Compact Proportional Solenoid Valve Series PVQ % .% "-% "%% (%% (0 + "( + (0 + "( + ARX20 VCHR 3 4 45 4 466 4 5 4 4 6 7 6 7 6 4 6 5 ITV Construction IC Component Parts PVQ VEF VEP 1 Solenoid coil assembly 2 Core 3 Return spring VER 4 Armature assembly VEA 5 Body ! 6 O-ring VY2 Round head combination screw 7 "# $ % & $ "#' ( VBA VBAT 8 Sub-plate ! ) * )+,"% "& & AP100 A (2) P (1) P (1) A (2) !-.
pressure value (main display). (1) Press and hold the button between 1 and 3 seconds in measurement mode.
(M8(3 )11 ) 01 X M ISE40A 2 K ISE40A -0.11.000 MPa ZSE40A 0.0-101.3 kPa ZSE40AF -100.0100 kPa 1 01 R1/8 (M5) A A N01 NPT1/8 (M5) W1 Rc1/8 B B WF1 G1/81 D D M5 M5X0.8 () E C4 4 C6 6 F + 1IS0228-1 P10/1 X NPN2() Y PNP2() 1 R NPN2 +/ T PNP2 +/ M SI2 P (psi)1 S NPN2 +/ 1 2kPaMPa V PNP2 +/ -9No.PS-OMM0006CN-E /1 1 01 N01 W1 WF1 M5 C4 C6 A A ZS-24-A X X X B B ZS-24-B X X X X X D
Stroke 17 6 Note 1) Standard strokes available in 5 mm increments.
Type Symbol sensor Flow rate Flow rate Temp. 1 Analogue 1 to 5 V None 2 Analogue 4 to 20 mA Remote sensor 1T Analogue 1 to 5 V Analogue 1 to 5 V With temp. sensor 2T 1 Analogue 4 to 20 mA Analogue 4 to 20 mA A NPN NPN B PNP PNP C NPN Analogue 1 to 5 V D NPN Analogue 4 to 20 mA None E PNP Analogue 1 to 5 V F PNP Analogue 4 to 20 mA G 1 NPN External input 2 Integrated display type H 1 PNP External
Modular Style Regulator with Built-in Pressure Gauge Series ARG Regulator with Built-in Pressure Gauge Series ARG Accessory Port size Model ARG20 1/8, 1/4 ARG30 1/4, 3/8 ARG40 1/4, 3/8, 1/2 Bracket Pages 20 to 23 Set nut for changing the mounting angle of pressure gauges Regulator with Built-in Pressure Gauge with Back Flow Mechanism Series ARGK ARG20K 1/8, 1/4 ARG30K 1/4, 3/8 ARG40K 1/4,
(The terminal screw is an M3 cross head screw.) (1) Be sure to connect each signal line to its dedicated terminal. (Refer to Fig. 1) The applicable size of the cross head screwdriver is No.2 (6 mm or less). Tighten the screws securely with a torque of 0.5 to 0.6 Nm. Fig. 1 (2) Be sure to connect a terminating resistor between DA and DB at both ends of the CC-Link system.
Red LERR LED is flashing 1 3 4 1 2 Content Err (Default setting) 5 2.5 Mbps 625 kbps Content 5 Mbps CC-Link version Node number 2.00 2.00 2.00 2.00 1.10 1.10 1.10 1.10 64 1 : 8 7 9 6 Number of occupied nodes x10 x1 0 5 4 4 Pin number 1 Address 2 3 5 3 1 4 2 3 2 1 1 4 3 2 1 (2) (3) Content 8 7 9 6 6 Number of occupied nodes SI unit output data size 4 byte (Default setting) 0 5 4 1 2 3 Signal
Description Material u i w Bronze Stainless steel 1 1 Standard -7 11352-5B 11352-5S y 2 Element u Standard -2 -6 -8 -9 C4SF C4SF-2 C4SF-6 C4LF-8 C4SF-X401 o Note) 3 Bowl assembly 1 t !
6, !7, !8, @1. HYCB32-PS HYCB40-PS HYCB50-PS HYCB63-PS 32 40 50 63 !5 !6 !7 !8 19 @1 Cushion seal Rod seal Resin NBR (FKM can be selected.) 1 HYCB50H-PS Set of left nos. !5, !6, !7, !8, @1. Rod seal Piston seal NBR (FKM can be selected.) 1 NBR 1 HYCB63H-PS Piston seal Cylinder tube gasket NBR 1 NBR 2 (FKM can be selected.) Place the seal material symbol in .
6, !7, !8, @1. HYCB32-PS HYCB40-PS HYCB50-PS HYCB63-PS 32 40 50 63 !5 !6 !7 !8 19 @1 Cushion seal Rod seal Resin NBR (FKM can be selected.) 1 HYCB50H-PS Set of left nos. !5, !6, !7, !8, @1. Rod seal Piston seal NBR (FKM can be selected.) 1 NBR 1 HYCB63H-PS Piston seal Cylinder tube gasket NBR 1 NBR 2 (FKM can be selected.) Place the seal material symbol in .
