Wide Type Parallel Style Air Gripper ø 10, ø 16, ø 20, ø 25 MHL2 Series

For air gripper and auto switch precautions, refer to the Handling Precautions for SMC Products and the Operation Manual on the SMC website: http://www.smcworld.com Refer to pages 12 to 14 for cylinders with auto switches.

5 Port Air Operated Valve Series VPA450/470 How to Order 10 VPA4 1 5 0 VP 5 port Thread type Air operated valve Nil Rc Function F VPA4270-14 G N NPT 2 position single pilot 1 T NPTF 2 position double pilot VPA4150-04 2 3 position closed center Port siz

5 Port Air Operated Valve Series VPA450/470 How to Order VPA4 1 5 0 10 VP 5 port Air operated valve Thread type Nil Rc G NPT NPTF Function F N T VPA4270-14 2 position single pilot 2 position double pilot 3 position closed center 3 position exhaust center 1 2 3 4 VPA4150-04 Symbol Port size Applicable valve model Port size Note) 3 position is not available on Series VPA470.

VXB

Fluid Nil No L Yes Thread type*1 5 Steam Nil Rc A G B NPT Body material/Port size/Orifice diameter Symbol Body material Port size Orice diameter A Bronze (CAC) *1 The thread type for the main piping and pilot piping is the same. 3/8 11 B 1/2 14 C 3/4 18 D Stainless steel 316L equivalent Pressure type 3/8 11 E 1/2 14 F 3/4 18 Nil Standard H High pressure Other Special Options Special Entry

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position. 

Through the combination of parallel I/O inputs, 14 points of positioning are available.  The speed and acceleration of the positioning can be set by the switch for each operating direction.  A single signal sent to a dedicated terminal returns an actuator to the home position.