PSxx-OMV0008CN * 1015 10 1% 2162 LCD * -8No.PS-OMV0008CN-E ISE70G 02 L2 M 3 Y K T ISE70G 0~1 MPa ISE75G 0~2 MPa ISE76G 0~5 MPa ISE77G 0~10 MPa ISE78G 0~16 MPa 2 A A B B 02 Rc1/4 N02 NPT1/4 F02 G1/4 :ISO1179-1 1 M12 5m M12 5m T S : L IO-Link/1+2 NPNorPNP L2 1 M SI2 1 2kPaMPa / A ZS-50-A M46 2 B ZS-50-B M46 2 ZS-48-A ZS-31-B 5 m M12 ZS-31-C 5 m -9No.PS-OMV0008CN-E M12 4 24 OUT1 IO-Link
Mpa A 0.8[V]3.2[mA] -51No.PS-OMM0002CN-F Z/ISE80(F)-02/N02/F02/C01/A2/B2/-* 5 4 5 -C01Rc1/8 -F02G1/4 -B2TSJ1/4 -A2URJ1/4 -52No.PS-OMM0002CN-F Z/ISE80(F)-02L/N02L/C01L/A2L/B2L/-* 4 5 5 -C01LRc1/8 -A2LURJ1/4 -B2LTSJ1/4 -53No.PS-OMM0002CN-F () ZS-24-A A () ZS-24-D A -54No.PS-OMM0002CN-F () ZS-35-A -55No.PS-OMM0002CN-F ZS-35-C 36 x n +4 x (n -1) -56No.PS-OMM0002CN-F ZS-35-B 36
ZS-50-A) A M4X6L B(ZS-50-B) B M4X6L -14No.PS-OMV0003CN-G -02-N02 8~12 Nm -F02 4~5 Nm 24 () -15No.PS-OMV0003CN-G ()336 336 -16No.PS-OMV0003CN-G FG M12 M12 (Port Class A) 1 DC(+) DC1224 V 2 OUT2 2 3 DC(-) 0 V 4 OUT1 1 IO-Link 1 L+ DC1830 V 2 DO 2 3 L0 V 4 C/Q (IO-Link)/1(SIO) -17No.PS-OMV0003CN-G NPN 2 DC(+) OUT1 OUT2 DC(-) PNP 2 DC(+) OUT1 OUT2 DC(-) IO-Link L+ C/Q IO-Link
(A-B)/4 n_1=B+(A-B)/4 A= H_1=(A-B)/2 H_1=(A-B)/2 B= OUT2P_1n_1H_1P_2n_2H_2 1 -40No.PS-OMU0008CN-D [F 5] FUNC /FUNC 0 58[F97] <> [F 5] FUNC FUNC FUNC [ASin]( ) [AoUt]( ) [CoPY]( ) -41No.PS-OMU0008CN-D OUT1 OUT2 OUT1 OUT2 [F 5] FUNC 5ms ASin ooo1 C_5 5ms ASin o.r1 ( ) C_5(45 ) C_5 -105.0105.0 kPa -210210.0 kPa 1 MPa -0.1051.050 MPa -1.1551.155 MPa 2 MPa -0.1052.100 MPa -2.202.205
For futhr details ol accessorbs. reler lo 'accessorles' on page 6. 4 rP300 METHOD OF OPERATION Signal pressure from a controlled pressure source enters the 1P300 input chamber and exerts a force on the diaphragms. A pressure differential between the two diaphragms creates a force to open the pilot valve.
For futhr details ol accessorbs. reler lo 'accessorles' on page 6. 4 rP300 METHOD OF OPERATION Signal pressure from a controlled pressure source enters the 1P300 input chamber and exerts a force on the diaphragms. A pressure differential between the two diaphragms creates a force to open the pilot valve.
8 201 2~200L/min 8 2 (11) S () C8 8(5/16") *6 02*1 Rc1/4 M SI*7 N02*1 NPT1/4 6 F02*1 G1/4*2 SI 1 2ISO1179-1 7:L/min :L 1 (11) L*3 3 OUT1 OU2 A NPN NPN B PNP PNP C NPN (1~5V) D NPN (4~20mA) E*4 PNP (1~5V) F*4 PNP (4~20mA) G*4 NPN *5 H*4 PNP *5 4 5 -10No.PF-OMO0004CN-E 1 W N (2 m) (2 m) + () 2 R S () () T V () () -11No.PF-OMO0004CN-E / ZS-33-D 2m ZS-33-F ZS-33-J () ZS-
-PS IDG5-N02-PS IDG10-N03-P IDG20-N03-P IDG30-N03-P IDG50-N03-P IDG60-N04-P IDG75-N04-P IDG1-N02-P The membrane air dryer uses hollow fibers composed of a macro molecular membrane through which moisture passes easily, but is difficult for air (oxygen and nitrogen) to pass through.
