Digital Flow Switch (Integrated display type) Response time 1 s or less Display accuracy 1.5%F.S. max.
The summary of product parts of the PF3WC/S/R series do not change. Return (Return unit) Supply (Supply unit) Product number Manifold type Qty Stop valve handle Flow adjustment knob PF3WB Integrated type: Basic type 6 Thank you for purchasing an SMC PF3WB/C/S/R Series Digital Flow Switch.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Formulas below can be used for common units 1cP = 1mPas = 10-3Pas 1cSt = 1mm2/s = 10-6m2/s 13 Working Principle 1. When air is supplied, it passes through the switching valve and enters drive chamber B. 2.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Formulas below can be used for common units 1cP = 1mPas = 10-3Pas 1cSt = 1mm2/s = 10-6m2/s 14 Working Principle 1. When air is supplied to P1 port, it enters drive chamber A. 2. Diaphragm A moves to the left, and at the same time diaphragm B also moves to the left. 3.
Dynamic viscosity [m2/s] Viscosity [Pas] Density [kg/m3] Formulas below can be used for common units 1cP = 1mPas = 10-3Pas 1cSt = 1mm2/s = 10-6m2/s Pulsation Attenuating Capacity The process pump generates pulsation because it discharges a liquid using two diaphragms.
Note 2) Operation is possible with a valve with small Cv value when the operation cycle is small. 12 How to Order P B 1 3 1 3 A S Female thread / Tube extension P B 1 3 1 3 A S With nut Port size Material of diaphragm Symbol Main fluid Pilot air Symbol Material of diaphragm connection size connection size Female thread 1 PTFE 01 Rc 1/8 N01 NPT 1/8 F01 G 1/8 Actuation Tube extension Symbol
May S QS RS SS . ZS AS BS . Aug V QV RV SV . ZV AV BV . Jan o Qo Ro So . Zo Ao Bo . Nov y Qy Ry Sy . Zy Ay By . 2012 2013 2014 . 2021 2022 2023 . Year Jun T QT RT ST . ZT AT BT . Dec Z Qz RZ SZ . ZZ AZ BZ . Apr R QR RR SR . ZR AR BR . Jul U QU RU SU . ZU AU BU . Month Q R S . Z A B . Oct X QX RX SX . ZX AX BX .
H4 S y m b o l Initial power / Power consumption (W) 100 VAC 200/40 200/50 400/100 600/150 200 VAC 800/40 800/50 1600/100 2400/150 Heater assembly number XL1A25-60S-1 XL1A25-60S-2 XL1A25-60S-2 XL1A25-60S-3 XL1A25-60S-2 No. of heater assemblies 1 pc. 1 pc. 1 pc. 1 pc. 2 pcs.
XLA-16-2 XLA-25-2 XLA-40-2 XLA-50-2 XLA-63-2 XLA-80-2 16 25 40 50 63 80 5605150 -6 Pa(abs) 110 l/s 1 5 14 45 80 160 200 10 FKM1.310 3/s Pam -11 FKM1.310 KFNW KFNW KDN SUS316L,SUS304,FKM MPa(G) 0.40.7 3 2 0.5MPa 31 61 220 390 680 1420 cm M5 Rc1/8 kg 0.28 0.47 1.1 1.7 3.1 5.1 1 21 9 XL-OMY0001 4-2 XLA-25-2 XLA-40-2 XLA-50-2 AC90240V XL1A25-60S-1 XL1A25-60S-1 1 1 H4 AC100V 200
H4 S y m b o l Initial power / Power 100 VAC 200/40 200/50 400/100 600/150 200 VAC 800/40 800/50 1600/100 2400/150 consumption (W) Heater assembly number XL1A25-60S-1 XL1A25-60S-2 XL1A25-60S-2 XL1A25-60S-3 XL1A25-60S-2 No. of heater assemblies 1 pc. 1 pc. 1 pc. 1 pc. 2 pcs.
