HRL

ratio : 1 [kgf/L] Circulating fluid (volume) flow rate qv : 70 [L/min] Circulating fluid specific heat C : 1.0 x 103 [cal/(kgfC)] Circulating fluid outlet temperature T1 : 20 [C] Circulating fluid return temperature T2 : 24 [C] Circulating fluid temperature difference iT : 4 [C] (= T2 T1) Conversion factor: hours to minutes : 60 [min/h] Conversion factor: kcal/h to kW : 860 [(cal/h)/W]

HRX-OM-Q026

Configuration One thermo-chiller for one master. 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Do not connect any wire to other PIN numbers. Fig. 3-15 Connection of RS-232C HRSH Series 3.3 Installation 3-27 HRX-OM-Q026 Chapter 3 Transport and Setting Up 3.4 Piping Piping port size Connect piping firmly.

VS 8-2/VS 8-4

VSR8-2-FDCG-D VSR8-4-FDCG-D VSR8-2-FDBG-D VSR8-4-FDBG-D VSR8-2-FDAG-D VSR8-4-FDAG-D 6 A 4 A 3 A 1 A 5 B 2 B Output COM. 1 2 3 4 5 6 7 8 9 10 IP65 enclosure compliant 4-position dual 3-port valves (Rubber seal only) kit (Terminal block box) L Model A side B side Symbol Connector wiring diagram (Mixed wiring) Station 1 Double wiring Station 2 Single wiring Station 3 Double wiring Station 4

HRX-OM-S004

Configuration One thermo-chiller for one master. 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Do not connect any wire to other PIN numbers. Fig. 3-15 Connection of RS-232C HRS Series 3.3Installation 3-27 HRX-OM-S004 Chapter 3 Transport and Setting Up 3.4 Piping Piping port size Connect piping firmly.

HRX-OM-W032

Configuration One thermo-chiller for one master. 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Fig. 3-13 Connection of RS-232C HRS Series 3.3 Installation 3-25 HRX-OM-W032 Chapter 3 Transport and Setting Up 3.4 Piping Piping port size Connect piping firmly. Incorrect piping might cause leakage of supplied or drained fluid and wet surrounding area and facility.

HRX-OM-O021

Configuration 1 master : 1 thermo-chiller 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Do not connect any wire to other PIN numbers. Fig. 3-11 Connection of RS-232C 3.3 Installation HRS Series 3-16 HRX-OM-O021 Chapter 3 Transport and Setting Up 3.4 Piping Connect piping firmly.

HRX-OM-M090

Configuration 1 master : 1 thermo-chiller 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Do not connect any wire to other PIN numbers. Fig. 3-10 Connection of RS-232C 3.3 Installation HRS Series 3-16 HRX-OM-M090 Chapter 3 Transport and Setting Up 3.4 Piping Connect piping firmly.

HRX-OM-R016

Configuration 1 master : 1 thermo-chiller 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Do not connect any wire to other PIN numbers. Fig. 3-10 Connection of RS-232C 3.3 Installation HRS Series 3-16 HRX-OM-R016 Chapter 3 Transport and Setting Up 3.4 Piping Connect piping firmly.

HRX-OM-R005

Configuration 1 master : 1 thermo-chiller 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Do not connect any wire to other PIN numbers. Fig. 3-11 Connection of RS-232C 3.3 Installation HRS Series 3-16 HRX-OM-R005 Chapter 3 Transport and Setting Up 3.4 Piping Connect piping firmly.

HRX-OM-W038

Configuration 1 master : 1 thermo-chiller 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Fig. 3-11 Connection of RS-232C 3.3 Installation HRS Series 3-16 HRX-OM-W038 Chapter 3 Transport and Setting Up 3.4 Piping Connect piping firmly. Incorrect piping might cause leakage of supplied or drained leakage and wet surrounding area and facility.

Conforming to ISO Standard Solenoid Valve (with M12 Connector) Series EVS7-6/7-8/7-10 (Size 1) (Size 2) (Size 3) 1

T 02 03 Port thread Nil T F Rc NPTF G Size 1 2 3 Size 1 Size 2 Size 3 Location of P, EA, EB port Number of stations D U Bottom Top 1 1 station 10 10 stations Size of P, EA, EB port Note) SU and TBU require one station. 02 03 04 06 10 1/4 3/8 1/2 3/4 1 Location and size of A, B port 02 03 04 06 10 02B 03B 04B Side 1/4 Side 3/8 Side 1/2 Side 3/4 SIde 1 Bottom 1/4 Bottom 3/8 Bottom 1/2 Option

