Refrigerant Circuit
Si39-306
44
Refirgerant Circuit
1.2
REYQ14, 16M
No. in
refrigerant
system
diagram
Symbol
Name
Major Function
A
M1C
Inverter compressor (INV)
Inverter compressor is operated on frequencies between 52 Hz and 210
Hz 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.
REYQ14, 16M : 35 steps
B
M2C
Standard compressor 1 (STD1)
C
M3C
Standard compressor 2 (STD2)
D
M1F
Inverter fan
Since the system is of air heat exchanging type, the fan is operated at 8-
step rotation speed by using the inverter.
E
Y1E
Electronic expansion valve (Main: EV1)
Conducts PI control to make the outlet superheat degree constant when
the air heat exchanger is used at the evaporating side during heating
operation and cooling/heating simultaneous operation.
F
Y2E
Electronic expansion valve (Sub: EV2)
G
Y3E
Electronic expansion valve (Subcool: EV3)
PI control is applied to keep the outlet superheated degree of sub-
cooling heat exchanger constant.
H
Y1S
Solenoid valve (Hot gas: SVP)
Used to prevent the low pressure from transient falling.
I
Y2S
Solenoid valve (Oil equalization: SVO)
Used for oil equalizing among outdoor units in multiple-outdoor-unit system.
J
Y3S
Solenoid valve (Receiver gas charging:
SVL)
Used to maintain high pressure while in cooling operation at low outdoor
temperature. And also used to prevent the accumulation of refrigerant in
non-operating outdoor units in the case of multiple-outdoor-unit system.
K
Y4S
Solenoid valve (Receiver gas discharging:
SVG)
Used to collect refrigerant to receiver.
L
Y5S
Solenoid valve (Discharge gas pipe closing:
SVR)
Used to make the discharge gas pipe pressure high during heating
operation and cooling/heating simultaneous operation.
M
Y6S
Solenoid valve (Non-operating unit liquid
pipe closing: SVSL)
Used to prevent the accumulation of refrigerant in non-operating
outdoor units in the case of multiple-outdoor-unit system.
N
Y7S
Solenoid valve (High pressure gas pipe
pressure reduction: SVC)
Used to make the discharge gas pipe pressure low during cooling
operation.
O
Y8S
4-way selector valve (Main: 20S1)
Changes the main air heat exchanger into condenser or evaporator.
P
Y9S
4-way selector valve (Sub: 20S2)
Changes the sub air heat exchanger into condenser or evaporator.
Q
S1NPH High pressure sensor
Used to detect high pressure.
R
S2NPL Low pressure sensor
Used to detect low pressure.
S
S1PH
HP pressure switch (For INV compressor)
In order to prevent the increase of high pressure when a malfunction
occurs, this switch is activated at high pressure of 3.8 MPa or more to
stop the compressor operation.
T
S2PH
HP pressure switch (For STD compressor 1)
U
S3PH
HP pressure switch (For STD compressor 2)
V
–
Fusible plug
In order to prevent the increase of pressure when abnormal heating is
caused by fire or others, the fusible part of the plug is molten at a
temperature of 70 to 75°C to release the pressure into the atmosphere.
W
–
Pressure regulating valve 1(Receiver to
discharge pipe)
This valve opens at a pressure of 2 to 2.7 MPa or more for prevention of
pressure increase, thus resulting in no damage of functional parts due to
the increase of pressure in transportation or storage.
X
–
Pressure regulating valve 2(Liquid pipe to
receiver)
Y
–
Pressure regulating valve 3 (Oil equalizing
pipe to discharge pipe)
Z
–
Pressure regulating valve 4 (Discharge to
discharge pipe)
1
R1T
Thermistor (Outdoor air: Ta)
Used to detect outdoor temperature, correct discharge pipe
temperature, and others.
2
R2T
Thermistor (Suction pipe: Ts)
Used to detect suction pipe temperature, keep the suction superheated
degree constant in heating operation, and others.
3
R31T
Thermistor (INV discharge pipe: Tdi)
Used to detect discharge pipe temperature, make the temperature
protection control of compressor, and others.
