Air Cylinder of band and screw) BMA2-050AS (A set of band and screw) BMA2-063AS (A set of band and screw) D-G5/K59 D-G5W/K59W D-G5BA/G59F D-G5NT D-B5/B64 D-B59W D-G5NB (A set of band and screw) BA-02 BA-01 (A set of band and screw) BA-32 (A set of band and screw) BA-04 (A set of band and screw) BA-05 (A set of band and screw) BA-06 (A set of band and screw) BA-08 (A set of band and screw) BA-10 (A
For a facility with a large installation area that can vent the air naturally: Make an air outlet on a wall at a high level and air inlet on a wall at a low level, to allow for adequate airflow. 2. For a facility with a small installation area that can not vent the air naturally: Make a forced air exhaust vent on a wall at a high level and an air inlet on a wall at a low level. 3.
a = 2000 L1 (mm) Pitching Mep m : Transfer load (kg) a : Work piece acceleration (mm/s) Me: Dynamic moment L : Overhang to work piece center of gravity (mm) a = 3000 2000 m L1 0 10 20 30 Transfer load m (kg) L2 600 400 L2 (mm) Mer Rolling Yawing m 200 L2 Mer 10 20 30 0 Transfer load m (kg) m a = 1000 4000 a = 2000 L3 (mm) a = 3000 L3 2000 m Mey a 10 20 30 0 Transfer load m (kg) Refer to
When a load, such as a relay or solenoid, which generates surge is directly driven, use a type of switch with a built-in surge absorbing element. 8.
For a facility having a small installation area (that can not vent the air naturally): Make a forced air exhaust vent on a wall at a high level and an air inlet on a wall at a low level. 3.
a guide, use a solenoid valve with a large effective area for the unlocking solenoid.
When a load, such as a relay or solenoid, which generates surge is directly driven, use a type of switch with a built-in surge absorbing element. 8.
For a facility having a small installation area (that can not vent the air naturally): Make a forced air exhaust vent on a wall at a high level and an air inlet on a wall at a low level. 3.
When a load, such as a relay or solenoid, which generates surge is directly driven, use a type of switch with a built-in surge absorbing element. 8.
When a load, such as a relay or solenoid, which generates surge is directly driven, use a type of switch with a built-in surge absorbing element. 8.
When a load, such as a relay or solenoid, which generates surge is directly driven, use a type of switch with a built-in surge absorbing element. 8.
When a load, such as a relay or solenoid, which generates surge is directly driven, use a type of switch with a built-in surge absorbing element. 8.
Stabilize the source pressure by providing a tank and a vacuum regulator. Provide a vacuum switch valve to individual lines.
If there is a risk of contact, provide safety measures such as a cover or a system that uses sensors that will activate an emergency stop before contact is made. 2. Use a balance circuit in which lurching of the piston is taken into consideration.
When a load, such as a relay or solenoid, which generates surge is directly driven, use a type of switch with a built-in surge absorbing element. 8.
AD27-6-A With bowl guard AD27-6C-A AD37m-6-A AD47m-6-A Normally open (N.O.) With bowl guard AD38m-6-A AD48m-6-A Automatic (Auto drain) Manual With drain cock C2SF-2-A C3SF-2-A C4SF-2-A With level gauge C3LF-8-A C4LF-8-A With drain guide (without valve function) C2SFm-2J-A C3SFm-2J-A C4SFm-2J-A With level gauge C3LFm-8J-A C4LFm-8J-A Metal Normally closed (N.C.)
B A B A A A A A A 2.PUSH 2.PUSH B B B B 1.TURN 1.TURN VQZ 28 5.5 35 74.5 SMC VQD 13 2-M4 clamp screw EXH outlet M5: External pilot port 9 D side U side Stations 1 2 3 4 5 6 7 8 n C8: 3(R) port Lead wire length: L0, 600 mm L1, 1500 mm L2, 3000 mm C8: 1 (P) port 9 For top ported 4 4 4 4 4 4 4 4 R 3 60 37 26 (49.5) 2 1 2 2 2 2 2 2 2 P 29.5 13 7.5 P = 11.5 44 29.5 2n-C3, C4, C6, M5 (4(A),