6
6.2
[Fig. 6.2.1]
C
60
550
606
B
D
70
476
20
630
A Refrigerant pipe (liquid pipe): HP
B Drain pipe
C Hanging bolt pitch
D Refrigerant pipe (gas pipe): LP
E Filling port
[Fig. 6.3.2]
(figure showing the flare insulation)
C
B
A
D
E
F
*2
G
7
[Fig. 7.2.1]
A
B
A
B
1
A:
25 cm
B:
1.5 – 2 m
A Downward pitch of more than 1/100
B Insulating material
C Metal brace
[Fig. 7.2.3]
I
H
G
D
K
8
[Fig. 8.1.1]
D
A
B
C
C
C
C
60
70
178
E
A
350
20
A Field refrigerant piping
B There must be no gap.
C Unit body plate
D OUTER
E INNER
F Unit body
G Provided flare insulation (2)
7.2
[Fig. 7.2.2]
C
E
D
F
2
D Indoor unit
E Take as large as possible. About 10 cm
F Collected pipes
C: 30 cm
G Drain hose (Accessory)
s s s s s Be sure to use the supplied drain hose
J
(Accessory).
H Less than 300 mm
I Hard vinyl chloride 90° elbow (field supply)
J Hard vinyl chloride (VP-25) (field supply)
3
I
K Tie band (small) (Accessory)
A Switch 16 A
B Overcurrent protection 16 A
E
C Indoor unit
C
C
C
D Total operating current be less
than 16 A
E Pull box
[Fig. 6.3.1]
B
A
*1
E
C
D
G
A "0-0 gas" mark
C "OUTER" mark
E Refrigerant piping (gas)
G Field refrigerant piping
I Insulation material
K Pull in this direction.
M Flare
O Move to the original position.
[Fig. 6.3.3]
A
B
C
*4
20
D
D
8.1
[Fig. 8.1.2]
E
G
6.3
I
K
F
L
H
O
B "INNER" mark
D Flare insulation (2)
F Refrigerant piping (liquid)
H Pipe insulation (1)
J Flare
L Insulation material
N There must be no gap.
20
A Tape (3)
20
B Fasten with tape.
20
C Provided tie band (4)
*3
7.3
[Fig. 7.3.1]
A
E
B
A Insert the pump's end 2 to 4 cm.
B Remove the polyethylene plug.
C About 1000 cc
D Water
E Filling port
C
F
20 ~ 80
E Switch 16 A
F Overcurrent protection 16 A
C
H
G Switch 16 A
H Overcurrent protection 16 A
100 · 125
J
M
N
C
D
3