of parts. For longer parts, select a pump (and discharge hose) diameter large enough to pass the part diameter but not large enough for the part length. This method will eliminate end-for-end tumbling that can damage parts. At the hose discharge end, direct the parts against hanging curtains or foam rubber to decelerate the parts.

ÂŠ2012 EDCO USA. www.edcousa.net

15:3

Vacuum flow rate, and thus material transfer rate, is easily controlled by simply changing the compressed air supply pressure. Higher air pressure increases the transfer rate. When shutting the pump off, it is good practice to let the pump blow air for a long enough period to allow all parts in the discharge hose to exit.

PRINCIPLE OF OPERATION Compressed air is supplied to the body port and passes through an annular ring to several nozzles leading into the transfer tube at an angle. The nozzles concentrate the air stream so that it increases to maximum velocity as it passes through the nozzle throat and into the pump transfer tube. The air jets meet in the tube center and create a powerful vacuum at the tube inlet and a turbulent spiraling flow at the discharge end. Large quantities of ambient air are ingested along with the material being transferred and, combined with nozzle air, helps to move material through the discharge hose.

D-STYLE TRANSFER PUMPS

DIMENSIONS MODEL D2-3 D3-3 D3-6 D5-3 D5-6 D7-3 D7-6 D10-3 D10-6 D15-3 D15-6 D20-3 D20-6

A THROAT I.D. in. (mm) 0.25 (6.35) 0.375 (9.5) 0.375 (9.5) 0.5 (12.7) 0.5 (12.7) 0.75 (19.1) 0.75 (19.1) 1.0 (25.4) 1.0 (25.4) 1.5 (38.1) 1.5 (38.1) 2.0 (50.8) 2.0 (50.8 )

B COLLAR O.D. in. (mm)

C TUBE O.D. in. (mm)

D LENGTH in. (mm)

E OFFSET in. (mm)

F COLLAR WIDTH in. (mm)

1.25 (31.8) 0.75 (19.1) 3.5 (88.9) 0.75 (19.1) 1.0 (25.4) 1.25 (31.8) 0.75 (19.1) 3.5 (88.9) 0.75 (19.1) 1.0 (25.4) 1.25 (31.8) 0.75 (19.1) 3.5 (88.9) 0.75 (19.1) 1.0 (25.4) 1.5 (38.1) 1.0 (25.4) 5.5 (140) 1.0 (25.4) 1.25 (31.8) 1.5 (38.1) 1.0 (25.4) 5.5 (140) 1.0 (25.4) 1.25 (31.8) 2.0 (50.8) 1.25 (31.8) 7.5 (191) 1.5 (38.1) 2.0 (50.8) 2.0 (50.8) 1.25 (31.8) 7.5 (191) 1.5 (38.1) 2.0 (50.8) 2.25 (57.2) 1.5 (38.1) 7.5 (191) 1.5 (38.1) 2.0 (50.8) 2.25 (57.2) 1.5 (38.1) 7.5 (191) 1.5 (38.1) 2.0 (50.8) 2.75 (69.9) 2.0 (50.8) 7.5 (191) 1.5 (38.1) 2.0 (50.8) 2.75 (69.9) 2.0 (50.8) 7.5 (191) 1.5 (38.1) 2.0 (50.8) 3.25 (82.6) 2.5 (63.5) 7.5 (191) 1.5 (38.1) 2.0 (50.8) 3.25 (82.6) 2.5 (63.5) 7.5 (191) 1.5 (38.1) 2.0 (50.8) *Both NPTF and BSPP ports are available. Add suffix "G" for BSPP.

T SUPPLY THREAD 1/8* 1/8* 1/8* 1/4* 1/4* 3/8* 3/8* 3/8* 3/8* 3/8* 3/8* 3/8* 3/8*

MODEL D2-3 D3-3 D3-6 D5-3 D5-6 D7-3 D7-6 D10-3 D10-6 D15-3 D15-6 D20-3 D20-6

I.D. in (mm) 0.25 (6.35) 0.375 (9.5) 0.375 (9.5) 0.5 (12.7) 0.5 (12.7) 0.75 (19.1) 0.75 (19.1) 1.0 (25.4) 1.0 (25.4) 1.5 (38.1) 1.5 (38.1) 2.0 (50.8) 2.0 (50.8 )

AIR VELOCITY ft/s (m/s) 490 (149) 328 (100) 393 (120) 306 (93.3) 362 (110) 272 (82.9) 326 (99.4) 229 (69.8) 290 (88.4) 224 (68.3) 272 (82.9) 183 (55.8) 229 (69.8)

VACUUM FLOW SCFM (Nl/m) 10 (283) 15 (425) 18 (510) 25 (708) 30 (850) 50 (1416) 60 (1699) 75 (2124) 95 (2690) 165 (4672) 200 (5663) 240 (6796) 300 (8495)

VACUUM LEVEL inHg (mmHg) 8 (203) 6 (152) 8 (203) 3 (76) 10 (254) 4.3 (109) 8 (203) 3 (76) 5.8 (147) 1.3 (33) 2.5 (64) 0.8 (20) 1.5 (38)

15:4

AIR CONSUMPTION SCFM (Nl/m) @ 40 psi @ 80 psi 3.1 (87.8) 6 (170) 3.5 (99.1) 6 (170) 5.8 (164) 10 (283) 5.2 (147) 9 (255) 14 (396) 24 (680) 14 (396) 24 (680) 28 (793) 48 (1359) 14 (396) 24 (680) 28 (793) 48 (1359) 14 (396) 24 (680) 28 (793) 48 (1359) 14 (396) 24 (680) 28 (793) 48 (1359)

TECHNICAL DATA

EMAT

SECTION 16 MODULAR AUTOMATION TOOLING

16:1

EMAT

CONTENTS

GENERAL INFORMATION What is EMAT? What is VacLoc ? What is Coaxial Vacuum Technology? EMAT Arm Features System Explanation Selection Guide How to Order a Complete Arm Pump Performance

VacLoc WORK ATTACHMENTS

16:3 16:3 16:3 16:4 16:5 16:5 16:6 16:29 - 16:30

VacLoc VacLoc with Apple-Core VacLoc with Ball Swivel VacLoc with Cross Port VacLoc with Integral Vacuum Pump VacLoc with Integral Pump & Energy Saver

VACUUM CONNECTION & VACUUM PUMP WORK ATTACHMENTS Apple-Core Vacuum Port: 3/8 F Ball Swivel Vacuum Port: 3/8 F Low Profile Vacuum Port with Blow-off Low Profile Vacuum Pump with Blow-off

16:7 16:7 16:8 16:9

16:10 16:11 16:11 16:12 – 16:13 16:14 16:15

T-SLOT RECEIVER WORK ATTACHMENTS Vacuum Connection T-Slot Receiver: 1/4 F Vacuum Connection T-Slot Receiver with Apple-Core Vacuum Connection T-Slot Receiver with Ball Swivel Surface Mount Vacuum Connection T-Slot Receiver Vacuum Connection with Blow-Off T-Slot Receiver with Apple-Core Vacuum Connection with Blow-Off T-Slot Receiver with Ball Swivel Surface Mount Vacuum Connection with Blow-Off T-Slot Receiver Vacuum Pump with Blow-Off T-Slot Receiver with Apple-Core Vacuum Pump with Blow-Off T-Slot Receiver with Ball Swivel Surface Mount Vacuum Pump with Blow-Off T-Slot Receiver VacLoc T-Slot Receiver with Apple-Core VacLoc T-Slot Receiver with Ball Swivel Surface Mount VacLoc T-Slot Receiver VacLoc & Integral Vacuum Pump T-Slot Receiver with Apple-Core VacLoc & Integral Vacuum Pump T-Slot Receiver with Ball Swivel Surface Mount VacLoc with Integral Vacuum Pump T-Slot Receiver VacLoc with Integral Vacuum Pump & Energy Saver T-Slot Receiver with Apple-Core VacLoc with Integral Vacuum Pump & Energy Saver T-Slot Receiver with Ball Swivel Surface Mount VacLoc with Integral Vacuum Pump & Energy Saver T-Slot Receiver

16:16 16:17 16:17 16:18 16:19 16:19 16:20 16:21 16:21 16:22 16:23 16:23 16:24 16:25 16:25 16:26 16:27 16:27 16:28

LEVEL COMPENSATOR WORK ATTACHMENTS

ARMS Clamp-On Arm with Apple-Core for 1.0in Tube Clamp-On Arm with Apple-Core for 1.5in Tube Clamp-On Arm with Ball Swivel for 1.0in Tube Clamp-On Arm with Ball Swivel for 1.5in Tube Slide-On Arm with Apple-Core for 1.0in Tube Slide-On Arm with Apple-Core for 1.5in Tube Slide-On Arm with Ball Swivel for 1.0in Tube Slide-On Arm with Ball Swivel for 1.5in Tube

16:31 16:32 16:33 16:34 16:35 16:36 16:37 16:38 16:39 16:40 16:41

Non-Rotating EMAT Level Compensators with 1/4 F 90 degree Vacuum Connection EMAT Level Compensator Apple-Core Mount EMAT Level Compensator Ball Swivel Mount EMAT Level Compensator Extrusion Mount EMAT Level Compensator Slide-On Mount for 1.0 in Tube Level Comp. Mounted Vacuum Port with Blow-Off Level Comp. Mounted Vacuum Pump with Blow-Off Level Comp. Mounted VacLoc Level Comp. Mounted VacLoc with Cross Port Level Comp. Mounted VacLoc & Integral Vacuum Pump Level Comp. Mounted VacLoc with Integral Vacuum Pump & Energy Saver

ACCESSORIES 16:42 16:42 16:43 16:43 16:44 16:44 16:45 16:45

Clamp Blocks Extrusion Mount Clamp Block Third Axis Level Compensator Mount Height Adjusters

16:2

16:46 16:47 16:47 16:48

EMAT

EDCO USA MODULAR AUTOMATION TOOLING EDCO USA Modular Automation Tooling (EMAT) provides an efficient way to construct automation or robotic tools with minimal design time. Rugged, lightweight anodized aluminum EMAT components adjust easily to conform to the work piece then are securely tightened with standard hand tools. Typically, a tool is constructed with a horizontal beam, of either round tubing or t-slot structural extrusion, plus several side spars for attaching mono-grip orbital arms, wrists and hands with appropriately selected options that provide virtually unlimited design freedom. Horizontal Beam

Wrist

Hand

EMAT systems may be set up using a large centralized vacuum pump to supply several suction cups, but much greater system reliability can be achieved via the redundancy of a discrete system. A discrete system with small independent compressed air-powered vacuum pumps at each suction cup is the preferred method since a poor seal at one cup canâ&#x20AC;&#x2122;t affect the vacuum level at any other cup. A discrete system also allows splitting the system into several independently controlled zones so that a wider variety of part sizes and shapes can be efficiently handled. EMAT provides simplicity, adjustability, rigidity, serviceability, energy conservation, coaxial ejector technology and cost-effectiveness in a readily available package.

High-efficiency sequence valve remains fully open during blow-off so chattering, humming, and squealing noises are eliminated. Compressed air consumption is reduced significantly by using lower air pressure during the blowoff mode.

EMAT tooling is easily reconfigurable to meet changing application requirements. Fast and simple single-bolt arm adjustment (mono-clamp) and tri-arc grip provides superior positional security via higher clamping forces. Modular construction allows swapping hands, changing arm lengths, changing suction cups or duty-attachments and repositioning or adding slide-on or clamp-on orbital arms to reconfigure the tool whenever necessary. Unlimited multi-axis arm positioning - configure wrists with either an orbital apple-core pin or a ball swivel for greater mobility to conform to part contours.

COAXIAL VENTURI TECHNOLOGY

EDCO USA VacLoc 16

Fail-safe operation is provided by integral VacLoc valves in leak-free systems. If the vacuum source is lost, or is purposely interrupted as in an Energy-Saving system, the VacLoc will trap vacuum for an indefinite time period so the load can be lowered to a safe position. Modular VacLoc vacuum check valve and sequence blow valve are installed in a cartridge body for perfect alignment and valve seats are electroless-nickel plated for long life.

ÂŠ2012 EDCO USA. www.edcousa.net

Energy conservation is provided by efficient high-flow coaxial ejector technology which is also capable of passing more debris than competitive designs without clogging. In addition, there is no flap valve to stick and affect performance.

An internal orifice balances air flow so that several VacLoc blow-off ports may be supplied and controlled by one solenoid valve. Integral ES Energy-Saving controls provide a dramatic reduction in compressed air usage by only turning the vacuum pump on as needed to maintain the selected vacuum level.

Mono-Grip Orbital Arm

Side Spar

A one-piece work-attachment body eliminates secondary vacuum leak paths and the potential for loosening or separation during operation.

16:3

Proprietary EMAT coaxial ejector vacuum pumps are optimized to provide high vacuum flow and reduce compressed air consumption. There are no flap-valves to swell up or stick due to ingesting die lubricants and the simplified design is tolerant of debris.

EMAT EMAT ARM FEATURES 6

1 5

2 3

Improved technology provides greater arm positional security. 1. A spherical nut nests into a spherical pocket to eliminate misalignment and resultant stress concentration that can cause joints to loosen. 2. A larger hex wrench socket allows greater torque to be applied. 3. A nut & stud configuration more efficiently translates tightening torque into stud tension than does a long cap screw where much of the torque is absorbed by twisting of the long screw shank. 4. Clamp jaws are relieved to form flexible hinges to greatly reduce the spring-back effect, significantly increasing the available clamp force.

