VDW Series, Compact Direct Operated 2/3 Port Solenoid Valve for Water and Air

For subsonic range Where P1 + 0.1013 = (1 to 1.8941) (P2 + 0.1013) Formula based on Cv factor Q = 4073.4Cv P (P2 + 0.1013) l/min (ANR) Other Formula based on effective area Q = 226.3S P (P2 + 0.1013) l/min (ANR) 1. Materials NBR: Nitrile rubber FKM: Fluoro rubber Trade names: Viton, Dai-el, etc. 2.

VDW Series

For subsonic range Where P1 + 0.1013 = (1 to 1.8941) (P2 + 0.1013) Formula based on Cv factor Q = 4073.4Cv P (P2 + 0.1013) l/min (ANR) Other Formula based on effective area Q = 226.3S P (P2 + 0.1013) l/min (ANR) 1. Materials NBR: Nitrile rubber FKM: Fluoro rubber Trade names: Viton, Dai-el, etc. 2.

VQ5000

How to Find the Flow Rate (at air temperature of 20C) Subsonic flow when P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P(P2 + 0.1013) Sonic flow when P1 + 0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) Q: Air flow rate [l/min (ANR)] S: Effective area (mm) P: Differential pressure (P1P2) [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Correction for different air temperatures

Adsorption Plate

A B ZCUK AMJ Rc 1/8 Rc 1/8 AFJ AMV P1 P1 ZH -X185 P1 P2 P3 Base part no. Adsorption surface size SP1130 SP1230 SP1330 SP1430 SP1530 SP1630 50 x 50 55 40 10 Related Products 100 x 100 95 50 10 P2 P3 P2 P3 150 x 150 120 75 10 200 x 200 145 100 10 Rc 1/8 Rc 1/8 P3 P3 250 x 250 170 125 10 300 x 300 195 150 10 Square Rc 1/8 Rc 1/8 P1 P2 Base part no.

Series ARP20 to ARP40 10- 10- 21- 21- Direct Operated Precision Regulator Series ARP20K to ARP40K 10- 10- Direct Operated Precision 21- 21- Regulator with Backflow Function

(or 3 kPa) Repeatability Note 2) 0.4 MPa setting (Ex.)10-ARP30-02BG 1 L/min [ANR] or less (at P2 = 0.4 MPa) 0.2 MPa setting (Ex.)10-ARP30-02BG-1 0.6 L/min [ANR] or less (at P2 = 0.2 MPa) Air consumption 0.6 MPa setting (Ex.)10-ARP30-02BG-3 1.4 L/min [ANR] or less (at P2 = 0.6 MPa) 1/8 1/4 1/8 Pressure gauge port size 5 to 60C (No freezing) Ambient and fluid temperature With a digital pressure

Stability of suction position,

Flat type with groove (UM) Bellows type with groove (BM) 32 40 50 63 80 100 125 32 40 50 63 80 100 125 ZP3EA-P1 V V V V ZP3EA-P2 V V ZP3EA-P3 V V V ZP3EA-P4 V V ZP3EA-P5 V V ZP3EA-P6 V e Holder t Pad Form/Diameter Part no.

•

Hysteresls mode When the values of Pl and P2 are the same or when PI > P2 within 3 diglls.the hysteresIs will be automatICally 3 digits for 1 he set value of PI. . WII1dow comparator mode .. Shock resistance 100G to X.Y.

Microprocessor-Controlled Electro-Pneumatic Regulator ITV2000 EASY PROGRAMMING GUIDE

Maximum load current: 30mA The NPN and PNP digital monitor outputs can be set to function in one of three different ways: comparator mode hysteresis mode self-diagnostic mode when P1<P2 when P1>=P2 when P1=P2=0 The output is on whenever the outlet pressure is greater than P1 but less than P2. The output comes on once the outlet pressure reaches P1.

Series 10-, 21- ARP20 to 10-, 21- ARP40 Direct Operated Precision

(or 3 kPa) Repeatability Note 2) 0.4 MPa setting (Ex.)10-ARP30-02BG 1 L/min [ANR] or less (at P2 = 0.4 MPa) 0.2 MPa setting (Ex.)10-ARP30-02BG-1 0.6 L/min [ANR] or less (at P2 = 0.2 MPa) Air consumption 0.6 MPa setting (Ex.)10-ARP30-02BG-3 1.4 L/min [ANR] or less (at P2 = 0.6 MPa) 1/8 1/4 1/8 Pressure gauge port size 5 to 60C (No freezing) Ambient and fluid temperature With a digital pressure

CEx-OMG0106

The display will indicate PRG STEP P2 and the current tolerance setting. At the same time, the first decimal point will start blinking. Next, enter desired tolerance value as in above mentioned method. The maximum possible input value is 9.9mm. With input of tolerance, 1.0, any point fall between the set point1.0 will be accepted.

