Stability of suction position, internal structure and materials Pad diameter: 63, 80 Compared with the ZP series ( ) * The pad material when weight was measured is NBR. 8 16.4 ZP (Current model) ZP3E ZP2/Flat type ZP3E/Flat type with groove Pad diameter Suction port Area [mm2] Suction port Area [mm2] 32 8.4 55.4 40 6 28.3 50 63 8 50.2 16.4 211 80 100 10 78.52 125 Pad diameter Weight [g] Weight [g] 32 56 40 91 57 50 110 75
86.5 30 30 32 36 36 36 41 41 41 46 46 50 55 60 65 75 5.5 7 8 10 13 13 17 17 17 19 19 19 22 24 24 27 12 12 13 14 14 14 16 16 16 18 18 20 21 23 25 29 2.4 3.2 4 5 5 5 6 6 6 7 7 7 8 10 10 11 6.4 8.1 9.2 11.5 15 15 19.6 19.6 19.6 21.9 21.9 21.9 25.4 27.7 27.7 31.2 5.3 6.8 7.8 9.8 12.5 12.5 16.5 16.5 16.5 18 18 18 21 23 23 26 CE2 ML2B C J G5-S CV MVGQ CC RB Floating Joint Replacement Parts Dust
Full stroke Note 1) 25, 50, 75, 100, 125, 150, 175, 200, 250, 300 Bore size (mm) Note First-stage stroke Note 2) 5 mm to "Full stroke" 5 mm RS Q G Note 1) RZQB (through hole type) is only available for full strokes 25, 50 and 75. Note 2) Available in 1 mm increments.
Wireless system configuration example 75 6.1. Flow chart for using the wireless system (Refer to Step 2) 75 6.2. System Construction Example 76 6.3.
Wireless system configuration example 75 6.1. Flow chart for using the wireless system (Refer to Step 2) 75 6.2. System Construction Example 76 6.3. Preparation 78 6.4. (1) Input and output size of the wireless slave 82 6.5.
Wireless system configuration example 75 6.1. Flow chart for using the wireless system (Refer to Step 2) 75 6.2. System Construction Example 76 6.3.
Parts and description Fig. 12-1 Allocation of parts on the EX245-DY1 Note: EX245-DY1 is the new part number for the EX245-DY1-X37 75 No.EX##-OMY0004 12.2.
EX245-DY1 . 75 12.1. . 75 12.2. . 76 12.3. . 77 12.4. . 77 12.5. LED . 78 12.6. . 79 13. . 80 13.1. . 80 13.2. Y . 81 13.3. . 82 14. . 83 14.1. EX245-FPS1/2/3 . 83 14.2. . 85 15. . 86 15.1. EX245-FPS1/2/3 . 86 15.2. EX245-DX1 . 88 15.3. EX245-DY1 . 88 16. . 89 16.1. . 89 16.2. PROFIsafe . 99 16.3.
(Page 75) Only when a temperature sensor is connected. 2011 0x07DB 0 R Temp.
75 71 Operation manual (for installation/operation) (English 1, Japanese 1) Particle filter set for CH1 Particle filter set for CH2 Accessories Anchor bracket 2pcs.
75 71 Operation manual (for installation/operation) (English 1, Japanese 1), Particle filter set for CH1, Particle filter set for CH2, DI filter for CH1, Accessories DI filter for CH2, Anchor bracket 2pcs.
75 71 Operation manual (for installation/operation) (English 1, Japanese 1) Particle filter set for CH1 Particle filter set for CH2 Accessories Anchor bracket 2pcs.
The acquisition of waveform will be canceled with Stop button. 75 - 5.11.3 Operation Instruction When the PLC on the master side sends the operation command, the actuator will operate. When the trigger conditions in 5.11.1 (2) are satisfied, the operation waveforms can be captured.
No.CE*-OMP0002-A 3 CEU1 SMC FG 0~50 35~85%RH 3 CEU1CE10.1mm 3 CE1-R** CE1** 3 CEU1** FG 3 DIN 3 2m/s 3 (100ms) 2 2 2 2-1 1 1 1 CEU1 4 2 2 2 2-2 2 2 2 3 3 3 3-1 1 1 1 : : 1 1 (mm) (mm) 25 25 25 25 50 50 50 50 75 75 75 75 100 100 100 100 125 125 125 125 150 150 150 150 175 175 175 175 200 200 200 200 250 250 250 250 300 300 300 300 400 400 400 400 500 500 500 500 12 12 12 12
If power is supplied to the [BK RLS] terminal continuously, the lock will be released, and workpieces 75 - may be dropped at stop (EMG). 15Driver and its peripheral devices /Specific product precautions 15.1 Design and Selection Warning 1. Be sure to apply the specified voltage. Otherwise, a malfunction and breakage of the driver may be caused.
(Type V only) Component equipment Spacer Y400(T)-A Compressed Air 0.31.0 Fluid Range of operating conditions Inlet air pressure MPa -550 Inlet air temperature oC Ambient temperature oC *Note1 -550 *Note1 Standard Outlet air atmospheric pressure dew point oC -20 -15 -40 *Note2 Performanc Inlet air flow rate L/min(ANR) 360 586 329 550 93 135 Outlet air flow rate L/min(ANR) 300 500 300 500 75
.+20 mA 0 to 2100 32768 to 34868 0 to 2100 -0 to -2100 +0.00 to +21.00 mA -0.00 to -21.00 mA 0..10 V 0 to 1050 0 to 1050 +0.00 to +10.50 V 0..5 V 0 to 525 0 to 525 +0.00 to +5.25 V 1..5 V 75 to 525 75 to 525 +0.75 to +5.25 V 0..20 mA 0 to 2100 0 to 2100 +0.00 to +21.00 mA 4..20 mA 300 to 2100 300 to 2100 +3.00 to +21.00 mA 1: Follow the methods below when assigning the user set upper and
Operation Instructions . 74 9.1 Outline of the Operation instruction . 74 9.2 Operation procedure of parallel I/O signals . 74 (1) From power on to Return to origin . 74 (2) Positioning operation . 75 (3) Pushing operation . 76 (4) HOLD . 77 (5) RESET . 77 (6) STOP . 79 (7) Area output . 80 10.
PA05 100 100 Electronic gear numerator *3 PA06 1 100(Positioning mode: 10) Electronic gear denominator *3 PA07 1 24 16 8 30 20 10 27 42 Feel length multiplication (STM) (Multiplier) PE02 0 0(Less than stroke 1000)/ 0001(Stroke 1000 or more) Home position return type PE03 0010 3Stopper type *4 Home position return direction PE03 0010 1 (Motor side) Home position return Speed (rpm) PE04 500 75
Heavy load Standard load Medium load Light load 1 10 50 100 200 1 0.25 0.49 0.98 1.96 2 20 2 0.49 75 200 400 0.74 1.47 2.94 3 30 3 0.74 100 300 600 0.98 1.96 3.92 4 40 125 400 800 4 0.98 1.23 2.45 4.90 5 50 5 1.23 150 500 1000 1.47 2.94 5.88 6 75 200 600 1200 6 1.47 1.96 3.92 7.84 7 100 250 700 1400 7 1.72 2.45 4.90 9.80 8 300 300 800 1600 8 1.96 2.94 5.88 11.76 9 500 500 900 1800 9 2.21