6. Hardened spacers having raised radial micro-teeth are installed at both ends of the arm extension rod to mechanically interlock the arm components, providing rotational resistance and positional security.

5. Segmented clamp jaws provide a secure tri-arc grip superior to the weaker grip produced by the two-point-contact grip of competitive units.

7. A larger pin retainer diameter positions the stud farther from the clamp centerline and the increased leverage produces a higher clamping force.

16:4

ÂŠ2012 EDCO USA. www.edcousa.net

EMAT SYSTEM EXPLANATION An EMAT arm is analogous to a human arm. The shoulder joint is either a slide-on or clamp-on orbital connection to a round structural tube. The arm extends from the shoulder to a wrist which can provide either an orbital (apple-core pin) or a swivel (ball) connection to the hand. The hand consists of a suction cup plus a work-attachment that can be configured to perform several functions such as

admitting or producing vacuum, additional compliance (level compensator) or greater control via VACLOC or Energy Saving controls.

Apple-Core Pin Wrist Joint

Slide-On Shoulder Joint Arm

Ball Swivel Wrist Joint

Wrist Shoulder Work Attachment Cup Hand

Clamp-On Shoulder Joint

SELECTION GUIDE

Begin at the work-piece and select components in sequence back to the main beam. 1) 2) 3) 4)

Select a suction cup style and size based on the weight of the work-piece, the area available and the work-piece surface. For cup style refer to the cup selection guideline table in the Basic Vacuum Training section of your EDCO USA catalog. Select a work-attachment based on your system requirements for function and control. Refer to the individual descriptions for details and options. Select either an orbital apple-core pin wrist (A) or a swivel ball wrist (B). Select the arm length based on how far the suction cup will be positioned from the mounting spar. Select a shoulder joint to attach to the spar. The slide-on style costs less but isnâ&#x20AC;&#x2122;t as convenient for reconfiguring the tool. The hinged clamp-on style can be mounted, or added, anywhere along the spar length without having to disturb other arms.

Components selected in steps 1-5 can be coded into a single convenient part number - see How to Order information below. 6) 7)

Select spar tubing diameter and lengths based on where suction cups must be positioned in the tool layout. Select appropriate structural adaptors to connect spars to the main beam.

ÂŠ2012 EDCO USA. www.edcousa.net

16:5

EMAT SELECTION GUIDE: COMPLETE ARM ASSEMBLY Complete arm assemblies can be ordered using the following part number layout.

WORK ATTACHMENT-CUP-ARM EXAMPLE #1

VLP10LC5038MA-B75S-C10X4A 1

PART NUMBER IDENTIFICATION NUMBER MODEL CODE 1 VLP10L 2 C5038MA 3 A 4 B75S 5

C10X4A

DESCRIPTION VacLoc with 10L pump Level Compensator with 50 mm stroke and 3/8 NPT male cup connection Apple-Core Pin style orbital wrist joint Bellows style 75 mm diameter Silicone suction cup Clamp-on shoulder joint for 1in. tubing plus 4in. arm length Apple-Core Pin style orbital wrist joint

COMPONENT WORK ATTACHMENT CUP ARM

EXAMPLE #2

VL38FB-BF80N-S10X2B 1

PART NUMBER IDENTIFICATION NUMBER MODEL CODE 1 VL38F 2 B 3 BF80N 4

S10X2B

DESCRIPTION VacLoc with 3/8" NPTF female cup connection Ball Swivel wrist joint Bellows traction style 80 mm diameter Nitrile suction cup Slide-on shoulder joint for 1in. tubing plus 2in. arm length Ball Swivel wrist joint

COMPONENT WORK ATTACHMENT CUP ARM

VG38-10L-LP-A-B50A-S10X4A 1

EXAMPLE #3

PART NUMBER IDENTIFICATION NUMBER MODEL CODE 1 VG38-10L-LP1 2 A 3 B50A 4

DESCRIPTION COMPONENT Vacuum Gripper with 10L pump and Limited Purge WORK Apple-Core Pin style orbital wrist joint. ATTACHMENT Bellows style 50 mm diameter Ameriﬂex suction cup CUP Slide-on shoulder joint for 1in. tubing plus 2in. arm length. S10X4A ARM Apple-Core Pin style orbital wrist joint. 1 See the Vacuum Gripper section of the catalog for more information.

16:6

EMAT VACUUM CONNECTION WITH APPLE CORE OR BALL SWIVEL HOW TO ORDER V38FA

V38FA

1.75 [44.5]

0.0 0.5 [12.7]

1.0 [25.4] 3/8 NPSF

1.0 [25.4] CL 1.52 [38.6] Weight: lb. (g) 0.17 (75.5)

0.78 [19.8]

0.47 [11.9]

HOW TO ORDER V38FB

1.75 [44.5]

V38FB 0.0 0 .5 [12.7]

1.0 [25.4] 3/8 NPSF

1.0 [25.4] Weight: lb. (g) 0.22 (98.2)

CL 1.9 [48.3]

0.78 [19.8]

16:7

0.47 [11.9]

EMAT LOW PROFILE VACUUM CONNECTION WITH BLOW OFF HOW TO ORDER

Includes a blow-off sequence valve, provides for mounting a vacuum cup and for connecting a vacuum source. Can be VLP configured with or without a vacuum pump.

VL38F

OPTIONS LVB38F

PORTS -

A = Apple Core (BLANK) = NPTF V G = BSPP B = Ball Swivel 2 (BLANK) = Level 1 Comp. Mount

0.0 0.45 [11.4] 0.53 [13.5] 0.9 [22.9]

0.06

1.04 [26.4]

[1.5]

0.0

1.79 [45.5]

2.23 [56.6]

0.53 [13.5] 0.45 [11.4] 0.0

[1.5]

0.0 0.36 [9.1]

0.0

0.0 0.36 [9.1]

0.06

0.9 [22.9] 1.45 [36.8]

1.95 [49.5]

1.83 [46.5]

CL 2.47 [62.7] Apple Core Option

CODE

PB CL 2.85 [72.4] Ball Swivel Option

PORT CONNECTIONS Standard1(NPT)

Vacuum Source Blow Off - Pilot Suction Cup Port Sensor Port

2 -G (BSPP)

1/4 NPTF G1/4 BSPP 1/4 NPTF G1/4 BSPP 3/8 NPSF G3/8 BSPP M5 x 0.8 (10-32 UNF) M5 x 0.8 (10-32 UNF) 4

0.06

[1.5]

Level Comp. Mount

Apple Core Option

Ball Swivel Option

1 2 3 3A

FUNCTION

1.95 [49.5]

Weight: lb. (g) 0.27 (122)

Weight: lb. (g) 0.33 (150)

16:8

VLP

EMAT LOW PROILE VACUUM PUMP WITH BLOW OFF HOW TO ORDER

Includes a coaxial vacuum pump, blow-off sequence valve and connection port for mounting a vacuum cup.

VENTURI SIZE 10L

LPB

10L 08L 10 09 07

1 OPTIONS

38F

PORTS

A = Apple Core B = Ball Swivel (BLANK) = Level Comp. Mount

(BLANK) = NPTF G = BSPP 0.06

[1.5]

0.0 0.45 [11.4] 0.53 [13.5] 0.9 [22.9]

1.04 [26.4]

3A 3

0.0

1.79 [45.5]

2.23 [56.6]

0.45 [11.4] 0.0

0.53 [13.5]

0.0 0.36 [9.1]

0.0

0.0 0.36 [9.1]

0.9 [22.9] 1.95 [49.5] CL 2.47 [62.7] Apple Core Option

CODE 1 2 3 3A 4

1.95 [49.5]

CL 2.85 [72.4] Ball Swivel Option

PORT CONNECTIONS FUNCTION Standard (NPT)

Air Supply- Main Blow Off - Pilot Vacuum- Main Vacuum- Alternate Exhaust

1.45 [36.8]

1.83 [46.5]

2 2

1 -G (BSPP)

1/4 NPTF G1/4 BSPP 1/4 NPTF G1/4 BSPP 3/8 NPSF G3/8 BSPP M5 x 0.8 (10-32 UNF) M5 x 0.8 (10-32 UNF) G1/4 BSPP G1/4 BSPP

4 0.06 [1.5]

3A 3

Level Comp. Mount

Ball Swivel Option

Weight: lb. (g) 0.33 (150)

Weight: lb. (g) 0.38 (172)

Apple Core Option

16:9

EMAT

VacLoc HOW TO ORDER

The VACLOC is a combination modular vacuum check valve and a sequence blow valve incorporated in a perfectly aligned one-piece cartridge body featuring electroless-nickel plated valve seats for long life. An internal orifice provides balanced blow-off air flow so that several VACLOC’s can be supplied and controlled by one solenoid valve.

PORTS VL38F

(BLANK) = NPTF G = BSPP

0.95 [24.1] 0.54 [13.7]

1.6 [40.6] 1.95 [49.5]

0.0 1

0.5 [12.7]

0.0

2.15 [54.6] 1.55 [39.4]

VL3

0.25 [6.4] 0.0

VL38F

0.06 [1.5]

1 2 3

PORT CONNECTIONS FUNCTION Standard (NPT)

Vacuum Source Release - Pilot Suction Cup Port

0.06

[1.5]

CODE

1.03 [26.2]

0.26 [6.6] Thru Hole 2 Places

0.0

0.0 0.48 [12.2]

1.6 [40.6] 1.73 [43.9]

0.0 0.23 [5.8] 0.5 [12.7]

VLP

Weight: lb. (g) 0.32 (145)

1/4 NPTF 1/4 NPTF 3/8 NPSF

-G (BSPP)

G1/4 BSPP G1/4 BSPP G3/8 BSPP

16:10

EMAT

VacLoc WITH APPLE CORE OR BALL SWIVEL The VACLOC is a combination modular vacuum check valve and a sequence blow valve incorporated in a perfectly aligned, one-piece cartridge body featuring electroless-nickel plated valve seats for long life. An internal orifice provides balanced blow-off air flow so that several VACLOC’s can be supplied and controlled by one solenoid valve.

HOW TO ORDER OPTIONS VL38F

CL 2.35 [59.7] Ball Swivel Option

A = Apple Core B = Ball Swivel

PORTS -

(BLANK) = NPTF G = BSPP

1.45 [36.8] 1.07 [27.2] 1

Apple Core Option Weight: lb (g) 0.54 (243)

1.95 [49.5]

1.30 [33] 1.09 [27.7]

VLP

0.63 [16] 0.28 [7.1] 0.0

0.12 [3] 0.0

0.0

CL 0.44 [11.2]

0.0

2.10 [53.3] 2.22 [56.4]

Weight: lb (g) 0.59 (268)

VL38F

1.32 [33.5]

Ball Swivel Option

0.06

0.73 [18.5]

[1.5]

1.45 [36.8]

0.06

[1.5]

CODE 1 2 3 3A

CL 1.97 [50] Apple Core Option

0.0

1.45 [36.8]

1.70 [44.5] 1.85 [47]

1.32 [33.5]

0.40 [10.1] CL 0.44 [11.2] 0.86 [21.8]

0.35 [8.9]

0.0

0.26 [6.6] Thru Holes 2 Places

0.11 [2.8]

0.0

PORT CONNECTIONS

FUNCTION Vacuum Source Release - Pilot Suction Cup - Main Suction Cup - Alternate

16:11

Standard (NPT) 1/4 NPTF 1/4 NPTF 3/8 NPSF G1/8 NPSF

-G (BSPP) G1/4 BSPP G1/4 BSPP G3/8 BSPP G1/8 NPSF

EMAT

VacLoc WITH CROSS PORT OPTION HOW TO ORDER

The Cross-Ported option provides all of the features of a standard VACLOC but with both vacuum and blow air being supplied via a single inlet port instead of two. A typical system would consist of multiple VLCP38F supplied through a selector valve that switches between vacuum and blow air.

PORTS VLCP38F

(BLANK) = NPTF G = BSPP

1 0.95 [24.1] 0.54 [13.7]

1.95 [49.5]

0.0

0.5 [12.7]

0.0

0.23 [5.8]

0.0

2.15 [54.6] 1.55 [39.4]

1.03 [26.2]

0.0

0.06 [1.5]

VL38F

VL38FCP V

0.0 0.48 [12.2]

0.26 [6.6] Thru Hole 2 Places

0.06

CODE 1 2

PORT CONNECTIONS FUNCTION Standard [1.5] (NPT)

Vacuum or Air Supply Suction Cup Port

1/4 NPTF 3/8 NPSF

[1.5]

-G (BSPP)

G1/4 BSPP G3/8 BSPP

16:12

VLP

1.73 [43.9]

Weight: lb. (g) 0.32 (145)

0.5 [12.7]

0.25 [6.4] 0.0

ÂŠ2012 EDCO USA. www.edcousa.net

VL38F AB

EMAT

VacLoc WITH CROSS PORT OPTION, AND APPLE CORE OR BALL SWIVEL

HOW TO ORDER

OPTIONS VLCP38F

PORTS

A = Apple Core B = Ball Swivel

(BLANK) = NPTF G = BSPP

CL 2.35 [59.7] Ball Swivel Option

1.07 [27.2] 1

Apple Core Option Weight: lb (g) 0.54 (243)

Ball Swivel Option

0.63 [16]

Weight: lb (g) 0.59 (268)

CL 0.44 [11.2]

0.28 [7.1] 0.0

VL38F

0.73 [18.5] 2

1.45 [36.8] 4 0.06 [1.5]

3A 3

ÂŠ2012 EDCO USA. www.edcousa.net

CODE 1 2

[1.5]NPTF 1/4 3/8 NPSF

PORT CONNECTIONS 0.06 FUNCTION Standard (NPT)

16:13

VL38FCP

Vacuum or Air Supply Suction Cup Port

2.10 [53.3] 2.22 [56.4]

1.32 [33.5]

VLP

0.0

0.12 [3] 0.0

0.06

-G (BSPP)

G1/4 BSPP G3/8 BSPP

[1.5]

CL 1.97 [50] Apple Core Option

1.45 [36.8]

2.07 [52.6] 1.95 [49.5]

0.26 [6.6] Thru Holes 2 Places 1.30 [33] 1.09 [27.7]

0.0

1.85 [47]

1.32 [33.5]

0.40 [10.1] 0.35 [8.9]

C 0.44 [11.2] 0.86 [21.8] L

0.0 0.11 [2.8] 0.0

0.0

EMAT

VacLoc WITH INTEGRAL PUMP

HOW TO ORDER

The VLP includes all the VACLOC features plus a coaxial ejector vacuum pump cartridge that is integrated into a compact single-piece body. Response time is greatly improved by minimizing flow paths and system volume. Reliability is improved by eliminating external plumbing and potential leak points.

