Cylinder (Tube) Inner Diameter(φ): 16, Stroke(mm): 245, Cylinder Operation Method: [Double Acting] Double Acting, Rod Operation Method: Single Rods, Main Body Shape: Standard, Additional Function: Standard, Environment, Applications: Standard, Operating Temperature(°C): -10~70, End Locking: No, Valves: No, Operating Pressure(MPa): 0.06~1, Cushion: Air cushion, Auto Switches: M9B, Lead Wire
Cylinder (Tube) Inner Diameter(φ): 16, Stroke(mm): 250, Cylinder Operation Method: [Double Acting] Double Acting, Rod Operation Method: Single Rods, Main Body Shape: Standard, Additional Function: Standard, Environment, Applications: Standard, Operating Temperature(°C): -10~70, End Locking: No, Valves: No, Operating Pressure(MPa): 0.06~1, Cushion: Rubber cushion, Auto Switches: M9B, Lead
Cylinder (Tube) Inner Diameter(φ): 16, Stroke(mm): 250, Cylinder Operation Method: [Double Acting] Double Acting, Rod Operation Method: Single Rods, Main Body Shape: Standard, Additional Function: Standard, Environment, Applications: Standard, Operating Temperature(°C): -10~70, End Locking: No, Valves: No, Operating Pressure(MPa): 0.06~1, Cushion: Rubber cushion, Auto Switches: M9B, Lead
Cylinder (Tube) Inner Diameter(φ): 16, Stroke(mm): 300, Cylinder Operation Method: [Double Acting] Double Acting, Rod Operation Method: Single Rods, Main Body Shape: Standard, Additional Function: Standard, Environment, Applications: Standard, Operating Temperature(°C): -10~70, End Locking: No, Valves: No, Operating Pressure(MPa): 0.06~1, Cushion: Air cushion, Auto Switches: M9B, Lead Wire
Magnetically Coupled Rodless Cylinder , z + A = 100 y, z + A a 100 10 y, z + A = 200 y, z + A = 200 y, z + A = 300 y, z + A = 300 1 1 0 200 400 600 800 1000 1200 0 100 200 300 400 500 600 700 800 Stroke [mm] Stroke [mm] [Graph 6] Allowable load mass by stroke 32 [Graph 5] Allowable load mass by stroke 25 100 100 y, z + A = 0 y, z + A = 0 y, z + A = 50 y, z + A = 50 10 Load mass [kg] Load mass [kg] 10 y, z + A = 100 y, z + A =
Double clevis type Lock location Port (A) (A) (A) (A) (A) (A) (A) (B) (D) (B) (D) (B) (B) (D) (D) (B) (B) (B) (D) (D) (D) CLS (C) (C) (C) (C) (C) (C) (C) Cushion valve 1.
consists of a left support and a right support.
(lbs) Weight (Except Non-rotating Rod) Bore size (inch) Base weight by mounting style Addl weight per inch stroke Addl weight for magnet Addl weight for bumper B 0.059 0.080 0.200 0.218 0.330 0.531 0.680 1.345 C 0.076 0.091 0.200 0.198 0.320 0.581 0.710 N/A E 0.076 0.091 0.280 0.288 0.410 0.681 0.820 1.493 R N/A N/A 0.210 N/A 0.430 N/A 1.020 N/A W N/A N/A 0.300 0.308 0.400 0.781 0.930 1.812
KK KK EA MM MM B B E/2 4-NT ND Deep SN + Stroke (A + B) Stroke B Stroke A G C A TN C G A E XT XT LD + Stroke (A + B) WF WF ZZ + Stroke (A + B) (in) ZZ PC KK Y R XT G A LD Bore (in) DD C NT ND AA EA D B MM WF P K E SN TN EE 9.44 1.30 7/16-20 1.71 1.43 1 15/16 1.26 3/4 7.44 150 (1.5") 1/4-28 3/8 1/4-20 9/32 2.02 0.3 9/16 1 1/8 5/8 1 2.36 9/32 2 5.56 5/8 3/8 9.52 1.30 7/16-20 1.71 1.84 1 15
If driving a load such as a relay that generates a surge voltage,
: A12 Symbol: A13 Symbol: A14 Symbol: A15 R sphere C0.5 DA DA AL MM DA C C DA 30 30 30 H A A H H A H W1 T C Symbol: A16 Symbol: A17 Symbol: A18 Symbol: A19 MM AL DA MM 30 30 30 30 MM MM H A H A H A C H A 46 CP96N/C96N Series Symbol Change of Rod End Shape 1 -XA0 to XA30 Symbol: A20 Symbol: A21 Symbol: A22 Symbol: A23 RD 30 30 MM 30 DA MM 30 DA MM L DB DB C H A T H A T H A B W H A L K Symbol
Consider the possibility of a reduction in the circuit air pressure caused by a power failure. When a rotary actuator is used as clamping mechanism, there is a danger of workpiece dropping if there is a decrease in clamping force, due to a drop in circuit pressure caused by a power failure.
Be certain to adopt a reliable connecting method if the rotary table is used very frequently or if it is used in a location that is exposed to a large amount of vibrations. 5. There may be cases in which a speed reduction circuit or a shock absorber is required.
With end lock Working principle A + A A Series CXS 6, 10, 15, 20, 25, 32 Piston seal A A A CX2 R H R H CXW 1. When the piston is retracting, air is exhausted through both A and A until piston seal H passes air passage A. 2. After piston seal H has passed air passage A, air is exhausted only through A.
Be sure to adopt a reliable connecting method if the rotary table is used very frequently or if it is used in a location that is exposed to a large amount of vibrations. Consider the possibility of a reduction in the circuit air pressure caused by a power failure.
Be sure to adopt a reliable connecting method if the rotary table is used very frequently or if it is used in a location that is exposed to a large amount of vibrations. Consider the possibility of a reduction in the circuit air pressure caused by a power failure.
Devise a safety system so that if a person engages the emergency stop, or if a safety device is tripped during a system malfunction such as a power outage, the movement of the cylinder will not cause a hazard to humans or damage the equipment. Avoid using cylinders for synchronized operations.
D-X 571 B RSQ Series Auto Switch Mounting Auto Switch Proper Mounting Position (Detection at stroke end) and Mounting Height D-M9/M9V D-M9W/M9WV D-M9A/M9AV D-A9/A9V 12 Hs B B A B B A 16, 20 B A Hs B Hs B A Hs B A Hs B A 32 to 50 A A B A A B A Hs D-A7 D-A80 D-A7H D-A80H D-F7 D-J79 D-F7W D-J79W D-F79F D-F7NT D-F7BA D-A73C D-A80C D-J79C D-A79W D-F7WV D-F7V D-F7BAV 16, 20 B A Hs B A Hs
Bore size (mm) Auto switch mounting surface 20, 25 63, 80, 100 32, 40, 50 Port side Port side Port side C A C A C A B B B Auto switch mounting surface Auto switch mounting surface Auto switch mounting surface Auto switch model A, B, C sides Port side Port, A, B, C sides Port, A, B, C sides 1. BQ-2 2. BQ2-012 Two kinds of auto switch mounting brackets are used as a set.
Devise a safety system so that if a person engages the emergency stop, or if a safety device is tripped during a system malfunction such as a power outage, the movement of the cylinder will not cause a hazard to humans or damage the equipment. Avoid using cylinders for synchronized operations.