Brake mechanism added A B A B A B A B A B A B A B A B 40 50 63 80 100 6 4 3.5 1.5 0 0.5 6.5 2 4 11.5 10 0 0 4.5 0 2 9.5 8 ML2B 3.5 1.5 0 0.5 6.5 2 4 11.5 10 0 0 4.5 0 2 9.5 8 8.5 7.5 6 5 2.5 3 9 4.5 6.5 14 12.5 1.5 2 8 3.5 5.5 13 11.5 12 10 9.5 7.5 6 6.5 4.5 8 10 17.5 16 4 4.5 12.5 6 8 15.5 14 13.5 12.5 11 10 7.5 8 14 9.5 11.5 19 17.5 6.5 7 13 8.5 10.5 18 16.5 D-A9 and D-A9V cannot be mounted on 50.
2 (A) 4 (B) 2 Note) Not applicable to S kit. 1 A Note) 5 (R1) 3 (R2) 1 (P) 5 (R1) 3 (R2) 1 (P) Coil voltage B: Locking type (Slotted) N.C N.C 12 VDC 5 6 4 position dual 3 port valve (B) 2 position double (metal) 24 VDC Note) (A) 4 (B) 2 (A) 4 (B) 2 B Note) S kit is only available for 24 VDC.
I$ODEL NO. 2 , 1 3 (s4) S P & S P A 0 1 1 3 43 y. qB siB s/B s/g 9a SP & SPA 0114 54 B B B B sP & sPA 0115 45 S s 2 MTNG HOLES I .FOOTPRINT' CLASS 1 SUB.PLATE MOUNTED 'SWAY VATVES '49 i.'8 (?
I$ODEL NO. 2 , 1 3 (s4) S P & S P A 0 1 1 3 43 y. qB siB s/B s/g 9a SP & SPA 0114 54 B B B B sP & sPA 0115 45 S s I 2 MTNG HOLES .FOOTPRINT' CLASS 1 SUB.PLATE MOUNTED 'SWAY VATVES '49 i.'8 (?
Table (1) Indication of Flow-rate Characteristics Corresponding equipment Indication by international standard Other indications Conformed standard C, b ISO 6358: 1989 JIS B 8390: 2000 Pneumatic equipment S JIS B 8390: 2000 Equipment: JIS B 8373, 8374, 8375, 8379, 8381 Cv ANSI/(NFPA)T3.21.3: 1990 Av IEC60534-2-3: 1997 JIS B 2005: 1995 Equipment: JIS B 8471, 8472, 8473 Cv Process fluid
E B ,rt1 0f $ [,r PEEAA P B EAPE +q--dz 3 position Closed centr/Exhaust centet/Presute cenler .1&t*080 PEEA A P B EBPE Main Parts No.
E B ,rt1 0f $ [,r PEEAA P B EAPE +q--dz 3 position Closed centr/Exhaust centet/Presute cenler .1&t*080 PEEA A P B EBPE Main Parts No.
Change of fluid passage Flow Characteristics Flow characteristics 1 2 (P A) C [dm 3/(sbar)] 27 38 Port size 2 3 (A R) C [dm 3/(sbar)] 27 40 2 1 (A P) C [dm 3/(sbar)] 25 40 3 2 (R A) C [dm 3/(sbar)] 26 38 b 0.38 0.30 b 0.37 0.32 b 0.36 0.22 b 0.37 0.20 Cv 7.0 9.8 Cv 7.4 9.8 Cv 7.3 9.8 Cv 6.8 9.6 1/2 3/4 N.C. N.O.
