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Models
Gas pipe
360
120
ID12.7
ID12.7
4 branch
ID15.88
ARBL054
ID15.88
ID19.05
ID15.88
ID19.05
540
7 branch
ID12.7
ARBL057
ID15.88
ID15.88
ID19.05
400
160
ID15.88
ID12.7
4 branch
ID19.05
ID15.88
ARBL104
ID28.58 ID25.4
580
7 branch
ID12.7
ID19.05
ARBL107
ID15.88
ID28.58 ID25.4
760
160
10 branch
ID12.7
ID19.05
ID15.88
ARBL1010
ID28.58
ID25.4
775
10 branch
ID12.7
ID19.05
ID15.88
ARBL2010
ID31.8 ID34.9
Leak Test and Vacuum drying
Leak test
Leak test should be made by pressurizing nitrogen gas to 3.8
2
MPa(38.7kgf/cm
). If the pressure does not drop for 24 hours, the sys-
tem passes the test. If the pressure drops, check where the nitrogen
leaks. For the test method, refer to the following figure. (Make a test
with the service valves closed. Be also sure to pressurize liquid pipe,
gas pipe and high/low pressure common pipe)
The test result can be judged good if the pressure has not be reduced
after leaving for about one day after completion of nitrogen gas pres-
surization.
During this test, set DIP switch as Vacuum Mode.
Nitrogen gas
cylinder
[unit:mm]
Liquid pipe
360
120
ID6.35
ID6.35
ID9.52
150
120
ID9.52
ID15.88
ID12.7
ID9.52
ID12.7
ID9.52
540
120
120
ID12.7
150
ID9.52
120
ID15.88
ID12.7
360
120
ID6.35
ID6.35
ID9.52
150
120
ID9.52
ID22.2
ID12.7
700
160
120
ID15.88
ID6.35
150
ID9.52
ID9.52
120
ID12.7
ID22.2
760
160
ID15.88
ID12.7
150
ID19.05
120
ID15.88
ID22.2
ID28.58
ID25.4
700
182
60*9=540
107
ID15.88
ID6.35
150
120
ID9.52
ID15.88
ID9.52
ID28.58
NOTE
!
If the ambient temperature differs between the time when pressure is
applied and when the pressure drop is checked, apply the following
correction factor
There is a pressure change of approximately 0.1 kg/cm
each 1°C of temperature difference.
Correction= (Temp. at the time of pressurization – Temp. at the time
150
120
of check) X 0.1
For example: Temperature at the time of pressurization
(3.8 MPa) is 27 °C
24 hour later: 3.73 MPa, 20°C
In this case the pressure drop of 0.07 is because of tem-
perature drop And hence there is no leakage in pipe oc-
ID6.35
curred.
120 150
ID9.52
CAUTION
!
To prevent the nitrogen from entering the refrigeration system in
the liquid state, the top of the cylinder must be at higher position
150
120
than the bottom when you pressurize the system.
Usually the cylinder is used in a vertical standing position.
ID9.52
ID6.35
150
Vacuum
120
Vacuum drying should be made from the service port provided on the
ID9.52
outdoor unit's service valve to the vacuum pump commonly used for
liquid pipe, gas pipe. Vaccum of the pipe and the indoor units should
be made from the port of the outdoor unit's service valve with the
service valve closed.
ID15.88
* Never perform air purging using refrigerant.
150
120
• Vacuum drying: Use a vacuum pump that can evacuate to -100.7kPa
(5 Torr, -755mmHg).
ID22.2
- Evacuate the system from the liquid and gas pipes with a vacuum
pump for over 2 hrs and bring the system to -100.7kPa.
After maintaining system under that condition for over 1 hr, confirm
ID6.35
the vacuum gauge rises. The system may contain moisture or leak.
150
120
- Following should be executed if there is a possibility of moisture re-
maining inside the pipe.
ID19.05
(Rainwater may enter the pipe during work in the rainy season or over
a long period of time)
After evacuating the system for 2 hrs, give pressure to the system to
0.05MPa(vacuum break) with nitrogen gas and then evacuate it again
with the vacuum pump for 1hr to -100.7kPa(vacuum drying). If the
system cannot be evacuated to -100.7kPa within 2 hrs, repeat the
steps of vacuum break and its drying.
Finally, check if the vacuum gauge does not rise or not, after main-
taining the system in vacuum for 1 hr.
Vacuum pump
17
2
(0.01 MPa) for
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