Plug-in Unit Values for double types are when the switch is ON. 4 position dual 3 port valve (A) (A) 4 (B) 2 3 (R2) 5 (R1) 1 (P) N.C. N.C. 4 position dual 3 port valve (B) (A) 4 (B) 2 3 (R2) 5 (R1) 1 (P) N.O. N.O. 4 position dual 3 port valve (C) (A) 4 (B) 2 3 (R2) 5 (R1) 1 (P) N.C.
P P 1 to 10 PFA30m P P P 5 to 50 P P P 10 to 100 31m P P P 20 to 200 P P P 50 to 500 P P P P 150 to 3000 P P P P 300 to 6000 P P P P 6000 to 12000 Series variations For Water Flow rate Remote type Output specification Port size (Rc, NPT, G) Integrated measurement display type Display unit Sensor unit Switch output 3/8 1/2 3/4 range l/min PFW31m 30m 32m PFW704 720 740 PFW504 520 540 P P
M12 connector pin number 1(P) 1(P) Safety limit switch Made by Rockwell Automation Symbol Pin Numbers (Built-in switch 3N.C.)
For critical applications use A at 2 PSI P . A 10 PSI P will save money and mounting space. Method 2: Chart Index Cv against Bore Size vs. Inches of stroke per second. Assuming 80 PSI and P = 80%.
For critical applications use A at 2 PSI P . A 10 PSI P will save money and mounting space. Method 2: Chart Index Cv against Bore Size vs. Inches of stroke per second. Assuming 80 PSI and P = 80%.
Operating pressure P (MPa) P 0.7 MPa MTS 4.
V: Power supply voltage Power consumption P: 7 [kW] Q = P = 7 [kW] P Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
V: Power supply voltage Power consumption P: 7 [kW] Q = P = 7 [kW] P Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
V: Power supply voltage HRSH 090 HRSH 090 Power consumption P: 7 [kW] Q = P = 7 [kW] P HRSH Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption HRSE w Derive the heat generation amount from the power e Derive the heat generation amount from the output. HRZ supply output. Output (shaft power etc.)
V: Power supply voltage Power consumption P: 7 [kW] Q = P = 7 [kW] P Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
Bore size (mm) 125 140 160 180 200 250 300 Refer to p.1.10-7 for How to Order Auto Switches Style.
Maximum Speeds for Each Transfer Load Unit (mm/s) Transfer load (kg) 15 20 25 30 1000 1000 930 740 600 500 Model Note LG1H202PC-500-F LG1H202PC-600-F LG1H202PC-700-F LG1H202PC-800-F LG1H202PC-900-F LG1H202PC-1000-F 700 700 600 600 500 500 500 500 500 500 500 500 500 500 500 500 500 500 Power supply: 100/110(V)AC 10% Compatible controller: LC1-12HC1Power supply: 200/220(V)AC 10% Compatible
1000 500 401 to 500 720 360 1000 500 1000 500 501 to 600 540 270 800 400 1000 500 601 to 700 620 310 940 470 701 to 800 500 250 760 380 801 to 900 620 310 901 to 1000 520 260 Max. acceleration/deceleration [mm/s2] 5000 (Refer to pages 48 to 50 for limit according to work load and duty ratio.)
Without brake C section details Cross section BB l\rodel D F L 1 5 4 231 LXPB B-50 L X P B B . 7 5 173 256 52 L X P B _ B _ 1 0 0 204 281 246 323 LXPB B -.125 L X P B B 1 5 0 271 348 120 90 L X P B _ B _ 1 7 5 296 373 LXPB_B_-200 321 394 ?$rc zs S8[i8$ [10 Camraclnectl' 0i|llomiom $lift $crExi tlE LXPB S With brake I I shows the localion at which origin point swiich operates.
Flow characteristics sJppy pressL,e 1.0vea Reliel flow chatacteristics suppry pressu 1 0 Mpa Pressure chalacteristics setpressure: 04 [4pa 0.9 0.8 P o.z 3 o.o 3 o.s P 0.4 0.8 G n 7 g 0.6 3 o.s E 0.4 -o 0.3 t o.z 0.1 0.0 500 1000 1500 2000 Flow te (l/min IANR)) I E E .9 .9 6 " " a o.2 0 . 1 o 0.0 500 1000 1500 2000 Flow raie (rmin (aNB)) 0.4 0.6 0.8 1.0 1.2 Supply pressure (MPa) series ITV
Maximum Speeds for Each Transfer Load Unit (mm/s) Transfer load (kg) 15 20 25 30 1000 1000 930 740 600 500 Model Note LG1H202PC-500-F LG1H202PC-600-F LG1H202PC-700-F LG1H202PC-800-F LG1H202PC-900-F LG1H202PC-1000-F 700 700 600 600 500 500 500 500 500 500 500 500 500 500 500 500 500 500 Power supply: 100/110(V)AC 10% Compatible controller: LC1-12HC1Power supply: 200/220(V)AC 10% Compatible
= (P P) MPa Viewing the graph To generate a water flow of 4l/min at a differential pressure of 0.1MPa, an effective area with Cv factor 0.28 (VDW303) or more is required.
w l Body ported type Base mourfied type With subplate R Port %,%NPTF X Port P Port (Extemal 3 Port Solenoid Valve Series NVZ100/300/500 NV2100 Gffir,rsn NVZ300 GU@ W f m NVZ500-GEIED I Power Consumption 1.8WDC (2.r wDC MrEol I Response Time NVZ100: 15 mSec or less N\2300/500:20 mSec or less Optimal Accessory/Bracket N\rz100-ooo .t 5.F itvz3020-o8o .u5f Nvz5020-ooo -01T-F Top ported/Nw4a
w l Body ported type Base mourfied type With subplate R Port %,%NPTF X Port P Port (Extemal 3 Port Solenoid Valve Series NVZ100/300/500 NV2100 Gffir,rsn NVZ300 GU@ W f m NVZ500-GEIED I Power Consumption 1.8WDC (2.r wDC MrEol I Response Time NVZ100: 15 mSec or less N\2300/500:20 mSec or less Optimal Accessory/Bracket N\rz100-ooo .t 5.F itvz3020-o8o .u5f Nvz5020-ooo -01T-F Top ported/Nw4a-2Goi
100 200 300 400 500 100 200 300 400 500 Piston speed (mm/s) Horizontal mounting Piston speed (mm/s) Vertical mounting Selection O.K. NO NO YES Is it possible for cable of stroke reading cylinder to be wired separately from the power line? Is there any influence of noise? YES NO YES NO Can the system be operated below 14.5 mT? Do not use it since it will result in a miscount.