223
1.Starting estimation:
After the compressor stopped working for 180s, if T
inner pipe
˚ Ǐ
T
frozen-preventing frequency-limited temperature
ǐ
(the
temperature of hysteresis is 2
ć
), the machine is only allowed to start for operating, otherwise it should not be
started, and should be stopped to treat according to the frozen-preventing protection:
Clear the trouble at the mode of power turn-off / heating, and the protection times are not counted.
2. Raising the frequency slowly:
During the process of raising frequency, if the
Ǐ
T
frozen-preventing frequency-limited temperature
ǐ
≤
T
inner pipe
˘Ǐ
T
frozen-preventing
frequency-raising temperature
ǐ
, the frequency-raising speed should be executed according to the
Ǐ
F
preventing protection frequency
slow raising speed
ǐ
; If
Ǐ
T
frozen-preventing slowly raising frequency temperature
ǐ
≤
T
inner pipe
, you should exit the slowly raising control.
3. Frequency limited
Ǐ
T
frozen-preventing normal speed frequency-reducing temperature
ǐ
≤
T
inner pipe
˘Ǐ
T
frozen-preventing frequency-limited temperature
ǐ
, you should
limit the frequency raising of compressor.
4. Reducing frequency at normal speed:
If
Ǐ
T
frozen-preventing high speed frequency-reducing temperature
ǐ
≤
T
inner pipe
˘Ǐ
T
frozen-preventing normal speed frequency-reducing temperature
ǐ
,
you should adjust the compressor frequency by reducing 8Hz/90s till the lower limit;
5. Reducing frequency at high speed:
If
Ǐ
T
frozen-preventing power turn-off temperature
ǐ
≤
T
inner pipe
˘
Ǐ
T
frozen-preventing high speed frequency-reducing temperature
ǐ
you should adjust
the compressor frequency by reducing 30Hz/90s till the lower limit;
6. Power turn-off:
If the T
inner pipe
˘Ǐ
T
frozen-preventing power turn-off temperature
ǐ
, then frozen-preventing protect to stop the machine; If
Ǐ
T
frozen-preventing frequency-limited temperature
ǐ˘
T
inner pipe
, and the compressor has stopped working for 3 minutes, the
whole machine should be allowed to operate.
7. If the frozen-preventing protection power turn-off continuously occurs for six times, it should not be resumed
automatically, and you should press the ON/OFF button to resume if the fault keeps on. During the process of
running, if the running time of compressor exceeds the
Ǐ
t
evaporator frozen-preventing protection times zero clearing time
ǐ
, the times
of frozen-preventing power turn-off should be cleared to recount. The mode of stopping the machine or
transferring to supply air will clear the trouble times immediately (if the trouble can not be resumed, mode
transferring will not clear it).
(2) Overload protection function
Overload protection function at the mode of Cooling and dehumidifying
1. Starting estimation:
After the compressor stopped working for 180s, if T
outer pipe
˘ Ǐ
T
Cooling overload frequency-limited temperature
ǐ
(the
temperature of hysteresis is 2
ć
), the machine is allowed to start, otherwise it should not be started, and should
be stopped to treat according to the overload protection:
Clear the trouble at the mode of power turn-off / heating, and the protection times are not counted.
2. Raising the frequency slowly:
During the raising process of pipe temperature and frequency, if the
Ǐ
T
Slowly raising frequency temperature of Cooling overload
ǐ
≤
T
outer pipe
˘Ǐ
T
Cooling overload frequency-limited temperature
ǐ
, the frequency raising speed should be executed according to
the
Ǐ
F
slowly raising speed of
preventing protection frequency
ǐ
; If T
outer pipe
˘Ǐ
T
Slowly raising frequency temperature of Cooling overload
ǐ
, you
should exit the slowly raising control.
3. Frequency limited
If
Ǐ
T
Cooling overload frequency-limited temperature
ǐ
≤
T
outer pipe
˘
Ǐ
T
Cooling overload
frequency reducing temperature at normal speed
ǐ
, you should
limit the frequency raising of compressor.
4. Reducing frequency at normal speed and power turn-off:
If
Ǐ
T
Cooling overload
frequency reducing temperature at high speed
ǐ
≤
T
outer pipe
˘Ǐ
T
Cooling overload power turn-off temperature
ǐ
, you should
adjust the compressor frequency by reducing 8Hz/90s till the lower limit; After it was running 90s at the lower limit,
if
Ǐ
T
Cooling overload
frequency reducing temperature at normal speed
ǐ
≤
T
outer pipe
, then Cooling overload protects machine stopping;
5. Reducing frequency at high speed and stop machine:
If
Ǐ
T
Cooling overload
frequency reducing temperature at high speed
ǐ
≤
T
outer pipe
˘Ǐ
T
Cooling overload power turn-off temperature
ǐ
you should
adjust the compressor frequency by reducing 30Hz/90s till the lower limit; After it was running 90s at the lower
limit, if
Ǐ
T
Cooling overload
frequency reducing temperature at normal speed
ǐ
≤
T
outer pipe
, then Cooling overload protects machine
stopping;
6. Power turn-off:
If the
Ǐ
T
Cooling overload power turn-off temperature
ǐ
≤
T
outer pipe
, then Cooling overload protects machine stopping; If T
outer
pipe
˘Ǐ
T
Cooling overload frequency-limited temperature
ǐ
and the compressor has been stopped working for 3 minutes, the
machine should be allowed to operate.
Operation
32
Содержание EVJC 12
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Страница 49: ...121 High Wall EVHC 09 to 12 DSAAAR SERVICE MANUAL SM EVHC D 09 12GB 05 10 EVHC 09 EVHC 12...
Страница 65: ...137 LULQJ LDJUDP Schematic Diagram Indoor Unit Schematic Diagram...
Страница 66: ...138 Schematic Diagram Outdoor Unit...
Страница 69: ...141 TOP VIEW Schematic Diagram BOTTOM VIEW 1 3 4 5 6 2 7 8 9 10 11 12 Outdoor Unit...
Страница 113: ...185 Exploded View Exploded View Indoor Unit...
Страница 114: ...186 Exploded View Outdoor Unit...
Страница 118: ...190 High Wall EVHC 18 to 24 DSAAAR SERVICE MANUAL SM EVHC D 18 24GB 05 10 EVHC 18 EVHC 24...
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