Mounting: A (Both Ends Tapped), Bore Size: 40mm, Thread: TF (G Thread), Full Stroke: 200mm, First Stroke: 120mm
Mounting: A (Both Ends Tapped), Bore Size: 40mm, Thread: TF (G Thread), Full Stroke: 200mm, First Stroke: 130mm
Mounting: A (Both Ends Tapped), Bore Size: 40mm, Thread: TF (G Thread), Full Stroke: 200mm, First Stroke: 100mm
Cylinder (Tube) Inner Diameter(φ): 40, Stroke(mm): 200/100, Cylinder Operation Method: [Double Acting] Double Acting, Rod Operation Method: Double rod, Main Body Shape: [Block Shape] Block shape, Additional Function: With Intermediate Stop Function / Stroke with Adjustment, Environment, Applications: Standard, End Locking: No, Valves: No, Operating Pressure(MPa): 0.1~1.0, Support bracket:
Cylinder (Tube) Inner Diameter(φ): 40, Stroke(mm): 200/130, Cylinder Operation Method: [Double Acting] Double Acting, Rod Operation Method: Double rod, Main Body Shape: [Block Shape] Block shape, Additional Function: With Intermediate Stop Function / Stroke with Adjustment, Environment, Applications: Standard, End Locking: No, Valves: No, Operating Pressure(MPa): 0.1~1.0, Support bracket:
Mounting: Both Ends Tapped, Bore Size: 40mm, Thread: G Thread, Full Stroke: 200mm, First Stroke: 120mm, Auto Switch: -, Lead Wire or Prewired Connector: -, Number: -
Mounting: Both Ends Tapped, Bore Size: 40mm, Thread: G Thread, Full Stroke: 200mm, First Stroke: 150mm, Auto Switch: -, Lead Wire or Prewired Connector: -, Number: -
Thomas Oil-less Linear Diaphragm Compressor / Vacuum Pump, 115/60/1 Flow Rate: .95 LPM , .95 LPM, Max Pressure: 8.7 PSIG / 241 in H20 / 600 mbar , 8.7 PSIG / 241 in H20 / 600 mbar, Max Vacuum: 5.9 in HgV / -200 mbar , 5.9 in HgV / -200 mbar, Voltage (50 Hz): 230, Frequency (Hz): 50, Phase: 1-phase, Item Dimensions: Length: 2.83 in / 72 mm Width: 2.09
AN Model Model Model Port size R(PT) Effective area (mm2) Weight (g) Dimensions (mm) Weight Effective area Port size Model Dimensions (mm) R(PT) (mm2) (g) AN200-02 35 17 63 22 19 25 84 25 22 35 92 30 27 165 107 46 36 225 132 50 41 490 200 74 55 580 233 74 60 820 263 86 70 A B D A B D 1 4 1 4 AN202-02 35 16 64 22 19 33 84 28 24 47 95 34 24 AN300-03 60 3 8 AN302-03 60 3 8 AN402-04 90 1 2 AN400
Model L K J M N T W H E LQ2P2A 1/4" 3/16" 1/8" 3/8" 1/4" 1/2" 3/8" 3/4" 1/2" 14.5 LQ2P2B LQ2P2C 18 6 19 19.9 7 16 73 LQ2P5B LQ2P5A LQ2P4B LQ2P4A LQ2P3B LQ2P3A 83 20.5 24 6 22 26.2 7 24 95 82 24.5 30 9 28 33.1 21 7 30 110 93 30.5 36 9 32 40 26 10 36 108 Union: LQ2U Metric sizes Applicable tubing O.D.
