24 The MGPL (Ball bushing) and the MGPA (High precision ball bushing) cannot be used as a stopper. 1 20 30 40 50 5 10 Transfer speed: [m/min] Bore Size: 32 to 100/MGPM32 to 100 (Slide Bearing) MGPM32 to 100 (Slide Bearing) m m 2000 L 50 mm L 50 mm 100 1000 80 Mass of transferred object: m [kg] 63 500 400 50 300 40 200 *: When selecting a model with a longer L dimension, be sure to choose
CE2 ML2B Graph (1) Graph (2) RSA50, 63, 80 Bore size 50, 63, 80/ = 0 Bore size 50, 63, 80/ = 0.1 C J G5-S 1.0 1300 1300 RSH80 RSA80 RSH63 RSA63 RSH50 RSH50 RSA50 80 0.9 Operating pressure P [MPa] 1200 1200 CV 0.8 1100 1100 0.7 MVGQ 1000 1000 0.6 900 900 0.5 CC 63 80 Load weight m [kg] Load weight m [kg] 800 800 0.4 50 0.3 RB 700 700 0.2 600 600 J 0.1 63 500 500 50 1000 2000 3000 4000 5000
No.PB19PB20 12 00 OFF PB03 0 PB04 FFC 100 100%1s 0 0 100 PB05 500 PB06 GD2 1(6.1.1)0100.0 No.PA0823 7.0 0 300.0 PB07 PG1 12 No.PA0803 24 rad/s 1 2000 5 14 5 No.
Stop position (positioning start address) Movement amount: 2000 Movement amount: 2000 Da.8 Command speed Set the command speed for positioning. (1) If the set command speed exceeds "Pr.8 Speed limit value", positioning will be carried out at the speed limit value. (2) If "-1" is set as the command speed, the current speed (speed set for previous positioning data No.) will be used for positioning
Stop position (positioning start address) Movement amount: 2000 Movement amount: 2000 Da.8 Command speed Set the command speed for positioning. (1) If the set command speed exceeds "Pr.8 Speed limit value", positioning will be carried out at the speed limit value. (2) If "-1" is set for the command speed, the current speed (speed set for previous positioning data No.) will be used for positioning
When the controller is turned ON next time, default value (January 1st, 2000. 00:00:00) will be set. Therefore, the date and time must be set again. [How to set the Date and Time] a) Mode change Change the mode to Remote mode in the main window.
Cable colour: Signal 1 Yellow : TD+ Connector M12 Straight M12 Straight 2 White : RD+ Cable O.D. 6.5 mm 3 Orange: TDNominal cross section AWG22 4 Blue : RDMin. bending radius (Fixed) 19.5 mm Fig. 9-4 EX9-ACxxxEN-PSPS -37No.EX-OMY0014-A (5) Cable with communication connector (M12 M12, Angle) Part number: EX9-AC 005 EN-PAPA Cable length (L) 005 500 [mm] 010 1000 [mm] 020 2000 [mm] 030 3000
-1.05 16.80 Psi 0 232.06 -15.2 243.7 (PD) 1000 5000 738 5200 ISE70 MPa (PD) PD [MPa] (PD)(ISE70 MPa) -62No.PS-OMV0003CN-G Pr = a (PD) + b (PD) = (Pr b) / a Pr PD a b [] a b MPa 0.00025 -0.25 kPa 0.25 -250 kgf/cm 2 0.002549 -2.549 ISE70 bar 0.0025 -2.5 psi 0.03626 -36.26 MPa 0.0004 -0.4 kPa 0.4 -400 kgf/cm 2 0.004079 -4.079 ISE71 bar 0.004 -4 psi 0.05802 -58.02 [] (ISE70 MPaPD=2000
) Pr = a (PD) + b = 0.00025 2000 0.25 = 0.25[MPa] (ISE70GMPaPr=0.75[MPa]) (PD) = (Pr b) / a = [0.75 (-0.25)]/0.00025 = 4000 -66No.PS-OMV0008CN-E IO-Link IODD IODD(I/O Device Description) IODD logo IODD IODD 1 ISE70G SMC-ISE70G-ymmdd-IODD1.1 2 ISE75G SMC-ISE75G-ymmdd-IODD1.1 3 ISE76G SMC-ISE76G-ymmdd-IODD1.1 4 ISE77G SMC-ISE77G-ymmdd-IODD1.1 5 ISE78G SMC-ISE78G-ymmdd-IODD1.1 "ymmddy
