Air-hydro Unit 800 400 30 Capacity of converter (cm3) 300 CC CC 25 600 500 400 100 CRA1H100-180 200 20 CRA1H100-90 300 300 100 CRA1H80-180 200 200 150 CRA1H80-90 50 CRA1H63-180 100 100 80 CRA1H63-90 CRA1H50-180 60 50 40 50 CRA1H50-90 30 Selected model of rotary actuator 160 100 63 40 20 100 200 300 400 500 600 700 800 Nominal size of converter (mm) Cylinder stroke (mm) How to read the graph (ex: when using
Weight (g) L1 M Width across flats H1 H2 Nozzle size D Model KN-04-100 KN-04-150 KN-06-100 KN-06-150 KN-06-200 KN-08-150 KN-08-200 KN-10-250 KN-10-300 KN-10-350 KN-10-400 KN-10-600 KN-12-350 KN-12-400 KN-12-600 KN-16-400 KN-16-600 KN-20-400 KN-20-600 13 14 19 20 22 28 30 35 36 37 30 28 54 55 40 77 79 117 112 15 15 16 16 16 16 16 17 17 17 17 17 17 17 17 17 17 17 17 27 27.7 30.1 30.8 31.5 33.8
When making a selection, the ratio between the theoretical output and the load should be 0.5 or less. 600 500 63 3,000 200 400 50 2,000 300 Effective oil level stroke (mm) 40 Capacity of converter (cm3) 500 200 Step (2) Select converter 1,000 800 400 30 300 Select the nominal diameter and the effective oil level stroke from data (A),
100, 200, 300, 400, 500, 600 200, 300, 400, 500, 600, 700, 800 Specifications Operating pressure 0 to 0.7MPa Proof pressure 1.05MPa Ambient and fluid temperature 5 to 50C Fluid Turbine oil (40 to 100cSt) Converter standard effective oil level stroke/effective volume (cm3) Nominal size (mm) Limited flow* (l/min) Standard effective oil level stroke (mm) 100 200 300 400 500 600 700 800 50 63
Applicable Controller Power Supply Voltage 100VAC Specification Series LJ1H10 Series LJ1H20 LJ1H1021H-K (8mm lead) LJ1H2021F-K (5mm lead) 250 400 225 350 12kg 6kg 200 300 175 250 Speed (mm/s) Speed (mm/s) 150 8kg 13kg 125 200 10kg 100 150 14kg 75 100 15kg 50 50 25 0 100 200 Stroke (mm) 300 400 0 100 200 300 400 500 600 Stroke (mm) When an actuator is operated under conditions that exceed
400 400 L2 mm L2 mm L2 mm Rolling Yawing W 200 200 200 L2 M2 0 10 20 30 0 20 40 60 0 2 4 6 8 10 Work load (W) kg Work load (W) kg Work load (W) kg W 3000 2000 2000 a=1000 a=1000 a=1000 2000 L3 mm L3 mm L3 mm L3 1000 1000 1000 a=2000 a=2000 W a=2000 a=3000 a=3000 a=3000 M3 a 0 20 40 60 0 2 4 6 8 10 0 10 20 30 Work load (W) kg Work load (W) kg Work load (W) kg 600 600 600 400 400 400 Pitching
0.3 0.198 0.2 0.2 0.1 0.1 0.196 0 200 400 600 800 1000 1200 1400 0 0.2 0.1 0.3 0.4 0.6 0.5 0.8 0.7 0.9 1.0 0 200 400 600 800 1000 Flow rate l/min (ANR) Relief flow rate l/min (ANR) Supply pressure P1 MPa 6 Series IR1000/2000/3000 Series IR3000 Flow rate characteristics Relief characteristics Pressure characteristics Testing methods conform to JIS B8372.
S4 40 400 S4 100 to 120VAC 100 to 120VAC LECSB1 LECSB1 B1 B1 25 100 S6 25 100 S6 Motor option 32 200 S7 AC servo motor (Absolute encoder 32 200 S7 AC servo motor (Absolute encoder LECSB2 LECSB2 200 to 230VAC B2 200 to 230VAC B2 B1,B2 B1,B2 Without lock Nil Without lock Nil 400 400 40 40 S8 S8 Cable length With lock B With lock B Without cable Without cable Nil Nil Ball screw lead Stroke
The highest value in the past 15 seconds is displayed relative to the rated torque of 100%. 0 to 400 % 14 Instantaneous torque Torque that occurred instantaneously is displayed. The value of the torque that occurred is displayed in real time relative to the rated torque of 100%. 0 to 400 % 15 Within one-revolution position Position within one-revolution is displayed in encoder pulses.
