Refrigerant Circuit
Si37-701
58
Refrigerant Circuit
1.5
REMQ14PY1, 16PY1 (Multi 14, 16HP)
No. in
refrigerant
system
diagram
Symbol
Name
Major Function
1
M1C
Inverter compressor (INV)
Inverter compressor is operated on frequencies between 52Hz and 210Hz by using the inverter,
while Standard compressor is operated with commercial power supply only. The number of
operating steps is as follows when Inverter compressor is operated in combination with Standard
compressor.
Compressor operation steps : Refer to page 104~107.
2
M2C
Standard compressor 1 (STD1)
3
M3C
Standard compressor 2 (STD2)
4
M1F
Inverter fan
Since the system is of air heat exchanging type, the fan is operated at 9-step rotation
speed by using the inverter.
5
M2F
Inverter fan
Since the system is of air heat exchanging type, the fan is operated at 9-step rotation
speed by using the inverter.
6
Y1E
Electronic expansion valve
(Main: EVM)
While in heating operation, PI control is applied to keep the outlet superheated degree
of air heat exchanger constant.
7
Y3E
Electronic expansion valve
(Subcool: EVT)
PI control is applied to keep the outlet superheated degree of subcooling heat
exchanger constant.
8
Y2E
Electronic expansion valve
(Refrigerant charge EVJ)
This is used to open/close refrigerant charge port.
9
Y6S
Solenoid valve (Main bypass SVE)
This opens in cooling operation.
10
Y5S
Solenoid valve (Hot gas: SVP) Used to prevent the low pressure from transient falling.
11
Y4S
Solenoid valve (Refrigerant
regulator liquid pipe SVL)
This is used to collect refrigerant to the refrigerant regulator.
12
Y1S
Solenoid valve (Refrigerant
regulator gas purging pipe SVG)
This is used to collect refrigerant to the refrigerant regulator.
13
Y7S
Solenoid valve (Refrigerant
regulator discharge pipe SVO)
This is used to discharge refrigerant from the refrigerant regulator.
14
Y8S
Solenoid valve (Discharge
pipe of refrigerant regulator)
Bypass the high pressure gas to the refrigerant regulator.
15
Y3S
4 way valve (Heat exchanger
switch 20SA)
This is used to switch outdoor heat exchanger to evaporator or condenser.
16
Y2S
4 way valve (Dual pressure
gas pipe switch 20SB)
This is used to switch dual pressure gas pipe to high pressure or low pressure.
17
S1NPH High pressure sensor
Used to detect high pressure.
18
S2NPL Low pressure sensor
Used to detect low pressure.
19
S1PH
HP pressure switch (For INV
compressor)
This functions when pressure increases to stop operation and avoid high pressure
increase in the fault operation.
20
S2PH
HP pressure switch (For STD
compressor 1)
21
S3PH
HP pressure switch (For STD
compressor 2)
22
—
Pressure regulating valve
(Liquid pipe)
This is used when pressure increases, to prevent any damage on components caused
by pressure increase in transport or storage.
23
—
Pressure regulating valve
(Refrigerant regulator)
This is used when pressure increases, to prevent any damage on components caused
by pressure increase in transport or storage.
24
—
Subcooling heat exchanger
Apply subcooling to liquid refrigerant.
25
—
Refrigerant regulator
Surplus refrigerant is held according to the operation conditions.
26
—
Capillary tube
Used to return the refrigerating oil separated through the oil separator to the INV compressor.
27
—
Capillary tube
Used to return the refrigerating oil separated through the oil separator to the STD1 compressor.
28
—
Capillary tube
Used to return the refrigerating oil separated through the oil separator to the STD2 compressor.
29
—
Capillary tube
This is used to discharge refrigerant from the refrigerant regulator.
30
R1T
Thermistor (Outdoor air: Ta)
Used to detect outdoor temperature, correct discharge pipe temperature, and others.
31
R8T
Thermistor (Suction pipe: TsA) Used to detect suction pipe temperature.
32
R31T
Thermistor (INV discharge pipe: Tdi)
Used to detect discharge pipe temperature. Used for compressor temperature
protection control.