VLP

CL 2.35 [59.7] Ball Swivel Option

VENTURI SIZE 10L 10L 08L 10 09 07

OPTIONS -

38F

PORTS

A (BLANK) = Stand Alone A = Apple Core B = Ball Swivel

(BLANK) = NPTF G = BSPP

1.45 [36.8] 1.07 [27.2] 1

Stand Alone

0.26 [6.6] Thru Holes 2 Places 1.30 [33] 1.09 [27.7] 0.63 [16]

0.73 [18.5]

0.06

[1.5]

Weight: lb (g) 0.59 (268)

1.45 [36.8] CODE 1 2 3 3A 4

2.10 [53.3] 2.22 [56.4]

0.0

Ball Swivel Option

CL 1.97 [50] Apple Core Option

VLP

CL 0.44 [11.2]

0.28 [7.1] 0.0

0.12 [3] 0.0

1.45 [36.8]

1.55 [39.4]

1.32 [33.5]

Weight: lb (g) 0.54 (243)

1.95 [49.5]

0.0

Apple Core Option

0.45 [11.4]

0.0

1.70 [44.5] 1.85 [47]

1.32 [33.5]

0.40 [10.1] 0.35 [8.9]

C 0.44 [11.2] 0.86 [21.8] L

0.0 0.11 [2.8] 0.0

0.0

Weight: lb (g) 0.47 (214)

PORT CONNECTIONS FUNCTION Standard (NPT) Air Supply- Main 1/4 NPTF Release - Pilot 1/4 NPTF Vacuum- Main 3/8 NPSF Vacuum- Alternate G1/8 NPSF Exhaust G1/4 BSPP

16:14

-G (BSPP) G1/4 BSPP G1/4 BSPP G3/8 BSPP G1/8 NPSF G1/4 BSPP

ÂŠ2012 EDCO USA. www.edcousa.net

EMAT

VacLoc WITH INTEGRAL PUMP & ENERGY SAVER OPTION

An adjustable vacustat control is added to a VLP assembly to automatically cycle the vacuum pump on only as required to maintain the desired vacuum level in a leak-free system. All VACLOC benefits are retained but air-energy consumption is reduced to only a small fraction of that required for a constant-on vacuum pump.

HOW TO ORDER VENTURI SIZE 10L

VLP

10L 08L 10 09 07

ES -

38F

(BLANK) = Stand Alone A = Apple Core B = Ball Swivel

PORTS -

(BLANK) = NPTF G = BSPP

CL 2.35 [59.7] Ball Swivel Option

OPTIONS

1.45 [36.8] 1.07 [27.2]

Stand Alone

CL 1.97 [36.8] Apple Core Option

1.45 [36.8]

0.45 [11.4]

0.0

0.40 [8.9]

0.25 [6.4] 0.0 0.11 [2.8]

0.79 [20.1]

1.70 [43.2] 1.75 [44.5]

2.10 [53.3]

3.17 [80.5]

C 1.66 [42.2] 1.24 [31.5] L

0.0

Weight: lb (g) 0.62 (280)

1.95 [49.5] 1.30 [33] 1.09 [27.7] 0.63 [16]

Apple Core Option

CL 0.44 [11.2]

VLP-ES

0.0

0.28 [7.1] 0.0 0.79 [20.1]

Weight: lb (g) 0.68 (309)

1.55 [39.4]

0.12 [3] 0.0 3

0.73 [18.5]

Ball Swivel Option Weight: lb (g) 0.73 (332)

1.45 [36.8]

4 0.06

Set Point PORT CONNECTIONS CODEAdjustment FUNCTION Standard (NPT) 1 Air Supply- Main 1/4 NPTF 2 Release - Pilot 1/4 NPTF 3 Vacuum- Main 3/8 NPSF 3A Vacuum- Alternate G1/8 NPSF 4 Exhaust G1/4 BSPP

ÂŠ2012 EDCO USA. www.edcousa.net

16:15

-G (BSPP) G1/4 BSPP G1/4 BSPP G3/8 BSPP G1/8 NPSF G1/4 BSPP

[1.5]

3A 3

EMAT T-SLOT RECEIVER WITH VACUUM CONNECTION

M5 x 0.8 4 Places

Provides a bayonet-style quick-change for suction cups equipped with o-ring sealed T-slot adaptors. High quality Teflon impregnated nickel plating reduces friction during insertion and the simplified latch features a larger finger tab for comfortable operation.

1.29 [32.8] 0.83 [21.1] 0.37 [9.4] 0.0

HOW TO ORDER -

(BLANK) = NPTF G = BSPP

0.79 [20.1] 0.17 [4.3] 0.0

TR-14

1.41 [35.8]

PORTS

0.36 [9.1]

0.0

1.45 [36.8]

0.0

Weight: lb. (g) 0.2 (90.7)

0.0

1.57 [39.9]

0.84 [21.3] 1.2 [30.5]

0.0

CODE 1

0.0

0.79 [20.1]

0.83 [21.1]

PORT CONNECTIONS

FUNCTION Vacuum

Standard (NPT) 1/4 NPTF

-G (BSPP) G1/4 BSPP

T-SLOT ADAPTORS 1.25 [31.8]

0.37 [9.5]

FITTING TSA-18M TSA-38M TSA-12M

WEIGHT oz. (g)

0.75 (21.3) 0.68 (19.3) 0.59 (16.7)

A in. (mm)

0.61 (15.5) 0.79 (20) 0.79 (20)

T THREAD G1/8 NPT G3/8 NPT G1/2 NPT

16:16

ÂŠ2012 EDCO USA. www.edcousa.net

EMAT T-SLOT RECEIVER WITH VACUUM CONNECTION & APPLE CORE OR BALL SWIVEL MOUNT Provides a bayonet-style quick-change for suction cups equipped with o-ring sealed T-slot adaptors. High quality Teflon impregnated nickel plating reduces friction during insertion and the simplified latch features a larger finger tab for comfortable operation.

HOW TO ORDER OPTIONS TR-14

CL 2.35 [59.7]

PORTS

A = Apple Core B = Ball Swivel

(BLANK) = NPTF G = BSPP

1 0.83 [21.1]

0.0

0.76 [19.3]

CL 1.81 [46]

0.0

0.84 [21.3] 1.2 [30.5]

CL 0.76 [19.3] 1.45 [36.8] CL 1.97 [50]

0.0

2.25 [57.2]

0.36 [9.1]

0.0

0.76 [19.3]

0.83 [21.1]

CODE 1

Apple Core Option

Standard (NPT) 1/4 NPTF

Ball Swivel Option

Weight: lb. (g) 0.4 (181)

Weight: lb. (g) 0.35 (159) ÂŠ2012 EDCO USA. www.edcousa.net

PORT CONNECTIONS

FUNCTION Vacuum

16:17

-G (BSPP) G1/4 BSPP

EMAT SURFACE MOUNT T-SLOT RECEIVER WITH VACUUM CONNECTION Provides a bayonet-style quick-change for suction cups equipped with o-ring sealed T-slot adaptors. High quality Teflon impregnated nickel plating reduces friction during insertion and the simplified latch features a larger finger tab for comfortable operation.

HOW TO ORDER PORTS TR-14S

(BLANK) = NPTF G = BSPP

0.0

2.25 [57.2]

1.09 [27.7]

0.34 [8.6] 4 Places 2.83 [71.9]

3.15 [80]

Weight: lb. (g) 0.46 (209)

1.28 [32.5]

0.33 [8.4]

0.66 [16.8]

0.0

0.0 0.55 [14] 0.25 [6.4] 0.0

0.0

0.34 [8.6]

1.13 [28.7]

1.91 [48.5]

2.11 [53.6]

1.45 [36.8]

0.0

CODE 1

PORT CONNECTIONS

FUNCTION Vacuum

Standard (NPT) 1/4 NPTF

16:18

-G (BSPP) G1/4 BSPP

ÂŠ2012 EDCO USA. www.edcousa.net

EMAT T-SLOT RECEIVER WITH VACUUM CONNECTION & BLOW OFF HOW TO ORDER

OPTIONS VBT

A = Apple Core B = Ball Swivel

PORTS -

(BLANK) = NPTF G = BSPP

VL38F

VLPC 2.35 [59.7] L 1

2 1.07 [27.2] 2

Apple Core Option

0.0

0.06

[1.5]

CL 1.97 [50]

1.85 [47] CL 1.81 [46]

0.4 [10.2] 0.0

1.95 [49.5] Weight: lb. (g) 0.56 (253)

CL 0.44 [11.2] 0.0

Ball Swivel Option

0.0

2.25 [57.2]

0.36 [9.1] 0.0

PB 0.0 2

0.83 [21.1]

0.06

0.0

0.76 [19.3]

1.45 [36.8] 4

0.06

[1.5]

Weight: lb. (g) 0.61 (276)

[1.5]

CODE 1 2 3

ÂŠ2012 EDCO USA. www.edcousa.net

PORT CONNECTIONS FUNCTION Standard (NPT)

Vacuum Source Blow Off - Pilot Suction Cup Port

1/4 NPTF 1/4 NPTF T-Slot

16:19

-G (BSPP)

G1/4 BSPP G1/4 BSPP T-Slot

EMAT SURFACE MOUNT T-SLOT RECEIVER WITH VACUUM CONNECTION & BLOW OFF

HOW TO ORDER

PORTS VBTS

(BLANK) = NPTF G = BSPP

VL38F

0.0

VLP

1.84 [46.7] 2.22 [55.9]

0.0

2.25 [57.2]

0.34 [8.6] 4 Places

0.06

[1.5]

3.15 [80] [1.5] 3

0.06

0.25 [6.4]

2.83 [71.9]

2.26 [57.4]

1.43 [36.3] 0.81 [20.6]

2 1.84 [46.7]

0.0

0.31 [7.9]

0.76 [19.3]

1.87 [47.5]

0.33 [8.4] 0.0

0.95 [24.1] 0.0

CODE 1 2 3

[1.5]

PORT CONNECTIONS FUNCTION Standard (NPT)

Vacuum Source Blow Off - Pilot Suction Cup Port

[1.5]

0.06

1.75 [44.5]

1.87 [47.5]

Weight: lb. (g) 0.7 (319)

1/4 NPTF 1/4 NPTF T-Slot

16:20

-G (BSPP)

G1/4 BSPP G1/4 BSPP T-Slot

ÂŠ2012 EDCO USA. www.edcousa.net

EMAT T-SLOT RECEIVER WITH INTEGRAL PUMP & BLOW OFF Provides a bayonet-style quick-change for suction cups equipped with o-ring sealed T-slot adaptors. High quality Teflon impregnated nickel plating reduces friction during insertion and the simplified latch features a larger finger tab for comfortable operation. Includes a coaxial vacuum pump and a blow-off sequence valve.

Apple Core Option

HOW TO ORDER PB

VENTURI SIZE 10L 10L 08L 10 09 07

OPTIONS T

PORTS

A = Apple Core B = Ball Swivel

(BLANK) = NPTF G = BSPP

VLP

CL 2.35 [59.7]

1.45 [36.8] 1.07 [27.2]

4 0.06

0.0

0.36 [9.1] 0.0

CL 0.44 [11.2] 0.0

0.36 [9.1] 0.0

CL 1.97 [50]

1.49 [37.8]

1.95 [49.5] 1.55 [39.4]

Weight: lb. (g) 0.61 (276)

0.0 0.45 [11.4]

1.95 [49.5]

0.0

Ball Swivel Option

1.85 [47] 2.25 [57.2]

Weight: lb. (g) 0.56 (253)

CL 0.44 [11.2]

0.0 0.4 [10.2]

[1.5]

4 0.06

0.83 [21.1]

[1.5]

CODE 1 2 3 4

ÂŠ2012 EDCO USA. www.edcousa.net

PORT CONNECTIONS

FUNCTION Air Supply- Main Blow Off - Pilot Vacuum- Main Exhaust

16:21

Standard (NPT) 1/4 NPTF 1/4 NPTF T-Slot G1/4 BSPP

-G (BSPP) G1/4 BSPP G1/4 BSPP T-Slot G1/4 BSPP

EMAT SURFACE MOUNT T-SLOT RECEIVER WITH INTEGRAL PUMP & BLOW OFF

HOW TO ORDER

VENTURI SIZE 10L

PORTS TS

10L 08L 10 09 07

(BLANK) = NPTF G = BSPP

0.0

VLP

0.34 [8.6] 4 Places

0.0

2.25 [57.2]

1.84 [46.7] 2.2 [55.9]

0.06

3.15 [80] [1.5]

2.83 [71.9] 3

1.43 [36.3]

0.81 [20.6]

0.33 [8.4] 0.0

0.25 [6.4]

0.0

0.31 [7.9]

0.0 0.65 [16.5]

0.76 [19.3]

1.87 [47.5]

0.0

1.84 [46.7] 0.95 [24.1] 0.0

CODE 1 2 3 4

0.0

[1.5]

PORT CONNECTIONS

FUNCTION Air Supply- Main Blow Off - Pilot Vacuum- Main Exhaust

16:22

0.06

1.75 [44.5]

1.87 [47.5]

Weight: lb. (g) 0.7 (319)

2.26 [57.4] 1.8 [45.7]

Standard (NPT) 1/4 NPTF 1/4 NPTF T-Slot G1/4 BSPP

-G (BSPP) G1/4 BSPP G1/4 BSPP T-Slot G1/4 BSPP

ÂŠ2012 EDCO USA. www.edcousa.net

EMAT T-SLOT RECEIVER WITH VacLoc & APPLE CORE OR BALL SWIVEL MOUNT Provides a bayonet-style quick-change for suction cups equipped with o-ring sealed T-slot adaptors. High quality Teflon impregnated nickel plating reduces friction during insertion and the simplified latch features a larger finger tab for comfortable operation.

