Description Material Note 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 No.
Performance/Specifications General specifications LC5-1-T1-02 Part no.
) [ ] lamp Lights up when AL.01 Tank level drop failure or AL.02 Tank level dropalarm is generated.
Front protection cover ZS-26-01 Sensor connector (1 pc. per set) ZS-28-C For the PSE5mm series (Excludes the PSE570 series) ZS-28-CA-4 For PSE570 series Power supply with M12 connector/Output cable (Made to Order) * For use when using an M12 connector for IO-Link communication ZS-26-LM12 7 B Multi-channel Digital Sensor Monitor PSE200A Series For pressure switch precautions and specific
ZS-28-CA-2 ZS-28-CA-2 ZS-28-CA-3 ZS-28-CA-2 ZS-28-CA-3 ZS-28-CA-3 ZS-28-CA-3 ZS-28-CA-3 ZS-28-CA-3 ZS-28-CA-3 ZS-28-CA-3 ZS-28-CA-3 ZS-28-CA-4 ZS-28-CA-4 ZS-28-CA-4 SMC part no. Manufacturer's part no.
2 port 3 port 28 17 20.5 28 20.5 17 20.5 28 20.5 VDW10 VDW20 VDW30 VDW200 VDW300 2 Compact Direct Operated 2 Port Solenoid Valve for Water and Air Series VDW10/20/30 How to Order Valves (Single Type) VD W 2 1 1 G 2 01 For water, air and vacuum Series Option 1 2 3 10 20 30 None Foot type bracket Nil F Note) Foot brackets are packed with valves.
Note 4) Energization on A (set) side generates vacuum and energization on B (reset) side stops generation of vacuum. 28 - Doc. no. ZB-OM00201-B How to operate the supply valve of the latching type Latching type refers to a solenoid with a self holding mechanism.
PAX PB Lined Up by Compact Design 28 2 Port 3 Port 17 20.5 28 20.5 VDW10 VDW20 VDW30 VDW200 VDW300 17-2-61 2 Series VDW Precautions Be sure to read before handling. Refer to page 17-6-3 for Safety Instructions and Solenoid Valve Precautions.
28 V, 80 mA Residual voltage: 2 V or less pe: 1 to 5 V e: Approx. 1 k B C A B C A Coil + + Max. 80 mA Residual voltage: 2 V or less Max. 28 V, 80 mA Residual voltage: 2 V or less pe: 1 to 5 V e: Approx. 1 k Black For supply valve (,+) Black For supply valve (,+) Coil White White Pilot valve for release Pilot valve for release LED (Red) Black LED For supply valve (,+) Pressure Switch for
Box 3385 Al-Amir Majed Street, Jeddah-21471, Saudi Arabia TEL: 02-6761574 FAX: 02-6708173 15-18-21
Power supply Teaching Box Positioning Driver 24VDC 10%, Max. 3.0A 28 patterns Number of position settings LC6C Setting with dedicated teaching box (LC5-1-T1-02) Position setting method Absolute and incremental moves Speed: 6 to 200mm/s (with lead screw lead of 12mm) Position control method Photo coupler input 24VDC, Max. 6mA Input signal capacity To power supply Photo coupler output Max.
Performance/Specifications General specifications LC5-1-T1-02 Part no.
Note) When ordering ejector without valve, select Nil for mounting. 04 KJH C2 Port size 04 06 03 07 !
Power supply voltage 5, 12, 24 VDC (4.5 to 28 V) Current consumption 10 mA or less Load voltage 28 VDC or less 24 VDC (10 to 28 VDC) Load current 40 mA or less 2.5 to 40 mA Internal voltage drop 0.8 V or less at 10 mA (2 V or less at 40 mA) 4 V or less Leakage current 100 A or less at 24 VDC 0.8 mA or less Indicator light Red LED lights up when turned ON.
-COM3 19 -COM3 38 1) 28 N.C. -COM4 20 1) 9 N.C. -COM4 39 1) 29 N.C.
-1.8WDC WF333O Exhaust Conter NVF343O GNced Center (B) (A) (B) (a) 01 c2 \ t \ T I'f E I J E Z (R2)(PxFl) (R2XPXR1) Prssure Center NVF3530 (B) (A) Spej;ifications -, Flurd-Art f Operatangprssurcrange2Positionsingle2O-12gPSlS(1.5-9kgF) U 2 pooition double-1 5 1 28 PSI (1 9kgf/cm'?
assembly ZK2-CH 2 04 -A Connector type Applicable stations 1 D-sub connector (25 pins) 02 For 2 stations manifold 2 Flat ribbon cable connector (26 pins) 04 For 4 stations manifold 06 For 6 stations manifold 08 For 8 stations manifold 10 For 10 stations manifold -43No.
ZK2-OM00201 Manifold ZZK2 04 A 1 L 00 00 (1) (2) (3) (4) (5) (6) Remains blank when no potion is selected. (1) Number of stations Note 1) Symbol Stations 01 1 station 02 2 stations 10 10 stations Note 1) In the case of an ejector, for an adequate performance, the number of stations when operated simultaneously depends on the nozzle diameter.
mb= n, t r a+b l l ta2+c2 i a ' Ti+l 2 . ^ 2 12 ho'oo#" ' 1 J = n y r = m " . * * ' o . F Fig. 6.23 Formulae for the moment ol inertia of various body shapes To define this energy we need to know the inertia of the rotating mass.