Please contact us for the latest version.sales@ocaire.com, VALVE, PILOT, BODY PORTED, VALVE, VF5000 SOL VALVE 4/5 PORT, FG, VF5000 BODY PT 1/4, 4.32657 lb
VFS3000, body ported & base mounted valves, Thread type: Rc(PT), Port sizes: 1/4, 3/8, Maximum operating pressure: 9.9kgf/cm², Ambient & fluid temperature: -10 to 60°C, Manual override: non locking push style, VALVE DBL SOLENOID BODY PT, VALVE, VFS3000 SOL VALVE 4/5 PORT, FG, VFS3000 BODY PT 1/4, 0.83352 lb
Nozzle diameter: ø0.5, ø0.7, ø1.0, ø1.3, ø1.5, ø1.8, ø2.0., Compact and Lightweight., Box style(built-in silencer) and body ported style., One-touch and screw-in connections can be combined., Body can be mounted and secured., VACUUM GRIPPER, VACUUM SERIES, ZH VACUUM EJECTOR, FG, ZH NOZZLE SIZE 1.5, 0.3836 lb
Accepts nylon and urethane tubes, Applicable for both vacuum and positive pressure applications, Release collar allows easy removal of tubing without damaging the tube, Maximum vacuum pressure of 1.0MPa, FITTING, MALE ELBOW SS, CONNECTORS, KQ2 FITTING, FG, KQ2 6MM, 0.02204 lb
(external pilot, pilot pressure range) 0.25 - 0.7MPa , Effective area mm 2 (Cv): body ported 10.6 (0.59); base mounted 12.6 (0.7) , Coil rated voltage: 3, 5, 6, 12, 24VDC; 100, 110, 200, 220VAC , Response time (0.5MPa) w/o indicator light & surge voltage suppressor: 32ms or less , Ambient & fluid temperature: 50°C, VALVE, DBL SOL, BODY PT, DIN, VALVE, SY7000 SOL/VALVE, RUBBER SEAL, FG
AC Servo Motor Driver (Network card type ) CN9 SDI1A+ 1A 1B SDI1AMC Driver Servo amplifier SDO1A+ 4A CN8 Control circuit 4B SDO1ACN8A STO1 4 STO2 5 CN10 3A SDI2A+ STOCOM 3 3B SDI2ATOFB1 6 1A SRESA+ 1B SRESATOFB2 7 6A SDO2A+ TOFCOM 8 6B SDO2A8A TOFA CN3 EM2 (Aaxis) M Servo motor CN9 SDI1B+ 2A 2B SDI1BMC Driver Servo amplifier SDO1B+ 3A CN8B CN8 Control circuit 3B SDO1BSTO1 4 STO2 5 CN10 4A SDI2B+ STOCOM 3 4B SDI2BTOFB1 6 2A SRESB+ FG
CN9 SDI1A+ 1A 1B SDI1AMC Driver Servo amplifier SDO1A+ 4A CN8 Control circuit 4B SDO1ACN8A STO1 4 STO2 5 CN10 3A SDI2A+ STOCOM 3 3B SDI2ATOFB1 6 1A SRESA+ 1B SRESATOFB2 7 6A SDO2A+ TOFCOM 8 6B SDO2A8A TOFA CN3 EM2 (A-axis) M Servo motor CN9 SDI1B+ 2A 2B SDI1BMC Driver Servo amplifier SDO1B+ 3A CN8B CN8 Control circuit 3B SDO1BSTO1 4 STO2 5 CN10 4A SDI2B+ STOCOM 3 4B SDI2BTOFB1 6 2A SRESB+ FG
3.2.2 (1) 24 V S4 S2 S1 S3 RESA RESB MR-J3D05 () () SW2 STOA STOB SW1 EM2 EM2 (A ) (B ) CN9 SDI1A+ 1A 1B SDI1AMC SDO1A+ 4A CN8 4B SDO1ACN8A STO1 4 STO2 5 CN10 3A SDI2A+ STOCOM 3 3B SDI2ATOFB1 6 1A SRESA+ 1B SRESATOFB2 7 6A SDO2A+ TOFCOM 8 6B SDO2ACN3 8A TOFA EM2 (A ) M CN9 SDI1B+ 2A 2B SDI1BMC SDO1B+ 3A CN8B CN8 3B SDO1BSTO1 4 STO2 5 CN10 4A SDI2B+ STOCOM 3 4B SDI2BTOFB1 6 2A SRESB+ FG
FG Shell Note: The allocation of the output signals (/SO1 to /SO3) can be changed. For details, refer to LECYM Operation Manual,section 3.3.2. 13 - 2.3.2 Sequence Input Circuit (1) Photocoupler Input Circuit CN1 connector terminals 6 to 13 are explained below. The sequence input circuit interface is connected through a relay or open-collector transistor circuit.
