Environment L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] Time [s] T = T1 + T2 + T3 + T4 [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be obtained by the following equation.
Note 2)Applicable to VQZ2000 and 3000.
500 200.00 3000 3000 0 85.0 50 100.0 0 0 0.5 Axis 2 INC 500 200.00 3000 3000 0 85.0 50 100.0 0 0 0.5 1 Axis 3 INC 500 200.00 3000 3000 0 85.0 50 100.0 0 0 0.5 > > > > > > > > > > > > > > Axis 1 SYN-I 500 100.00 3000 3000 0 0 0 100.0 0 0 0.5 Axis 2 SYN-I 0 0.00 0 0 0 0 0 100.0 0 0 0.5 2046 Axis 3 SYN-I 0 0.00 0 0 0 0 0 100.0 0 0 0.5 Axis 1 CIR-R 500 0.00 3000 3000 0 0 0 100.0 0 0 0.5 Axis
Soft Start-up Valve AV2000/3000/4000/5000 How to Order F.R.L.
PF2A703H--28 PF2A703H--68 PF2A706H--28 PF2A706H--68 PF2A703H--29 PF2A703H--69 PF2A706H--29 PF2A706H--69 3000 150 3000 150 6000 300 6000 300 PF2A712H--28 PF2A712H--68 PF2A712H--29 PF2A712H--69 12000 600 12000 600 16-11-16 13 For details about certified products conforming to international standards, visit us at www.smcworld.com.
5 VF1000-OMP0001 VF1000/3000/5000 VF1000/3000/5000 VF1000/3000/5000 VF1000/3000/5000 5 5 5 5 / / / / DC 1 1 ()ISO VG32 (MSDS) 2 ()ISO VG32 M5 M5 M5 M5 1/61/4 11.5Nm ) Rc Rc Rc Rc Nm Rc1/8 79 Rc1/4 1214 Rc3/8 2224 6 VF1000-OMP0001 VF1000/3000/5000 VF1000/3000/5000 VF1000/3000/5000 VF1000/3000/5000 5 5 5 5 / / / / ( ( ( ( ) ) ) ) ( ( ( ( ) ) ) ) 3 5m 30 ( ) 1 ()ISO VG32 2 ()ISO VG32
Manifold/Plug-in Type Type 01C Circular Connector Type 01F D-sub Connector Series VFR2000/3000/4000/5000 Series VFR2000/3000/4000/5000 When multi-connector is used, mass-termination between power supply side and solenoid valve can be done.
5000 2000 3000 3000 5000 P P P SJ P P SY (Plug-in metal base) P P P P S0700 (Bar stock) 0700 P 3000 5000 7000 3000 5000 7000 1000 2000 3000 4000 1000 2000 4000 5000 1000 2000 3000 1000 2000 3000 3000 5000 7000 SY (Bar stock) P P P P P SY (Stacking base) P P P P P P SV P P P P P P VQ P P SQ P P P P SZ P P VQZ P P P SYJ P Features 4 SI Unit Integrated-type/For Output Series EX260 Note) RoHS
4000 3000 4000 Speed integral compensation 20 50 20 50 7 20 8.
Socket Hook 1.12-4 VQZ1000/2000/3000 Body Ported Mounting 3 Port Valves on 5 Port Manifolds(VQZ 82 , N.C.
9 10 0.1 0.3 500 2.5 1000 5 0 1,000 2,000 3,000 25 1500 7.5 Maximum speed Vmax (mm/s) 2000 10 32 1/4 1/4 2500 3000 12.5 15 30 6 10 1/4, 3/8 = 0.7 500 4 20 0.5 0.1 0.3 10 10 1/4, 3/8 32 1000 8 1/4, 3/8 3/8 3/8 3/8 1500 2000 2500 3000 12 16 20 24 0 1,000 2,000 3,000 Maximum speed Vmax (mm/s) 40 8 10 1/4, 3/8 500 6 40 = 0.7 30 40 3/8, 12 3/8, 12 3/8, 12 3/8, 12 3/8, 12 1000 1500 2000 2500
2000 m L1 0 10 20 30 Transfer load m (kg) L2 600 L2 (mm) 400 Mer Rolling Yawing m 200 L2 Mer 0 10 20 30 Transfer load m (kg) m 4000 a = 1000 L3 (mm) L3 a = 3000 a = 2000 2000 m Mey a 0 10 20 30 Transfer load m (kg) Refer to page 183 for deflection data. 148 3 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area
Description Note AR1000/2000 AR2500/3000 AR4000 to AR6000 Painted silver Painted black q w Zinc die cast Aluminum die cast Aluminum die cast Polyacetal Body Bonnet Replacement Parts Material Part No. No.
IP65 protection rating Use with Series VQC1000/2000/4000 and SV1000/2000/3000/4000 valves.
light 8 3.2 DC (+) Brown 2.6 2 4.6 4 2.7 4 2.8 Most sensitive position 6 2.8 22 500 (3000) 20 2.7 OUT Black 3.2 2.6 DC () Blue 9.5 6 Most sensitive position 22 500 (3000) 4 D-M9B, D-M9BV Precautions OUT (+) Brown Be sure to read before handling.
Move M Speed Position Accel Decel PushingF TriggerLV PushingSp MovingF Area1 Area2 In pos mm/s mm mm/s^2 mm/s^2 % % mm/s % mm mm mm 0 Absolute 100 0.00 3000 3000 0 0 0 150 15.00 20.00 0.50 1 Absolute 100 25.00 3000 3000 0 0 0 150 15.00 20.00 0.50 2 Absolute 100 15.00 3000 3000 85 85 20 150 15.00 20.00 5.00 Condition 1) In case the pushing operation is Step no.0 to Step no.2.
1 Precision Regulator Series IR1000/2000/3000 G F.R.L.
4000 3000 4000 Speed integral compensation 20 50 20 50 9 16 10.
T1 = V/a1 = 100/3000 = 0.033 [s], T3 = V/a2 = 100/3000 = 0.033 [s] T2 = = = 1.97 [s] L 0.5V(T1 + T3) V 200 0.5100(0.033 + 0.033) 100 T4 = 0.2 [s] Therefore, the cycle time can be obtained as follows.
L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] Time [s] T = T1 +T2 +T3 +T4 [s] L 0.5 V (T1 + T3) V "T1: Acceleration time and T3: Deceleration time can be obtained by the following equation.