HOW TO ORDER OPTIONS

VACLOC is a combination modular vacuum check valve and a sequence blow valve incorporated in a perfectly aligned, one-piece cartridge body featuring electrolessnickel plated valve seats for long life. An internal orfice provides balanced blow-off air flow so that several VACLOC’s can be supplied and controlled by one solenoid valve.

VLT

PORTS

A = Apple Core B = Ball Swivel

(BLANK) = NPTF G = BSPP

CL 2.35 [59.7]

Apple Core Option

2 1.07 [27.2]

Weight: lb. (g) 0.56 (253)

CL 1.97 [50]

1.85 [47] CL 1.81 [46]

0.4 [10.2] 0.0

0.0

1.95 [49.5]

0.36 [9.1] 0.0

0.0

0.83 [21.1] 1.45 [36.8] 0.06

[1.5]

3A 3

CODE 1 2 3

[1.5]

PORT CONNECTIONS FUNCTION Standard (NPT)

Vacuum Blow Off - Pilot Cup

0.06

0.0

0.76 [19.3]

Weight: lb. (g) 0.61 (276)

1/4 NPTF 1/4 NPTF T-Slot

VL38F

0.0

VLP

2.25 [57.2]

Ball Swivel Option

CL 0.44 [11.2] 0.0

-G (BSPP)

G1/4 BSPP G1/4 BSPP T-Slot

16:23

EMAT SURFACE MOUNT T-SLOT RECEIVER WITH VacLoc Provides a bayonet-style quick-change for suction cups equipped with o-ring sealed T-slot adaptors. High quality Teflon impregnated nickel plating reduces friction during insertion and the simplified latch features a larger finger tab for comfortable operation.

HOW TO ORDER PORTS

VLTS

(BLANK) = NPTF G = BSPP

0.0

2.25 [57.2]

1.84 [46.7] 2.2 [55.9]

0.34 [8.6] 4 Places

0.25 [6.4]

3.15 [80]

2.83 [71.9]

2.26 [57.4] 1.43 [36.3]

0.0

0.31 [7.9]

0.81 [20.6]

1.84 [46.7] 4

0.0

0.06 [1.5]

16:24

[1.5]

0.0

0.06

1.75 [44.5]

0.95 [24.1]

1.87 [47.5]

Weight: lb. (g) 0.7 (319)

0.0 0.76 [19.3]

1.87 [47.5]

VLP

VL38F

0.33 [8.4]

CODE 1 2 3

PORT CONNECTIONS FUNCTION Standard (NPT)

Vacuum Blow Off - Pilot Cup

1/4 NPTF 1/4 NPTF T-Slot

-G (BSPP)

G1/4 BSPP G1/4 BSPP T-Slot

EMAT T-SLOT RECEIVER WITH VacLoc & INTEGRAL PUMP Provides a bayonet-style quick-change for suction cups equipped with o-ring sealed T-slot adaptors. High quality Teflon impregnated nickel plating reduces friction during insertion and the simplified latch features a larger finger tab for comfortable operation.

HOW TO ORDER VENTURI SIZE 10L

VLP

10L 08L 10 09 07

VLP includes all the VACLOC features plus a coaxial ejector vacuum pump cartridge that is integrated into a compact single-piece body. Response time is greatly improved by minimizing flow paths and system volume. Reliability is improved by eliminating external plumbing and potential leak points.

Apple Core Option

CL 2.35 [59.7] CL 1.97 [50] 1.45 [36.8] 1.45 [36.8] 1.07 1.07 [27.2] [27.2]

OPTIONS T

PORTS

A = Apple Core B = Ball Swivel

(BLANK) = NPTF G = BSPP

Weight: lb. (g) 0.63 (286)

1.95 [49.5] 1.55 1.55[39.4] [39.4]

0.36[9.14] [9.1] 0.36

CLC0.44 [11.2] L 0.44 [11.2] 0.0 0.0 1.49 [37.8] 1.49 [37.8] 1.49 [37.8]

0.0 0.0

0.0 0.0 0.45 [11.4] 0.45 [11.4]

VLP

0.36 [9.1] 0.36 0.0 0.36 0.0 0.0 0.83 0.83 0.83

CODE 1 2 3 4

ÂŠ2012 EDCO USA. www.edcousa.net

1.95 1.95 [49.5] [49.5]

0.00.0 0.0 CL 0.44 CL 0.44 [11.2] [11.2]

Ball Swivel Option

1.85 [47] [47] 1.85 2.25 [57.2] [57.2] 2.25

Weight: lb. (g) 0.58 (262)

CL 0.44 [11.2]

0.0 0.0 0.4 [10.2] [10.2] 0.4

0.0 0.0

[9.14] [9.1]

16:25

0.06 [1.5]

[21.1] [21.1] [21.1]

PORT CONNECTIONS

FUNCTION Air Supply- Main Blow Off - Pilot Vacuum- Main Exhaust

Standard (NPT) 1/4 NPTF 1/4 NPTF T-Slot G1/4 BSPP

3 -G (BSPP) G1/4 BSPP G1/4 BSPP T-Slot G1/4 BSPP

EMAT SURFACE MOUNT T-SLOT RECEIVER WITH VacLoc & INTEGRAL PUMP Provides a bayonet-style quick-change for suction cups equipped with o-ring sealed T-slot adaptors. High quality Teflon impregnated nickel plating reduces friction during insertion and the simplified latch features a larger finger tab for comfortable operation.

HOW TO ORDER VENTURI SIZE 10L

VLP

PORTS TS

10L 08L 10 09 07

(BLANK) = NPTF G = BSPP

0.0

1.84 [46.7]

0.0

2.25 [57.2]

2.2 [55.9]

0.34 [8.6] 4 Places

3.15 [80]

2.83 [71.9]

2.26 [57.4] 1.8 [45.7]

1.43 [36.3]

0.81 [20.6] 0.33 [8.4] 0.0 0.25 [6.4] 0.0

0.65 [16.5]

0.76 [19.3] 0.31 [7.9] 0.0

1.87 [47.5]

Weight: lb. (g) 0.7 (319)

0.0

VLP

1.84 [46.7] 0.95 [24.1]

4 0.06

0.0

[1.5]

1.87 [47.5] 1.75 [44.5]

3 CODE 1 2 3 4

16:26

PORT CONNECTIONS

FUNCTION Air Supply- Main Blow Off - Pilot Vacuum- Main Exhaust

Standard (NPT) 1/4 NPTF 1/4 NPTF T-Slot G1/4 BSPP

-G (BSPP) G1/4 BSPP G1/4 BSPP T-Slot G1/4 BSPP

ÂŠ2012 EDCO USA. www.edcousa.net

EMAT T-SLOT RECEIVER WITH VacLoc, INTEGRAL PUMP, AND ENERGY SAVER Provides a bayonet-style quick-change for suction cups equipped with o-ring sealed T-slot adaptors. High quality Teflon impregnated nickel plating reduces friction during insertion and the simplified latch features a larger finger tab for comfortable operation.

HOW TO ORDER VENTURI SIZE 10L

VLP

CL 2.35 [59.7]

10L 08L 10 09 07

1.45 [36.8] 1.3 [33]

OPTIONS TES

PORTS

A = Apple Core B = Ball Swivel

(BLANK) = NPTF G = BSPP

1.07 [21.2]

1.95 [49.5]

Apple Core Option

1.45 [36.8] CL 1.97 [50]

0.0 0.45 [11.4]

0.4 [10.2] 0.0

1.85 [47] CL 1.81 [46]

0.0

1.55 [39.4]

0.36 [9.1]

Weight: lb. (g) 0.7 (319)

CL 0.44 [11.2] 0.0 0.0

2.25 [57.2]

3.2 [81.3]

0.0

Ball Swivel Option

VLP-ES

0.36 [9.1]

0.0

Set Point Adjustment CODE 1 2 3 4

ÂŠ2012 EDCO USA. www.edcousa.net

0.06 [1.5]

PORT CONNECTIONS

FUNCTION Air Supply- Main Blow Off - Pilot Vacuum- Main Exhaust

Weight: lb. (g) 0.75 (342)

0.0

0.76 [19.3]

0.83 [21.1]

Standard (NPT) 1/4 NPTF 1/4 NPTF T-Slot G1/4 BSPP

16:27

-G (BSPP) G1/4 BSPP G1/4 BSPP T-Slot G1/4 BSPP

EMAT SURFACE MOUNT T-SLOT RECEIVER WITH

VacLoc, INTEGRAL PUMP, & ENERGY SAVER Provides a bayonet-style quick-change for suction cups equipped with o-ring sealed T-slot adaptors. High quality Teflon impregnated nickel plating reduces friction during insertion and the simplified latch features a larger finger tab for comfortable operation.

HOW TO ORDER

0.0

1.84 [46.7]

VENTURI SIZE 10L

VLP

0.0

2.25 [57.2]

0.34 [8.6] 4 Places

(BLANK) = NPTF G = BSPP

3.15 [80]

2.83 [71.9]

TSES

10L 08L 10 09 07

2.2 [55.9]

Set Point Adjustment

PORTS

2.26 [57.4] 1.43 [36.3] 0.81 [20.6]

0.33 [8.4]

0.0 0.0

0.25 [6.4]

0.65 [16.5]

0.0

0.31 [7.9]

0.76 [19.3]

1.87 [47.5]

3.2 [81.3]

0.0

VLP-ES 2

1.84 [46.7] 0.95 [24.1] 1

4 0.06

0.0

1.75 [44.5]

1.87 [47.5]

Weight: lb. (g) 0.79 (357)

0.0

[1.5]

3 CODE 1 2 3 4

PORT CONNECTIONS

FUNCTION Air Supply- Main Blow Off - Pilot Vacuum- Main Exhaust

16:28

Standard (NPT) 1/4 NPTF 1/4 NPTF T-Slot G1/4 BSPP

-G (BSPP) G1/4 BSPP G1/4 BSPP T-Slot G1/4 BSPP

ÂŠ2012 EDCO USA. www.edcousa.net

EMAT PUMP PERFORMANCE

SCFM

1.5

Vacuum Flowrate vs. Vacuum Level at 60 psi (4 bar) air supply

1.0

10L

SCFM

1.5

Vacuum Flowrate vs. Vacuum Level at 60 psi (4 bar) air supply

08L

0.5 1.0 0

10L

08L 9

0.5

SCFM 0 1.5 0

10L

1.0

SCFM

08L

1.5

10L

0.5

SCFM 0 1.0 0

08L

1.0

0.5

21 Vacuum 24 Level 27 15Vacuum 18 Flowrate vs.

at 72 psi (5 bar) air supply

inHg

07 05

10 0 www.edcousa.net ÂŠ2012 EDCO USA.

SCFM

Vacuum Flowrate vs. Vacuum Level inHg at 72 psi (5 bar) air supply

0.5

inHg

Vacuum Flowrate vs. Vacuum Level at 72 psi (5 bar) air supply

0.5 1.0

09 3

16:29 12

Vacuum Flowrate vs. Vacuum Level at 72 psi (5 bar) air supply

inHg

EMAT 0 PUMP PERFORMANCE 0

SCFM

1.0

inHg

Vacuum Flowrate vs. Vacuum Level at 72 psi (5 bar) air supply

10 09

0.5

07 05

inHg

VACUUM FLOW IN SCFM

MODEL ER05 ER07 ER09 ER10 ER08L ER10L ER08L ER10L

AIR SUPPLY PSI

AIR CONS. SCFM

MAX VACUUM inHg

3 inHg

6 inHg

60 60

1.0 1.65

20.4 21.6

0.91 1.31

0.79 1.17

72 72 72 72 72 72

0.4 0.8 1.4 1.8 1.2 1.9

26.7 26.7 25.5 28 23.6 23.6

SCFM AT VACUUM LEVEL 0.25 0.34 0.54 0.70 0.88 1.34

0.22 0.33 0.47 0.57 0.76 1.22

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 0.20 0.31 0.40 0.46 0.58 1.03

0.59 1.01

SCFM x 28.32 = Nl/min.

