End Lock Cylinder Series CBM2/ø20, ø25, ø32, ø40 Series CBA1/ø40, ø50, ø63, ø80, ø100 CL MLGC CNA CB CV/MVG Maintains the cylinder’s CXW original position even if the CXS air supply is interrupted. CXT MX

With rear end lock: CBM2B Bore size -HN Stroke Manual release non-locking style (Additional symbol: N) With front end lock: CBM2B Bore size -RN Stroke Manual release locking style (Additional symbol: L) With double end lock: CBM2B Bore size -WN Stroke With rod boot (mm) HN (MAX) Stroke range Symbol DL B2 D H2 HR B1 A Eh8 F I K MO NA P S H1 H NN AL G MM N ZZ Bore (mm) 20 25 32 40 0 0.033 0

PROFIBUS DP Compatible Fieldbus System

To the communication connector (C2) or (1) of SI unit, connect the branch cable with M12 connector from GW. To the communication connector (C1) or (0), connect the branch cable with M12 connector from Input unit. To the communication connector of Input unit, connect the branch cable with M12 connector from SI unit.

Vacuum Pad with Ejector

Note 5 Lock pin ZK2-CL1-A 5 pcs. in 1 set 6 Check valve ZK2-CV-A 10 pcs. in 1 set 8 Pad ZP3E-[][][] Flat / Bellows type with groove 9 Plate ZHP1-PL[]-A 10 Holder TB00148 Included for metric size 11 Plug *1) TB00055 Included for inch size 12 One-touch fitting KJH[]-C2 13 Ejector assembly ZK2-EJ[]W-A 14 Silencer assembly ZHP1-SA1-A 15 Lock screw CA00284 Included 1) 3 pieces are included in

VDW

Max. operating pressure differential (MPa) Orifice size (mm ) VX2 Model Voltage Type Pressure port 1 Pressure port 2 Note) 1 2 3 4 5 6 100 VAC 200 VAC 110 VAC 220 VAC 24 VDC 12 VDC VX C1 C2 10, 20, 30 200, 300 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com 0.9 0.4

Compact Hydraulic Cylinder

6 to @0 and @2 and can be ordered by using the seal kit number for each bore size. 218 Hydraulic Cylinder: 7 MPa Series CHN Dimensions Basic style: CHNB MM GA2 GB2 NN Width across flats B2 Width across flats E Width across flats B1 T V D IA CHQ CHKm H1 H2 GA1 GB1 Effective thread GA3 3 GB3 A K F NA H NB 2 x Rc P CHN Air release Air release Air release S + Stroke ZZ + Stroke W mI CHM CHSm

Servo Motor Controller (24 VDC)

Please wire referring to the following diagram * NPN type * PNP type A1 COM CN5 I/O signal power 24VDC A1 COM CN5 I/O signal power 24VDC A2 COM A2 COM A3 IN0 A3 IN0 A4 IN1 A4 IN1 A5 IN2 A5 IN2 A6 IN3 A6 IN3 A7 IN4 A7 IN4 A8 IN5 A8 IN5 A9 SETUP A9 SETUP A10 HOLD A10 HOLD A11 DRIVE A11 DRIVE A12 RESET A12 RESET A13 SVON A13 SVON Load B1 OUT0 Load B1 OUT0 B2 OUT1 Load B2 OUT1 Load B3 OUT2 Load

LEC-OM07605CN

B2 B1B2(VAR) (2) (3) (a) R[]:() L[H]:() Vb[V]: DC24V U Vs[V] N () 14.1.2 14 2 14.

Mini-Rotary Actuator Series CRJ Rack-and-Pinion Type/Size: 05, 1

CRJU1 0 Angle is adjustable: 5 at each rotation end Variations Series Rotation angle Auto switch Port location 90 100 190 180 CRJB05 CRJB 1 CRJU05 CRJU 1 Basic type D-F8 Front port D-F9 Side port With external stopper Features 2 Series CRJ Model Selection Procedure Calculation Example Operating conditions 1 List all possible operating conditions according to the mounting position. b1 H b2

LEC-OM069xx

Regenerative resistor connection terminals B1/ , B2*1 If LECYM2-V9 is used, remove the lead or shorting bar between B2 and B3, and connect a regenerative resistor between B1/ and B2. Note: The Regenerative resistor is not included.

