VCC 1 1 1 1 2 1 1 2 1 1 1 2 1 2 2 1 1 1 1 1 3 2 3 VCC12-1A-1 (for VCC12-00) 1 set unit VCC12(D)-00 (dedicated) Orifice body assembly VCC12D-1A-1 (for VCC12D-00) VNA 1 set unit VNB O-ring assembly 1 set unit VCC12-OR-1 SGC O-ring assembly Orifice assembly 1 set unit VCC12-OR-4 SGH 1 set unit VCC13-1A-1 VNC VCC13-00 (dedicated) 1 set unit VNH O-ring assembly VCC13-OR-1 O-ring assembly 1 set unit
freezing) Cushion Clamping side: None Unclamping side: Rubber bumper Operating time Clamping: 1 sec. or more, Unclamping: 1 sec. or more Max. allowable clamping moment*1 800 Nm 1500 Nm *1 Refers to the maximum holding force (torque) while clamped with the operating air exhausted This is not the possible holding force (torque) for normal use.
peak value S16 N 0x0 to 0x1068 (0 to 4200) 8030 0x1F5E 0 R Flow bottom value S16 N 1 R Accumulated mantissa S16 N 0x0 to 0x270F (0 to 9) Accumulated mantissa x accumulated index = current accumulated flow 8040 0x1F68 2 R Accumulated index S16 N 0x0 to 0x0008 (0 to 8) -46No.PF-OMX0007-A 1: "R" means Read and "W" means Write. 2: Refer to the table below for the symbol.
11.5 30.3 22.3 P E PE 58 Max.10 93 Manual (Non-locking) 4-Rc 1/4 4-Rc 1/4 4-Rc 1/4 300 (Lead wire length) 4-Rc 1/4 2-M5 x 0.8 (Pilot EXH) 2-M5 x 0.8 (Pilot EXH) 2-M5 x 0.8 (Pilot EXH) (Pilot EXH port) 2-M5 x 0.8 300 300 (Lead wire length) (Lead wire length) 79.9 87.5 Stations n: Stations Formula L1 = 19n + 12 L2 = 19n + 40 2 50 78 3 69 97 4 88 116 5 107 135 6 126 154 7 145 173 8 164 192
They are all important notes for safety and must be followed in addition to International Standards (ISO/IEC)*1), and other safety regulations. *1) ISO 4414: Pneumatic fluid power -General rules relating to systems. ISO 4413: Hydraulic fluid power -General rules relating to systems. IEC 60204-1: Safety of machinery -Electrical equipment of machines .
VQZ (A) 2 (A) 2 VZ 3 (R) 1 (P) 3 (R) 1 (P) VS VFN r e w q r e w q N.O. N.O. (A) 2 (A) 2 3 (R) 1 (P) 3 (R) 1 (P) Component Parts No.
M 20 100 B A90 S Platform cylinder Number of auto switches Bearing 2 M Slide bearing S 1 L Ball bushing bearing n n Auto switch Bore size/Stroke (mm) Without auto switch (Built-in magnet) Refer to p.3.8-10 for common specification and wire specification.
Left Right 1 2 1 2 1 2 Left Right 1 2 1 2 1 2 ZSE30 ISE30 ZSE40 ISE40 MPa MPa MPa MPa MPa MPa ZSE10 ISE10 ISE70 With n stations, the bracket is mounted on the first and n th sensor from the left. ZSE80 ISE80 1 2 n 1 2 n ZSE ISE ZSP PS MPa MPa MPa ISA2 ISA2 PSE Addition of Manifold Stations IS 1. Loosen the screws and remove the 2 mounting brackets on the front and back side. 2.
color 76 41.5 29.5 12 3.2 12 14.2 L type: Black color 76 41.5 29.5 12 3.2 12 14.2 1 8 82 44.5 30.5 12 4.2 12 17.2 86 44.5 30.5 12 4.2 12 17.2 94.5 54 39 14 4.2 17 19.95 99.5 54 39 14 4.2 17 19.95 116.5 58.5 41 17 4.2 19 ZH15DS-02-03-03 22.45 116.5 58.5 41 17 4.2 19 ZH15DL-02-03-03 22.45 (Mounting hole) Model I J K L M N O P Rc 1 8 Rc 1 8 Rc 1 8 Rc 1 8 Rc 1 8 Rc 1 8 Rc 1 8 Rc 1 8 Rc 1 8 Rc
t e 2 ) 1 pcs. 15 D-P3DW(A) 2 pcs. 15 1 pc. 5 N o t e 2 ) N o t e 4 ) 2pcs.
