Diaphragm Style Flow Switch Series IFW5 For details about certified products conforming to international standards, visit us at www.smcworld.com. 1 One set of diaphragms monitors the pressure differential and operates the micro switch through the rod w and operating lever r. The rod w moves downward with increased flow, and upward with decreased flow. Moving the gear t upward or downward by the adjusting gear e manually offers an electric signal at various flow rates.
No. q w e r t y u Description Adjusting screw Setting spring Lever Piston Micro switch Bottom cover O-ring Material Rolled steel Rolled steel Rolled steel Polyacetal Aluminum die-cast NBR IN Ex. 3) + u Plug PLC 3. Thread using for the terminal is M3. Only for gasket mounting style Mounting/Piping Dimensions Caution 1. Allow the space required for maintenance.
2 w y r !0 e New PFA q Body New PFA w Sensor Super PFA e Tube PPS r Housing A PPS t Housing B PPS y Housing C POM u Bushing PPS i Cap FKM o Gasket FKM !0 O-ring Stainless steel 304 !1 Thread PVC !2 Lead wire !1 q t i PF2D540 o !0 u !0 !2ywr e !
Material Cast iron Undercover Body Plated Cast iron Aluminum alloy w e Cover Plate r Iron t Stainless steel Valve element A Valve element B Piston Return spring y Stainless steel u Aluminum alloy i Piano wire o Stainless steel Valve seat !0 Stainless steel Rod !1 Stainless steel Parallel pin !2 Refer to How to Order in page 17-4-32. Pilot solenoid valve 17-4-36
VXZ2230 VXZ2232 VXZ2240 VXZ2242 VXZ2350 VXZ2352 VXZ2360 VXZ2362 H Y F X E W D U V C S T B K R A J N Q N 79.5 87.5 101.5 106.5 L 108 117 130 135 1 4 3 8 , 28 35 43 45 26 30 38 43 14 17 22 22 7.5 8.5 9 9 24 33 42 47 1.6 2.3 2.6 2.6 22 28 36 42 5.5 6.5 6.5 6.5 40 52 65 70 6 7 7 7 11 14 18 21 93 102 115.5 120.5 25 25 28 28 89 97 112 117 67 75 87 92 50 63 80 90 23 23 25.5 25.5 35 35 40 40 25.5
point setting/analog output 3 rotations, NPN output T14 For single type Common SUP for manifold Individual SUP for manifold 1 3 5 Without 1 point setting/analog output 3 rotations, PNP output T54 Rated voltage Standard supply pressure 5 24VDC 0.5MPa 0.35MPa 0.45MPa H M S Valve K Air supply valve/Vacuum release valve Thread type Nil T F Rc NPTF G How to Order Ejector Manifolds ZZMA 06 06 R
If the leakage volume is 5 /min (ANR), the vacuum pressure of the S type is 80 kPa r t y, and for the L type it is 47 kPa r' t' y'. Thus, if the leakage volume is 30 /min (ANR) the L type can attain a higher vacuum pressure, and if the leakage volume is 5 /min (ANR), the S type can attain a higher vacuum pressure.
86 FG S 1 A03T -V1 -X1 Type of seal Special Options R Rubber S Metal Standard X1 External Pilot Supply Size 6 Size 1 8 Size 2 10 Size 3 Pilot Exhaust Options Pilot Exh. through footprint V1 External Individual Pilot Exhaust Configuration FG 2-position Number of Solenoid Subplate (NPTF) FHG 3-position, Closed center FJG 3-position, Exhaust center Without Subplate A02T Side 1/4 For VSR/S8-6
How to Order ZFA 100 01 Bracket Air suction filter Nil L None With bracket (1 pc. on the left) R With bracket (1 pc. on the right) Type (Recommended flow rate) L or R shows the left or right of the filter IN when viewed from front. 50 l /min (ANR) 200 l /min (ANR) 100 200 Port size ZFA100 B (ZFA200) B (ZFA100) 1 8 1 4 02 01 Thread type Nil T Rc How to Order Manifold NPTF F G Indicate both
t signai VDC 1 2 3 Input signalVDC 1 2 3 Hysteresis r c 0.5 z o E ! 0 E E ,o5 5 E 1 2 3 4 lnplrl signal VDC lrpul signa VDC 1 2 3 lnput slgna!