High Vacuum Angle Valve, XL Series

Actuating solenoid valve electric signal Valve opening O After a few seconds at 10-6Torr 90% 100% 90% Valve closing Operation time Responce time Conductances combined When each of the separate conductances are given as C1, C2 and Cn, the composite conductance C is expressed as: C=1/(1/C1+1/C2+...1/Cn) when in series, and C=C1+C2+...Cn, when in parallel. 39 Series XL Technical Data 5 He leakage

5 Port Solenoid Valve Series SV1000/2000/3000/4000

With External Pilot Specifications (Pitch) P=16 17.5 48 23.5 11.8 18.8 9.5 12.5 SJ 15.9 29.2 31.5 34.6 4 A 4 A 4 A 4 A 4 A 4 A 4 A 4 A 4 A 4 A E 3/5 E 3/5 SY 52.7 53.9 E 3/5 E 3/5 67.5 2 B 2 B 2 B 2 B 2 B 2 B 2 B 2 B 2 B 2 B C2 C2 P 1 P 1 P 1 P 1 SV PE PE X X C1 C1 2 x M12 SYJ One-touch fitting [X: External pilot port] Applicable tubing O.D.: 4 5/32" One-touch fitting [PE: Pilot EXH port]

OMR0032

OUT1 DC2(-) <B2> 10k (3) Pulse train signal input circuit The pulse signal input can be selected from the open collector input type and differential input type.

Rotary Clamp Cylinders

Thin rectangular plate (Rectangular parallelopiped) Position of rotational axis: Vertical to the plate and through the end = m1 + m2 a12 3 a22 = m1 + m2 4a12 + b2 4a22 + b2 3 12 12 2. Thin shaft Position of rotational axis: Perpendicular to the shaft through the center of gravity 5.

Step Motor Controller (Servo / 24 VDC)

NPN type PNP type I/O signal power I/O signal power A1 COM CN5 24 VDC A1 COM CN5 24 VDC A2 COM A2 COM A3 IN0 A3 IN0 A4 IN1 A4 IN1 A5 IN2 A5 IN2 A6 IN3 A6 IN3 A7 IN4 A7 IN4 A8 IN5 A8 IN5 A9 SETUP A9 SETUP A10 HOLD A10 HOLD A11 DRIVE A11 DRIVE A12 RESET A12 RESET A13 SVON A13 SVON Load B1 OUT0 Load B1 OUT0 B2 OUT1 Load B2 OUT1 Load Load B3 OUT2 B3 OUT2 Load Load B4 OUT3 Load B4 OUT3 B5 OUT4

CP95

32 22 10 14 15 30 5 32.5 10.5 6.6 45 10.5 5.5 40 38 12 25 12 16 18 35 5 6.6 55 11 5.5 50 46.5 15 27 16 21 20 40 5 51 9 65 15 6.5 63 56.5 15 32 16 21 23 45 5 9 75 15 6.5 80 72 18 36 20 25 27 45 5 11 95 18 10 100 89 18 41 20 25 30 55 11 115 18 10 5 6-13-11 11 Series CP95 Dimensions: Cylinder Mounting Accessory DS and ES [First angle projection] Mounting style (DS) Bore size (mm) E B1 B2

Rotary Gripper Series MRHQ

time" on the right. 200 100 Moment of Inertia IR kgm x 10-5 h G O 50 h G O P2 10 MRHQ25 5 a MRHQ20 a b MRHQ16 P1 b MRHQ10 1 0.5 Dimension of load>attachment Dimension of loadb2

MHC2

A part z1 m1 = 20 x 3 x 4 x 2.7 x 10-6 = 6.48 x 10-4 (kg) Weight calculation m1 = a x b x c x Relative density IZ1 Inertial moment around Z1 axis IZ1 = {m1 (a2 + b2) / 12} x 10-6 = {6.48 x 10-4 x (202 + 32)/12} x 10-6 = 2.21 x 10-8 (kg.m2) = 2.21 x 10-8 + 6.48 x 10-4 x 16.42 x 10-6 = 0.20 x 10-6 (kg.m2) IA Inertial moment around Z axis IA =IZ1 + m1r12 x 10-6 z f2 z2 B part r2 = 23.5(mm)

180
Angular Style Air Gripper Series MHY2/MHW2 Cam Style Rack & Pinion Style 1

Calculate the moment of inertia of attachment. z r1 Material of attachment: Aluminum alloy (Specific gravity = 37 (mm) r2 = 2.7) A part z1 m1 = 40 x 7 x 8 x 2.7 x 10-6 = 0.006 (kg) Calculation of weight m1 = a x b x c x Specific gravity Moment of inertia around Z1 axis IZ1 = {m1(a2 + b2)/12} X 10-6 Iz1 = {0.006 x (402 + 72)/12} x 10-6 = 0.8 x 10-6 (kgm2) IA = 0.8 x 10-6 + 0.006 x 372 x 10

Table of Contents

PSE56-C01 24 B PSE56-A2 A B Model 8.2 12 9.2 12.2 15.5 9.5 A PSE56-01 PSE56-02 PSE56-N01 PSE56-N02 PSE56-C01 PSE56-A2 PSE56-B2 R 1/8 R 1/4 NPT 1/8 NPT 1/4 Rc 1/8 URJ 1/4 TSJ 1/4 24 B PSE56-B2 A 24 B 16-3-28 7 Series PSE Specific Product Precautions 1 Be sure to read before handling. Pressure Sensor Handling Air Supply Warning Warning ZSE ISE 1.

Electric Actuator

C1 C2 S1 S2 Note 3) The length of the encoder, motor and lock cables are the same.