Please use an appropriate dryer to ensure dry air and prevent the valve lrom lreezing. The double solenoid valve must be energized for at 0.1 seconds or more to ensure proper operation. Re c omm ended L ubricants for SMC Pneumatics'Vah:es Lubrication OThe valve has been lubricated for life at manufacture, and does not rquire further lubrication in service.
Applicable cylinder D G F H L I C E J K M N Part No.
Please use an appropriate dryer to ensure dry air and prevent the valve lrom lreezing. The double solenoid valve must be energized for at 0.1 seconds or more to ensure proper operation. Re c omm ended L ubricants for SMC Pneumatics'Vah:es Lubrication OThe valve has been lubricated for life at manufacture, and does not rquire further lubrication in service.
An application which has the possibility of having negative effects on people, property, or animals, requiring special safety analysis. d. When used in an interlock circuit, dual interlock such as mechanical protection is necessary in case of accident. Periodical inspection is also necessary to confirm proper operation.
The operating load is an induction load. 2. The length of wiring to the load is 5m or more. 3. The load voltage is 100VAC. A contact protection box should be used in any of the above situations, as the life of the contacts may be reduced. (They may stay on continuously.)
Fittings & Tubing Air Cylinders Rotary Actuators Angle adjustment range 3 Angle adjustment range 3 Angle adjustment range 3 Key Key +4 0 0 0 +4 0 9 y 9 A port B port 0 y A port B port a a w 0 w 1 y y e ay e k k 80 w of of y e e ke 1 g g n n f ay ra a o r n n w ge io io at ey n ot at R ra ot k R Angle adjustment range 3 n of io at e +4 0 ot R ng R ot ra at n 80 io io at 1 n ot R ay ra +4
An application which could have negative effects on people, property, or animals requiring special safety analysis. 4. Use in an interlock circuit, which requires the provision of double interlock for possible failure by using a mechanical protective function, and periodical checks to confirm proper operation. 1.
These vortexes are stable under certain conditions, and their frequency is proportional to the flow velocity, resulting in the following formula. f = k x v f: Frequency of vortexes, v: Flow velocity, k: Proportional constant (determined by the vortex generator's dimensions, shape, etc.) Therefore, the flow rate can be measured by detecting this frequency.
AR20K-B to AR60K-B Series Construction AR10-A AR20(K)-B/AR25(K)-B AC AF+AR+AL AW+AL AF+AR AF+AFM+AR AW+AFM AF Attachment AFM / AFD AR AL AW t e q IN OUT t e q r IN OUT w r w AR30(K)-B/AR40(K)-B q t AR50(K)-B/AR60(K)-B e IN OUT q t r w e IN OUT r w Component Parts No.
AR60K-B Construction AR10-A AR20(K)-B/AR25(K)-B AC AF+AR+AL AW+AL AF+AR AF+AFM+AR AW+AFM AF Attachment AFM / AFD AR AL AW t e q IN OUT t e q r IN OUT w r w AR30(K)-B/AR40(K)-B q t AR50(K)-B/AR60(K)-B e IN OUT q t r w e IN OUT r w Component Parts No.
The cushion effect (smooth start-up, soft stop) cannot be obtained in an intermediate stop or return from an intermediate stop using an external stopper, etc. When using an intermediate stop considering the above information, implement measures to prevent particulate generation and set the operating pressure to no more than 0.3 MPa.
F . 4 6 3 l b s . ( 2 1 k o ) P.T. 0 216 in, (5 5mm) or, 0 039 in (1mm) T T 0 256 in (6 smm) .75 PS|G (5 tuffi 2way 3 way F O F 3.31 lbs (1 5 kg ) T T 900 '75 PSIG (5 Kgf/cm2) A B c D E F G H J K A B c D E F G H J K M N 2.64 (67) 1.95 49.s) 0.96 '24.5) 0.69 '17.5)0.06 (1.s) 0.12 (3) 1.57 (40) 0.96 (24.5) 1.20 130.5) 0.24 (6) 3.31 (ul 2.09 (53) 1 . 1 0 (24\ 1.22 (31) 0.06 (1.5) 0.12 (3) 1.57
F . 4 6 3 l b s . ( 2 1 k o ) P.T. 0 216 in, (5 5mm) or, 0 039 in (1mm) T T 0 256 in (6 smm) .75 PS|G (5 tuffi 2way 3 way F O F 3.31 lbs (1 5 kg ) T T 900 '75 PSIG (5 Kgf/cm2) A B c D E F G H J K A B c D E F G H J K M N 2.64 (67) 1.95 49.s) 0.96 '24.5) 0.69 '17.5)0.06 (1.s) 0.12 (3) 1.57 (40) 0.96 (24.5) 1.20 130.5) 0.24 (6) 3.31 (ul 2.09 (53) 1 . 1 0 (24\ 1.22 (31) 0.06 (1.5) 0.12 (3) 1.57
Cooling Capacity: 400 (38 kW), Cooling Method: A (Air-cooled Refrigeration), Pipe Thread: F (G, with Rc-G Conversion Fitting), Power Supply: 46 (50/60Hz: 3-phase 380 to 415 VAC; 60Hz: 3-phase 460 to 480 VAC), Option: Option Combination A+K
Cooling Capacity: 400 (38 kW), Cooling Method: A (Air-cooled Refrigeration), Pipe Thread: Rc, Power Supply: 46 (50/60Hz: 3-phase 380 to 415 VAC; 60Hz: 3-phase 460 to 480 VAC), Option: Option Combination D+K
Cooling Capacity: 400 (38 kW), Cooling Method: A (Air-cooled Refrigeration), Pipe Thread: F (G, with Rc-G Conversion Fitting), Power Supply: 46 (50/60Hz: 3-phase 380 to 415 VAC; 60Hz: 3-phase 460 to 480 VAC), Option: Option Combination A+D+K
Cooling Capacity: 400 (38 kW), Cooling Method: A (Air-cooled Refrigeration), Pipe Thread: Rc, Power Supply: 46 (50/60Hz: 3-phase 380 to 415 VAC; 60Hz: 3-phase 460 to 480 VAC), Option: Option Combination A+K
Cooling Capacity: 400 (38 kW), Cooling Method: A (Air-cooled Refrigeration), Pipe Thread: F (G, with Rc-G Conversion Fitting), Power Supply: 46 (50/60Hz: 3-phase 380 to 415 VAC; 60Hz: 3-phase 460 to 480 VAC), Option: A (w/Caster Adjuster foot)
Cooling Capacity: 400 (38 kW), Cooling Method: A (Air-cooled Refrigeration), Pipe Thread: Rc, Power Supply: 46 (50/60Hz: 3-phase 380 to 415 VAC; 60Hz: 3-phase 460 to 480 VAC), Option: A (w/Caster Adjuster foot)
Cooling Capacity: 400 (38 kW), Cooling Method: A (Air-cooled Refrigeration), Pipe Thread: Rc, Power Supply: 46 (50/60Hz: 3-phase 380 to 415 VAC; 60Hz: 3-phase 460 to 480 VAC), Option: Option Combination A+K+M