FG Shell Note: The allocation of the output signals (/SO1 to /SO3) can be changed. For details, refer to LECYU Operation Manual,section 3.3.2. 13 - 2.3.2 Sequence Input Circuit (1) Photocoupler Input Circuit CN1 connector terminals 6 to 13 are explained below. The sequence input circuit interface is connected through a relay or open-collector transistor circuit.
Insulation color Function White Black Shield Connector case FG 38 7.2 Branch communication cable The cable used to connect multiple controllers to an upper level device (PLC). (1) Branch communication cable (between an upper level device and a branch connector) i. How to order L A T H 7 1 Cable length 1 1m ii. Dimensions iii. Wiring diagram Insulation color Terminal No.
Insulation color Function White Black Shield Connector case Shield FG 69 - 7.2 Branch communication cable The cable used to connect multiple controllers to an upper level device (PLC). (1) Branch communication cable (between an upper level device and a branch connector) i. How to order L A T H 7 1 Cable length 1 1m ii. Dimensions iii. Wiring diagram Insulation color Terminal No.
1) 2) 10 13 No.ZL3-OM00801-A . 5.1 5.2.1 NPN2 PNP2 DC(+) DC(+) OUT1 OUT1 DC12 DC12 OUT2 OUT2 24V 24V FUNC FUNC DC(-) DC(-) Max.80 2V Max.80 2V *FUNK *ZSE10/ISE10 5.2.2 NPN1 PNP1 PNP (NPN ) + + OUT1 OUT1 OUT2 OUT2 DC24V DC24V FUNC* * FUNC* * + + + + code (ZL3-LW1-P-A) code (ZL3-LW1-N-A) *FUNC *ZSE10ZL3,ZL6 5.2 1) 2) 3), 4) 5)1015 10 1% 6), 7)LCD 8)FG
0.14kg (1) (0.05MPa) (2) IR1000:0.2MPa (3)2 ON-OFF () (4) -4- (C)2 (C) (A) (A) (C) (A) (C) BLEED SUP(1) OUT(2) SUP N/ M Pa/ m M Pa/ ( S) () m 2 1 1 m N MPa M Pa N m (A) / N ( B) /N () m 2 ( A) m 2 N -5- 1 SUP OUT 2 %F.S. 3 , 4 R B(P36201023) G 2 3 Rc,F N IR1000G33-2-01 G33-P2-N01-X30 IR1010G33-4-01 G33-P4-N01-X30 IR1020G33-10-01 G33-P10-N01-X30 011/84 Rc NNPT FG
(B),2 (C),(B)(A), () (B)(C) (A) BLEED (B) (C) OUT SUP SUP. 1 1 M Pa/ m ( B) m 2 N / m m m M Pa M Pa/ m m M Pa B m /N (A) ) ( N N m / N ( C) m 2 N ( A) m 2 N -5- 3. 1 SUP OUT 2 %F.S 3 4 R B(P36202028) G 2 3 Rc,F N IR2000G43-2-01 G43-P2-N01-X30 IR2010G43-4-01 G43-P4-N01-X30 IR2020G43-10-01 G43-P10-N01-X30 021/44 Rc NNPT FG 00.0050.2MPa 1: 0.010.4MPa 20.010.8MPa
If a commercially available switching power supply is used, be sure to ground the frame ground (FG) terminal. If the switching power supply is connected for use, switching noise will be superimposed and it will not be able to meet the product specifications.
If a commercially available switching power supply is used, be sure to ground the frame ground (FG) terminal. If the switching power supply is connected for use, switching noise will be superimposed and it will not be able to meet the product specifications.
If a commercially available switching power supply is used, be sure to ground the frame ground (FG) terminal. If the switching power supply is connected for use, switching noise will be superimposed and it will not be able to meet the product specifications.
If a commercially available switching power supply is used, be sure to ground the frame ground (FG) terminal. If the switching power supply is connected for use, switching noise will be superimposed and it will not be able to meet the product specifications.
If a commercially available switching power supply is used, be sure to ground the frame ground (FG) terminal. If the switching power supply is connected for use, switching noise will be superimposed and it will not be able to meet the product specifications.