3 @1 @0 !1 !0 !2 r w u e !5 y !9 u t MDHR3 !4 !3 q !1 @0 @1 w o e i !5 r !7 !6 t !8 !0 !2 i !9 y u MHZ Component Parts MHF Description Material Description Material Note Note No. No.
Mount of single unit 24 or more 0 -0.4 31 31 x n pcs. + 3.5 x (n pcs. 1) 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 31 0 -0.4 0 -0.4 31 Vertical stacking mount of multiple units (n pcs.) 0 0.4 31 24 or more 31 x n pcs. + 3.5 x (n pcs. 1) 16-3-40 9 Series PSE300
Vacuum pressure Theoretical lifting force Horizontal lifting force [N]Safety factor 1/4 [kPa] [N] 1 cup gripping -50 40.2 10 2 cups gripping -67 53.8 13.4 3 cups gripping -73 58.7 14.6 (Calculated by W = P X S, S = r2, r = 32 / 2. Refer to 3.3 How to calculate theoretical lifting force for the detail.)
(mm) 10 10 A8 M8 x 1 10 to 16 13 13 A10 M10 x 1 20 to 32 16 16 A14 M14 x 1 40, 50 20 20 25 25 Vacuum entry 32 32 40 B5 40 M5 x 0.8 50 50 Pad material N NBR Pad type S Silicon rubber F Ball joint U Urethane rubber F Fluoro rubber GN Conductive NBR GS Conductive silicon rubber 20 and larger are manufactured upon receipt of order.
Arm length L A Arm length L A Table 1 Table 1 A Model A Model CKZ3N50 CKZ3N63 CKZ3T50 CKZ3T63 5 10 Series CKZ3N Series CKZ3T 10 10 50 63 Arm length L: 150 mm Arm length L: 200 mm 3000 3000 Peak clamping force position 2500 2500 Peak clamping force position 0.7 MPa 2000 2000 Clamping force (N) Clamping force (N) 0.5 MPa 0.7 MPa 1500 1500 1000 1000 0.5 MPa 0.3 MPa 0.3 MPa 500 500 0 0 0 0.5
Example) 1NR 20 1/8 25 1/4 Port size 30 3/8 01 1/8 1/2 40 Accessory (optional) 1/4 02 03 3/8 Symbol Description Applicable model 04 1/2 B With bracket AR2001-AR4001 Optional Specifications Combination Table Optional specifications Applicable regulator model Optional specifications Symbol AR3001 1 N R AR 2001 AR2501 AR4001 O.02 ~ O.2MPa [O.2 ~ 2.0kgflcm 21 -1 Non relieving -N IN-OUT reversal
Air passage Brake plate Brake shoe 2 Air tube (Brake released state) (Brake operating state) Brake Capacity Allowable Kinetic Energy Holding Force (Maximum static load) 25 32 40 25 32 40 Bore size (mm) Bore size (mm) Allowable kinetic energy (J) 1.21 500 N 800 N Holding force 320 N 0.43 0.68 1.
YES Calculation of resistance force f n 1 (L/GP) 2 (Provided that L > GP) Calculation of theoretical output F L W Refer to Theoretical Output 1 on page 8-27-3.
800 N Holding force 320 N 0.43 0.68 1.
Air passage Brake plate Brake shoe 2 Air tube (Brake released state) (Brake operating state) Brake Capacity Allowable Kinetic Energy Holding Force (Maximum static load) 25 32 40 25 32 40 Bore size (mm) Bore size (mm) Allowable kinetic energy (J) 1.21 500 N 800 N Holding force 320 N 0.43 0.68 1.