PSE200 A MPa ON kPa OUT1 OFF OUT2 CH 1 2 3 4 PRESSURE Min. B Released SET Work 1 Work 2 Work n Atmosphere Max. A: Maximum pressure value when work piece is adsorbed. A B 4 ON = A A B 4 SET OFF = B + Min. B: Minimum pressure value when work piece is not adsorbed. OUT1 auto preset For adsorption verification: In this mode, repeat the adsorption and release of the work piece for a few times.
(M5) Type 41 NVVsZ3-41-(05 )1-M5 =r _T Stationsa aslze ot A, B port TtlZ statro^Ms-lto-3, fiomlMst i l : 20 I 20 stations TypE 42 Nvv5z3-42-60rrfrD -.T:tI g"tion"l lfiire ot a, B po* ofr | % NPTF _ B7T | one touch fitting lor /4" tube Type 43 NVV5Z3-4g-6S1-esr --l_T Ststionsa .Slze ot A, B port otTtstatrc.s -T, 20 | 20 stations 83il ffi hrclr fittl.g l"V t b" NVZ3000 Proper Combinatiott"s
(M5) Type 41 NVVsZ3-41-(05 )1-M5 =r _T Stationsa aslze ot A, B port TtlZ statro^Ms-lto-3, fiomlMst i l : 20 I 20 stations TypE 42 Nvv5z3-42-60rrfrD -.T:tI g"tion"l lfiire ot a, B po* ofr | % NPTF _ B7T | one touch fitting lor /4" tube Type 43 NVV5Z3-4g-6S1-esr --l_T Ststionsa .Slze ot A, B port otTtstatrc.s -T, 20 | 20 stations 83il ffi hrclr fittl.g l"V t b" NVZ3000 Proper Combinatiott"s
Operating equipment: MHC2-6D A part a b c d e f = 20 (mm) = 3 (mm) = 4 (mm) = 4 (mm) = 5 (mm) = 6 (mm) b c a e B part f d z f1 x.Calculate the inertial moment of the attachment. Assuming the attachment material is aluminium alloy (relative density=2.7), r1 = 16.4 (mm).
(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 -39No.PS-OMU0005CN-C [F 5] FUNC /FUNC 0 57[F97] <> [F 5] FUNC FUNC FUNC [ASin] [CoPY]( ) [AoUt] -40No.PS-OMU0005CN-C OUT1 OUT2 OUT1 OUT2 [F 5] FUNC 5ms ASin ooo1 C_5 5ms ASino.r1 ( ) C_5(44 ) C_5 -105.0105.0 kPa -210210.0 kPa -0.1051.050 MPa -1.1551.155 MPa 10.0-105.0 kPa -115.0115.0 kPa -41No.PS-OMU0005CN-C
3-N 18 21,41SA SS5YJ7SY3000-37-81A-3-6 3 14 SY3000-37-81A-3-7 3 58 Ass'y Assy Assy SY3000-37-80A-5 A 18 21,32SA SS5YJ3SY3000-37-80A-2 B SY3000-37-80A-7 A 916 SY3000-37-80A-4 B SY3000-37-80A-5 A 18 SY3000-37-80A-2 B 20,40, 42,43SA SS5YJ5SY3000-37-80A-7 A 912 SY3000-37-80A-4 B SY3000-37-80A-9 A 1316 SY3000-37-80A-7 B SY3000-37-80A-7 A 18 SY3000-37-80A-3 B 21,41SA SS5YJ7SY3000
Switch operating position (ON) Hysteresis Switch reset position (OFF) Unit: mm Auto switch model Air gripper D-Y7 W N B D-Y59A B D-Y69A B D-Y7 WV N B D-Y7BA 0.8 0.6 0.7 0.5 MHL2-10Dl Note)Use a watchmakers screwdriver with a grip diameter of 5 to 6mm to tighten the auto switch set screw. Use a tightening torque of 0.05 to 0.1 Nm.
() A-(1) B+(3) B-(4) A B VFR510 A COM A B VFR520 A COM B 3 A COM B VFR5 40 5 8 VFR5000-OMN0001 VFR5000 Series/ (VFR500) (VFR510) VFR500 VFR510 () () 2.8Nm ) AC DC24V 3 (AB) (N.C.)
