Check the height difference between the indoor unit and the
outdoor unit, and check the length and number of bends of the
refrigerant pipeline, which must meet the following require-
ments:
0D[KHLJKWGLIIHUHQFHP,IWKHKHLJKWGLIIHUHQFHLVJUHDWHU
than 5m, it is best to put the outdoor unit above the indoor unit)
0D[SLSHOLQHOHQJWKP
Max. number of bends....15
In the process of installing the connective pipe, do not letmmmm
the air, dust or foreign substance intrude into the pipeline
system.
Install the connective pipe only after fixing the indoor and
outdoor units.
Keep dry when installing the connective pipe. Do not let moist
intrude into the pipeline system.
6.
INSTALL THE CONNECTIVE PIPE
6.1 Preparation Before Installtion
8
Installation Manual
NOTE
The indoor unit and outdoor unit are categorized into system A
and system B. When installing and connecting the indoor unit
and outdoor unit, identify the label carefully, and make sure that
indoor unit corresponds to the outdoor unit exactly. Otherwise, it
may lead to fault of the air conditioner.
Model of indoor unit.Room name
Example: The first system indoor unit (A) of the 2nd floor is
recorded as: 2F 1A
In order to prevent faults caused by condensate of the refriger-
ant pipe and drain pipe, perform condensate prevention and
heat insulation properly.
Be sure to entwine heat insulation materials round the drain pipe
which runs through the room.
Carry through heat insulation for the drain pipes thoroughly.
Please use heat-resistant materials as heat insulation materials
of the air-side pipe. (e.g., EPT)
Cover heat insulation materials separately at the liquid side and
the air side. Moreover, perform heat insulation thoroughly for the
air-side pipes of the indoor unit, and prevent water from dripping
outside the unit.
After applying the auxiliary heat insulation materials, use
vinylresin tape to seal it lest water leak.
If it is forecast that high humidity/temperature environment
(condensate temperature is over 23
ć
) may exist in the ceiling,
e.g., inside the ceiling with slab, ceiling which is in the same
HQYLURQPHQWDVWKHRXWGRRUDLULWLVQHFHVVDU\WRDSSO\PP
RU WKLFNHU DGLDEDWLF ZRRO aNJP
2
) to the refrigerant pipe
and the drain pipe in addition to applying the general heat insula-
tion materials. Enough heat insulation materials should also be
applied to the refrigerant joint and the pipe joint.
NOTE
CAUTION
Fig.5-1
5.
HEAT INSULATION OF THE PIPE
5.1 Heat Insulation Of The Pipe
5.2 Heat Insulation Of The Drain Pipe
5.3 Heat Insulation Of The Refrigerant Pipe
Indoor unit
(air-side pipe)
In case multiple systems are set, in order to identify the connec-
tion system of the indoor unit and outdoor unit, it is necessary to
give name to each system, and mark it onto the nameplate on
the electric control box cover of the outdoor unit.
Fig.4-13
OA
b. Leakage detection alarm device linked
with the mechanical ventilation device
(The leakage detection alarm device should be installed at the place
vulnerable to retention of the refrigerant)
D9HQWLODWLRQRULILFHSDUW
Indoor unit
4.14 Completing The Connection System Name
All outdoor unit and evaporator coil connections are
copper-to-copper and should be brazed with a
phosphorous-copper alloy material such as Silfos-5 or
equivalent. DO NOT use soft solder. The outdoor units
have reusable service valves on both the liquid and
vapor connections. The total system refrigerant charge
is retained within the outdoor unit during shipping and
installation. The reusable service valves are provided to
evacuate and charge per this instruction.
Serious service problems can be avoided by taking
adequate precautions to assure an internally clean and
dry system.
6.2 PRECAUTIONS DURING BRAZING OF LINES