1.05 MPa Maximum operating pressure 0.5 MPa Minimum operating pressure Note 1) 0.005 MPa 10 to 80C Ambient and fluid temperature Cushion Rubber bumper (Provided as standard) Lubrication Note 2) Not required (Non-lube) Rod end thread Female thread Rod end thread tolerance JIS class 2 +1.0 0 Stroke length tolerance Piston speed Note 3) 0.3 to 300 mm/s (Refer to page 19.) 150 cm3/min or less 200
When the knob is not easily locked, turn it left and right a little and then push it (when the knob is locked, the "orange mark", i.e., the gap will disappear). 0.1 0.1 0 0 0 0 1000 2000 3000 4000 5000 200 400 600 800 Flow rate L/min (ANR) Flow rate L/min (ANR) AR25 Rc 3/8 AR50 Rc 1 0.6 0.6 0.5 0.5 Outlet pressure MPa Outlet pressure MPa 0.4 0.4 0.3 0.3 0.2 0.2 0.1 0.1 0 0 0 0 500 1000 1500
) Discharge pressure (MPa) Discharge pressure (MPa) SUP = 0.5MPa 0.4 0.4 0.3 SUP = 0.5MPa SUP = 0.5MPa 0.4MPa 0.3 0.3 0.4MPa 0.4MPa 0.2 0.3MPa 0.2 0.2 0.3MPa 0.3MPa 0.1 0.1 0.1 0.2MPa 0.2MPa 0.2MPa 00 5 10 15 00 5 10 15 00 5 10 15 Flow rate (l/min) Flow rate (l/min) Flow rate (l/min) PAP3313-T13: Flow rate characteristics (10Hz)* PAP3313-T13: Air consumption PAP3310-T13: Air consumption 200
lines, the pilot air pressure for this point is approximately 0.25MPa. 40 20 1 0 2 3 4 5 6 7 Cycle (Hz) PA513 Air consumption 400 350 Air consumption l/min (ANR) SUP=0.5MPa Note 1) Even when switching cycles are changed for PA3000 with SUP=0.2MPa or PA5000 with SUP=0.2MPa or 0.3MPa, there is almost no change in the lifting height. 300 250 SUP=0.3MPa Calculating air consumption (for PA3000) 200
lines, the pilot air pressure for this point is approximately 0.25MPa. 40 20 1 0 2 3 4 5 6 7 Cycle (Hz) PA513 Air consumption 400 350 Air consumption l/min (ANR) SUP=0.5MPa Note 1) Even when switching cycles are changed for PA3000 with SUP=0.2MPa or PA5000 with SUP=0.2MPa or 0.3MPa, there is almost no change in the lifting height. 300 250 SUP=0.3MPa Calculating air consumption (for PA3000) 200
Thomas Oil-less Diaphragm Compressor / Vacuum Pump Flow Rate: .95 LPM , .95 LPM, Max Pressure: 2.9 PSIG / 200 mbar , 2.9 PSIG / 200 mbar, Max Vacuum: 11.2 in HgV / -380 mbar , 11.2 in HgV / -380 mbar, Voltage (DC): 3.5, DC Motor Type: Low Cost, Item Dimensions: Length: 1.69 in / 43 mm Width: .91 in / 23 mm Height: 1.46 in / 37 mm , Length: 1.69
Thomas Oil-less Linear Diaphragm Compressor / Vacuum Pump, 12v/50Hz Flow Rate: .95 LPM , .95 LPM, Max Pressure: 8.7 PSIG / 241 in H20 / 600 mbar , 8.7 PSIG / 241 in H20 / 600 mbar, Max Vacuum: 5.9 in HgV / -200 mbar , 5.9 in HgV / -200 mbar, Voltage (50 Hz): 12, Frequency (Hz): 50, Phase: 1-phase, Item Dimensions: Length: 2.83 in / 72 mm Width: 2.09
IC circuit 5 V A76H A96V A96 Yes No A72 A73 A80 A72H A73H A80H 200 V Solid state switch Reed switch Grommet 100 V 12 V IC circuit A90V A93V A90 A93 5 V, 12 V 12 V 12 V Relay, PLC 2-wire No Yes 24 V A73C A80C A79W F7NV F7PV F7BV J79C F7NWV Connector IC circuit 5 V, 12 V Grommet Diagnostic indication (2-color indication) Yes 3-wire (NPN) 3-wire (PNP) F79 F7P J79 M9NV M9PV M9BV M9N M9P M9B 5
LC1-1-S1 (PC-98 (MS-DOS) edition LC1-1-W1 (Windows 95 edition) and LC1-1-R (dedicated communication cable) Power supply 1 2 Note 2) 100/110VAC 50/60Hz 200/220VAC 50/60Hz or LC1-1-T1(Teaching box) are required. For ordering information, refer to the option part numbers on page 62.
15 10 Commands for virtual I/O operation by serial communication 195 30 15 110 20 10 Reading of alarm history (4 words) 215 30 15 120 20 10 Clearing of alarm history 245 35 15 135 20 10 Confirmation of communication connection 165 25 10 95 15 10 The communication response time does not include the processing time of the upper level device.