ID200-N02 ID300-N04 ID400-N04 ID600-N06 Series ID
For futhr delalls ol accs3sorbs, reler lo 'accssorls' on p6se 6. 4 2grtc tP300 METHOD OF OPERATION Signal pressure from a controlled pressure source enters the 1P300 input chamber and exerts a force on the diaphragms. A pressure difierential between the two diaphragms creates a force to open the pilot valve.
03(S)A 5/32" 8.2 AS221F-02-07(S)A 1/4" 11.2 23.4 32.7 (32.8) 19 (19) AS221F-02-09(S)A 5/16" 13.2 23.9 33.2 (33.3) 14.2 19 (20) AS221F-02-11(S)A 3/8" 15.5 26.4 35.7 (35.8) 15.6 20 (21) AS321F-02-07(S)A 1/4" 1/4 19 11.2 16.6 21.8 32.1 36.4 50 48.4 44.5 42.9 13.3 40 (40) AS321F-02-09(S)A 5/16" 13.2 22.7 33 14.2 41 (41) AS321F-02-11(S)A 3/8" 15.5 26.7 37 35.9 15.6 AS321F-03-07(S)A 1/4" 3/8 19
Piston assembly Valve Valve spring No. 4 5 6 1348104A 1348105 1348109 SUP OUT 2 ARX Series Specialty Regulators Regulator for 290 psi (2 MPa) ARX20, 21 Dimensions Panel cutout dimensions 1.02 (26) R .1 (2.5) SUP OUT SMC K C O P A A L U S H .5 (12) 1.61, 2.13 [41 (K40)], [49 (K50)] 2.13 (54) .98 (25) 1.6 (max. thickness 4.5) 1.73 (44) .21 (5.4) 3.13 (79.5) (when regulating pressure = 3.23
O-ring Body Seal Stud Can be used for a wide range of pressures from a low vacuum up to a pressure of 1 MPa. Effective when piping in a confined space. Body part rotates allowing for positioning. The use of a special profile ensures sealing and reduces resistance when the tube is inserted.
Series IR Precision Regulators are designed to be compact and light weight. The maximum set pressure has been expanded from the conventional 0.7MPa to 0.8MPa. Relief flow has been increased by nearly 5 times (compared to SMC IR201, IR401). The optio PERCISION REGULATOR. PRECISION REGULATOR. 0.23 lb.
Series IR Precision Regulators are designed to be compact and light weight. The maximum set pressure has been expanded from the conventional 0.7MPa to 0.8MPa. Relief flow has been increased by nearly 5 times (compared to SMC IR201, IR401). The optio PERCISION REGULATOR. PRECISION REGULATOR. 0.23 lb.
/4 ASV410F-N02 14 13.5 NPT 3/8 ASV410F-N03 14 13.5 NPT 1/4 ASV510F-N02 27 23 NPT 3/8 ASV510F-N03 29 27 JIS Symbol NPT 1/2 ASV510F-N04 29 27 Specifications Series ASV120F ASV220F ASV310F/410F ASV510F Air Fluid 1.5 MPa Proof pressure 1 MPa Max. operating pressure 0.1 MPa Min. operating pressure Ambient and fluid temperature Number of needle rotations 10 turns 8 turns 12 turns 15 turns Applicable
-02-04(S)A 4 8.2 AS22l1FG-02-06(S)A 6 10.4 23.4 32.7 (32.8) AS22l1FG-02-08(S)A 8 13.2 23.9 33.2 (33.3) 14.2 18 (19) AS22l1FG-02-10(S)A 10 15.9 26.9 36.2 (36.3) 15.6 19 (20) AS32l1FG-02-06(S)A 6 1/4 17 (17.5) 13 13.3 40 (40) AS32l1FG-02-08(S)A 8 13.2 22.7 33 14.2 41 (41) AS32l1FG-02-10(S)A 10 15.9 26.7 37 35.7 15.6 42 (42) AS32l1FG-02-12(S)A 12 18.5 29.7 40 34.5 17 43 (43) AS32l1FG-03-06(S
tighten the threaded portion by hand, then use a proper wrench, which could be Rz 12.5 suitable for the width across flats of the hexagon body, to tighten it further at a wrench For Uni thread, Rz 12.5 is necessary for sealing at the chamfered part. 45 tightening angle shown in the table below.
tighten the threaded portion by hand, then use a proper wrench, which could be Rz 12.5 suitable for the width across flats of the hexagon body, to tighten it further at a wrench For Uni thread, Rz 12.5 is necessary for sealing at the chamfered part. 45 tightening angle shown in the table below.
tighten the threaded portion by hand, then use a proper wrench, which could be Rz 12.5 suitable for the width across flats of the hexagon body, to tighten it further at a wrench For Uni thread, Rz 12.5 is necessary for sealing at the chamfered part. 45 tightening angle shown in the table below.