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.
Mechanically Jointed Rodless Cylinder/Cam Follower Guide Type MY2C25G MY2C40G 14 Seal belt MY16-16AStroke MY25-16AStroke MY40-16AStroke 1 15 Dust seal band MY2H16-16BStroke MY2H25-16BStroke MY2H40-16BStroke 1 KA00309 KA00309 KA00320 14, 15 and 53 are not included in the seal kit.
0 to 5 mm on both ends MXP12 MXW Reed auto switch (2-wire, 3-wire) Solid state auto switch (2-wire, 3-wire) 2-color indication solid state auto switch (2-wire, 3-wire) Auto switch MXJ +1 0 mm Stroke length tolerance MXP Theoretical Output (N) MXY MXP16 Operating pressure (MPa) Bore size (mm) 6 8 10 12 16 Piston area (mm2) 0.2 6 10 16 23 40 MTS 0.7 20 35 55 79 141 0.6 17 30 47 68 121 0.5 14
Machining tapped hole, drilled hole and pin hole additionally -XC79 -XB13 Low speed cylinder (5 to 50 mm/s) Theoretical Output -XC3 Special port location (N) -XC19 Intermediate stroke (Spacer type) Piston area (mm2) Operating pressure (MPa) Rod size (mm) Bore size (mm) Operating direction -XC22 Fluororubber seal 0.3 0.5 0.7 19 14 OUT 8 28 3 6 14 10 IN 6 21 55 39 OUT 23 78 4 10 46 33 IN 19