0.15 0.25 0.36 0.35 0.44 0.89

0.42 0.79

0.12 0.21 0.32 0.33 0.33 0.70

0.35 0.60

0.07 0.14 0.24 0.27 0.26 0.51

0.19 0.28

0.03 0.05 0.15 0.21 0.13 0.29

0.01 0.02 0.02 0.12

0.04

EVACUATION TIME IN sec/100 in.3

MODEL ER05 ER07 ER09 ER10 ER08L ER10L

ER08L ER10L

AIR SUPPLY PSI

AIR CONS. SCFM

MAX VACUUM inHg

3 inHg

6 inHg

60 60

1.0 1.65

20.4 21.6

0.28 0.2

0.68 0.46

72 72 72 72 72 72

0.4 0.8 1.4 1.8 1.2 1.9

26.7 26.7 25.5 28 23.6 23.6

SECONDS TO VACUUM LEVEL 1 0.8 0.45 0.36 0.28 0.2

2.50 1.80 1.10 2.88 0.69 0.46

9 inHg 12 inHg 15 inHg 18 inHg 21 inHg 24 inHg 4.5 3.1 2 1.66 1.28 0.83

1.26 0.82

sec/100 in.3 x 0.61 = sec/Liter

16:30

7.50 5.10 3.4 2.8 2.20 1.38 2.1 1.4

12.5 8.1 5.40 4.6 3.7 2.2 3.6 2.3

20 13.1 8.7 7.50 6.10 3.6 6.1 3.8

35 22.8 14.8 12.7 10.5 6.1

11 6.8

EMAT LEVEL COMPENSATORS

A level compensator is a spring-loaded shaft that can be adjusted to compensate for differences in height between work-piece features. The spring action also provides a soft-touch feature to eliminate shocks and make exact pick positions less critical.

When properly installed, all level compensators will be fully extended when lifting and supporting the workpiece. If a level compensator is not fully extended, it is not supporting any of the workload so the other suction cups will be supporting a greater load than expected. The 30 mm diameter sleeve body provides a long adjustment length for this purpose.

HOW TO ORDER STROKE LC

25 = 25mm 50 = 50mm

THREAD SIZE 12M

38M = 3/8 12M = 1/2

THREAD -

(BLANK) = NPT G = BSPP

A 0.22 [5.6]

1.18 [30]

1.05 [26.7]

1 0.12 [3.0]

0.34 [8.6]

O-ring retainer. Prevents level compensator from slipping through the mount. A LENGTH in. (mm)

PART NUMBER LC2538M LC5038M

5.13 (130) 7.88 (200)

2 PORT CONNECTIONS FUNCTION Standard

CODE

-G

1 Vacuum Supply- Main 1/4 NPTF G1/4 BSPP 1A Vacuum Supply- Alternate G1/8 NPSF G1/8 NPSF 2 Cup 3/8 NPTF G3/8 BSPP NPT ports are Standard, add suffix "-G" for optional BSPP ports.

B SLEEVE HEIGHT in. (mm) 2.45 (62.2) 4.2 (107)

C STROKE in. (mm) 1.0 (25) 2.0 (50)

D COUPLER in. (mm) 0.5 (12.7) 0.5 (12.7)

WEIGHT lb. (g)

0.42 (189) 0.6 (274)

A 0.22 [5.6]

1.18 [30]

1.05 [26.7]

0.12 [3.0]

0.34 [8.6]

O-ring retainer. Prevents level compensator from slipping through the mount. PART NUMBER LC2512M LC5012M ÂŠ2012 EDCO USA. www.edcousa.net

A LENGTH in. (mm)

5.13 (130) 7.88 (200)

B SLEEVE HEIGHT in. (mm) 2.45 (62.2) 4.2 (107)

16:31

CODE

PORT CONNECTIONS FUNCTION Standard

2 -G

1 Vacuum Supply- Main 1/4 NPTF G1/4 BSPP 1A Vacuum Supply- Alternate G1/8 NPSF G1/8 NPSF 2 Cup 1/2 NPTF G1/2 BSPP NPT ports are Standard, add suffix "-G" for optional BSPP ports.

C STROKE in. (mm) 1.0 (25) 2.0 (50)

D COUPLER in. (mm) 0.5 (12.7) 0.5 (12.7)

WEIGHT lb. (g)

0.42 (189) 0.6 (274)

EMAT LEVEL COMPENSATORS: APPLE CORE MOUNT HOW TO ORDER STROKE

(BLANK) = NPT G = BSPP

0.0

1.27 [32.3]

CL 2.52 [64]

38M = 3/8 12M = 1/2

1.18 [30] For Level Compensator 1.25 [31.8] 0.95 [24.1] 0.0 0.48 [12.2]

3.0 [76.2]

25 = 25mm 50 = 50mm

THREAD

0.0 LC5012MA

LC5038MA

LC2512MA

LC2538MA

Weight: lb. (g) 0.76 (343)

THREAD SIZE 12M

Weight: lb. (g) 0.94 (428)

16:32

Weight: lb. (g) 0.94 (428)

EMAT LEVEL COMPENSATORS: BALL SWIVEL MOUNT HOW TO ORDER STROKE 25

25 = 25mm 50 = 50mm

THREAD B

38M = 3/8 12M = 1/2

(BLANK) = NPT G = BSPP

0.0

1.27 [32.3]

CL 2.52 [64]

THREAD SIZE 12M

1.63 [41.4]

1.18 [30] For Level Compensator

0.95 [24.1] 0.0 0.0

3.0 [76.2]

0.48 [12.2]

LC5012MB

LC5038MB LC2538MB

Weight: lb. (g) 0.81 (366)

LC2512MB

Weight: lb. (g) 0.99 (451)

16:33

Weight: lb. (g) 0.99 (451)

EMAT LEVEL COMPENSATORS: EXTRUSION MOUNT HOW TO ORDER STROKE 25 25 = 25mm 50 = 50mm

THREAD -

(BLANK) = NPT G = BSPP

Two M8x50 screws and two M8 t-nuts included. Extrusion not included. 1.18 [30] For Level Compensator 1.7 [43.2] 0.82 [20.8]

1.24 [31.5]

0.0

0.95 [24.1] 0.48 [12.2] 2.13 [54.1] 2.48 [63]

0.0 0.0 0.36 [9.1] LC5012ME

LC5038ME

LC2512ME

LC2538ME

Weight: lb. (g) 0.77 (349)

THREAD SIZE 12M E 38M = 3/8 12M = 1/2

Weight: lb. (g) 0.96 (435)

16:34

Weight: lb. (g) 0.96 (435)

EMAT LEVEL COMPENSATORS: 1.0in. SLIDE ON MOUNT HOW TO ORDER STROKE LC

25 = 25mm 50 = 50mm

THREAD SIZE 12M

38M = 3/8 12M = 1/2

THREAD S10

(BLANK) = NPT G = BSPP

1.18 [30] For Level Compensator

1.0 [25.4]

1.45 [36.8] 0.73 [18.5] 0.0

1.0 [25.4] 1.45 [36.8] 0.73 [18.5]

0.88 [22.4] 4.18 [106]

2.92 [74.2]

2.09 [53.1]

1.43 [36.3]

0.0

LC5012MS10

LC5038MS10 LC2538MS10

Weight: lb. (g) 0.82 (371)

LC2512MS10

Weight: lb. (g) 1.0 (456)

16:35

Weight: lb. (g) 1.0 (456)

EMAT LEVEL COMPENSATOR MOUNTED: LOW PROFILE VACUUM CONNECTION WITH BLOW OFF HOW TO ORDER STROKE 25

25 = 25mm 50 = 50mm

38M = 3/8 12M = 1/2

MOUNT TYPE A

THREAD

A = Apple Core B = Ball Swivel E = Extrusion Mount S10 = 1.0in Slide On

(BLANK) = NPT G = BSPP

EXAMPLES

LVBC2538MB

LVBC2512MA LVBC5038MS10

LVBC5012ME

LVBC

THREAD SIZE 12M

LVBC2538ME

LVBC5012MB

LVBC2512MS10

16:36

LVBC5038MA

EMAT LEVEL COMPENSATOR MOUNTED: LOW PROFILE VACUUM PUMP WITH BLOW OFF HOW TO ORDER LPB

VENTURI SIZE 10L C 10L 08L 10 09 07

STROKE 25

25 = 25mm 50 = 50mm

THREAD SIZE 12M

38M = 3/8 12M = 1/2

MOUNT TYPE A

THREAD

A = Apple Core B = Ball Swivel E = Extrusion Mount S10 = 1.0in Slide On

(BLANK) = NPT G = BSPP

EXAMPLES

LPB07C2538MA

LPB10C2512ME

LPB10LC5038MB

LPB10LC5012MS10

16 LPB08LC2538MS10

LPB09C5012MA

16:37

LPB08LC2512MB

LPB08LC5038ME

EMAT LEVEL COMPENSATOR MOUNTED:

VacLoc

HOW TO ORDER STROKE 25

25 = 25mm 50 = 50mm

38M = 3/8 12M = 1/2

MOUNT TYPE A

THREAD

A = Apple Core B = Ball Swivel E = Extrusion Mount S10 = 1.0in Slide On

(BLANK) = NPT G = BSPP

EXAMPLES

VLC2538MS10

VLC2538MB

VLC5038ME

VLC5012MB

VLC

THREAD SIZE 12M

VLC5012MS10

VLC5012MA

VLC2538MA

16:38

VLC2512ME

EMAT LEVEL COMPENSATOR MOUNTED: VacLoc WITH CROSS PORT HOW TO ORDER STROKE VLCPC

25 = 25mm 50 = 50mm

THREAD SIZE 12M

38M = 3/8 12M = 1/2

MOUNT TYPE A

THREAD

A = Apple Core B = Ball Swivel E = Extrusion Mount S10 = 1.0in Slide On

(BLANK) = NPT G = BSPP

EXAMPLES

VLCPC2512MA

VLCPC2538ME

VLCPC2512MS10 VLCPC5038MA

16 VLCPC5012MB

VLCPC5012ME

16:39

VLCPC2538MB

VLCPC5038MS10

EMAT LEVEL COMPENSATOR MOUNTED: VacLoc WITH INTEGRAL PUMP HOW TO ORDER

10L 08L 10 09 07

STROKE 25

25 = 25mm 50 = 50mm

THREAD SIZE 12M

38M = 3/8 12M = 1/2

MOUNT TYPE A

THREAD

A = Apple Core B = Ball Swivel E = Extrusion Mount S10 = 1.0in Slide On

(BLANK) = NPT G = BSPP

EXAMPLES

VLP10LC2512ME

VLP09C2512MA VLP10LC5038MS10

VLP08LC5012MB

VLP

VENTURI SIZE 10L C

VLP10C5038MA

VLP08LC2512MS10

VLP07C5012ME

16:40

VLP08LC2538MB

EMAT LEVEL COMPENSATOR MOUNTED: VacLoc WITH INTEGRAL PUMP & ENERGY SAVER OPTION HOW TO ORDER VLP

VENTURI SIZE 10L ESC 10L 08L 10 09 07

STROKE 25

25 = 25mm 50 = 50mm

THREAD SIZE 12M

38M = 3/8 12M = 1/2

MOUNT TYPE A

THREAD

A = Apple Core B = Ball Swivel E = Extrusion Mount S10 = 1.0in Slide On

(BLANK) = NPT G = BSPP

EXAMPLES

VLP10LESC2538MB

VLP09ESC2512MA

VLP08LESC5038MA

VLP10ESC5012MS10

16 VLP08LESC5038MS10

VLP07ESC2512ME

16:41

VLP10LESC5012MB

VLP07ESC2538ME

EMAT CLAMP-ON ARM WITH APPLE CORE PIN RECEIVER HOW TO ORDER C10X

LENGTH 4 1 = 1 in. 2 = 2 in. 4 = 4 in. 6 = 6 in.

1.0 [25.4]

Apple Core Mount

2.95 [74.9] 1.1 [27.9]

0.42 [10.7]

1.0 [25.4]

0 .58 [14.7] 0.88 [22.4]

0.63 [16]

1.77 [45]

A: in. (mm) B: in. (mm) Weight: lb. (g)

C10X1A 2.35 (59.7) 3.84 (97.5) 0.74 (336)

C10X2A 3.35 (85.1) 4.84 (123) 0.82 (370)

C10X4A 5.35 (136) 6.84 (174) 1.02 (463)

C10X6A 7.35 (187) 8.84 (225) 1.22 (555)

HOW TO ORDER LENGTH 4 1 = 1 in. 2 = 2 in. 4 = 4 in. 6 = 6 in.

3.53 [89.7]

Apple Core Mount

1.5 [38.1]

1.4 [35.6] 1.0 [25.4]

0.29 [7.4]

A: in. (mm) B: in. (mm) Weight: lb. (g)

0.58 [14.7] 1.0 [25.4]

0.63 [16] B

C15X1A 2.35 (59.7) 3.97 (101) 0.78 (354)

C15X2A 3.35 (85.1) 4.97 (126) 0.85 (387)

16:42

C15X4A 5.35 (136) 6.97 (177) 1.06 (480)

C15X

1.77 [45]

EMAT CLAMP-ON ARM WITH BALL SWIVEL RECEIVER HOW TO ORDER C10X

LENGTH 4 1 = 1 in. 2 = 2 in. 4 = 4 in. 6 = 6 in.

