Size: 1 (Size 1000, Flow 100Nl/min), Stations: 5 Stations, Piping Specification: A1 (IN: Common OUT: Manifold), Thread: N (NPT)
Size: 1 (Size 1000, Flow 100Nl/min), Stations: 4 Stations, Piping Specification: A1 (IN: Common OUT: Manifold), Thread: N (NPT)
Size: 2 (Size 2000 Flow 240Nl/min), Stations: 6 Stations, Piping Specification: B2 (IN: Individual OUT: Main Body), Thread: N (NPT)
Size: 2 (Size 2000 Flow 240Nl/min), Stations: 1 Station, Piping Specification: A2 (IN: Common OUT: Main Body), Thread: N (NPT)
Body Size: 2 (1/8, 1/4), Type: 3 (Universal), Control Type: 1 (Meter-in), Indicator Direction: 1(180°), Thread: N (NPT), Port Size: 01 (1/8), Applicable Tubing O.D.: 07 (ø1/4), Seal: S (w/Sealant)
Size: 2 (Size 2000 Flow 240Nl/min), Stations: 3 Stations, Piping Specification: A1 (IN: Common OUT: Manifold), Thread: N (NPT)
Body Size: 3 (1/8 Basis), Thread: N (NPT), Port Size: 01 (1/8), Applicable Tube OD: 05 (3/16"), Sealant: S (Sealant)
Size: 3, Standard Dew Point: -20°C, Type: Standard, Thread: N (NPT), Port Size: 01 (1/8), Accessory: None (Standard), Option: PS (Fitting for Purge Air Exhaust/Dew Point Indicator)
Size: 1 (Size 1000, Flow 100Nl/min), Stations: 2 Stations, Piping Specification: A1 (IN: Common OUT: Manifold), Thread: N (NPT)
Body Size: 2 (1/8, 14), Type: 2 (Elbow), Control Type: 1 (Meter-in), Model: 1FS, Thread: N (NPT), Port Size: 01 (1/8), Width Across Flats: 9 mm (or None: Sizes 2/3/4), Applicable Tubing: 07 (ø1/4"), Seal: without Sealant
Size: 3, Standard Dew Point: -20°C, Type: Standard, Thread: N (NPT), Port Size: 01 (1/8), Accessory: None (Standard), Option: S (Dew Point Indicator)
Stroke Reading Cylinder and Counter Stroke Reading Cylinder and Counter CE Series CEP1 CEP1 CE1 CE1 CE2 CEP1/CEU5 Resolution: 0.01 mm (Accuracy 0.02 mm) Output function: RS-232C BCD Output: 5 points (Bank switching: 20 points) 31 points (Binary output) ML2B High Precision Stroke Reading Cylinder CEP1 Series 12, 20 Stroke Reading Cylinder CE1 Series 12, 20, 32, 40 50, 63 Multi-counter CEU5 Series DP.647 P.656 P.667 -X 641 Air
Extension end 8 10, 20, 30, 40, 50, 75 Rubber stopper Retraction end Both ends 12 10, 20, 30, 40, 50, 75, 100 16 10, 20, 30, 40, 50, 75, 100, 125 20 10, 20, 30, 40, 50, 75, 100, 125, 150 25 10, 20, 30, 40, 50, 75, 100, 125, 150 Functional option Nil Standard P Note 1) Axial piping Note 1) The combination of axial piping and both ends adjusters or retraction end adjusters is not available.
D DDE 202-JU FD BC FA H Q AW (UU) SD BH DF (through) JD AY 2-P BG AX DG Front port (Plugged with a hexagon socket head set screw when side ports are used.) SF AV AU BB (Max. approx.
Note) $1, %4 will not be required for the one without rear plate. 9-4-6 7 Fine Lock Cylinder with Guide Series MLGC Dimensions Basic style: With rear plate MLGCB--R4-F through Counterbore G Back side 4-H 2-O through Rear plate P Head side cylinder port BP Unlocking port Unlocked when pressurized CL CL1 P Rod side cylinder port MLGC W U A' CNG MNB Courtesy of Steven Engineering, Inc.-230
I nput si gnal O ut put pressure of E/P regul at or O N O FF Sw i t ch out put 10 Key l ocki ng f unct i on CAU TI O N The keys are l ocked af t er t urni ng t he pow er on and can not be operat ed.
I nput si gnal O ut put pressure of E/P regul at or O N O FF Sw i t ch out put 10 Key l ocki ng f unct i on CAU TI O N The keys are l ocked af t er t urni ng t he pow er on and can not be operat ed.
P IP65 equivalent (Dust-tight/Water-jet-proof)/ With vent hole tap Nil Ends tapped/ Body bottom tapped 2 V V When using the dust-tight/water-jet-proof (lP65 equivalent), correctly mount the fitting and tubing to the vent hole tap, and then place the end of the tubing in an area not exposed to dust or water. The fitting and tubing should be provided separately by user.
Power consumption P: 20 [kW] Q = P = 20 [kW] Cooling capacity = Considering a safety factor of 20%, 20 [kW] x 1.2 = V: Power supply voltage P 24 [kW] Power consumption e Derive the heat generation amount from the output. Output (shaft power, etc.) W: 13 [kW] w Derive the heat generation amount from the power supply output.
Power consumption P: 1000 [W] Q = P = 1000 [W] Cooling capacity = Considering a safety factor of 20%, 1000 [W] x 1.2 = 1200 [W] V: Power supply voltage HRSH 090 P HRSH Power consumption HRSE HRSE e Derive the heat generation amount from the output. Output (shaft power etc.) W: 800 [W] w Derive the heat generation amount from the power supply output.