4
R32T
Thermistor (STD1 discharge pipe: Tds1)
5
R33T
Thermistor (STD2 discharge pipe: Tds2)
6
R4T
Thermistor (Heat exchanger deicer: Tb)
Used to detect liquid pipe temperature of air heat exchanger, determine
defrosting operation, and others.
7
R5T
Thermistor (Sub-cooling heat exchanger gas
pipe: Tsh)
Used to detect gas pipe temperature on the evaporation side of sub-
cooling heat exchanger, keep the superheated degree at the outlet of
sub-cooling heat exchanger constant, and others.
8
R6T
Thermistor (Receiver outlet liquid pipe: Tl)
Used to detect receiver outlet liquid pipe temperature, prevent the drift
between outdoor units while in heating operation in the case of multiple-
outdoor-unit system, and others.
9
R7T
Thermistor (Oil equalizing pipe: To)
Used to detect oil equalizing pipe temperature, opening/closing of the oil
equalizing pipe stop valve, and others.
10
R81T
Thermistor (Main heat exchanger gas pipe:
Tg1)
Detects the gas pipe temperature of the main air heat exchanger. Used
for the control making the outlet superheat degree of main air heat
exchanger constant, etc.
11
R82T
Thermistor (Sub heat exchanger gas pipe:
Tg2)
Detects the gas pipe temperature of the sub air heat exchanger. Used
for the control making the outlet superheat degree of sub air heat
exchanger constant, etc.
Summary of Contents for VRV II REYQ10MY1B
Page 19: ...Model Selection Si39 306 8 General Information ...
Page 150: ...Si39 306 Troubleshooting by Remote Controller Troubleshooting 139 ...
Page 250: ...Si39 306 Piping Diagrams Appendix 239 REYQ14MY1B REYQ16MY1B 4D042070A ...
Page 252: ...Si39 306 Piping Diagrams Appendix 241 1 3 BS Unit BSVQ100MV1 BSVQ160MV1 BSVQ250MV1 4D042115 ...
Page 254: ...Si39 306 Wiring Diagrams for Reference Appendix 243 REYQ14MY1B REYQ16MY1B 3D038572 ...
Page 256: ...Si39 306 Wiring Diagrams for Reference Appendix 245 REYQ18 20 22 24 26 28 30 32MY1B 3D043436 ...
Page 257: ...Wiring Diagrams for Reference Si39 306 246 Appendix REYQ34 36 38 40 42 44 46 48MY1B 3D043437 ...
Page 259: ...Wiring Diagrams for Reference Si39 306 248 Appendix FXCQ40M 50M 80M 125MVE 3D039557A ...
Page 260: ...Si39 306 Wiring Diagrams for Reference Appendix 249 FXZQ20M 25M 32M 40M 50MVE 3D038359 ...
Page 262: ...Si39 306 Wiring Diagrams for Reference Appendix 251 FXKQ25M 32M 40M 63MVE 3D039564A ...
Page 264: ...Si39 306 Wiring Diagrams for Reference Appendix 253 FXMQ40M 50M 63M 80M 100M 125MVE 3D039620A ...
Page 265: ...Wiring Diagrams for Reference Si39 306 254 Appendix FXMQ200M 250MVE 3D039621A ...
Page 266: ...Si39 306 Wiring Diagrams for Reference Appendix 255 FXHQ32M 63M 100MVE 3D039801C ...
Page 267: ...Wiring Diagrams for Reference Si39 306 256 Appendix FXAQ20M 25M 32MVE 40M 50M 63MVE 3D034206A ...
Page 283: ...REFNET Pipe System Si39 306 272 Appendix ...
Page 284: ...Si39 306 Appendix 273 DPSOH RI RQQHFWLRQ 5 7 SH 5 4 0 HDW 5HFRYHU ...
Page 285: ...Si39 306 274 Appendix ...
Page 291: ...Method of Replacing The Inverter s Power Transistors and Diode Modules Si39 306 280 Appendix ...
Page 305: ...Si39 306 iv Index ...