6 Technical data
6
Technical data
A subset of the latest technical data is available on the regional Daikin website (publicly accessible). The full set of latest technical data is
available on the Daikin extranet (authentication required).
6.1
Service space: Outdoor unit
Suction side
In the illustrations below, the service space at the suction side is based on 35°C DB and cooling operation. Forsee
more space in the following cases:
▪ When the suction side temperature regularly exceeds this temperature.
▪ When the heat load of the outdoor units is expected to regularly exceed the maximum operating capacity.
Discharge side
Take refrigerant piping work into account when positioning the units. If your layout does not match any of the
layouts below, contact your dealer.
Single unit (
) | Single row of units (
See figure 1 on the inside of the front cover.
A,B,C,D
Obstacles (walls/baffle plates)
E
Obstacle (roof)
a,b,c,d,e
Minimum service space between the unit and obstacles A, B, C, D and E
e
Maximum distance between the unit and the edge of obstacle E, in the direction of obstacle B
B
e
Maximum distance between the unit and the edge of obstacle E, in the direction of obstacle D
D
H
Height of the unit
U
H
,H
Height of obstacles B and D
B
D
1
Seal the bottom of the installation frame to prevent discharged air from flowing back to the suction side through the bottom of the unit.
2
Maximum two units can be installed.
Not allowed
Multiple rows of units (
See figure 2 on the inside of the front cover.
Stacked units (max. 2 levels) (
See figure 3 on the inside of the front cover.
A1=>A2
(A1) If there is danger of drainage dripping and freezing between the upper and lower units...
(A2) Then install a roof between the upper and lower units. Install the upper unit high enough above the lower unit to prevent ice buildup at the
upper unit's bottom plate.
B1=>B2
(B1) If there is no danger of drainage dripping and freezing between the upper and lower units...
(B2) Then it is not required to install a roof, but seal the gap between the upper and lower units to prevent discharged air from flowing back to the
suction side through the bottom of the unit.
6.2
Piping diagram: Outdoor unit
R1T
Y1E
e
R6T
S1PH
R3T
c
a
i
c
b
d
Installation manual
12
)
)
)
M1F-M2F
e
f
R5T
h
R4T
Y1S
j
R2T
g
M1C
a
Field piping (liquid: Ø9.5 flare connection)
b
Field piping (gas: Ø15.9 flare connection)
c
Stop valve (with service port 5/16")
d
Accumulator
e
Filter
f
Heat exchanger
g
Internal service port 5/16"
h
Switch box cooling (only for AZQS_V1)
i
Compressor accumulator
j
Check valve (only for AZQS100 and AZQS125)
M1C
Motor (compressor)
M1F‑M2F
Motor (upper and lower fan)
R1T
Thermistor (air)
R2T
Thermistor (discharge)
R3T
Thermistor (suction)
R4T
Thermistor (heat exchanger)
R5T
Thermistor (heat exchanger middle)
R6T
Thermistor (liquid)
S1PH
High pressure switch
S1PL
Low pressure switch (only for AZQS_V1)
Y1E
Electronic expansion valve
Y1S
Solenoid valve (4‑way valve)
Heating
Cooling
AZQS100~140B8V1B + AZQS100~140B7Y1B
Split system air conditioners
4P385528-1C – 2016.10