1.0 [25.4]

2.9 [73.7]

Ball Swivel Mount

3.05 [77.5]

1.1 [27.9] 1.0 [25.4]

0.42 [10.7]

A: in. (mm) B: in. (mm) Weight: lb. (g)

1.17 [29.7] 0.88 [22.4]

0.88 [22.4] B

C10X1B 2.35 (59.7) 4.09 (104) 1.03 (469)

C10X2B 3.35 (85.1) 5.09 (129) 1.11 (503)

C10X4B 5.35 (136) 7.09 (180) 1.31 (595)

C10X6B 7.35 (187) 9.09 (231) 1.52 (687)

HOW TO ORDER C15X

LENGTH 4 1 = 1 in. 2 = 2 in. 4 = 4 in. 6 = 6 in.

3.53 [89.7]

Ball Swivel Mount

1.5 [38.1]

3.10 [78.7]

1.4 [35.6]

1.0 [25.4]

0.29 [7.4]

1.17 [29.7] 1.0 [25.4]

0.88 [22.4] B

C15X1B 2.35 (59.7) 4.21 (107) 1.07 (487)

C15X2B 3.35 (85.1) 5.21 (132) 1.15 (522)

16:43

C15X4B 5.35 (136) 7.21 (183) 1.35 (613)

C15X6B 7.35 (187) 9.21 (234) 1.56 (705)

EMAT SLIDE-ON ARM WITH APPLE CORE PIN RECEIVER HOW TO ORDER S10X

LENGTH 4 1 = 1 in. 2 = 2 in. 4 = 4 in. 6 = 6 in.

1.0 [25.4]

Apple Core Mount

2.37 [60.2] 1.05 [26.7] 0.54 [13.7]

1.0 [25.4]

A: in. (mm) B: in. (mm) Weight: lb. (g)

0.58 [14.7] 0.75 [19.1]

1.77 [45]

0.63 [16] B

S10X1A 2.35 (59.7) 3.73 (94.7) 0.52 (235)

S10X2A 3.35 (85.1) 4.73 (120) 0.6 (270)

S10X4A 5.35 (136) 6.73 (171) 0.8 (362)

S10X6A 7.35 (187) 8.73 (222) 1.0 (454)

HOW TO ORDER LENGTH 4 1 = 1 in. 2 = 2 in. 4 = 4 in. 6 = 6 in.

1.5 [38.1]

Apple Core Mount

3.07 [78]

1.0 [25.4]

1.5 [38.1] 0.29 [7.4]

0.58 [14.7] 1.0 [25.4]

S15X

1.77 [45]

0.63 [16] B

A: in. (mm) B: in. (mm) Weight: lb. (g)

S15X1A 2.35 (59.7) 3.98 (101) 0.62 (281)

S15X2A 3.35 (85.1) 4.98 (126) 0.7 (317)

16:44

S15X4A 5.35 (136) 6.98 (177) 0.9 (408)

EMAT SLIDE-ON ARM WITH BALL SWIVEL RECEIVER HOW TO ORDER S10X

LENGTH 4 1 = 1 in. 2 = 2 in. 4 = 4 in. 6 = 6 in.

1.0 [25.4]

Ball Swivel Mount

3.05 [77.5]

2.32 [58.9] 1.05 [26.7] 1.0 [25.4]

0.54 [13.7]

1.17 [29.7] 0.75 [19.1]

0.88 [22.4] B

A: in. (mm) B: in. (mm) Weight: lb. (g)

S10X1B 2.35 (59.7) 3.97 (101) 0.81 (368)

S10X2B 3.35 (85.1) 4.97 (126) 0.89 (403)

S10X4B 5.35 (136) 6.97 (177) 1.09 (495)

S10X6B 7.35 (187) 8.97 (228) 1.29 (587)

HOW TO ORDER S15X

LENGTH 4 1 = 1 in. 2 = 2 in. 4 = 4 in. 6 = 6 in.

1.5 [38.1]

Ball Swivel Mount

3.02 [76.7]

3.05 [77.5]

1.5 [38.1] 0.29 [7.4]

1.0 [25.4]

1.17 [29.7] 1.0 [25.4]

0.88 [22.4] B

S15X1B 2.35 (59.7) 4.22 (107) 0.84 (379)

S15X2B 3.35 (85.1) 5.22 (133) 0.91 (414)

16:45

S15X4B 5.35 (136) 7.22 (183) 1.12 (506)

S15X6B 7.35 (187) 9.22 (234) 1.32 (599)

EMAT CLAMP BLOCKS HOW TO ORDER CB1010

1.0 [25.4] 0.75 [19.1]

3.8 [96.5]

0.0

2.45 [62.2]

0.0

1.0 [25.4]

Tubing not included.

1.5 [38.1]

0.75 [19.1]

3.8 [96.5]

1.35 [34.3]

0.0 0.0

Weight: lb. (g) 0.64 (291)

HOW TO ORDER CB1015

1.5 [38.1]

1.5 [36.8]

1.0 [25.4]

4.3 [109]

Tubing not included.

1.0 [25.4] 2.0 [50.8]

1.0 [25.4]

0.0

2.71 [68.8]

0.0

4.3 [109]

1.35 [34.3]

Weight: lb. (g) 1.12 (508)

0.0

16:46

2.0 [50.8]

EMAT EXTRUSION MOUNT CLAMP BLOCK

Weight: lb. (g) 0.54 (246)

HOW TO ORDER E10

1.5 [38.1] 0.75 [19.1] 0.0 0.0

1.35 [34.3]

1.0 [25.4]

1.5 [38.1] 0.75 [19.1]

E10 Extrusion and tubing not included.

0.35 [8.9] 0.0

2.7 [68.6] 2.35 [59.7]

0.0

Two M8x45 screws and two M8 t-nuts included.

3RD AXIS LEVEL COMPENSATOR MOUNT HOW TO ORDER M3A

1.0 [25.4]

0.0

1.35 [34.3]

M3A

2.02 [51.3]

3.05 [77.5]

Weight: lb. (g) 0.3 (137)

0.0 0.75 [19.1]

1.0 [25.4]

16:47

1.0 [25.4]

1.5 [38.1]

EMAT HEIGHT ADJUSTERS HOW TO ORDER LENGTH AM38F

2 = 2.75 in. (69.9 mm) 3 = 3.75 in. (95.3 mm) 45 = 5.25 in. (133 mm) 8 = 8.75 in. (222 mm)

Two JN5818 jam nuts included. 0.33 [8.4]

0.58 [14.7]

G1/8 NPSF

3/8 NPTF

5/8-18 UNC

0.75 [19.1]

B A DIMENSION

A: in. (mm) B: in. (mm) Weight: lb. (g)

-2

-3

2.75 (69.9) 2.0 (50.8) 0.14 (65.3)

3.75 (95.3) 3.0 (76.2) 0.16 (73)

LENGTH

-45

5.25 (133) 4.5 (114) 0.19 (85.3)

-8

8.75 (222) 8.0 (203) 0.25 (113)

HOW TO ORDER LENGTH -

3 = 3.86 in. (98 mm) 6 = 6.86 in. (174 mm) 8 = 8.86 in. (225 mm)

Two JN7814 jam nuts included.

0.58 [14.7]

0.67 [17]

G1/2 NPSF

3/8 NPTF

AM12F

7/8-14 UNC

0.86 [21.8]

B A DIMENSION

A: in. (mm) B: in. (mm) Weight: lb. (g)

-3

3.86 (98) 3.0 (76.2) 0.34 (156)

16:48

LENGTH -6

6.86 (174) 6.0 (152) 0.43 (193)

-8

8.86 (225) 8.0 (203) 0.48 (218)

TOOLING

SECTION 17 QUICK CHANGE SYSTEM ROBOT TOOLING & AUTOMATIC VACUUM CYLINDERS

17:1

TOOLING QUICK CHANGE SYSTEM ROBOT TOOLING QCS-100B Robot Clamp Base QCS-100T Tool Plate QCS-100TD Tool Plate QCS-100P Tool Park QCS-140B Robot Clamp Base QCS-140T Tool Plate Custom Mounting Worksheet

17:3 17:4 17:4 17:4 17:6 17:6 17:5

AUTOMATIC VACUUM CYLINDERS ACYL-16X45 AXCYL-16X45 AX2CYL-16X45

17:7 17:8 17:8

AXCYL-16X45 & AX2CYL-16X45

QCS-100

QCS-140

ACYL-16X45

17:2

QCS ROBOT TOOLING SYSTEM QUICK CHANGE SYSTEM

QCS provides a cost-effective method to increase productivity by virtually eliminating end-of-arm tool change-over time. With QCS, a robot can be re-tooled for a different part and back in service within a few minutes. Compressed air and vacuum lines are automatically connected as the tool plate mates with the clamp base on the robot arm. The clamp handle can be indexed to a convenient position in 30-degree increments.

0.61 [15.5]

SIDE

2.44 [62] 0.49 [12.4]

SIDE

0.49 [12.4]

1.41 [35.8] 0.55 [14]

0.49 [12.4] 2.57 [65.3] 6.11 [155]

M5 x 0.8 (10-32 UNF) 4 PLACES O-RING SEALS 6 PLACES G1/8 NPSF 2 PLACES

4.2

QCS-140B-

OPTIONS A A = Handle on Side "A" B = Handle on Side "B" OPTIONS A A = Handle on Side "A" B = Handle on Side "B"

ÂŠ2012 EDCO USA. www.edcousa.net

OPTIONS

3.9 Weight: lb. (g) 1.41 (638)

HOW TO ORDER QCS-100B-

[10

CUSTOM C001

Submit worksheet from page 17:5. CUSTOM C001

Submit worksheet from page 17:5.

17:3

CUSTOM

[10

0.97 [24.6]

0.35 [8.9]

ROBOT CLAMP BASE

0.2 [5.1]

QCS ROBOT TOOLING SYSTEM QCS-100B-

TOOL PLATE QCS-140B-

[87

.9]

HOW TO

0.25 [6.4]

3.7

3.4

]

[94

QCS-100BQCS-100T-

Weight: lb. (g) 0.85 (383)

QCS-140BQCS-100TD-

.9 [87

QCS-100T-

2. [62 46 .5] 3.4

OPTIONS A A = Handle on Side "A" ORDER B = Handle on Side "B"

OPTIONS OPTIONS A A = Handle on Side "A" (BLANK) = As B = Handle on Pictured Side "B" OPTIONS A OPTIONS A = Handle on Side "A" B = Handle on Side "B" (BLANK) = As Pictured

TOOL PLATE

]

.46

OPTIONS A A = Handle on Side "A" B = Handle on Side "B"

(BLANK) = As Pictured

HOW TO ORDEROPTIONS

6 2.4 .5] 2 [6

QCS-140T-

QCS-100TD-

[87

.9]

OPTIONS

(BLANK)OPTIONS = As Pictured (BLANK) = As Pictured

Weight: lb. (g) 0.77 (347) QCS-140TDQCS-140T-

OPTIONS (BLANK)OPTIONS = As Pictured (BLANK) = As Pictured

75 ] 2. 9.9 [6

(BLANK) = As Pictured HOW TO ORDER

CUSTOM C001

Submit worksheet from page 17:5. CUSTOM CUSTOM C001 C001 Submit worksheet from 17:5. from Submitpage worksheet page 17:5. CUSTOM C001 CUSTOM Submit worksheet from page 17:5. C001 Submit worksheet from page 17:5. CUSTOM C001 Submit worksheet from page 17:5. CUSTOM C001 SubmitCUSTOM worksheet from page 17:5. C001

CUSTOM C001

Submit worksheet from page 17:5.

SubmitCUSTOM worksheet from page 17:5. C001

CUSTOM C001

Submit worksheet from page 17:5.

QCS-100P 17

[103

]

4.45

6 7.

[113

]

4 3.

0.46 [11.7]

4.04 0.21 [5.3]

OPTIONS

Submit worksheet from page 17:5.

TOOL PARK QCS-140TD-

CUSTOM C001

An optional Tool Park provides convenient storage and protection for end-of-arm tools when not in service. One Tool Park per Tool Plate is required for efficient operation.

Weight: lb. (g) 0.39 (178)

17:4

QCS ROBOT TOOLING SYSTEM WORK SHEET FOR CUSTOM MOUNTING DETAILS:

A SIDE

TAP

TOOL PLATE

B SIDE

ROBOT CLAMP BASE

7THREAD8@ POSITIONS

TAP

16 THREAD 17@ POSITIONS

9 TAP

THREAD @ POSITIONS

18 TAP

THREAD @ POSITIONS

DRILL

THRU @ POSITIONS

DRILL

THRU @ POSITIONS

9 DRILL DIMENSIONS: 1 DIMENSIONS: 5

18 DRILL

THRU @ POSITIONS A 2 A

3 B B

C 6 C

7 D D

15G

HANDLE SIDE: A HANDLE SIDE: A

DIMENSIONS: 10 11 E 14

B B

17:5

THRU @ POSITIONS

QCS ROBOT TOOLING SYSTEM QUICK CHANGE SYSTEM

QCS provides a cost-effective method to increase OPTIONS CUSTOM productivity by virtually eliminating end-of-arm tool change-over QCS-100B-time. With QCS, A a robot can be - re-tooled for C001 a different part and back in service within a few minutes. A = Handle on Side "A" Submit worksheet from Compressed air and vacuum lines are automatically page 17:5. B = Handle on Side "B" connected as the tool plate mates with the clamp base on the robot arm. The clamp handle can be indexed to a OPTIONS increments. CUSTOM convenient position in 30-degree QCS-140B-

A A = Handle on Side "A" SIDE B = Handle on Side "B"

5.25 [133]

OPTIONS 0.75 [19.1] (BLANK) = As Pictured

0.75 [19.1]

QCS-100T-

QCS-100TD-

5.25 [133]

OPTIONS

8.81 [224]

(BLANK) = As Pictured

0.61 CUSTOM [15.5] C001

Submit worksheet from page 17:5.