XLC-16 XLC-25 XLC-40 XLC-50-1 XLC-63-1 XLC-80-1 XLC-100-1 XLC-160-1 16 25 40 50 63 80 100 160 560(5150) -5 Pa (abs) 110 l/s 1 5 14 45 80 160 200 300 800 10 (FKM) 1.310 Pam 3/S -11 (FKM) 1.310 KF(NW) KF(NW)K(DN) SUS316LSUS304FKM() 2 MPa (G) 0.30.6 0.40.6 cm 3 3 0.5MPa 38 91 430 280 500 1000 2300 3700 M5 Rc 1/8 Rc1/4 kg 0.28 0.46 1.1 1.4 2.3 4.0 8.7 14.5 1) 2) Y-VAC2 3) 1 7 XL-OMV0002
H 4 S y m b o l consumption (W) 100 VAC 200/40 Initial power / Power 200 VAC 800/40 Heater assembly number XLA25-60S-1 XLA25-60S-2 No. of heater assemblies 1 pc. 1 pc. H 5 100 VAC 200/40 400/70 Initial power / Power consumption (W) 200 VAC 800/40 1600/80 Note 1) Initial power and power consumption are nominal values. The heaters are PTC thermistor type design.
Fluid Vacuum of inert gas Ambient temperature: 20 oC 5 to 60 (5 to 150 for high temperature type) Operating pressure Pa Atmospheric pressure to 1 x 10-5 Main exhaust valve 200 300 800 Conductance l/s Note 1 Bypass valve MAX31.5Viscosity / Theoretical value Internal 1.3 x 10-9 for the standard material (FKM) at ambient temperature, excluding gas permeation Leakage Pam3/s External 1.3 x 10-
Heater specifications Model XLH-16 XLH-25 XLH-40 XLH-50 Flange (valve) size 16 25 40 50 Valve type Manual type Fluid Vacuum of inert gas Operating temperature oC 5 to 150 Operating pressure Pa Atmospheric pressure to 1 x 10-6 Conductance l/s Note 1) 5 14 45 80 Internal 1.3 x 10-10 for the standard material (FKM) Leakage at ambient temperatures , excluding gas permeation Pam3/s External 1.3
XLH-16 XLH-25 XLH-40 XLH-50 16 25 40 50 5150 -6 Pa (abs) 110 l/s 1 5 14 45 80 10 FKM1.310 3/s Pam -11 FKM1.310 KFNW SUS316L,FKM Nm 0.1 0.15 0.35 0.5 5 7 10 13 0.23 0.41 1.05 1.62 1) 3-2.
O 21 5. ( 3-1-2 ) 6. () ( 7-2) 22 11 11-1 OUT1OUT2 (1920) 6 90cm3 07 P36801080 P565010-18 180cm3 1 P36801081 P565010-19 O P5 19 20 (1) O (2) A (P22401123) 11-2 IP8100 IP8100 7 M P368010-24 S P368010-25 21 M 22 S M IP610 SIP610 23 11-3 IP8000 IP8000 8 1085mm P368010-20 35100mm P368010-21 50140mm P368010-22 11-4 (IP8*00-**0)2 9 (A) P368010-26 79 (B) P368010-27 911 G1/2 23 24
Grease pack part number: GR-S-010 (10g), GR-S-020 (20g) Apply plenty of grease to the internal and external circumference of a new rod seal for replacement (See Table 4, P19). Fill the groove with grease. Refer to Page 21 for made to order product (XC85, X446). c) Mounting Mount taking care that the rod seal is in the right direction.
P101. 2 CG5 N A (mm) E max (J) E max (J) 2 E=(m/2)v 20 0.28 0.42 25 0.41 0.65 E J m: (Kg) v m/s 32 0.66 0.91 40 1.2 1.8 50 2.0 3.4 EE max (J) 63 3.4 4.9 80 5.9 11.8 100 9.9 16.7 (2) 2-7. 14 28. 3 13 2 3CDG5 (M4 1~1.2Nm 3 3.
Grease weight GR-S-010 10g GR-S-020 20g -15- Basic Circuit for Cylinder Operation The basic circuit for operating the product with air filter, regulator, solenoid valve and speed controller (meter-out) is shown in the following figure. It is possible to use a quick exhaust. Regulator Air source Speed controller Air filter Solenoid valve .
, , 50~300mm/s , 7 ? , , 9 6-2 ? 3,4,9 ? , , 3 ? , ,, 3,9 ? 50~300mm/s 7 ,? , 3,9 ? , 3,9 , ? , , 4 ? , 2,3