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2 3 !4 o !0 !1 !2 e !3 !4 !5 !2 q !5 q t t r u u i i r y y w !6 w Meter-in type Meter-out type Meter-out type Meter-in type Seal method: Face seal For G thread e o !3 !1 !0 !4 !2 !5 q t u i r y !7 Flow Control Equipment AS AS-FS w Meter-in type Meter-out type Component Parts No.
Thermo-cooler T1: Outlet temperature Q: Heat generation amount Customers equipment (3) Derive the amount of heat generated from the output.
M5 M5 K M Q R 50 60 63 66 70 Q 40 R Q 58 R S 46 Q 95 R S 62 T U 46 56 56 W X 11 13 13 Y Normally closed Normally open VX212 VX222 VX232 VX210 VX220 VX220 VX230 VX230 1/8, 1/4 1/4, 3/8 1/4, 3/8, 1/2 1/4, 3/8 1/4, 3/8, 1/2 18 22 30 22 30 (76) (86) (93) 2, 3, 4.5 3, 4.5, 6 8, 10 3, 4.5, 6 8, 10 40 45 50 45 50 68 78 85 85 92 30 9 19.5 27 6 8 8 8 8 12.8 19.5 42.5 42.5 42.5 85 36 46 46
Orifice size 2 3 4 3mm 4.5mm 6mm Refer to table q for configuration. Valve/Body 1 3 Normally closed (N.C.)/Manifold Normally open (N.O.)
Operation Display Panel The basic operation of this unit is controlled through the operation panel on the front of the product. q e o t r !0 !1 w !2 y u !3 !4 i !5 !9 !6 !7 @0 @1 !8 No.
COIL NO. 6 7.8 8.5 12 14 5.4 7 7.7 11 13 3 3.8 4.4 6 7 5C-103-A24 5C-104-A24 5C-105-A24 5C-106-A24 5C-107-A24 5C-3-K24 5C-4-K24 5C-5-K24 5C-6-K24 5C-7-K24 18.5 24 32 39 45 17 22 29 35 41 9 12 16 20 23 5C-108-A24 5C-109-A24 5C-110A24 5C-111-A24 5C-112-A24 5C-8-K24 5C-9-K24 5C-10-K24 5C-11-K24 5C-12-K24 48 54 94 120 153 43 48 85 110 138 24 28 47 60 76 5C-113-A24 5C-114-A24 5C-115-A24 5C-116
COIL NO. 6 7.8 8.5 12 14 5.4 7 7.7 11 13 3 3.8 4.4 6 7 5C-103-A24 5C-104-A24 5C-105-A24 5C-106-A24 5C-107-A24 5C-3-K24 5C-4-K24 5C-5-K24 5C-6-K24 5C-7-K24 18.5 24 32 39 45 17 22 29 35 41 9 12 16 20 23 5C-108-A24 5C-109-A24 5C-110A24 5C-111-A24 5C-112-A24 5C-8-K24 5C-9-K24 5C-10-K24 5C-11-K24 5C-12-K24 48 54 94 120 153 43 48 85 110 138 24 28 47 60 76 5C-113-A24 5C-114-A24 5C-115-A24 5C-116
Pump 1.1 kW Compressor + Fan + Others 4 kW (For air-cooled type) (For air-cooled type) Fan Pump Fan Pump HRZ 3. Inverter pump Triple inverter 3.
Deionized water: Electric conductivity 1 mS/cm or higher (Electric resistivity 1 MWcm or lower) Note 3) q Facility water temperature: 32C, w Circulating fluid: Tap water, e Circulating fluid temperature: 20C, r Circulating fluid flow rate: Rated flow, t Power supply: 200 VAC Note 4) q Facility water temperature: 32C, w Circulating fluid: Tap water, e Circulating fluid flow rate: Rated flow
AC 110 12 2 12 3 q e w e t y 220 10 1 10 1.5 440 6 1 3 1 550 5 0.8 2 0.5 r b contact w a contact r q DC 24 3 2.5 3 2.5 C C 48 1.5 1.2 1.5 1.25 When rising pressure q w = ON e r = OFF When rising pressure q e r y = ON q w r t = OFF 110 0.5 0.25 0.5 0.2 220 0.25 0.1 0.25 0.1 Insulation resistance: 100 M or more at 500 VDC by megameter Voltage resistance: 2000 VAC/1 min. 16-9-5 2 Series
/I.D. mm 8/5 9/6 10/6.5 12/8 12.5/8.5 16/11 Thread size R, Rc 1/8 R, Rc 1/4 R, Rc 3/8 R, Rc 1/2 R, Rc 3/4 Construction Auxiliary Pneumatic Equipment Air Preparation Equipment
Applicable model HRS-WL003 HRS090-mm-20/40 Parts List q No.
Laser output power 3 [kW], conversion efficiency 30% The oscillators power consumption is, 3 [kW] 0.3 = 10 [kW] The cooling capacity required for the oscillator is, 10 [kW] 3 [kW] = 7 [kW] Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] W Efficiency Q = P = In this example, using an efficiency of 0.7: 5.1 0.7 = = 7.3 [kW] Q: Heat generation amount Cooling capacity = Considering
phase 200 VAC (50 Hz), 3-phase 200 to 230 VAC (60 Hz) -20 3-phase 200 VAC (50 Hz), 3-phase 200 to 230 VAC (60 Hz) -20 3-phase 200 VAC (50 Hz), 3-phase 200 to 230 VAC (60 Hz) -40 3-phase 380 to 415 VAC (50/60 Hz) -40 3-phase 380 to 415 VAC (50/60 Hz) -40 3-phase 380 to 415 VAC (50/60 Hz) Set temp. range 5 to 35C Set temp. range 5 to 35C Set temp. range 5 to 35C Temp. stability 0.1C Temp. stability
Q: Heat generation amount I: Current Users equipment q Derive the heat generation amount from the power consumption.
LPV22 (N.O.) y y r r t i t u u o e e w w q q Component Parts No.
[inch] Model D Weight [g] X Y O N Thickness Nylon Urethane D Q Q 2 x O 1/8 KQ2T01-00A1 7.1 6.7 9.5 14.9 18.5 13.3 5.4 6 3.2 7.1 3.4 2.9 2.5 2.3 5/32 KQ2T03-00A1 8.2 7.7 10 15.3 19.4 13.3 5.7 6 3.2 8.2 6.4 4.4 3 2.8 3/16 KQ2T05-00A1 9.1 8.4 11 15.7 20.3 13.3 6.2 6 3.2 9.1 8.4 7 3.5 3.2 2 x N M Q L1 L2 Q D D L1 M L1 M Release button dimensions X Y Different Diameter Tee: KQ2T D1 2 x Applicable
Average suction flow rate V x 60 T1 V x 60 T1 Q = Q = + QL T2 = 3 x T1 T2 = 3 x T1 Q : Average suction flow rate /min (ANR) V : Piping capacity () T1 : Arrival time to stable Pv 63% after adsorption (sec.) T2 : Arrival time to stable Pv 95% after adsorption (sec.) QL : Leakage at work adsorption /min (ANR) 2.