VCS P: PTFE F: FKM For VCS30 OR-2380-130P P: PTFE F: FKM For VCS40 OR-2600-180P P: PTFE F: FKM Manifold For VCS20 e OR-1400-178P P: PTFE F: FKM OR-2670-178P r P: PTFE F: FKM Wave washer For VCS30, 40 When the loosened clip is pulled out in direction e using pinchers, etc., the coil can be removed and replaced in direction r.
BG-VZ402 BG-VZ403 VQ VKF BG-VZ405 VQZ How to Order Manifold Base VZ 1 06 30 VV3Z4 VS VFN A port size on base side Series VZ400 Manifold Model Symbol VV3Z4-S50 VV3Z4-50 Symbol Stations Symbol Porting specifications 2(A) Passage Specifications Without 2(A) port (Body ported type 20, 30) Nil Applicable base 02 2 stations 3(R) 1(P) 01 02 Rc 1/8 1 Common Common Top, Side Type 20, 30 and 50
Silver, Body: Red Handle: Red Residual relief 3 port valve X116 Port size Body size Piping direction Left 1(P) Right 1(P) Thread type 02 1 4 Nil Rc 4 5 3 4 1 2 03 VHS40 3 8 0 1 N NPT 04 1 2 F G 06 VHS50 3 4 Applicable port size: 1/4, 3/8 Example of Operating Circuit JIS Symbol When using the valve, please refer to the table of applicable effective areas for the respective exhaust ports
2 Port for Oil Dimensions (mm) (N.C.) 1in = 25.4mm Grommet: G Conduit: C Approx. 300 V D Approx. 280 D F Approx. 300 F Q Q Class H coil Broken line section C C G 1/2 R R E E A H A H B B 2-P Port size 2-P Port size 2-M, thread depth N 2-M, thread depth N L L K K DIN terminal: D Conduit terminal: T Cable 6.8 to 10 F S Q 27.5 (Q) D F 25 C R C (44) R R E G 1/2 E G 1/2 A H D (S) B B A H 2-P Port
OUT1 OUT2 OUT2 SET [F 2] OUT2 1SET 2SETSET2 -33No.PS-OMV0003CN-G [F 3] 0.01 sec.0.0030.00 sec. <> UPDOWN[F 3] SET UP DOWN SET [F 3] 190% 2(233033) -34No.PS-OMV0003CN-G [F 4] <> ,UPDOWN[F 4] SET UP DOWN SET [F 4] SET SET (36) -35No.PS-OMV0003CN-G () OUT1 SET[AP1 REdY] (OUT1[AP1 REdY]UPDOWN1 OUT2) OUT1 OUT1 OUT1 SET[AP1 RUn] ([AP1 RUn]UPDOWN1 OUT2) OUT2 SET[AP2 REdY] (OUT2
Low Temp Range -40 to -65 F. +10 to -10 F. -40 to -65 F. -40 to -60 F. High Temp. Cont. +230 to +240 F. +325 to + 350 F. +230 to +240 F. +250 to +300 F. Duty High Temp. Int. +25 to +300 F. +425 to +450 F. +260 to +280 F. +350 to +400 F.
9 Water-cooled refrigeration . p. 11 Cooling Capacity. p. 13 Pump Capacity. p. 13 Dimensions. . p. 14 Parts Description. p. 14 Recommended External Piping Flow. . p. 16 Cable Specifications. p. 16 Operation Display Panel. . p. 17 Alarm. p. 17 Communication Functions. p. 18 Options. p. 19 Optional Accessories. . p. 20 VCooling Capacity Calculation Required Cooling Capacity Calculation. p.