4 Way • 4 and 5 Port, Rubber Seal • Solenoid Pilot Valve, Series SYJ3000

1 Q=226S P(P2+0.1013) Sonic flow : P1+0.1013 1.89(P2+0.1013) Do not use in an explosive environment. 2 Q=113S(P1+0.1013) Q : Flow rate [ /min(ANR)] S : Effective area (mm2) P : Differential pressure (P1-P2) [MPa] P1 : Upstream pressure [MPa] P2 : Downstream pressure [MPa] Do not use in locations subject to heavy vibration and/or shock.

3 Port Solenoid Valve, VQ100 Series, Base Mounted Type

How to Calculate Flow (At an air temperature 20C) 1P1+0.1013<1.89(P2+0.1013) Q=226S P(P2+0.1013) Piping 2P1+0.10131.89(P2+0.1013) 1Completely flush (air blow) pipes before plumbing to remove dust. 2Clamping torgue: Q=113S(P1+0.1013) Q:Flow rate under standard conditions [ /min (ANR)] P1:Upstream pressure (MPa) P2:Downstream pressure(MPa) P:Pressure differential(P1-P2)(MPa) S:Effective area

Series VC, Series VCS, Direct Operated 2 Port Solenoid Valve for Steam

For subsonic range Where P1 + 0.1013 = (1 to 2) (P2 + 0.1013) Formula based on Cv factor Q = 197.8Cv P (P2 + 0.1013) kg/h Formula based on effective area Q = 11.0S P (P2 + 0.1013) kg/h [650] (133) 0.2 [646] (120) 0.1 S = 2.8mm S = 5.9mm S = 9.2mm S = 11.7mm S = 6.3mm S = 9.7mm S = 14.4mm S = 10.8mm S = 15.3mm S = 24.8mm Flow rate Q kg/h VCS212 VCS213 VCS214 VCS215 VCS 13 VCS314 VCS315

Air Slide Table

A B C D1 E F G M (Fine pitch) P2 MXQ6(L, A) MXQA-AS8-X2202 41.5 2.5 3 M3 x 12 18 5.8 8.3 M6 x 0.75 M3 x 6 MXQ8(L, A, C, CL) MXQ6B(L) MXQ12(L, A, C, CL) MXQ8B(L) MXQA-AS12-X2202 46.5 2.5 4 M3 x 12 24 7.1 10.4 M8 x 1 M4 x 8 MXQ16(A) MXQ12B(L) MXQA-AS16-X2202 51.5 3 5 M4 x 12 29.4 9.2 12.6 M10 x 1 M5 x 10 MXQ20(A) MXQ16B MXQA-AS20-X2202 58.5 4 6 M5 x 12 36 11.2 16.2 M12 x 1 M6 x 12 MXQ25(A)

Air Catch Sensor

Remove the gauge and balance the bridge circuit (P1 = P2) by adjusting the variable orifice (S3) via the adjustment knob. By moving the work piece away from the nozzle (S4) a pressure differential (P1 P2) is created. As soon as the work piece is moved within the detection range of the AirCatch Sensor the back pressure P2 increases.

Series DXT474

Q=226S P(P2+0.1013) Sonic flow : P1+0.10131.89(P2+0.1013) Q=113S(P1+0.1013) Q : Flow rate [ /min(ANR)] S : Effective area (mm2) P : Pressure differential (P1-P2) [MPa] P1 : Upstream pressure [MPa] P2 : Downstream pressure [MPa] When the air temperature is different, multiply the flow rate calculated with the above formula by the following coefficient for compensation. -20 1.08 -10 0 10 30

SY

How to Find the Flow Rate (at air temperature of 20C) Subsonic flow when P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P(P2 + 0.1013) Sonic flow when P1 +0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) Q : Air flow rate [l/min (ANR)] S : Effective area (mm) P : Pressure drop (P1 P2) [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Correction for different air temperatures Multiply

SZ3000

How to Find the Flow Rate (at air temperature of 20C) Subsonic flow when P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P(P2 + 0.1013) Sonic flow when P1 +0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) Q: Air flow rate [l/min(ANR)] S: Effective sectional area (mm) P: Differential pressure (P1-P2) [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Correction for different air temperatures

Series VCS

For subsonic range Where P1 + 0.1013 = (1 to 2) (P2 + 0.1013) Formula based on Cv factor Q = 197.8Cv P (P2 + 0.1013) kg/h Formula based on effective area Q = 11.0S P (P2 + 0.1013) kg/h [650] (133) 0.2 [646] (120) 0.1 S = 2.8mm S = 5.9mm S = 9.2mm S = 11.7mm S = 6.3mm S = 9.7mm S = 14.4mm S = 10.8mm S = 15.3mm S = 24.8mm Flow rate Q kg/h VCS212 VCS213 VCS214 VCS215 VCS 13 VCS314 VCS315

VKF300

How to Find the Flow Rate (at air temperature of 20C) Subsonic flow when P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P(P2 + 0.1013) Sonic flow when P1 +0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) Q: Air flow rate [l/min(ANR)] S: Effective area (mm) P: Pressure drop (P1-P2) [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Maintenance Correction for different air temperatures