Plug-in Unit Values for double types are when the switch is ON. 4 position dual 3 port valve (A) (A) 4 (B) 2 3 (R2) 5 (R1) 1 (P) N.C. N.C. 4 position dual 3 port valve (B) (A) 4 (B) 2 3 (R2) 5 (R1) 1 (P) N.O. N.O. 4 position dual 3 port valve (C) (A) 4 (B) 2 3 (R2) 5 (R1) 1 (P) N.C.
For driving air operated valves for fluid control N.C N.O N.C N.C Air operated style fluid control valve Vacuum valve Vacuum pad A, B 1(P) A, B 1(P) A, B 1(P) A, B 3(P) 3(R) 3(R) 3(R) 1(R) Vacuum releasing air Atmospheric pressure or micro pressure The characteristic values shown in the catalog are representative values, not warranting the performance. 4-3-1 2 Series SY100 Precautions Be
Code D33 SST Sensor Dual Module Code D44 Namur Sensor Dual Module Code I02 P+F NJ2-12GK-SN Code I09 P+F NCB2-12GM35-N0 Code I32 Omron E2E-X2Y1 Code I41 P+F NJ4-12GK-SN Code I45 P+F NJ3-18GK-S1N Code I56 IFC 2002-ARKG/UP Code K05 Omron D2VW-5 Code K06 Omron D2VW-01 Code B06 Omron D2VW-01 (ND9100F/P, ND9200F/P and ND9300F/P only) 2.5 Recycling and disposal WARNING (ND9000, ND7000): During automatic
VXS VXS Model/Valve Specifications, Fluid and Ambient Temperature, VXB Valve Leakage Rate P. 219 VXE How to Order P. 220 VXP Other Special Options P. 221 VXR Construction P. 223 VXH Dimensions VXF Body material: C37, Stainless steel P. 224 VX3 Replacement Parts P. 225 VXA Glossary of Terms P. 226 Solenoid Valve Flow Rate Characteristics P. 227 Flow Rate Characteristics P. 232 Specific
1.5 M26 x 1.5 M20 x 1.5 M10 x 1.25 M8 x 1.25 26-0.033 0 16 13 13 1/4 1/8 1/8 26-0.033 0 M10 x 1.25 32-0.039 0 8 10 M32 x 2 M14 x 1.5 With air cushion 2-NN WC GB Cushion valve (Width across flats 1.5) Relief port M5 x 0.8 WA GA GC Width across flats B2 2-P (Rc, NPT, G) WB Width across flats B1 H1 H2 I 2-Eh8 D MM AL A K H F 1.5 N1 1.5 N2 F NA ZZ + Stroke S + Stroke (mm) ZZ S P N2 I E D A 22
Dedicated Controller/LC1 P.73 Controller setup software P.80 Dedicated teaching box P.82 Options P.85 Dedicated Regenerative Absorption Unit/LC7R P.86 Non-standard Motor Compatible Drivers P.89 73 2 Series LC1 Controller Single Axis Type Built-in AC Servo Driver Series LTF: Standard Motor Compatible How to Order 2V LC1 F 1 H 1 L 3 Number of axes Mounting bracket 1 3 5 1 axis M3
Cooling Sample Embedding Machine 3 C O N T E N T S HEF Series Thermo-con/Compact Type Air-cooled HEF Series Cooling Capacity Calculation. . p. 5 How to Order/Specifications. p. 6 Cooling Capacity. p. 7 Heating Capacity. p. 7 Pump Capacity (Thermo-con Outlet). . p. 7 Dimensions. . p. 8 Operation Display Panel. . p. 9 Alarm. p. 9 Maintenance. p. 9 VOption High-Pressure Pump Mounted. p. 10 VOptional
(If the button is pressed for less than 2 seconds, the setting will be returned to P.)
Air operated style fluid control valve Vacuum valve Vacuum pad 2(A) 1(P) 2(A) 1(P) 2(A) 1(P) 2(A) 3(P) 3(R) 3(R) 3(R) 1(R) Atmospheric air or micro pressure for vacuum release 22 Multi-purpose Valve Series VCA Direct Operated 2 Port Solenoid Valve for Air Improved durability (Nearly twice the life of the previous series) Operating resistance of moving parts reduced for improved longevity
L SET M ZM Suction filter P V PD ZH 24.61 4.61 5.61 81 81 31 (Mounting hole) ZU 231 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 ZL Vacuum switch ZY Rc 1/8 V port (Vacuum pad connecting port) Suction filter ZQ M5 PD port (Vacuum release port) Rc 1/8 P port (External
(between lead wire and case) 1000 VAC for 1 min.
Static neutralization data when voltage is reduced from 1000 V to 100 V.
Please refer P 8-4 for how to mount. 9. Refer to Fig. 8-6 to mount the plug to the piping of the product.
Applicable for strong alkali-based cleaning fluid Suitable for filtering cutting fluids P.57 P.57 P.58 (For coarse filtration) (For coarse filtration) Leg Material: Stainless Steel X47 P.58 54 FGF Series Made to Order Please consult with SMC for details.
M A B C D E F G H Max. screw-in depth P Allowable eccentricity U Max. operating tension and compression power [kN] Nominal thread dia.
Power consumption P: 20 [kW] Q = P = 20 [kW] Cooling capacity = Considering a safety factor of 20%, 20 [kW] x 1.2 = V: Power supply voltage P 24 [kW] Power consumption e Derive the heat generation amount from the output. Output (shaft power, etc.) W: 13 [kW] w Derive the heat generation amount from the power supply output.
1500 100 200 300 400 500 1000 1500 100 200 300 400 500 1000 1500 100 200 300 400500 1000 1500 Piston speed mm/s Piston speed mm/s Piston speed mm/s Piston speed mm/s Features 6
A Q value of approximately 620 Nl/min is obtained. 1500 2000 1500 2000 4.The 620 Nl/min.theoretical value is multiplied by 1.4 Q = 620 Nl/min. 1.4 Q = 870 Nl/min. 160 1000 1000 Maximum air consumption Q [Nl/min.]
Mr = 1 x 9.8 (30 + 10.5)/1000 = 0.39 A = 10.5 Examine My. My = 1 x 9.8 (10 + 30)/1000 = 0.39 A3 = 30 Find the static moment M (Nm). M = W x 9.8 (Ln + An)/1000 Corrected value of moment center position distance An: Table 3 Find the allowable static moment Ma (Nm).