4 Port Direct Operated Poppet Solenoid Valve Series VQ D1000 port) C4: 4 One-touch fitting M5: M5 thread VQD VZS 2(B) 2(B) 27.5 VFS 20 15 4(A) 4(A) 5 VS 46 12.5 P=11 VS7 L plug connector (L) n: Station Dimensions n L 2 39 31 3 50 42 4 61 53 5 72 64 6 83 75 7 94 86 8 105 97 9 116 108 10 127 119 11 138 130 12 149 141 13 160 152 14 171 163 15 182 174 16 193 185 17 204 196 18 215 207 19 226 218 20 237 229 L1 L2 1.13-11
Magnet Slide Bearing Felt Holder Ball bushing Piston seal Rod seal Gasket A Gasket B No. q w No. !
Note 2) 400 V type is provided with an earth leakage breaker -B as standard.
Symbol (B) 2 (A) 4 1 (P) 3 (R) Flow Rate Characteristics C [dm3/(sbar)] b Cv C [dm3/(sbar)] b Cv 14/2(PA/B) 4/25/3(A/BEA/EB) Flow rate characteristics Valve model Port size Body ported 10-VQD1121(V)-L M-M5 10-VQD1121 -L M-M5 10-VQD1151(V)-L M-M5 10-VQD1151W-L M-M5 0.05 0.07 0.06 0.07 Base mounted (With sub-plate) 0.22 0.27 0.22 0.27 0.16 0.24 0.10 0.25 0.05 0.07 0.05 0.07 0.19 0.28 0.22 0.27
2302) VNA (JIS B 6349) VNA 1 ISO VG32 VNA ( JIS K 6439) VNA VNA VNA VNA AS AS AS AS VNA AS 10A 111 420-03 3/8 B(9.5) 12 12 12 12(P1) (P1) (P1) (P1) 10(P2) 10(P2) 10(P2) 10(P2) 12(P1)10(P2) 15A 211 420-04 1/2 B(12.7) 20A 311 500-06 3/4 B(19.1) 25A 411 600-10 1 B(25.4) 2 32A 511 800-12 1 1/4 B(31.8) VNA01 VNA02 VNA03 VNA1 40A 611 900-14 1 1/2 B(38.1) (P1) () 12 50A 711 900-20 2 B
Due to meter-in control, the cylinder moves from A to B regardless of whether it is an initial operation or a normal operation. When it reaches B, the head pressure (PH) rises quickly as indicated by the line from C to D.
) The IN air passes the check valve to pressure boosting chambers A and B.
Double acting PA PA B A PB B A With by-pass Suck back valve Manual Operation-Series LVH N.C. Double acting P PA PA Locking and non-locking types available B A B A PB B A Integral fitting type/Threaded type Manifolds Main applications and fields For shut off For air bleeding N.C.
The output goes OFF when "B" is turned ON in condition 2. Interlock circuit When either "A" or "B" are ON, output 3 does not go ON even if "C" is turned ON. Output 3 goes ON if "C" is turned ON, only when both "A" and "B" are OFF. OR circuit The cylinder operates if either "A" or "B" is ON.
M Applicable tubing b Applicable tube a B A Reducer: M-32R-2, M-04R-2 Applicable tubing O.D. x I.D.
Model Selection 1 Obtain the correction factor for the temperature from data A or B and the correction factor for the air pressure from data C. Temperature Data A or B = Series IDUS: Data A Series IDFS: Data B Air pressure Data C = 3 2 Calculate corrected air flow by using A or B and C.
Calculate the moment of inertia for A and B separately as shown in the figures on the right. A part B part Procedure Calculation Calculation example 1. Check the operating conditions, dimensions of attachment, etc. Operating model: MHY2-16D Opening time: 0.15 s a = 40 (mm) b = 7 (mm) c = 8 (mm) d = 5 (mm) e = 10 (mm) f = 12 (mm) A part a b c B part e f d 2.
(For details, refer to CAT.E501-B "Air Fittings and Tubing" pages 143 through 145.)
Burst Pressure Characteristics Curve and Operating Pressure How to Order TPS0604 B 20 5 4 Tubing designation Burst pressure MPa Burst pressure 3 Color Roll length Color White Black Red Blue Yellow Green Symbol W B R BU Y G Length 20m bundle 100m bundle Symbol 20 100 2 1 1m = 3.28ft Max. operating pressure -20 0 0 20 40 60 80 Operating temperature C 1MPa = 145 psi F = (1.8 x C) + 32 14 Related
Burst Pressure Characteristics Curve and Operating Pressure How to Order TPS0604 B 20 5 4 Tubing designation Burst pressure MPa Burst pressure 3 Color Roll length Color White Black Red Blue Yellow Green Symbol W B R BU Y G Length 20m bundle 100m bundle Symbol 20 100 2 1 1m = 3.28ft Max. operating pressure -20 0 0 20 40 60 80 Operating temperature C 1MPa = 145 psi F = (1.8 x C) + 32 14 Related
Temperature Data A or B = Series IDUS: Data A Series IDFS: Data B Air pressure Data C = 2 Calculate corrected air flow by using A or B and C. Corrected air flow = (Air flow) (Data A x Data C) Corrected air flow = (Air flow) (Data B x Data C) 3 Select a model having an air flow capacity that is higher than the corrected air flow.
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When performing the piping work, turn the tightening tool in the horizontal direction to the hexagon across flats of the body B so that any moment is not applied to the body A. If the tool is in contact with the body A, this may cause the body B to come off.
When performing the piping work, turn the tightening tool in the horizontal direction to the hexagon across flats of the body B so that any moment is not applied to the body A. If the tool is in contact with the body A, this may cause the body B to come off.