Valve type NBR Seal material Fluid 2 For water Class B Coil insulation type Rc Thread type Size/Valve type Body material/Port size/Orifice diameter Voltage/Electrical entry Symbol Size Valve type Symbol Body material Orifice diameter Port size Symbol Electrical entry Voltage A B C D E F G H J K 1.0 A Grommet 24 VDC M5 1.6 B 100 VAC 1.0 Resin (PPS) 3.2 One-touch fitting C 110 VAC 1.6 Single
C D E F H N-OT 0 1 2 3 4 5 6 Reverse Run Prohibited Pn50B.0 7 8 L /N-OT 0 A B C D E F L /P-CL 0 1 2 3 4 5 6 Forward External Torque Limit Pn50B.2 8 7 H P-CL 9 A B C D E F L /N-CL 0 1 2 3 4 5 6 Reserve External Torque Limit Pn50B.3 8 7 H N-CL 9 A B C D E F L /DEC 0 1 2 3 4 5 6 Homing Deceleration LS Pn511.0 8 7 H DEC 9 A B C D E F L EXT1 * * * * 4 5 6 External Latch Signal 1 Pn511.1 7 8 H
C D E F H N-OT 0 1 2 3 4 5 6 Reverse Run Prohibited Pn50B.0 7 8 L /N-OT 0 A B C D E F L /P-CL 0 1 2 3 4 5 6 Forward External Torque Limit Pn50B.2 8 7 H P-CL 9 A B C D E F L /N-CL 0 1 2 3 4 5 6 Reserve External Torque Limit Pn50B.3 8 7 H N-CL 9 A B C D E F L /DEC 0 1 2 3 4 5 6 Homing Deceleration LS Pn511.0 8 7 H DEC 9 A B C D E F L EXT1 * * * * 4 5 6 External Latch Signal 1 Pn511.1 7 8 H
1 12 A 10m GND A-1 13 A B-2 7 B 15m A A-2 6 C 20m B B-3 9 B A-3 8 Z B-4 11 Z A-4 10 3 10.5 14.2 2 1 5.6 23.7 A1 2 (7.0) 1 3 3 4 B1 12.7 2 1 18 A4 B4 (6.7) 15 16 11 30.7 44 - 11.2 () L 1 1.5m U 1 1 3 3m V 2 2 W 3 3 5 5m Shield 8 8m Vcc B-1 12 A 10m GND A-1 13 A B-2 7 B 15m A A-2 6 C 20m B B-3 9 B A-3 8 Z B-4 11 Z A-4 10 3 4 B-1 5 A-1 1 B-3 2 A-3 5.6
Rotational axis B d D I m kgm I = m kgm 8 8 Gear: I a + b I = m kgm IB = I + I + I kgm 12 Substitute the moment of inertia IB for rotation around shaft B with the moment of inertia IA for rotation around shaft A. Gear: I IA = (A/B)IB [A/B: Gear tooth ratio] Find the actual moment of inertia.
Cable color Tarminal no. 8 8m* Vcc B-1 Brown 12 GND A-1 Black 13 A 10m* A B-2 Red 7 B 15m* A A-2 Black 6 B B-3 Orange 9 C 20m* B A-3 Black 8 *produced upon receipt of order Z B-4 Yellow 11 Z A-4 Black 10 3 signal Tarminal no.
Rotational axis B d D I m kgm I = m kgm 8 8 Gear: I a + b I = m kgm IB = I + I + I kgm 12 Substitute the moment of inertia IB for rotation around shaft B with the moment of inertia IA for rotation around shaft A. Gear: I IA = (A/B)IB [A/B: Gear tooth ratio] Find the actual moment of inertia.
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
port 1/8, 1/4 (Rc, NPT, G) 2 x P Port size 2 x P Port size F E F E D D C B C B Port size: Size 14 A A ( 52) ( 52) (20) (20) Silencer (Option) Silencer (Option) Pilot port 1/8, 1/4 (Rc, NPT, G) Pilot port 1/8, 1/4 (Rc, NPT, G) Exhaust port 3/8 Exhaust port 3/8 2 x P Port size 2 x P Port size F E F E G G D C B D C B 20 20 Dimensions [mm] Model Port size P A B C D E F G JSXFAF-06 3/4 74 55.5
Refer to Fig.1) 3) Remove the junction box B (top) for all stations using a precision screwdriver. (Refer to Fig.2) (Remove the junction box B from D side.) 4) Remove all connectors mounted to the junction box B.
26 52 4.5 44.5 25 26.3 115 79.9 VCC 1/2 63 49.6 29 14.5 103.3 111.3 155.8 26 26 52 4.5 44.5 25 26.3 115 79.9 3/4 80 59 35 17.5 112 120.5 165 35 31 62 5.5 48 30 31 124.2 85.8 1 90 74 44 22 135.9 144.5 189 40 36 72 6.5 60 35 39.5 148.2 96.8 383 Series SGC How to Fix an Auto Switch Auto Switch Proper Mounting Position (mm) D-M9l Model A B A B A B A B A B A B A B A B A B 5 SGC(A)2lll-05l10, 15