11
5.3 Coolant Circuit
Dehumidifying
Defrosting
Coolant flow
Blow
Fan
Heat exchanger
(heat radiation)
φ
5
φ
6.35
φ
5
φ
7.00
Compressor
Heat exchanger
(cooling)
Intake
φ
9.52
Tube temperature
sensing thermistor
φ
6.35
Capillary tube
Capillary tube
φ
2.0
× φ
0.85
×
200
φ
5.0
× φ
4.0
φ
6.35
Humidity
sensor
Room
temperature
sensing thermistor
Solenoid
valve
(closed when
dehumidifying
and open
when
defrosting)
5.4 Performance curve
When the temperature and humidity are low, the amount of water collected is
decreased.
In winter, because the temperature is lower than in summer, the effect of the dehumidifier is greatly
reduced as shown in the graph below.
Although less water collects in the tank, this is not a malfunction.
Summer (humidity)
Winter (dampness)
* If the temperature is low, but the humidity is high due to snow or rain, operating the unit in LOW TEMP
mode will yield better results than in HIGH mode.
¡
The values shown on the graph were measured at
constant temperature and humidity and do not
reflect values obtained in actual usage conditions.
0
2
4
6
8
10
12
14
16
18
20
22
24
26
5
10
15
20
25
30
Room temperature
Dehumidification capacity (L/day)
Temp.
Temp.
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Summary of Contents for MJ-E26VX-A1
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