33
R32T
Thermistor (STD1 discharge pipe: Tds1)
34
R33T
Thermistor (STD2 discharge pipe: Tds2)
35
R4T
Thermistor (Heat exchanger
deicer: Tb)
Used to detect liquid pipe temperature of air heat exchanger. Used to make judgments
on defrosting operation.
36
R2T
Thermistor (Heat exchanger
gas pipe Tg)
This detects temperature of gas pipe for air heat exchanger. Used to exercise the
constant control of superheated degree when an evaporator is used for outdoor unit
heat exchanging.
37
R7T
Thermistor (Heat exchanger
liquid pipe Tf)
This detects temperature of liquid pipe between the air heat exchanger and main
electronic expansion valve. Used to make judgments on the recover or discharge
refrigerants to the refrigerant regulator.
38
R5T
Thermistor (Subcooling heat
exchanger gas pipe: Tsh)
This detects temperature of gas pipe on the evaporator side for the subcooling heat
exchanger. Used to exercise the constant control of superheated degree at the outlet
of supercooled heat exchanger.
39
R6T
Thermistor (Subcooling heat
exchanger liquid pipe Tl)
This detects temperature of liquid pipe between the main expansion valve and
subcooling heat exchanger.
40
R9T
Thermistor (Liquid pipe Tsc)
This detects temperature of liquid pipe between the liquid stop valve and subcooling
heat exchanger.
Summary of Contents for VRV III REYQ8PY1
Page 1: ...REYQ8 48PY1 R 410A Heat Recovery 50Hz Si37 701...
Page 59: ...Specifications Si37 701 48 Specifications...
Page 105: ...Refrigerant Flow for Each Operation Mode Si37 701 94 Refrigerant Circuit...
Page 230: ...Si37 701 Troubleshooting by Remote Controller Troubleshooting 219...
Page 374: ...Si37 701 Piping Diagrams Appendix 363 REYQ14P 16PY1 3D058153A S2NPL S1NPH...
Page 375: ...Piping Diagrams Si37 701 364 Appendix REMQ8PY1 3D057743...
Page 376: ...Si37 701 Piping Diagrams Appendix 365 REMQ10PY1 12PY1 3D057742...
Page 377: ...Piping Diagrams Si37 701 366 Appendix REMQ14PY1 16PY1 3D057741...
Page 382: ...Si37 701 Piping Diagrams Appendix 371 1 3 BS Unit 4D057985A...
Page 384: ...Si37 701 Wiring Diagrams for Reference Appendix 373 REYQ14 16PY1 3D056774C...
Page 385: ...Wiring Diagrams for Reference Si37 701 374 Appendix REMQ8PY1 3D055307E...
Page 386: ...Si37 701 Wiring Diagrams for Reference Appendix 375 REMQ10 12PY1 3D055308E...
Page 387: ...Wiring Diagrams for Reference Si37 701 376 Appendix REMQ14P 16PY1 3D055309E...
Page 392: ...Si37 701 Wiring Diagrams for Reference Appendix 381 FXCQ40M 50M 80M 125MVE 3D039557A...
Page 394: ...Si37 701 Wiring Diagrams for Reference Appendix 383 FXZQ20M 25M 32M 40M 50M8V1B 3D038359...
Page 395: ...Wiring Diagrams for Reference Si37 701 384 Appendix FXKQ25MA 32MA 40MA 63MAVE 3D039564C...
Page 399: ...Wiring Diagrams for Reference Si37 701 388 Appendix FXDYQ180M 200M 250MV1...
Page 402: ...Si37 701 Wiring Diagrams for Reference Appendix 391 FXMQ200MA 250MAVE 3D039621B...
Page 403: ...Wiring Diagrams for Reference Si37 701 392 Appendix FXHQ32MA 63MA 100MAVE 3D039801D...
Page 406: ...Si37 701 Wiring Diagrams for Reference Appendix 395 2 4 BS Unit 3D055928C...
Page 423: ...Piping Installation Point Si37 701 412 Appendix...
Page 427: ...Example of Connection R 410A Type Si37 701 416 Appendix...
Page 433: ...Method of Checking the Inverter s Power Transistors and Diode Modules Si37 701 422 Appendix...
Page 447: ...Si37 701 iv Index...
Page 451: ...Si37 701 viii Drawings Flow Charts...