VQ7-6/7-8

FHG FJG FIG FHG FJG FIG VQ7-8-DVQ7-8-D-R VQ7-8-FPG-DValve replacement parts FHG FJG FIG FHG FJG FIG Description Material VQ7-8-FG-SVQ7-8-FG-DVQ7-8-FPG-DVQ7-8-FG-S-R VQ7-8-FG-D-R VQ7-8-D-R VQ7-8-DNo. 1 2 3 4 5 6 7 8 9 Gasket Gasket A Gasket B Gasket C O-ring Mini Y seal Mini Y seal Pilot valve assembly Double check spacer AXT510-13 VQ7060-13-2 VQ7080-13-1 VQ7080-13-3 37 x 1.6 NBR NBR NBR

DOC1003626

Table 3.8-2 RTU mode message frame Address c)Function d)Data e)Checksum a)Start b)Device (CRC) f)End T1-T2-T3-T4 XX XX XX XX XX XX T1-T2-T3-T4 a) Start In Modbus RTU mode, message frames are separated by a silent interval (noncommunication time).

HRX-OM-W069

Both ends of the communication connection (the end nodes) need to be connected to the higher level computer. 2 2 R D R D 3 3 S D S D 5 5 S G S G Master This product Do not connect any wire to other PIN numbers.

energy saving effect

Q = qm x C x (T2 T1) x qv x C x iT 60 1 x 70 x 4.186 x 103 x 4.0 60 = = qm x C x (T2 T1) 860 Q = = 19535 [J/s] 19535 [W] = 19.5 [kW] x qv x 60 x C x iT 860 = Cooling capacity = Considering a safety factor of 20%, 19.5 [kW] x 1.2 = 23.4 [kW] 1 x 70 x 60 x 1.0 x 103 x 4.0 860 = Thermo-chiller T1: Outlet temperature Q: Heat generation amount 1680 [cal/h] 860 Users equipment = T = T2 T1

HRS100/150

V : 150 [L] Cooled substance specific heat C : 1.0 x 103 [cal/(kgfC)] HRS 100/150 HRS 100/150 HRSH 090 HRSH Cooled substance temperature when cooling begins T0 : 30 [C] Cooled substance temperature after t hour Tt : 20 [C] Cooling temperature difference iT : 10 [C] (= T0 Tt) Cooling time it : 15 [min] Conversion factor: hours to minutes : 60 [min/h] Conversion factor: kcal/h to kW : 860

53

[L] Cooled substance specific heat C : 1.0 x 103 [cal/(kgfC)] Cooled substance temperature when cooling begins T0 : 30 [C] Cooled substance temperature after t hour Tt : 20 [C] Cooling temperature difference iT : 10 [C] (= T0 Tt) Cooling time it : 15 [min] Conversion factor: hours to minutes : 60 [min/h] Conversion factor: kcal/h to kW : 860 [(cal/h)/W] * Refer to the following for the

Thermo-chiller

Q = qm x C x (T2 T1) x qv x C X T 1 x 35 x 4.186 x 103 x 3.0 60 = = 60 qm x C x (T2 T1) 860 Q = = 7325 [J/s] 7325 [W] = 7.3 [kW] x qv x 60 x C x T = Cooling capacity = Considering a safety factor of 20%, 7.3 [kW] x 1.2 = 860 8.8 [kW] 1 x 35 x 60 x 1.0 x 103 x 3.0 860 = Thermo-chiller qv: Circulating fluid flow rate Q: Heat generation amount T2: Return temperature Users equipment 7325

33

(per unit) Applicable model A B C D HRSE012-AHRSE018-AHRSE024-A240 (335) 505 (540) HRW HRS-TK003 HECR HRSE012-A--T HRSE018-A--T HRSE024-A--T 240 (335) 555 (590) HEC HEB HED HEA IDH Anchor bolt (M8) D C (Prepared by user) Anti-quake bracket Material: Zinc steel plate Mounting view A B w Bypass Piping Set Note) To be mounted by user.

Lightweight and Compact

HRZ x V x C x iT it m x C x (T0 Tt) it Q = = HRZD 1 x 150 x 4.186 x 103 x 10 900 = = 6977 [J/s] 7.0 [kW] m x C x (T0 Tt) it x 860 x V x 60 x C x iT it x 860 HRW Q = = Cooling capacity = Considering a safety factor of 20%, 7.0 [kW] x 1.2 = HECR 1 x 150 x 60 x 1.0 x 103 x 10 15 x 860 8.4 [kW] = HEC Q x t: Heat capacity [kJ] Thermo-chiller Water bath 6977 [W] = 7.0 [kW] 20C HEB Cooling