LEF-OM006xx ) CCW : CW : . 1) (2mm/) 2 1 CCW CW 2 3 OFF(ON) -28- (=) P.25 =02mm) =0 a) CCW 50mm =0() =10 50mm CCW CW 0 10 20 30 40 50 [mm] 50mm CCW CW 10 20 30 40 50 60 [mm] b) CW )50mm =0() =10 =-10 50mm CCW CW -50 -40 -30 -20 -10 0 [mm] 50mm CCW CW -40 -30 -20 -10 0 10 [mm] 50mm CCW CW -60 -50 -40 -30 -20 -10 [mm] -29- 4/ A 50mm () 5m 5m 10% 15m 20% -30- 5./ 5.1 (LEC ) ,,
(X867: Side porting type) 496 MGPW Series Compact Guide Cylinders, Series Variations Bore size (mm) Page Series Bearing type 6 63 80 100 20 25 32 40 50 10 12 16 Basic type/MGP P.432 Slide bearing With air cushion/MGP-A Ball bushing P.452 High precision ball bushing With end lock/MGP-H/R P.469 LOCK Slide bearing Wide type/MGPW Ball bushing P.498 High precision ball bushing Clean series/12/
E C I A L R O D T H R E A D X A O P T I O N Thread Form Code M .
OR-1717-178P P: PTFE F: FKM OR-3305-178P P: PTFE F: FKM t When external leakage occurs after disassembling a valve, replace the above seals. Wave washer part no.
63mm cAt N63-P 80mm cA1N80-P!
Body Resin SYJ q (A) 2 Spool valve Aluminum/NBR w e r Pilot valve VK 1 (P) 3 (R) Port plug Resin/NBR VVQZ100-CP VZ VT VQZ200/300 VT Metal seal Rubber seal VP VG q r w e q r w e VP VQ VQZ N.C. N.C. VZ (A) 2 (A) 2 VS 1 (P) 3 (R) 1 (P) 3 (R) q r w e q r w e N.O. N.O. (A) 2 (A) 2 1 (P) 3 (R) 1 (P) 3 (R) Component Parts No.
VFR VP450 VP470 VP4 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 82 (3 position: 98.5) 129 VZS 71(95.5) VFS 139.5 B A B A VS4 VQ7 (External pilot port) 1/8 (External pilot port) 1/8 EVS VFN A B B A B B B A EA P EB P EA EB ( ): Port size 3/4, 1 Dimensions: Port
E C I A L R O D T H R E A D X A O P T I O N Thread Form Code M .
Note 2) Since sizes 20 and 25 have a body with B type (through hole) and A type (double end tapped) in common, there is no A type part number. Example) RQA 20-30 does not exist.
Note 2) When changing the port location, please order a new port plug: MXH-P (2 pcs.)
Note 2) When mounting a cylinder with a stroke over 100mm, use the section A mounting threads.
(P.23) -9- (6) DC24V LED LED PWR ALM LED 7.LED (P.30) (JXC)LEDALM EtherNet/IP SI I/O 15(P.62) * (7) PLC EtherNet/IP LED LED PWR ALM MS NS EtherNet/IP LED 7LED (P.30) (JXC)LEDNSPLC PLC 19(P.78) PLC -10- (8)() ()() () (9) 9(P.32) PLC 13 (P.52) -11- 3 3.1.
Common exhaust 5.1-3 VEX1 Flow Characteristics VEX110, 120 VEX190 A port pressure MPa P Port pressure 1.0 MPa A port pressure MPa P Port pressure 1.0 MPa VEX130 Setting Pressure Characteristics A port pressure MPa P Port pressure 1.0 MPa A port pressure is set in accordance with pilot pressure VEX150 A port pressure MPa P Port pressure 1.0 MPa VEX AN AMC External Pilot Piping VEX170 A port
Contact P/A if a solution other than water is to be used.
A A A-A r q e w A A-A e r q w Component Parts No.
B Since the operating range is provided as a guideline including hysteresis, it cannot be guaranteed (assuming approximately 30% dispersion).
38 35 42 40.5 A 33 32.5 34 31 38 36.5 49.5 48.5 A B A B A B A B 20 25 32 40 50 63 80 100 B 24 (32) 24.5 (32.5) 25 (33) 27 (36) 32 (44) 33.5 (45.5) B 14.5 (22.5) 15 (23) 15.5 (23.5) 17.5 (26.5) 22.5 (34.5) 24 (36) 29 (43) 30 (44) B 20 (28) 20.5 (28.5) 21 (29) 23 (32) 28 (40) 29.5 (41.5) B 16 (24) 16.5 (24.5) 17 (25) 19 (28) 24 (36) 25.5 (37.5) 30.5 (44.5) 31.5 (45.5) Hs 27.5 30 33.5
When a system hazard can be expected due to a drop in vacuum pressure caused by power loss or vacuum pump trouble, install a safety circuit and configure the system so that it can avoid the danger. 2. When a system hazard can be expected with a malfunction of the vacuum regulator, install a safety circuit and configure the system so that it can avoid the danger. 1.
Air operated style fluid control valve Vacuum valve Vacuum pad 2(A) 1(P) 2(A) 1(P) 2(A) 1(P) 2(A) 3(P) 3(R) 3(R) 3(R) 1(R) Atmospheric air or micro pressure for vacuum release 22 Multi-purpose Valve Series VCA Direct Operated 2 Port Solenoid Valve for Air Improved durability (Nearly twice the life of the previous series) Operating resistance of moving parts reduced for improved longevity
Next, IB is entered to find IA the moment of inertia for the rotation of shaft (A) as a + b 2 2 A = ( ) b a 2 B = m 12 No. of teeth = b 11-10-3 4 Technical Data 3: Theoretical Output 5.