R1 R2 R2 R1 P 27.5 27.5 41 41 Rc 1/8 PE port Rc 1/8 External pilot port Rc 1/8 PE port Rc 1/8 External pilot port 27.5 27.5 41 41 5-Rc 1/2 1(P), 4(A), 2(B), 5(R1), 3(R2) port 5-Rc 1/2 1(P), 4(A), 2(B), 5(R1), 3(R2) port Numbers inside ( ) are for metal seal 3 position type 2-6-7 8 Series VQ5000 Base Mounted Plug-in Unit How to Order Manifold VV5Q 5 1 08 03 F U1 Option Option None Exhaust
Materials Thread type Symbol Nil A G H Manifold material Seal material NBR FKM NBR FKM Rc G NPT Nil F N Brass 1 D side 2 3 4 5 U side Stainless steel OUT port size Stations Series 20 Port size M5 1/8 (6A) 1/4 (8A) Symbol 02 : 10 2 stations : 10 stations 30 10 M5 01 02 Note) IN port sizes are as follows. 10: 1/8 (6A) 20: 1/4 (8A) 30: 3/8 (10A) How to Order Valves (for Manifold) VDW 2 3 5
90 0.5 W W W 0.5 F 117 108 95 76 0.7 C J G5-S 0.1 0 500 1000 1500 81 75 66 51 0.3 CV G 60 55 49 37 0.5 Cylinder stroke (mm) The above curve in the graph refers to P = 0.5 MPa of supply pressure.
VQC4000 Thread type Note) VVQC4000-3A-1 Series Nil F T Rc G NPT/NPTF Kit type 1 2 4 Thread type VQC1000 VQC2000 VQC4000 Nil F T 1 2 3 Rc G NPT/NPTF S (EX240) kit F, P, T, S (EX250) kit L, M, S (EX500) kit Note) VQC 4000 thread port only Note) Tie-rods (2 pcs.) for additional stations included. U-side end plate assembly !8 U-side end plate assembly part no.
R port thread type Series 3 SYA3000 5 SYA5000 Rc Nil G F 40 SYA 7 1 Base mounted N NPT NPTF T P, R port thread type Type of actuation Rc Nil 2 position single G F Port size 1 N NPT Port size Without sub-plate Symbol Applicable series Nil NPTF T 2 position double 1 8 01 SYA3000 Port size With sub-plate 2 1 4 Port size Without sub-plate Symbol Nil With sub-plate 02 SYA5000 1 4 3 position closed
G3/4, Symbol N: NPT3/4) Tank drain port Rc1/4 (Symbol F: G1/4, Symbol N: NPT1/4) Automatic uid ll system (Standard) Pump capacity Supply side pressure range 29 to 73 psi (0.2 to 0.5 MPa) Supply side uid temperature 41 to 95 F (5 to 35C) Automatic uid ll port Rc1/2 (Symbol F: G1/2, Symbol N: NPT1/2) Overow port Rc1 (Symbol F: G1, Symbol N: NPT1) Fluid contact material Stainless steel, Copper
R port thread type Series 3 SYA3000 5 SYA5000 Nil Rc G F 40 SYA 7 1 Base mounted N NPT NPTF T P, R port thread type Type of actuation Nil Rc 2 position single G F Port size 1 N NPT Symbol Applicable series Nil Port size Without sub-plate NPTF T 2 position double 1 8 01 SYA3000 Port size With sub-plate 2 Symbol Nil Port size Without sub-plate Without sub-plate (Pilot port: Expect RC) 1 4
141 P. 155 P. 172 P. 198 P. 212 P. 183 P. 225 P. 233 P. 251 P. 265 P. 285 P. 294 P. 309 -X 137 Smooth/Low Speed Cylinders CQlY/CQlX Series Added compact foot brackets.
AP100 P F P F 887 Series VEF/VEP Flow type: VEF Diagram of Working Principle Flow Characteristics: 3 Port The spool controls the sleeves opening through the balance between the proportional solenoids pulling force (F1) and the springs reaction force (F2).
V: Power supply voltage Power consumption P: 20 [kW] Q = P = 20 [kW] P Cooling capacity = Considering a safety factor of 20%, 20 [kW] x 1.2 = 24 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
V: Power supply voltage Power consumption P: 7 [kW] Q = P = 7 [kW] P Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com E SMC REGULATOR 2 OUT P G Connection thread type MPa IR N F PT NPT PF SUP 2 VEX G Manifold base (3 stations) 1 2 3 AMR IITV20-02-3 ITV2030-311S-X26 P398020-13 ITV2050-212S-X26 1 set (3 station manifold base part no.) 1 set (Electro-pneumatic regulator part no.)
Calculating a Pad's Lifting Force: F r = P u * 1 . 0 3 9 " A 760 1 F " = F r " i theoretical lifting force (kgf), . T F^ Pv A practical lifting force (kgf), stable vacuum pressure (mmHS), A. Selecting the Vacuum Pad l.Calculation Method: A vacuum pad diameter (@D) can be determined by calculation if the lifting force needed to perform the work function is known.