0.75 [19.1]

1.41 [35.8]

C001

Submit worksheet from page SIDE17:5.

TOOL PLATE

CUSTOM C001

Submit worksheet from page 17:5.

4.7

HOW TO ORDER -

HOW TO ORDER

QCS-100T-

QCS-100TD-

QCS-140T-

OPTIONS OPTIONS A (BLANK) As Side Pictured A = Handle= on "A" B = Handle on Side "B"

SubmitCUSTOM worksheet from page 17:5. C001

Submit worksheet from page 17:5.

Weight: lb. (g) 1.91 (866)

(BLANK) = As Pictured

OPTIONS (BLANK) = As Pictured

G1/8 NPSF 8 PLACES

O-RING SEALS 8 PLACES

CUSTOM C001

Submit worksheet from page 17:5. 6

.93

[17

Weight: lb. (g) 2.58 (1169) -

CUSTOM CUSTOM C001 C001 Submit worksheet worksheet from from Submit page 17:5. 17:5. page

OPTIONSG1/8 NPSF 8 PLACES CUSTOM C001 (BLANK) = As Pictured Submit worksheet from page 17:5.

OPTIONS

[15

QCS-140TDQCS-140B-

0.25 [6.4]

(BLANK) = As Pictured OPTIONS QCS-100BA ROBOT CLAMP BASE A = Handle on Side "A" B = Handle on Side "B"

CUSTOM C001

0.97 [24.6] 0.35 [8.9]

QCS-140T-

OPTIONS

6.1

[11

CUSTOM 17:6 C001

Submit worksheet from

4.9

[12

ÂŠ2012 EDCO USA. www.edcousa.net

AUTOMATIC VACUUM CYLINDER ACYL Spring-retract, vacuum-extend cylinder can provide a Z-axis motion to simplify pick & place mechanisms. Thin design allows mounting cylinders as close as 20mm center-to-center. The cylinder rod remains retracted until a vacuum source is applied to either the side or rear port, then the rod extends to move the vacuum cup towards the work piece. When the vacuum cup comes in sealing contact, the rod is automatically retracted along with the work piece. 1.8 lbs (0.8 kg) retracting force is produced at 18â&#x20AC;? Hg (61 kPa). Speed of retraction can be adjusted via an integral flow control valve in the rear head. Mounting is via the T-slot groove along the rear edge or by the two mounting holes through the body. Solid work pieces can be picked up easily with a small vacuum source, but porous parts will require a greater vacuum flowrate to overcome porosity leakage. If in doubt, send work piece samples to EDCO USA for porosity testing at no charge.

MODEL: ACYL-16X45 Spring-retract automatic cylinder with 16mm bore x 45mm stroke.

CODE 1 2 3

PORT CONNECTIONS FUNCTION THREAD Vacuum Supply G1/8 NPSF Cup End G1/8 NPSF Gauge/Blow-off Port M5 x 0.8 (10-32 UNF)

0.22 [5.6] Thru Hole 2 Places

2.21 [56.1] 1.71 [43.4] 1.21 [30.7]

0.73 [18.5]

0.26 [6.6] 0.0

0.21 [5.3]

17:7

0.0 0.39 [9.9]

3.7 [94]

2.3 [58.4]

17 Speed Control

ÂŠ2012 EDCO USA. www.edcousa.net

0.0 0.6 [15.2] 1.0 [25.4]

Exhaust

0.0

1.44 [36.6]

4.52 [115]

0.32 [8.1] 0.1 [2.5] 0.0 0.33 [8.4]

1.77 [45] Stroke

0.51 [13] 0.0

0.78 [19.8]

Suction cup and fitting sold separately.

AUTOMATIC VACUUM CYLINDER WITH AX PUMP AXCYL is similar to ACYL except an AX pump is integrated into one side of the cylinder to provide a vacuum source for powering the cylinder. A compressed air source is applied to the rear head to operate the AX pump and from that point the operation and features are as described for the ACYL version. For high porosity applications use an AX2CYL that includes two pump modules for higher vacuum flow.

MODEL: AXCYL-16X45 Spring-retract automatic cylinder with 16mm bore x 45mm stroke and AXL1N pump Air Supply: 72 psi (5 bar) Air Consumption: 2.0 SCFM (56.6 Nl/m) MODEL: AX2CYL-16X45 Spring-retract automatic cylinder with 16mm bore x 45mm stroke and AXL2N pump Air Supply: 72 psi (5 bar) Air Consumption: 4.0 SCFM (113 Nl/m)

CODE 1 2 3

PORT CONNECTIONS FUNCTION THREAD

Air Supply G1/8 NPSF Cup End G1/8 NPSF Gauge/Blow-off Port M5 x 0.8 (10-32 UNF)

in. (mm)

AIR SUPPLY @ 72 psi (5 bar) SCFM (Nl/min)

2.61 (66.3) 3.01 (76.5)

2.0 (66.3) 4.0 (76.5)

MODEL AXCYL-16X45 AX2CYL-16X45

1.77 [45] Stroke

0.78 [19.8] 0.51 [13] 0.0

Suction cup and fitting sold separately.

Exhaust

1.71 [43.4] 1.21 [30.7]

0.73 [18.5]

0.26 [6.6] 0.0

0.0 0.39 [9.9]

2.3 [58.4]

3.7 [94]

0.0 0.6 [15.2] 1.0 [25.4]

0.0

1.44 [36.6]

4.52 [115]

0.32 [8.1 0.1 [2.5] 0.0 0.33 [8.4]

0.22 [5.6] Thru Hole 2 Places

Speed Control 0.21 [5.3]

17:8

ÂŠ2012 EDCO USA. www.edcousa.net

EDCO VACUUM UNIVERSITY

SECTION 18 VACUUM UNIVERSITY

18:1

EDCO VACUUM UNIVERSITY ATMOSPHERIC PRESSURE

The Earth is 7,900 miles (12,715 km) in diameter and is enveloped by a layer of gasses about 60 miles (96.6 km) thick which is called the atmosphere. This mixture of gasses is comprised of 78% nitrogen and 21% oxygen plus trace amounts of many other gasses which collectively make up the atmospheric “air” that we all breathe.

measure atmospheric pressure is a barometer and atmospheric pressure is commonly called barometric pressure so the two terms can be used interchangeably. In addition to altitude, atmospheric pressure is affected by air temperature, local weather conditions and other variables to a

POSITIVE (GAUGE) PRESSURE

VARIABLE DAY 1 The Earth’s gravitational field holds the atmosphere ATMOSPHERIC DAY 2 so that it rotates in unison with the Earth and the DAY 3 PRESSURE atmospheric pressure exerted at any altitude is simply the sum of the weight of all the air molecules in a VACUUM column above that point. As altitude increases, air PRESSURE density decreases and there will be fewer molecules SUB-ATMOSPHERIC (VARIABLE) VACUUM in the shorter column above the measurement PRESSURE point. It is easy to see why atmospheric pressure ABSOLUTE decreases with increasing altitude. At an altitude of PRESSURE 62 miles (100km) and beyond, atmospheric pressure ABSOLUTE (UNIFORM) approaches zero. Even in deep outer space there ZERO 0 are still a few gas molecules per cubic mile so a true TIME absolute zero pressure is not achieved even though lesser extent. The atmosphere is disturbed by weather systems it is very close. which can cause either “high” or “low” pressure systems by increasing or decreasing the local atmospheric layer thickness. The International Standard Atmosphere (ISA) is What we usually hear from a weather forecaster is that the defined as a mean atmospheric pressure of 29.92” barometric pressure is “falling” and bringing in a storm, or, that Hg (760mm Hg) at 59°F (15°C) in dry air at sea level. the barometric pressure is “rising” so sunny days are forecast. Other equivalent units are 14.72 psia, 1 bar and 101.3 kPa. To complicate matters, the instrument used to BAROMETER inHg mmHg 35.58 903.7 35 889 34.42 874.3 33.84 859.5 33.27 845.1 32.7 830.6 32.14 816.4 31.58 802.1 31.02 787.9 30.47 773.9 29.92 760 29.38 746.3 28.86 733 28.33 719.6 27.82 706.6 27.32 693.9 26.82 681.2 26.33 668.8 25.84 656.3 25.37 644.4 24.9 632.5 23.99 609.3 23.1 586.7 22.23 564.6 21.39 543.3 20.58 522.7 16.89 429 13.76 349.5 11.12 282.4 8.9 226.1 7.06 179.3 5.56 141.2 4.37 111.1 3.44 87.5 2.71 68.9 2.14 54.2 1.33 33.7 0.827 21 0.52 13.2 0.329 8.36

ATMOSPHERIC PRESSURE psi kPa 17.48 120.5 17.19 118.5 16.9 116.5 16.62 114.6 16.34 112.7 16.06 110.7 15.78 108.8 15.51 106.9 15.23 105 14.96 103.1 14.7 101.3 14.43 99.49 14.16 97.63 13.91 95.91 13.66 94.19 13.41 92.46 13.17 90.81 12.93 89.15 12.69 87.49 12.46 85.91 12.23 84.33 11.78 81.22 11.34 78.19 10.91 75.22 10.5 72.4 10.1 69.64 8.3 57.16 6.76 46.61 5.46 37.65 4.37 30.13 3.47 23.93 2.73 18.82 2.15 14.82 1.69 11.65 1.33 9.17 1.05 7.24 0.651 4.49 0.406 2.8 0.255 1.76 0.162 1.12

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VACUUM

Vacuum is simply a pressure that is less than the surrounding atmospheric pressure. Essentially it is a difference in pressure, or differential, that can be used to do work. Since vacuum is by definition a negative pressure, the common terminology of high-vacuum and low-vacuum can be confusing. The preferred terminology is deep-vacuum or shallow-vacuum. Both of which are relative to local atmospheric pressure. The units of measure for positive pressure and vacuum pressure are the same but a minus sign (-) or the word “vacuum” signifies a negative pressure relative to atmosphere. A vacuum gauge has a calibrated mechanism that is referenced to local atmospheric pressure so the value displayed is the amount that the measured pressure is below atmospheric pressure. This is convenient since the measured “gauge” vacuum level is the vacuum pressure differential that is available to do work and can thus be used directly for calculations of vacuum force which is directly proportional to vacuum pressure and the sealed area upon which it acts. 18

ALTITUDE FEET METERS -5,000 -1,524 -4,500 -1,372 -4,000 -1,219 -3,500 -1,067 -3,000 -914 -2,500 -762 -2,000 -610 -1,500 -457 -1,000 -305 -500 -152 0 0 500 152 1,000 305 1,500 457 2,000 610 2,500 762 3,000 914 3,500 1,067 4,000 1,219 4,500 1,372 5,000 1,524 6,000 1,829 7,000 2,134 8,000 2,438 9,000 2,743 10,000 3,048 15,000 4,572 20,000 6,096 25,000 7,620 30,000 9,144 35,000 10,668 40,000 12,192 45,000 13,716 50,000 15,240 55,000 16,764 60,000 18,288 70,000 21,336 80,000 24,384 90,000 27,432 100,000 30,480

EDCO VACUUM UNIVERSITY The relationship between atmospheric pressure, positive gauge pressure, sub-atmospheric pressure (vacuum) and absolute zero is shown in the previous drawing. An absolute measurement is always positive because it is referenced from absolute zero. A sub-atmospheric pressure line is shown where the absolute pressure is constant over a threeday period. A sine curve represents the normal variation in atmospheric pressure that could occur over the same three-day period. Vacuum pressure is measured from the atmospheric pressure curve down to the sub-atmospheric pressure line and it can be readily seen that the magnitude of available vacuum pressure is different for each of the three days. In effect, the ability to do work (pressure differential), changes in accordance with the atmospheric (barometric) pressure. This is why we recommend using a mid-range rather than a deep vacuum pressure when designing vacuum systems. On Earth, a vacuum is not self-sustaining since seals leak and most materials are minutely permeable. Over time, enough air molecules will be pulled through the material that the vacuum will be “lost” due to equalization with atmospheric pressure. To maintain a vacuum for a long time period, a vacuum pump must periodically evacuate air molecules to maintain a desired vacuum pressure. Depending on material permeability (porosity), continuous evacuation may be required to maintain a desired vacuum pressure.

VACUUM FLOW The performance of a vacuum pump is defined by its’ performance curve which is simply a plot of the vacuum flow rate that it is capable of producing at a particular vacuum pressure. As vacuum pressure increases, it becomes more difficult to remove (pump out) additional air molecules, so vacuum flow rate decreases until it becomes zero at the deepest attainable vacuum pressure. Vacuum flow rate will always be highest at atmospheric pressure (zero vacuum) where the pump is under no load. Many pump manufacturers advertise the efficiency of their pumps with this misleading number. In reality this specification is meaningless since force can’t be developed and work can’t be done unless vacuum pressure is being created.

SEALED SYSTEM

POROUS SYSTEM EXHAUST VACUUM PUMP AIR SUPPLY

VACUUM SYSTEM POROSITY FLOW FROM ATMOSPHERE

However, when the work piece is porous (permeable) or the system otherwise leaks, the vacuum pump must produce enough vacuum flow rate to overcome the leakage and still attain the necessary vacuum pressure. The pump must also have enough excess capacity to overcome possible future variations in work piece porosity – we have found corrugated board porosity variations of 4:1 among vendors supplying boxes to the same end user. System porosity flow increases directly with increased vacuum pressure while pump flow decreases with increased vacuum pressure in accordance with its’ performance characteristics. As a result, doubling the vacuum pump capacity in a porous system will double the energy usage (air consumption) but will only cause a smaller incremental increase in vacuum pressure. At deeper system vacuum pressures the diminishing-returns effect becomes more pronounced so this is another reason to design systems for proper operation at mid-vacuum pressure by simply increasing the effective area upon which the vacuum pressure acts. We offer free porosity evaluation and assistance with vacuum pump selection. EDCO USA will do the calculations for you and help you select the correct pump for your application.

