Series IDF can accommodate an inlet temperature of 40 C. Corrosion resistance is improved by using a stainless steel, plate type heat exchanger.
Series IDF can accommodate an inlet temperature of 40 C. Corrosion resistance is improved by using a stainless steel, plate type heat exchanger.
Series IDF can accommodate an inlet temperature of 40 C. Corrosion resistance is improved by using a stainless steel, plate type heat exchanger.
Series IDF can accommodate an inlet temperature of 40 C. Corrosion resistance is improved by using a stainless steel, plate type heat exchanger.
Series IDF can accommodate an inlet temperature of 40 C. Corrosion resistance is improved by using a stainless steel, plate type heat exchanger.
Series IDF can accommodate an inlet temperature of 40 C. Corrosion resistance is improved by using a stainless steel, plate type heat exchanger.
Series IDF can accommodate an inlet temperature of 40 C. Corrosion resistance is improved by using a stainless steel, plate type heat exchanger.
Series IDF can accommodate an inlet temperature of 40 C. Corrosion resistance is improved by using a stainless steel, plate type heat exchanger.
up to 40% smaller in volume, offering improved piping space and flexibility.? Designed to work with fluids up to 90?C, these switches incorporate a built-in temperature sensor so both flow and fluid temperature can be effectively monitored at the same time.? Further improvements include the addition of?
up to 40% smaller in volume, offering improved piping space and flexibility.? Designed to work with fluids up to 90?C, these switches incorporate a built-in temperature sensor so both flow and fluid temperature can be effectively monitored at the same time.? Further improvements include the addition of?
up to 40% smaller in volume, offering improved piping space and flexibility.? Designed to work with fluids up to 90?C, these switches incorporate a built-in temperature sensor so both flow and fluid temperature can be effectively monitored at the same time.? Further improvements include the addition of?
, and center trunnion , With or without rod boot , Variety of switches and a variety of lead wire lengths, MAN.BLOCK(11)W/PLUGIN, VALVE, V4000F(NVSP4026) SOL 4/5 PORT, 22, V4000F(NVSP4026), 1.25400 lb
Series: 11-LEFS (Clean Series Ball Screw Drive), Accuracy: Basic Type, Size: 40, Motor Type: T8 (400W Output, Absolute Encoder), Lead: A (LEFS25, 12mm; LEFS32, 16mm; LEFS40, 20mm), Stroke: 200mm, Motor Option: B (w/Lock), Vacuum Port: Left, Actuator Cable Type: R [Robotic Cable (Flexible Cable)], Actuator Cable Length: 5 (5m), Driver Type: 92 (LECSN2-T-9, 200~240V, Absolute, EhterNet/IPâ„
Series: 1 (JSY1000), Type: 40 (Side Ported), Valve Stations: 11 Stations, P,E Port Entry: D (D Side), A,B Port Size: KC4 (ø4 One-touch Fitting; Replaceable), Thread Size: N (NPT), Mounting: D (DIN Rail Mounting), DIN Rail Option: 12 (Longer than Standard DIN Rail)
Series: 3 (JSY3000), Type: 40 (Side Ported), Valve Stations: 11 Stations, P,E Port Entry: B (Both Sides), A,B Port Size: KC6 (ø6 One-touch Fitting; Replaceable), Thread Size: Rc, Mounting: D (DIN Rail Mounting)
Series: 3 (JSY3000), Type: 40 (Side Ported), Valve Stations: 11 Stations, P,E Port Entry: B (Both Sides), A,B Port Size: 01 (1/8), Thread Size: N (NPT)
FGE-C O 1 (O P71) V (V P71) 6/12 FGX-OM-L009-B FGESL Series IN/OUT -0.1MPa (P10) (M12) IN OUT O O V 40 () () () 7/12 FGX-OM-L009-B 1 G1/8 () (R1 R2) IN (Rp1/4) (R3/4) DRAIN OUT (Rp1/4) (R1 R2) (R3/4) 1 1 SUS304 O FGE-OP007 8 NBR FKM O (NBR) (FKM) M10X1.5 1 SUS304 M10 SUS304 SUS304 SUS316WPA FGE-OP005 SUS316 SUS304 SUS304 FGD-OP001 SUS316 FGE-KT001 NBR O FGE-KT002