(in) D (D1): 1/2, Connection Screw Type M (M1): NPT (Female thread), Connection Screw Nominal M (M1): 1/2B(15A), Maximum Operating Temperature(°C): 200, Packing: Clean Packaging Class M3.5 Equivalent, Nut Material: PFA, Size of Body: 4
(in) D (D1): 3/4, Connection Screw Type M (M1): NPT (Female thread), Connection Screw Nominal M (M1): 1/2B(15A), Maximum Operating Temperature(°C): 200, Packing: Clean Packaging Class M3.5 Equivalent, Nut Material: PFA, Size of Body: 5
(in) D (D1): 1, Connection Screw Type M (M1): NPT (Female thread), Connection Screw Nominal M (M1): 1/2B(15A), Maximum Operating Temperature(°C): 200, Packing: Clean Packaging Class M3.5 Equivalent, Nut Material: PFA, Size of Body: 6
(in) D (D1): 1/2, Connection Screw Type M (M1): NPT (Female thread), Connection Screw Nominal M (M1): 1/2B(15A), Maximum Operating Temperature(°C): 200, Packing: Clean Packaging Class M3.5 Equivalent, Nut Material: PFA, Size of Body: 4
(in) D (D1): 3/4, Connection Screw Type M (M1): NPT (Female thread), Connection Screw Nominal M (M1): 1/2B(15A), Maximum Operating Temperature(°C): 200, Packing: Clean Packaging Class M3.5 Equivalent, Nut Material: PFA, Size of Body: 5
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
The VN external pilot solenoid series offers 5 models of 2 and 3 port valves for general purpose use. Model VNA process valve is for compressed air and air-hydro circuit control. Model VNB for flow control permits application with a wide variety of fluids such as air, water, oil, gas and vacuum. VNC is a coolant valve available in a wide selection of port sizes and variations. The high pressure
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
PFxx-OMX0002 Lead wire with M12 connector (ZS-49-A) M12 female Pin number Description M12 male Pin number 1 L+ 1 2 N.C. or Other 2 3 L3 4 C/Q 4 -97No.PF-OMX0002-B Revision history A: Contents revised in several places. [August 2022] B: Contents revised in several places.
/Other Not connected/Analogue output or External input 3 Blue DC(-) 0 V 4 Black C/Q Communication data (IO-Link)/Switch output (SIO) -19No.PF-OMX0007-A Internal circuit and wiring examples NPN + Analogue output type PF3A7##H-CS/DS#-##-# Maximum applied voltage: 28 VDC Maximum load current: 80 mA Internal voltage drop 1 V max. CS: Analogue output: Select 1 to 5 V or 0 to 10 V.
Product number Description Note ZS-37-A Lead wire with M12 connector Length: 3 m ZS-49-A Lead wire with M12 connector Length: 3 m, M12 (female) M12 (male) -11No.PF-OMY0005-A Names and Functions of Individual Parts Body Connector pin numbers (on the product) 1 DC(+) 2 OUT2 3 DC(-) 4 OUT1 (C/Q) Element Description Display Refer to the Display on the next page.
A AA B D E F G H J K L N P 11/4,11/2 104 74 31 52 39.5 G 11/4 108 76 33 54 41.5 PF3W721 56 91 71.6 28.5 54 25 27.5 3.5 14 G 11/2 112 78 35 56 43.5 -82No.PF-OMM0004-D PF3W704/720/740/711/721() A AA PF3W704--T 81 50 PF3W720--T 89 54 PF3W740--T 109 71 PF3W711--T 135 92 PF3W721--T 115 74 PF3W721-F12-T 119 76 PF3W721-F14-T 123 78 -83No.PF-OMM0004-D PF3W704/720/740() A AA B D F K L N P Q
Q PF3W504S 104 50 63.6(Max. 68.6) 70.2 34 58.5 18 13.6 2.7 10 19 6 PF3W520S 112 54 63.6(Max. 68.6) 74.2 34 62.5 18 13.6 2.7 10 19 6 PF3W540S 142 71 75.25(Max. 81) 94.5 44 79 28 16.8 2.7 10 28 7 S T PF3W504S 56.5 22 PF3W520S 60.5 22 PF3W540S 78 30 -44No.PF-OMN0009CN-F PF3W504/520/540(+) A AA D K S PF3W504S--T 115 50 81.2 69.5 67.5 PF3W520S--T 123 54 85.2 73.5 71.5 PF3W540S--T 153 71
K 5 T 5 Angle M 10 Z 10 P 0.5 Q 1 R 2 Angle S 3 T 5 Z 10 DIN rail bracket for controller, high voltage power supply module Symbol For controller For high v oltage power supply module Bracket for nozzle Symbol Type Nil Without bracket Nil None None B With L-type bracket U Included Included F With angle adjustment bracket W Included None Y None Included 1-2-1.
. -7- 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 SX91 SX92 SX090 Valve
AC200-230V 50/60Hz 1Ph 9.6A XQ001(MAR.2019) How to see the manufacturing code X Q 001 March 2019 X Q 001 REFRIGERANT R410A(HFC) 0.39kg Year Symbol Remarks Month Symbol Remarks Serial (GWP:2088) no.
No.DIG-31900-OM002 72 How to Order B E For ATEX ATEX Temp. class Construction Intrinsically safe explosion-protected (ATEX) + output function + HART communication function 52 ATEX Category1 NIL T4 4 T6 T5/T6 For CE marking Nil Q For CE marking Connection Type 101 Smart positioner Rotary type Air Electric NIL Rc1/4 G1/2 M Rc1/4 M201.5*2 Pressure gauge N Rc1/4 1/2NPT 3 1.0MPa 1 1/4NPT G1/2
In case that ID setting of the controller(LEC) is 1, the memory which corresponds to the parallel IO of controller can be operated by I Address 14,15 and Q Address 14,15. Refer to the manual of controller (LEC) for detail of the function and the operation of parallel IO. 11. 3.
Subsonic flow when (P2+0.100)/ (P1+0.100)>0.5 Q=240S P(P1+0.100) Sonic flow when (P2+0.100)/ (P1+0.100)0.5 Q=120S (P1+0.100) Q: Air flow ratedm 3 /min(ANR) 2 ) P: Differential pressure P1P2MPa P1: Upstream pressureMPa P2: Downstream pressureMPa Correction for different air temperatures Multiply the flow rate calculated with the about formula by a coefficient from the table below.