. \ I I Regulators r' SUP. I Electro-pneumatic , / , ' ' Control signal t , / ' a Mist separator Controller Analog control tleHro-Pltsulnalic Regulalnn rTUz000/3 $rucilicflior$ Standard s . : j 1w301 Minimum supply pressure Set pressure + 0.1MPa Maximum supply pressure 0.2MPa 1.0MPa Regulating pressure rang 0 005 to 0.1 MPa 0.005 to 0.5MPa | 0.005 to 0.9MPa Voltage 24YDC !
glffiH'F.ii;# Indlanapolls, lN 4S226 Tel: 317,6{X1.4'440 Fax:317,890.3102 @ Copyrlght ZAYTBAN, lnc. 3199 All Rlghb R$ewsd httpJ/www.SmcuBa.com
(A) 2 23 (AR) (A) 2 Refer to Best Pneumatics No. 1 for further details. 3 (R) 1 (P) 3 (R) 1 (P) Regulator Series AR Model Specifications Model AR20 Port size 1/8, 1/4 AR25 1/4, 3/8 AR30 1/4, 3/8 AR40 AR20 AR25 AR30 AR40 Model Proof pressure 1.5 MPa 1.0 MPa 0.05 to 0.85 MPa 1/4, 3/8, 1/2 Max. operating pressure Pressure gauge port size 1/8 1/4 Set pressure range Ambient and 5 to 60C (No freezing
Calculate the area of the cylinder piston Area = r2 where = 3.1416 r = 12 the bore diameter 2. Multiply the piston area by the air pressure to be used. Area x Pressure = Force Output Example: What is the theoretical force output of a 2 12 bore cylinder operating at 80 lbs. per square inch air pressure? Step 1.
Note) Dimension X includes the One-touch fittng IC 4 6 1/4" 123 124 126 VBA VE (Front) (Back) VY1 G 20 Option/Case holder 5 Fitting port diameter M5 x 0.8 Thread depth 5 PPA 44 6.8 9.2 4.5 AL 2 SMC 15 25 18 2-(R) 4.5 120 29 14-12-7 8 Series PPA Error Correction Maintenance Span calibration method When errors occur, they should be corrected as shown below.
Description No. 2 Common IN Individual IN Common IN Individual IN Bonnet Polyacetal Regulator NARM2500-A-N02 NARM2500-B-N02 NARM3000-A-N03 NARM3000-B-N03 9 Regulator 1 Component Parts 10 End plate R 1 No.
SX90/090 Series CAT.ES70-59A Low Profile 2/3-Port Solenoid Valve SX90/090 Series How to Order SX9 1 5 G 2-port valve q SX090 5 G 3-port valve w e r q Type of actuation w Power-saving circuit e Rated voltage r Electrical entry 1 Normally closed 2 Universal Nil Without power-saving circuit Y1 With power-saving circuit 5 24 VDC 6 12 VDC G Grommet (Lead wire length: 300 mm) Specifications Model
for One-touch fitting for 4 One-touch fitting for 6 One-touch fitting for 4 SYA7000 F1 With foot bracket (2 position single only) SYA3000 3 8" One-touch fitting for F2 With side bracket Series SYA5000 One-touch fitting for 6 One-touch fitting for 8 One-touch fitting for 8 One-touch fitting for 10 3 SYA3000 5 SYA5000 SYA7000 7 SYA7000 SYA 5 1 C6 20 Body ported 40 SYA 5 1 Base mounted P, R
Calculate the area of the cylinder piston Area = r2 where = 3.1416 r = 12 the bore diameter 2. Multiply the piston area by the air pressure to be used. Area x Pressure = Force Output Example: What is the theoretical force output of a 2 12 bore cylinder operating at 80 lbs. per square inch air pressure? Step 1.