CXWM/CXWL A B C D E F A B C D E F G H Pressure port Pressure port Right Left Left Right Left Right Right Left Left Right Right Left Left Right Operating direction Operating direction There are 9 possible reciprocating piping methods. There are 16 possible reciprocating piping methods.
Water Hammer Characteristics VNC1 (N.C. 0.49 MPa) Conditions: Piping 30 m Steel tube, total pressure 0.49 MPa VNC4 (N.C. 0.97 MPa) Conditions: Piping 30 m Steel tube, total pressure 0.97 MPa 2.5 15A Peak pressure at valve closed (MPa) Peak pressure at valve closed (MPa) 8A 25A 2 1 20A 32 A F 15A 20A 40 A F 32 A F 1.6 0.8 25A 40 A F 50 A F 65F 50 A F 1.2 0.6 80F 65F 80F 0.8 0.4 0.4 0.2 0 1
MEWNET-F System ADDRESS NO. STASTION NO. DIP SW. Name of terminal block, LED Note Cable wiring TERM. POWER RUN ERR R.SET HOLD TERM. POWER COMM.
selection RX(n 3)0 RY(n 2)B Absolute value/incremental value to Reserved RY(n 2)C RX(n 3)9 to Reserved RX(n 3)A Problem ALM 15 RY(n 2)F RX(n 3)B Remote station communication ready CRD RY(n 3)0 to Reserved RX(n 3)C RY(n 3)9 to Reserved RY(n 3)A Reset RES RX(n 3)F Note.
Rubber seal 16.2 (0.9) VQZ332 33 or less 25 or less 92 VQZ300 Metal seal 13.5 (0.75) VQZ322 22 or less 17 or less N.O.
Press this button to change to the peak display mode. button (UP) [F 4] [F 5] [F 6] [F 7] [F 8] [F 9] [Anr.] Standard condition [1.00] 1 second Selects the mode or decreases the ON/OFF set value. Press this button to change to the bottom display mode. CAUTION indicates a hazard with a low level of risk which, if not avoided, could result in minor or moderate injury.
Calculation of applied lateral load The lateral load F equals the total load of the work piece. Thus, F = x m g (N) 1. Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 2.
Calculation of applied lateral load The lateral load F equals the total load of the work piece. Thus, F = x m g (N) 1. Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 2.
G, C and D [First angle projection] Mounting style (L) XA + Stroke SA + Stroke Mounting style (F, G) Head side mounting (G) ZF + Stroke Rod side mounting (F) Mounting style (C) Mounting style (D) XD + Stroke Bore size (mm) E1 R W MF ZF FB CD EB L XD UB CB EW MR TR AO AT XA SA AH AB TF UF E2 32 32 16 10 130 10 12 142 26 48 7 65 45 26 32 10 4.5 144 142 32 9.5 7 64 79 50 40 36 20 10 145 12
G, C and D [First angle projection] Mounting style (L) XA + Stroke SA + Stroke 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 Mounting style (F, G) Head side mounting (G) ZF + Stroke Rod side mounting (F) Mounting style (C) Mounting style (D) XD + Stroke Bore size
VCA20-12-1A 41 52 30 40 4.5 6 VCA30-12-1A 48 56 36 44 5.5 7 VCA40-12-1A 50 62 38 50 5.5 7 2 mounting screws (for mounting brackets) are included in bracket part no. 17-2-12 7 Series VCA Direct Operated 2 Port Solenoid Valve For Air Dimensions Grommet: G Conduit: C Q F D Q F 300 280 D VC G1/2 C R C R L VDW IN E E VQ Manual override A B B A 2-P Port size 2-P Port size VX2 VX Manual override
VCA20-12-1A 41 52 30 40 4.5 6 VCA30-12-1A 48 56 36 44 5.5 7 VCA40-12-1A 50 62 38 50 5.5 7 3 Direct Operated 2 Port for Air Series VCA Dimensions Grommet: G Conduit: C Approx. 300 Approx. 280 Q F D Q F D G1/2 C R C R L IN E E Manual override A B B A 2-P Port size 2-P Port size Manual override 2 L K 2-M Thread depth 6 2-M Thread depth 6 K DIN connector: D Conduit terminal: T F F (Q) Q S 34
) (1) (2) (3) (4) 6 (1) (2) (3) (4) (5) (1) (1) (2) (3) 7 1-2. (1) (1) (2)PIL PIL1/10 (1) 23 (1) (2)VR21 1.41.6Nm 1.41.6Nm 1.41.6Nm 8 2 VR2110 3 01.0MPa 0.250.8MPa 0.560s (*) 10 (%) F.S. oC( -560 3/ (s C (dm 0.6 [1 (P) 2 (A) ] 0.5 [2 (A) 3 (R) ] bar) ) b 0.2 [1 (P) 2 (A) ] 0.15 [2 (A) 3 (R) ] Rc, NPT, G1/8 ON Delay 480g (*) 4 4 V R 2 1 1 0 01 01 Rc 1/8 N01 NPT 1/8 F01
Nozzle Diameter: 10 (ø1.0mm), Vacuum Pressure: L (-48 kPa), SUP: F01 (Screw-in G 1/8), VAC: F01 (Screw-in G 1/8)
Nozzle Diameter: 10 (ø1.0mm), Vacuum Pressure: S (-89 kPa), SUP: F01 (Screw-in G 1/8), VAC: F01 (Screw-in G 1/8)
Nozzle Diameter: 07 (ø0.7mm), Vacuum Pressure: L (-48 kPa), SUP: F01 (Screw-in G 1/8), VAC: F01 (Screw-in G 1/8)
Nozzle Diameter: 05 (ø0.5mm), Vacuum Pressure: L (-48 kPa), SUP: F01 (Screw-in G 1/8), VAC: F01 (Screw-in G 1/8)
Nozzle Diameter: 07 (ø0.7mm), Vacuum Pressure: S (-89 kPa), SUP: F01 (Screw-in G 1/8), VAC: F01 (Screw-in G 1/8)
Symbol Bore size (mm) A A' B B' D E F GA GB H MM NN R X Y LC LH LT LX LZ 6 10 15 M3 x 0.5 17 6 28 6 20 8 10.5 1.6 3 11 14 3.4 14 6.5 10.5 9 M10 x 1.0 7 7 M4 x 0.7 20 7 33 6 24 8 13 1.6 5 13 17 4.5 15 7 12 12 M12 x 1.0 8 10 M5 x 0.8 24 7 43 6 30 10 15.5 2.3 6 18 19 5.5 20 16.5 14 M14 x 1.0 10 12 10 Symbol S Z With auto switch Bore size (mm) W J 5 st 10 st 15 st 20 st 30 st 5 st 10 st 15 st
Symbol Bore size (mm) A A' B B' D E F GA GB H MM NN R X Y LC LH LT LX LZ 6 10 15 M3 x 0.5 17 6 28 6 20 8 10.5 1.6 3 11 14 3.4 14 6.5 10.5 9 M10 x 1.0 7 7 M4 x 0.7 20 7 33 6 24 8 13 1.6 5 13 17 4.5 15 7 12 12 M12 x 1.0 8 10 M5 x 0.8 24 7 43 6 30 10 15.5 2.3 6 18 19 5.5 20 16.5 14 M14 x 1.0 10 12 10 Symbol S Z With auto switch Bore size (mm) W J 5 st 10 st 15 st 20 st 30 st 5 st 10 st 15 st