1.25Y-3L1.25-3.5S1.25-4M 1.25-3,1.25-3S,1.25Y-3N,1.25Y-3S ( ( ( ( ) ) ) ) A-B+B-+COM-COM 1.25-31.25-3S1.25Y-3N1.25Y-3S G DC ++(-) DIN 2 1 SOLA 1 A B B + SOLB 2 3 COM B (COM) A DC AC A B + + + + A B 70 8 VFR3000-OMJ0001-A VFR3000 VFR3000 VFR3000 VFR3000 Series Series Series Series 2 2 2 2 3 3 3 3 (A,B) ( ( ( (VFR3 VFR3 VFR3 VFR3 00 00 00 00) ) ) ) ( ( ( (VFR3 VFR3 VFR3 VFR3
Conversion formula of the process data and measurement value (1) Conversion formula from the process data to the measurement value: Pr = a (PD) + b (2) Conversion formula from the measurement value to the process data: (PD) = (Pr b) / a Pr: Measurement value and directive value PD: Measurement value (process data) a: Inclination b: Intercept [Inclination and intercept to the unit specification
(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
A B A B DIN terminal: VP3165-D Conduit terminal: VP3165-T Conduit terminal with indicator light (TL) Light Light G 1/2 Max. 11 Applicable cable 6 to 12 G 1/2 Rc 1/4 ( ): With indicator light (TL) 4-10-6 7 Large Size 3 Port Solenoid Valve Rubber Seal Series VP3145/3165/3185 Dimensions: VP3185 A B Grommet: VP3185-G V100 G 1/2 SY SYJ Manual override Lead wire length 200 mm External pilot
Passage Porting specifications Symbol 4(A), 2(B) Side 5(R1), 3(R2) 1(P) Common Common 1 K plug connector 3-7-15 Series VZS2000 How to Order Manifold Assembly Manifold Specifications Porting specifications 4(A), 2(B) Port 1(P), 5(R1) 3 (R2) Port size Rc 4(A) 2(B) Stations Please indicate manifold base type, corresponding valve, and option parts.
Symbol Passage Porting specifications 4(A), 2(B) Side 5(R1), 3(R2) 1(P) Common Common Symbol 1 K plug connector 3-7-31 Series VZS3000 How to Order Manifold Assembly Manifold Specifications Port size Rc 4(A) 2(B) Stations Porting specifications 4(A), 2(B) Port Please indicate manifold base type, corresponding valve, and option parts.
Fluid and Option Fluid and Options (Driving parts) Fluid(Application) Option symbol Silicone oil A Option symbol Seal material Body material Holder material Standard A B V (Non-leak) NBR FPM EPR FPM Vacuum (Up to 103Torr) V Aluminium Polyacetal Fuel oil (Up to 60C) A Insulating oil A Brake oil B Note) Grease for vacuum has been applied to the sliding part of option symbol "V", silicone grease
D B Valve size PVQ Sub-plate VEXD-5 VEXB-2-2 P (Port size: M5) VY1 VY1 Thread type Port size Symbol A B Port size M5 Symbol Nil F N T Thread type Rc G (7) VBA VBAT 1 8 AP100 NPT NPTF VYD-7 VEXB-4-1 Base gasket 2 4 Valve size VEX1-9-1 P VEX4-2AP Sub-plate Port size Thread type Port size Thread type Symbol A B Port size Symbol Nil F N T Thread type Rc G (7) Symbol A B C Port size Symbol Nil
(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 -33No.PS-OMM0002CN-F [F 9] 30 () <> [F 9] [Eco] [F9] 30 (ON ) ON -34No.PS-OMM0002CN-F [F10] <> [F10] [Pin] [F10] 000 40 -35No.PS-OMM0002CN-F [F98] <> [F98] [ALL] [on] 1 [oFF] [oFF] 2 [F98] 1 37 -36No.PS-OMM0002CN-F 1 2 OUT1 3 OUT1 4 OUT1 5 OUT1 6 7 OUT2 8 OUT2 -N-P 9 OUT2
A B A B B A B A B 18 (26) A B 16 (24) A B Hs Hs Hs 21.5 (29.5) 20.5 (28.5) 15 (22.5) 17.5 (25.5) 19.5 (27.5) 20 6 9 3 8 10 6.5 4.5 24.5 27 27.5 21.5 (29.5) 20.5 (28.5) 15 (22.5) 17.5 (25.5) 19.5 (27.5) 18 (26) 16 (24) 25 6 9 3 8 10 6.5 4.5 27 29.5 30 22.5 (30.5) 21.5 (29.5) 15.5 (23.5) 18.5 (26.5) 20.5 (28.5) 19 (27) 17 (25) 32 7 10 4 9 11 7.5 5.5 30.5 33 33.5 25 (34) 24 (33) 20 (27) 21 (
The address is shown. (099) The treble is shown about the transmission rate of controller IF Node address setting ADDRESS B RATE Node address X10 X1 0 or 8 0 0 0 0 : 9 1 : 8 1 : 98 9 9 99 1 or 9 0 0 100 0 : 2 1 : 5 101 : 125 Do not set B RATE to the value of "Unused" Node address becomes 125 when a setup of a node address is set as a larger value than 125.
Normal output Reversed output P_1(P_2)=A-(A-B)/4 n_1(n_2)=B+(A-B)/4 A = Maximum pressure H_1(H_2)= (A-B)/2 H_1(H_2)= (A-B)/2 B = Minimum pressure If setting is not necessary press the UP and DOWN buttons simultaneously for 1 second or longer. -34No.PS-OMW0002-C [F 6] Fine adjustment of display value This function is to manually perform a fine adjustment of the displayed pressure value.