EXHAUST VACUUM PUMP

Vacuum pressure determines the amount of force that can be developed to hold a work piece or to carry a load. For a sealed system with no leakage, the two main concerns are; how much vacuum pressure is needed and how quickly can the system be evacuated to the required vacuum pressure? Since the system is sealed, using a larger vacuum pump will reduce evacuation time but will not increase the system vacuum pressure since, given enough time, even a small vacuum pump will attain maximum vacuum pressure. A larger vacuum pump will consume more energy without increasing the system load capacity so it is important to not over-specify vacuum pump capacity for a sealed system.

VACUUM SYSTEM

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EDCO VACUUM UNIVERSITY A vacuum pump is a device that is capable of evacuating (removing) air molecules from a closed volume so that a less-than-atmospheric pressure condition is attained. Compressed air-powered vacuum pumps are also called vacuum generators and can be simple mono-stage pumps (venturi), or more complex high-flow multi-stage, multiejector designs. EDCO USA manufactures both types, so we can recommend the best pump for your application without bias. Vacuum pumps are designed to be capable of evacuating a specific percentage of air molecules to attain a vacuum pressure that is dependent upon the available atmospheric pressure. For example; a pump that is capable of attaining an 80% vacuum will develop 23.9” Hg (608mm Hg) when the barometric pressure is 29.9” Hg (760mm Hg), but the same pump will only develop 20.7” Hg (524mm Hg)at 4000 feet above sea level where the local barometric pressure is only 25.8” Hg (655mm Hg). Local weather conditions can also reduce vacuum pressure, as, for example, when barometric pressure drops from 29.9” Hg to 28” Hg during a storm. It is important to realize that vacuum pressure fluctuations are a normal characteristic of vacuum systems and are not necessarily caused by a vacuum pump problem. To minimize the effect of vacuum pressure variations, we recommend that systems be designed for mid-range vacuum levels of 12-18” Hg (305-457mm Hg) that are consistently attainable no matter what the weather conditions may be. Air-powered vacuum pumps are compact and lightweight so they should be mounted close to the point of vacuum usage to minimize the internal volume of vacuum hose and tubing. Vacuum is produced immediately when compressed air flows into the pump, so it is not necessary to turn the pump on long before contacting a work piece as is common with electro-mechanical pump systems.

ELECTRO-MECHANICAL VACUUM PUMPS

Premature wear will result from frequent starting and stopping of an electro-mechanical vacuum pump so they are primarily suited for systems requiring constant, or nearly constant, vacuum flow so the pump is powered continuously. Most types are also not suited for operating at maximum vacuum and zero flow conditions which causes poor lubrication and over-heating of the pumping mechanism. Electro-mechanical vacuum pumps tend to be noisy, bulky, heavy and hot so they are usually mounted some distance away from the point of vacuum use. In order to be used in a pick & place system (pick something from one location and place in another), several additional components are required such as a motor starter, vacuum relief valve, exhaust muffler, large diameter vacuum hoses and a 3-way vacuum control valve. Collectively these components, and the associated assembly labor, add substantially to the installed cost of the vacuum system and each is an additional potential failure mode when evaluating system reliability. Operating costs will also be increased because electro-mechanical pumps are high-maintenance items and must be overhauled frequently. Electro-mechanical pumps efficiently convert electrical power into vacuum flow and pressure, but, because they must run continuously, they can’t take advantage of the system duty-cycle to reduce overall energy consumption. However, for systems requiring constant large vacuum flows, they may be the best solution.

DUTY-CYCLE AND ENERGY CONSUMPTION

During a pick & place cycle, a vacuum source is turned on for the “pick” and remains on during the traverse to the place location and then turns off to “place” the work piece. Vacuum is not necessary for the traverse back to home position nor for the dwell time before the next “pick” is required. If vacuum is on for 1/4 of the full machine cycle then the duty-cycle is 25%. An air-powered vacuum pump consumes compressed air only while it is creating vacuum. In this example the average air consumption would be reduced to 25% of the cataloged pump air consumption rate whereas an electro-mechanical vacuum pump must run continuously and consumes energy 100% of the time.

EDCO offers many configurations of single-stage (monostage) vacuum pumps and pump selection is a matter of satisfying the required performance in a body style that best fits your application. EDCO USA multi-stage vacuum Classic pumps are available with five different series of ejector nozzles; M, ML, E, L, and X-series with different performance characteristics that give system designers a wide selection range instead of the one-size-fits-all approach. All five nozzle series ON/OFF CONTROL: cost the same, so let the system DUTY CYCLE = PUMP ON TIME / CYCLE TIME requirements lead you to the best solution for your application. Call FULL us if you would like help. CYCLE ON

ON OFF

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A good rule-of-thumb is to consider an air-powered vacuum pump whenever an adequate supply of compressed air is available, especially if the system has an intermittent vacuum requirement or duty-cycle.

AIR-POWERED VACUUM PUMP: VACUUM GENERATOR

OFF

TIME

EDCO VACUUM UNIVERSITY CONTROL METHODS: AIR-POWERED PUMPS ON/OFF

Air-powered pumps can be simply controlled by a single air valve. When air is supplied to the pump, vacuum is supplied to the system and when the air supply is stopped, atmospheric air is drawn into the vacuum system through the pump exhaust to dissipate vacuum and release the work piece. A 3-way valve mounted close to the pump is recommended for fast operation.

BLOW-OFF

A compressed air assist will provide a faster part release for high-speed systems. A stored-volume automatic blowoff is commonly used for small systems and consists of a volume chamber that is charged with the same air supply that operates the vacuum pump. When the 3-way air supply valve is turned off, a brief pressurized air pulse from the chamber is directed into the vacuum system so the part is quickly released. For larger systems, or those requiring a greater degree of control, an air valve can be connected to the vacuum system via a Release Check valve that prevents loss of vacuum through the blow-off air valve. The blow-off pulse duration is controlled by how long the blow air valve is left on. During the blow-off mode a flow path exists from the vacuum system to atmosphere via the pump exhaust port, so it is normal for air to escape at this point. This also means that no significant positive pressure can be developed in the vacuum system so long restrictive tubing lengths to suction cups may cause part release delays, especially when bellows style cups with higher internal volumes are used.

ENERGY SAVING

For sealed vacuum systems, a non-return vacuum check valve can be added to prevent back-flow from the pump exhaust when the pump air supply is stopped. This allows the vacuum pump to be cycled on until a desired vacuum pressure is achieved and then turned off to conserve energy (compressed air). A vacuum switch senses when vacuum pressure has decreased and cycles the pump on to restore the vacuum pressure. A separate vacuum volume chamber can be added to decrease the “leak-down” rate but proper ES system operation still entirely depends on maintaining a sealed system. If the system will handle a porous work piece, do not use an Energy Saving control.

Suction cups are made of rubber and include a flared lip to form a flexible seal against a work piece to allow the cup to be evacuated with a vacuum pump. Several cups can be connected to a central pump, or a small vacuum pump can be used for each cup. When the cup is evacuated an attraction force is developed that holds the cup to the surface of the work piece, which for a vertical cup axis is the same as “lifting” capacity. However, if the load is perpendicular to the cup axis (shear load) then the attractive force must be multiplied by the appropriate coefficient of friction to determine an allowable shear load. In either case, an additional factorof-safety must be applied for prudent design. When rapid movement occurs in automation systems, a designer must consider the combined magnitude of both lifting and shear loads when selecting components. Depending on the contours of the work piece the allowable cup diameter may be limited, so multiple cups may be required to increase the total area and achieve a desired load capacity plus a generous factor-of-safety. We do not recommend increasing the required vacuum level to make a system work. Instead, increase the number or size of cups so the total effective area is large enough for proper system design. Suction cups are relatively inexpensive so additional cups are cheap insurance against potential system failure. The vacuum force equation F = P x A (Force = Pressure times Area) is difficult to apply to rubber suction cups because cups are approximately sized according to the outer lip diameter which is misleading because it is much larger than the actual effective diameter that the vacuum pressure acts upon. A rubber cup also changes shape under load, so the effective area varies somewhat depending on the vacuum level inside the cup. Because of this, it is more expedient to use the rated force at a particular vacuum pressure from

VACUUM LEVEL High

ENERGY-SAVING CONTROL: 0

VACUUM CUP: SUCTION CUP

Suction cup is the usual industrial term for a vacuum cup. Most cups are round because that is a strong shape that resists collapse under vacuum pressure and it efficiently distributes load forces through the cup walls to the fitting. A circular shape also provides the greatest area for the amount of space it occupies. Industrial cups usually employ a metal fitting for mounting the cup and for connecting a vacuum source to allow the inner volume to be evacuated.

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Low

TIME AIR CONSUMPTION

0 VACUUM PUMP CYCLE ON

TIME OFF

EDCO VACUUM UNIVERSITY

X X X

FC-FLAT CONCAVE

F-FLAT X

X X

For economy, always use the lowest cost material unless there is a good reason not to. AMERIFLEX (50A) is an outstanding replacement for competitors blue vinyl (PVC) cups in moderate, factory temperature, applications – Excellent wear resistance and lower priced than nitrile. DURAMAX (45A) is a soft and supple non-marking (no residue) material for moderate temperature applications including glass and other high gloss surfaces. NITRILE (50A) is a general purpose material with good wear characteristics, making it well suited for most industrial room-temperature environments. SILICONE (50A) has a very wide temperature range and is suitable for both sub-freezing applications and for elevated temperatures. Silicone is inherently more supple than other rubbers so it may seal better on textured surfaces. Silicone also has the reputation for causing problems with painted or plated parts so some plants will not allow it to be used. CONDUCTIVE SILICONE (50A) provides a conductive path to dissipate static electrical charges so electronic components will not be damaged. VITON (60A) provides the highest temperature rating but is also harder so sealing on textured surfaces may be affected.

X X X X

X X

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WORK SURFACE FLAT CONCAVE - SLIGHT CONVEX COMPOUND SPHERICAL CYLINDRICAL FLEXIBLE PLASTIC FILM SHEAR LOADS

X X

X X X X

D-DEEP

BF-BELLOWS FLAT

X X X X X X X

BL-MULTI-BELLOWS

2B-DOUBLE BELLOWS

B-BELLOWS X X X X X X X

SUCTION CUP MATERIAL SELECTION

OF-OVAL FLAT

SUCTION CUP SELECTION

Total load capacity of a vacuum system can be increased in two ways. (1) Increase the required system vacuum pressure, or (2) increase the total area that the vacuum pressure acts upon by either using larger suction cups, or a greater number of suction cups, or both. As explained previously, increasing the required vacuum pressure above a comfortable mid-range vacuum level is not a good practice. Increasing the suction cup area is the favored method. Refer to the table for selection of suction cup type by work piece characteristics. These are typical guidelines and there can be exceptional cases. Every application is a little different so sometimes a trial is the only way to determine what works best.

Three points define a plane. So, for good stability use three or more cups that are spaced apart as far as possible. Start with the largest cup size that can be reliably placed on the work piece and then increase the number of cups until a suitable factor of safety is achieved. For handling boxes and other containers, apply the suction cups in corners and near the outer vertical walls. Remember, the box contents sit on the box bottom so the weight load is transferred to the box top via the side walls.

OC-OVAL CONCAVE

The force equation can be useful for vacuum “clamps” where a cavity with a seal formed around its’ perimeter is used to hold flat work pieces such as wood or stone. The area within the seal can be calculated with some degree of accuracy so the force equation F = P x A calculation is straightforward. Of course, the equation units must be consistent with each other, so vacuum pressure must be converted to an appropriate unit of measure.

RULES OF THUMB

U-UNIVERSAL

a table of suction cup specifications. For instance, EDCO tabulates rated loads at 6 and 18” Hg (152 and 457mm Hg). Loads at other vacuum pressures are directly proportional so, for example, the load at 15” Hg is simply 15/18 times the rated load for 18” Hg.

CUSTOM PRODUCTS

What you see in the catalog is not all you can get from EDCO USA. We can quickly develop custom products, or customized standard products, at reasonable cost. If you don’t see a catalog model that suits your needs, give us a call to discuss your application.

Internally guided, pilot-operated 3-way cartridge air valves for Owens-Illinois COMSOC glass machines.

Tool-mount fitting with integral mechanical vacuum valve for double-bellows cup.

Multi-stage pump designed to mount directly to customers’ plenum chamber.

High-flow ejector for heavy-duty vacuum cleaner.

Integrated high-flow ejector for testing machine.

Timing Block & Valves for Owens-Illinois, IS Glass or Fama machines.

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CUSTOM PRODUCTS

Heavy-duty level compensator with integral mechanical vacuum valve.

Injection molding EOAT for automobile A/C fan impeller.

RAIL SYSTEMS can be custom configured to suit any palletizing application, including building mixed pallet loads. Cup size, style, linear spacing and control zoning are all variable according to system design requirements. 19

EGG SORTING PUMP Includes high temperature plastic body with quickdisconnect hollow-rod cylinder mount, integral cup fitting and externally removable vacuum pump cartridge for easy cleaning.

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