Type: Thermo-Chiller, Cooling Method: Water Cooling, Cooling Capacity: 1,100/1,300 W (50/60 Hz), Piping thread type: Rc, Optional specifications: With earth leakage circuit breaker / Compatible with deionized water (pure water) piping / High pump head specification
Type: -, Cooling Method: -, Cooling Capacity: 1,100/1,300 W (50/60 Hz), Piping thread type: Rc, Optional specifications: Compatible with deionized water (pure water) piping
Cooling Capacity: 012 (Cooling Capacity: 1100/1300W, 50/60 Hz), Cooling Method: W (Water-cooled Refrigeration), Thread: Rc, Option: M [Applicable to DI Water (Deionized Water) Piping]
Cooling Capacity: 012 (Cooling Capacity: 1100/1300W, 50/60 Hz), Cooling Method: W (Water-cooled Refrigeration), Thread: Rc, Option: BMT (B + M + T)
Cooling Capacity: 012 (Cooling Capacity: 1100/1300W, 50/60 Hz), Cooling Method: W (Water-cooled Refrigeration), Thread: Rc, Option: MT (M + T)
Cooling Capacity: 012 (Cooling Capacity: 1100/1300W, 50/60 Hz), Cooling Method: W (Water-cooled Refrigeration), Thread: Rc, Option: J (Automatic Water Supply Function)
ZP Adapter connection thread Symbol Thread dia. 1 A8 Symbol Pad dia. 1 02 to 08 2 A10 B5 2 10 to 16 3 A14 3 20 to 32 B8 4 40, 50 T 2 ZP B5 [q Adaptor] S ZP 06 B5 R [w Type R adaptor] Buffer connection thread B5 Symbol S Pad dia. 02 to 16 Pad dia.
MGOM.,/Slide bearing MGQL,,/Ball bush bearing MGQL12-25-3O more stroke MGOM'12-2s-Lil . 5 O l O O , MGQM32-1OO t l01ooT P=o.5MPa 1 ,*"1 -Tt r t r . l 080 ; , . d63 t t , 5od ' l4oo o50 E;\ .' !
valve stroke r Protective seal Prevents foreign matter from entering the squeeze seal when the valve is open t w t Guide bushing Prevents misalignment and lengthens the squeeze seal life e r q Low leakage 10 cm3/min2 or less 2 With air Internal leakage Body material q Rubber seal Special FKM with high sealing performance Stainless steel 316L equivalent / Bronze (CAC) Fluid temperature 183C
Foot: CG3LN Bore size Stroke S+ Stroke H t (Clearance)1 GB GA 2 x P Width across flats NA With rubber bumper 8 x J Rod part A MM AL I H1 C Width across flats B1 B (LT) 15 LH H2 D W Width across flats KA W 2 x LC (Knock pin position) C Y X M 4 x LD X Y LX LZ Sectional view of the rod part LS+ Stroke ZZ+ Stroke Z 1 The rod end nut should be mounted in the position t (clearance) so that it will
*6 Vertical 145 175 Horizontal 2 Standby power consumption when operating [W] *7 Vertical 8 Max. instantaneous power consumption [W] *8 445 724 Type *9 Non-magnetizing lock specifications Lock unit Holding force[N] 131 255 157 308 197 385 Power consumption [W] at 20C *10 6.3 7.9 Rated voltage [V] 24 VDC 0/10% * 1 The force setting range (set values for the driver) for the force control with
10 10 63 63 63 50 50 50 40 1 1 1 25 20 25 20 40 32 40 32 32 [Example w] 25 20 0.3 0.3 0.1 70 100 1000 70 100 1000 70 100 1000 Stroke (mm) Stroke (mm) Stroke (mm) 2.
VE VY The oil that has been pumped from the tank passes through felt q where it is filtered, and is fed into the case through nozzle w. When the volume of oil in the case reaches a certain level, float e ascends, valve t descends via lever r, nozzle w closes, and the feeding of oil stops, thus completing the oil feeding process.
C2 LECSC2-T 200 to 230 2 2 S2 LECSS2-T 200 to 240 5 5 N2 LECSN2-T 200 to 240 A 10 E2 LECSN2-T-E 200 to 240 92 LECSN2-T-9 200 to 240 I/O cable length P2 LECSN2-T-P 200 to 240 Nil Without cable H Without cable Connector only 1 1.5 [m] Applicable Stroke Table Stroke Size 50 100 150 200 250 300 350 400 450 500 600 700 800 900 1000 1100 1200 25 32 40 -9- AC servo motor LECY* series L E K F S
SW Enable SW SW 12 Unit name W 1 W-AREA1 W 1 AREA ON (mm) W 12 AREA ON + *W 1>=W 2 ,PARA W 1=W 2=0 AREA OFF W 2 W-AREA2 W 2 + ORG Correct * Sensor type * 1 (CC-Link () 1 (CC-Link ) ) () Option 1 1 (1 ) 14 (Occupied number of stations of CC-Link) 2 (2 ) 4 (4 ) CC-Link (CRC ) 11 CC-Link 11 CC-Link CC-Link 0 () UndefineN o.11 0,10 (Operation setting at CC-Link communication
A1 L3 A3 Mp Mr Static moment Dynamic moment My W W W L2 A2 L3 A3 L1 A1 Mp Mr My W W W W Mey Mep We We L3 A3 L2 A2 W Note) It is not necessary to consider load factor when using this device vertically perpendicular.