, (5) Circulating fluid flow rate: Rated flow rate, (6) Power supply: 400 VAC, (7) Piping length: Minimum 5 With the pressure control mode that controls the pressure automatically with the inverter.If the pressure control mode is not necessary,use the flow control function or the pump output setting function. 6 Required flow rate to maintain the cooling capacity.
Motor Output Slide Screw Slider Guide 50W 20mm/20mm lead Horizontal Mount How to Order Stroke LJ1H101 SC 1 F 2 Cable entry direction Top entry Cable length Power supply voltage Cable entry direction Left entry 2 3 4 5 2m 3m 4m 5m 100/110VAC (50/60Hz) 200/220VAC (50/60Hz) 1 2 F R L T B Axial Right Left Top Bottom Axial entry Right entry Bottom entry Specifications 100 5.4 200 6.1 300 6.9 400
/ When lubricated, use turbine oil #1(ISO VG32) VH600 Optional specifications VH300 Bottom porting VH410 VH300, 400 Panel mount VH200, 300, 400 VH210 Different P port location* All models 1(P) port is located on handle side.
The CLA2 cylinder acts as an air-operated brake with spring-backup. When external position feedback sends a signal to an air valve, the brake is actuated and fast-acting shoes grab the actuator shaft. When pressure is removed, the spring automatically locks the brake onto the shaft. Three locking mechanisms are available: spring lock, air pressure lock and air/spring pressure lock. The CLA2
The CLA2 cylinder acts as an air-operated brake with spring-backup. When external position feedback sends a signal to an air valve, the brake is actuated and fast-acting shoes grab the actuator shaft. When pressure is removed, the spring automatically locks the brake onto the shaft. Three locking mechanisms are available: spring lock, air pressure lock and air/spring pressure lock. The CLA2
The CLA2 cylinder acts as an air-operated brake with spring-backup. When external position feedback sends a signal to an air valve, the brake is actuated and fast-acting shoes grab the actuator shaft. When pressure is removed, the spring automatically locks the brake onto the shaft. Three locking mechanisms are available: spring lock, air pressure lock and air/spring pressure lock. The CLA2
The CLA2 cylinder acts as an air-operated brake with spring-backup. When external position feedback sends a signal to an air valve, the brake is actuated and fast-acting shoes grab the actuator shaft. When pressure is removed, the spring automatically locks the brake onto the shaft. Three locking mechanisms are available: spring lock, air pressure lock and air/spring pressure lock. The CLA2
The CLA2 cylinder acts as an air-operated brake with spring-backup. When external position feedback sends a signal to an air valve, the brake is actuated and fast-acting shoes grab the actuator shaft. When pressure is removed, the spring automatically locks the brake onto the shaft. Three locking mechanisms are available: spring lock, air pressure lock and air/spring pressure lock. The CLA2
The CLA2 cylinder acts as an air-operated brake with spring-backup. When external position feedback sends a signal to an air valve, the brake is actuated and fast-acting shoes grab the actuator shaft. When pressure is removed, the spring automatically locks the brake onto the shaft. Three locking mechanisms are available: spring lock, air pressure lock and air/spring pressure lock. The CLA2
The CLA2 cylinder acts as an air-operated brake with spring-backup. When external position feedback sends a signal to an air valve, the brake is actuated and fast-acting shoes grab the actuator shaft. When pressure is removed, the spring automatically locks the brake onto the shaft. Three locking mechanisms are available: spring lock, air pressure lock and air/spring pressure lock. The CLA2
The CLA2 cylinder acts as an air-operated brake with spring-backup. When external position feedback sends a signal to an air valve, the brake is actuated and fast-acting shoes grab the actuator shaft. When pressure is removed, the spring automatically locks the brake onto the shaft. Three locking mechanisms are available: spring lock, air pressure lock and air/spring pressure lock. The CLA2