PFxx-OMY0005 (2 s or 5 s can be selected) 13 Pressure 0.1 s (Variable at 0 to 30 s/0.01 s step) Temp. 1 s Protection IP65 Environmental Withstand voltage 1000 V AC for 1 minute between terminals and housing resistance Insulation resistance 50 M between terminals and housing (with 500 VDC megger) Operating temperature range Operation: 0 to 50 oC, Storage: -10 to 60 oC (No condensation or freezing) Operating
5 VDC R 3 VDC * There is no S option for AC, since a rectifier prevents surge voltage generation.
Note 10) Fixed unit: kPa Note 11) When K, Q, R or S is selected, select K for e Combination of Supply Valve and Release Valve.
0.5 s, 0.15 s, 1.0 s, 2.0 s or 5.0 s Hysteresis 4 Variable Protection Short circuit protection Delay time 5 3.4 ms or less Variable at 0 to 60 s/0.01 step -89No.PF-OMY0002 Model PFMC7501 PFMC7102 PFMC7202 Voltage output: 1 to 5 VDC, 0 to 10 VDC (only when the power supply voltage is 24 VDC) Output type Analogue output 6 Current output: 4 to 20 mA (Refer to analogue output graph) Voltage
of 0.5 MPa) Type of actuation Without light/surge voltage suppressor S, Z type 26 or less 2 position single 18 or less 22 or less 2 position double 32 or less 38 or less 3 position 19 or less SX7000 With light/surge voltage suppressor Response time (ms) (at the pressure of 0.5 MPa) Type of actuation Without light/surge voltage suppressor S, Z type 38 or less 2 position single 27 or less
D 1 F Long stroke model MHKL 2 20 S 1 F F9NL D Number of auto switch Number of fingers S 2 pcs. 1 pc. 2 2 finger Bore size 12 16 20 25 12mm 16mm 20mm 25mm Actuation D S C Double acting Single acting (Normally open) Single acting (Normally closed) Finger material 1 Carbon steel Stainless steel Dust cover material F S Chloroprene rubber Fluoro rubber Silicon rubber Auto switch Without auto
Find the value of Wmax when Va = 300mm/s from
Relief time from 0.5 MPa to 0.1 MPa Port 1 (P) pressure (MPa) VEX130 Set point Relief time (S) Pressure (MPa) Port 1 (P) pressure (MPa) VEX150 Tank size (l) Set point 2. Relief time from 1000 l tank Port 1 (P) pressure (MPa) VEX170 Set point Relief time (S) 3.
L Speed:V [mm/s] Calculation example) T1 to T4 can be calculated as follows. a1 a2 T = T1 + T2 + T3 + T4 [s] Time [s] T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] P T1: Acceleration time and T3: Deceleration time can be obtained by the following equation.
Norte Parque Industrial Valle Grande, Lampa Santiago, Chile TEL: 02-270-8600 FAX: 02-270-8601 SWEDEN SMC Pneumatics Sweden AB Ekhagsvgen 29-31, S-141 05 Huddinge, Sweden TEL: 08-603-07-00 FAX: 08-603-07-10 ARGENTINA SMC Argentina S.A.
Port Direct Operated Poppet Solenoid Valve Series VKF300 Series VKF300 Compact with large flow rate Body width 18mm Cv0.25 (Standard: Base mounted type) Cv0.20 (Standard: Body ported type) Various manifold piping directions Output port: Manifold set-up allowing 360 rotation of 2(A) entry direction (in 90 increments) Types 20 and 21 Can be used for vacuum (101.2kPa) (valve leakage 0.03cm/s
(the value under the prescribed conditions) 0.8 0.7 0.6 Subsonic Critical pressure 0.5 0.4 0.45 0.45 Sonic 0.4 0.4 0.35 0.35 0.3 0.3 0.3 0.25 0.2 0.25 0.2 0.2 0.15 0.15 0.1 0.05 0.1 0.1 0.05 S = 0.54 VDW101 10 60 50 40 30 20 10 20 VDW 1.6 S = 1.2 125 100 75 50 S = 3.2 VDW202.3 350 300 250 200 150 100 50 S = 5.8 VDW203.2 600 500 400 300 200 100 S = 2.8 VDW302 300 250 200 150 100 50 VDW303
Use a fluid with a kinematic viscosity of 50 mm2/s or less.
(the value under the prescribed conditions) 0.8 0.7 0.6 Subsonic Critical pressure 0.5 0.4 0.45 0.45 Sonic 0.4 0.4 0.35 0.35 0.3 0.3 0.3 0.25 0.2 0.25 0.2 0.2 0.15 0.15 0.1 0.05 0.1 0.1 0.05 S = 0.54 VDW101 10 60 50 40 30 20 10 20 VDW 1.6 S = 1.2 125 100 75 50 S = 3.2 VDW202.3 350 300 250 200 150 100 50 S = 5.8 VDW203.2 600 500 400 300 200 100 S = 2.8 VDW302 300 250 200 150 100 50 VDW303
. 1 ) 5 . 5 3 ( 6 1 . 1 ) 5 . 9 2 ( 1 9 . 0 ) 3 2 ( 8 2 . 0 ) 7 ( 4 / 1 S 5 3 1 1 H R K 1 1 / 6 1 ) 6 4 . 7 1 ( 0 8 . 0 ) 3 . 0 2 ( 5 . 2 3 8 / 3 S 6 3 1 1 H R K 2 2 . 1 ) 1 3 ( 6 9 . 0 ) 5 . 4 2 ( 5 . 0 3 8 / 3 2 / 1 S 7 3 1 1 H R K 7/8 ) 3 2 . 2 2 ( 4 1 . 1 ) 9 2 ( 3 8 . 0 ) 1 2 ( 5 . 7 4 5 3 . 0 ) 9 ( 4 4 . 1 ) 5 . 6 3 ( 0 2 . 1 ) 5 . 0 3 ( 4 9 . 0 ) 4 2 ( 4 / 1 S 5 3 3 1 H R K 7/8 )
Y v (1) (1.0W) (3) VQZ1000 VQZ1000-S-01 01 [Rc1/8] 02 [Rc1/4] 02 [Rc1/4] 03 [Rc3/8] L Latching v v (1) Note 1) Option Note 2) When specifying more than one option, please indicate them alphabetically. Note 3) K (High pressure) and Y (Low wattage) are not available. Electrical entry: L/ M plug connector only.
L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] Time T = T1 + T2 + T3 + T4 [s] [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be found by the following equation.
Find the value of Wmax when Va = 300 mm/s from Graph (1). L2 L1 xStatic moment Examine M2. Since M1 & M3 are not generated, investigation is unnecessary. M2 = W L1 = 10 0.05 = 0.5 [Nm] 2 = M2/M2 max = 0.5/16 = 0.031 W = 1 [kg] = 10 [N] W M Find the value M2 max when Va = 300 mm/s from Graph (3).
speed: Va = 300 [mm/s] Load weight: W = 1 [kg] L1 = 10 mm L2 = 30 mm L3 = 30 mm Kinetic Energy Enumerate the operating conditions considering the mounting position and workpiece configuration.