(57) A refrigeration device (S) according to the present invention comprises one body
(G) including one compartment; one compressor (K); one condenser (C); equipment allowing
the transfer of the refrigerant leaving the condenser (C) to the units; one chamber
(H) wherein the compressor (K) and condenser (C) are located; one air blowing unit
(F) allowing air circulation through the compressor (K) and condenser (C); measurement
member (M) which measures the humidity of the outside environment and one control
unit (U) associated with this measurement member (M), and the method of operation
comprises the steps of: measuring the humidity of the outside environment and transferring
it to the control unit (U); calculating humidity values of the outside environment
at which dew formation may occur, and calculating the operation status and periods
of the air blowing unit (F) by evaluation of the measured data and the temperature
and humidity values of the compartment; comparing the calculated value with the measured
value; if the measured value is higher than the calculated value, stopping the air
blowing unit (F), at the beginning of the refrigeration cycle, for a period of time
calculated; at the end of this time period, operating the air blowing unit (F) at
the highest speed (F1) for a second period of time; performing such processes of stopping
- operating at the highest speed (F1) of the air blowing unit (F), during the refrigeration
cycle, at certain intervals; when the refrigeration cycle is stopped, operating the
air blowing unit (F) at the highest speed (F1).
|
|