: SYJA5240-01 2 x 4.3 (For mounting) 44 2 x M5 x 0.8 (Pilot port) VGA 37.5 4 1 2 x M5 x 0.8 (Pilot port) 11 B A 5 VPA 1 A B 1 10 M5 x 0.8 (A, B port) 2 x 2.6 (For manifold mounting) 24 A B VPA3 19 1 P R Manual override 54 2 42 47 54 Manual override 23 20 15 3 11 2 x 2.6 (For mounting) 11.5 45 2 x 1.3 (Breathing port) 33.5 M5 x 0.8 (P , R1, R2 port) 21.5 6 6 P R1 17 17 15 8.5 R2 45.5 1/8 (
Disassembly Procedure Step 1 Removal of bonnet assembly Step 2 Removal of valve seal 1 Valve Bolt 3 Valve seal 1 1 2 4 Bonnet assembly Pilot port Bolt size, Tool Valve Bolt size Hex size wrench Bottom surface of the groove to discharge gas. XLF-16 M4 3 -25 M5 4 -40 M6 5 -50 M8 6 -63 M10 8 -80 Body Bonnet assembly Remove the valve seal 1 from the seal mounting groove.
(Allowable SW power supply range: 19.2 V to 28.8 V) Fig. a Fig. b Summary of Product elements Double Single Double Double Double Single Double Double No. 0 2 4 6 Side A No. 5 Side A 0 2 3 5 Station Station 1 2 3 4 1 2 3 4 6 No. 1 3 5 7 Side B No. 1 4 6 Side B R O I PROCESS FIELD BUS F R P Voltage drop of max.1 V B U S PWR(V) RUN DIA BF H L H L ADDRESS + EX250 Free EX250 DIA BF PWR(V) RUN
Disassembly Procedure Step 1 Removal of bonnet assembly Step 2 Removal of valve seal 1 Valve Bolt 3 Valve seal 1 1 2 Bonnet assembly 4 Port 1(P) Bolt size, Tool Valve Bolt size Hex Bottom surface of the groove to discharge gas. size wrench XLFV-16 M4 3 -25 M5 4 -40 M6 5 -50 M8 6 -63 M10 8 -80 Body Bonnet assembly Remove the valve seal 1 from the seal mounting groove.
-15No.PS-OMU0005CN-C (a)(a) (b) (ZS-46-B) +(ZS-46-D) 90 -16No.PS-OMU0005CN-C (-M5) 1/6~1/4 1~1.5Nm (ZS-46-N) -01-N01 23 3~5 Nm -C4L-C6L 1/61/4 1~1.5Nm -17No.PS-OMU0005CN-C -18No.PS-OMU0005CN-C () TU0425( 42.5) -19No.PS-OMU0005CN-C FG -20No.PS-OMU0005CN-C Z/ISE20B(F)-S/-R () NPN 2 Max.28 V80 mA 1 V R15 V 1 k S420 mA 12 V 300 24 V 600 50 -S/-R () NPN 2 Max.28 V80 mA 1 V -X () -S/-
The accuracy can vary by approximately 2% F.S. when such tubing is not used. 6 5 Accuracy [% F.S.] 4 3 Straight piping length 2 1 10 9 8 7 6 5 4 3 2 1 0 0 OUT IN Straight piping length [cm] 6 Series PFMC Internal Circuits and Wiring Examples NPN (2 outputs) type PFMC7--APNP (2 outputs) type PFMC7--BBrown DC (+) Brown DC (+) Load U U Black OUT1 Black OUT1 Main circuit Main circuit 12 to 24
F 12.5 25 G 6.5 8.5 H 45 75 HA 19.5 39 HB 8.5 19 HG 8.5 19 HI 23 39 HL 38.6 64.9 HP 44 73.5 HS 27 49.5 HT 19.5 39 J M6 x 1 M10 x 1.5 JK 10 12 K 21 20 Model +0.030 0 +0.030 0 CYP15 CYP32 LD 5.6 8.6 LW 69 115 MM M4 x 0.7 M6 x 1 M 6 8 P M5 x 0.8 Rc 1/8 N 4.5 7.5 PA 25 50 PB 60 100 Q 105 138 QW 48 87 R 45 79.5 T 23 29 TA 13 17 TB 18 22 W 69 115 WA 32 46 WB 17 27 Y 2.5 3.5 Z 118 155 L 67 90 Model
n = 1 + 2 + 3 1 Load factor n 1 = m/mmax Note Item Review m mmax is the maximum load mass 1. Max. load mass 2 = M/Mmax Review M1, M2, M3 Mmax is the allowable moment 2. Static moment 3 = Me/Memax Review Me1, Me3 Memax is the allowable moment 3.
n = 1 + 2 + 3 1 Load factor n 1 = m/mmax Note Item Review m mmax is the maximum load mass 1. Max. load mass 2 = M/Mmax Review M1, M2, M3 Mmax is the allowable moment 2. Static moment 3 = Me/Memax Review Me1, Me3 Memax is the allowable moment 3.