value PD: Pressure gauge measurement value a: Inclination b: Intercept [Inclination and intercept to the unit specification] Series Unit Inclination a Intercept b MPa 0.0125 -12.5 kgf/cm2 0.127475 -127.475 ISE79S bar 0.125 -125 psi 1.813 -1813 [Calculation example] (1) Conversion from the process data to the pressure measurement value (For ISE79S series, unit specification MPa and PD = 2000
DC (+) q 6 Red CH3_OUT1 5 Gray CH2_OUT1 4 White N.C. 3 Black CH1_OUT1 2 Blue DC() 1 Brown DC(+) DC () w CH1_OUT1 e N.C. r CH2_OUT1 t 2000 CH3_OUT1 y CH4_OUT1 u N.C. i Internal circuits and wiring examples PF2A200 PF2A201 DC (+) DC (+) 4 3 2 1 4 3 2 1 (Brown) (Brown) Sensor Sensor Sensor + Load Load Load Load + NC NC 24 VDC CH1_OUT1 CH1_OUT1 24 VDC (Black) (Black) 4 3 2 1 4 3 2 1 Load Load
(ANR) AF40 Rc 1/2 0.10 P1 = 0.7MPa P1 = 0.5MPa P1 = 0.3MPa 0.08 Pressure drop MPa P1 = 0.1MPa 0.06 0.04 0.02 00 2000 4000 6000 Flow rate L/min (ANR) 24 AF10 to 60 Operation Principle: Float Type Auto Drain N.C. type: AD37, 47 N.O. type: AD38, 48 Compact auto drain N.C. type: AD17, 27 q r e w t i y u o !
(Value in the initial state) Vibration resistance: No malfunction occurred in one sweep test between 45 and 2000 Hz. Test was performed to axis and right angle directions of the main valve and armature when pilot signal is ON and OFF.
(Value in the initial state) Vibration resistance: No malfunction occurred in one sweep test between 45 and 2000 Hz. Test was performed to axis and right angle directions of the main valve and armature when pilot signal is ON and OFF.
(Value in the initial state) Vibration resistance: No malfunction occurred in one sweep test between 45 and 2000 Hz. Test was performed to axis and right angle directions of the main valve and armature when pilot signal is ON and OFF.
(Value in the initial state) Vibration resistance: No malfunction occurred in one sweep test between 45 and 2000 Hz. Test was performed to axis and right angle directions of the main valve and armature when pilot signal is ON and OFF.
0.2 100, 150, 200, 250, 300, 350 400, 450, 500, 600, 700, 800 900, 1000 Minimum operating pressure (MPa) 0.16 0.16 40 1500 2000 0.14 0.15 0.12 0.15 Note 1) Contact P/A if the maximum stroke will be exceeded.
User connector (CN2: General-purpose input/output terminal) Model LC1-1-2050 0.5m Cable is connected to LC1-1-2000. 10320-52A0-008 Halfpitch hood (20P) Made by 3M 10120-3000VE Halfpitch plug (20P) Made by 3M 63
Eracket : HT-T| | | c,roc1 Port thre8d a | | Pressure gauge ffi ffi E fa*-l I i Oulpul prasure range . ffi ffi Input sisnar I #t*ilrirqf (No Curnl4-2ornA E 1/80) Cunenl0-20mA n li4(2000,,1000) Voltage 0-5V ry 3|/8(2000, 4o0o) Voftge 0-10V 1/2(4000) .71000.2000.4000 Gonstruction/Operation When the input signal increases, the piezo-electric tlapper O will dellect anq the nozzle will close
(Values at the initial period) Vibration resistance: No malfunction occurred in a one-sweep test between 45 and 2000 Hz. Test was performed at both energized and de-energized states in the axial direction and at the right angles to the main valve and armature. (Values at the initial period) Solenoid Specifications Made to Order (For details, refer to pages 199 through 213.)