KR20000042121A - Control method for defrosting refrigerator - Google Patents

Abstract

PURPOSE: A control method for defrosting a refrigerator is provided to conduct the most suitable precooling performance according to the usage condition and environmental change of the refrigerator. CONSTITUTION: A controller decides if the driving time of a compressor passes out a certain time and then decides if a condition is for a defrosting mode. If the condition is not for the defrosting mode, the controller decides if the temperature sensed by a temperature sensor is ordinary. If so, the compressor is turned off. If the temperature is more than the ordinary temperature, the compressor keeps on. If the condition is for the defrosting mode, the controller conducts a precooling performance before defrosting. The three times of the final precooling temperature are averaged to decide if the sensed temperature is less than the average temperature. If so, the compressor stops driving and controller starts to defrost.

Description

Defrost Control Method of Refrigerator

The present invention relates to a method of controlling the defrost of a refrigerator, and in particular, it is possible to prevent the rise of the internal temperature during defrosting by precooling the interior of the refrigerator just before defrosting by predicting the internal temperature rise in advance according to changes in the use conditions of the refrigerator and the surrounding environment. It relates to a defrost control method of a refrigerator.

Generally, frost is formed on the outer surface of the evaporator of the refrigerator by moisture introduced into the refrigerator. A defrost heater is installed below the evaporator to remove such frost.

The defrost heater is installed directly below the evaporator to operate the defrost heater under control of a controller and directly remove frost formed on the surface of the evaporator by using radiant heat generated when the defrost heater is operated. As the surface temperature of the defrost heater is rapidly raised to about 400 ° C., the defrosting action of the frost formed on the surface of the evaporator is made thick.

The conventional defrosting method simply checks the cumulative operation time of the compressor regardless of the degree of frost formation on the evaporator or the number of defrosting actions performed, and is repeated periodically according to the high temperature of the defrost heater at each defrosting time. The freezing chamber fan and the refrigerating chamber fan installed in the cooling chamber are introduced into the freezer compartment and the refrigerating compartment, and the inside temperature of the refrigerator is increased whenever the defrosting is performed, thereby lowering the cooling efficiency of the refrigerator.

FIG. 1 is proposed to solve the above problem. Referring to FIG. 1, when power is applied to the controller and each circuit through the power supply unit, the controller sends a driving signal to the compressor driver to drive the compressor ( S101).

Cold air is generated around the evaporator by the operation of the compressor, and the cold air is supplied to the freezing / freezing chamber by the rotation of the blower fan.

At this time, frost is implanted on the evaporator while the cold and warm air distributed around the evaporator exchange heat.

Subsequently, the control unit determines whether the driving time of the compressor has passed a predetermined time and determines whether the condition is to enter the defrost mode (S102).

If it is determined that the defrost mode is not a condition to enter the defrost mode, it is determined whether the temperature detected by the freezer temperature sensor is the normal freezer temperature (S103) and the compressor is turned off at the normal freezer temperature (S104). ).

If, as a result of the determination in step S103, the temperature of the freezer compartment is higher than the usual freezer compartment temperature, the compressor is continuously turned on.

If the defrost mode is determined as a result of entering the defrost mode, the precool (Precool) is first performed before the defrost (S105).

The precool has a function of lowering the internal temperature before defrosting to an extremely low temperature.

According to the execution of the precool, it is determined whether the temperature detected by the freezer compartment temperature sensor is below -29 ° C. or the operation of the precooler is operated for 50 minutes (S106). If the temperature is less than -29 ℃ or the pre-cooling operation for 50 minutes stop the drive of the compressor (S104) and at the same time defrost (S107).

However, since the precooling operation of the defrosting control method of the refrigerator is performed unconditionally under the set conditions, there is a problem in that it does not reflect the information of the internal temperature rise after defrosting.

In addition, since it is a value set under harsh conditions, there is a problem in that the power consumption is increased by inducing the operation of the compressor and the blower fan even in a favorable condition.

In the pre-cooling operation, cold air is generated around the evaporator by the operation of the compressor, and the cold air is exchanged with the warmth distributed around the evaporator again to form frost on the evaporator, thereby weighting the amount of implantation of the evaporator, thereby increasing the defrost time. There was a problem lengthening.

The present invention is invented to improve the above-mentioned problems of the prior art, an object of the present invention is to provide a defrosting control method of the refrigerator to perform the optimal pre-cooling function according to the use conditions and environmental changes of the refrigerator To provide.

A feature of the defrosting control method of the refrigerator according to the present invention for realizing the above object is that, when power is applied through the power supply unit, the control unit sends a driving signal to the compressor driving unit to drive the compressor, the control unit driving time of the compressor Judging whether the predetermined time has elapsed, and determining whether or not it is a condition capable of entering the defrost mode. If the defrost mode is determined, the temperature detected by the freezer temperature sensor is normal. Determining whether or not the freezer compartment temperature is in the freezer compartment, turning off the compressor at a normal freezer compartment temperature, and continuing to turn on the compressor if the freezer compartment temperature is above the usual freezer compartment compartment. If it is possible to perform the pre-cooling before the defrosting, the control It is determined whether the temperature sensed by the freezer compartment temperature sensor is less than the average temperature value by averaging the precooling end temperature of the preliminary three times set in the negative. If the average value of the precooling end temperature is less than the stop step of the compressor and at the same time comprises the step of defrosting.

1 is a flowchart illustrating a defrost control method of a refrigerator according to the prior art;

2 is a flowchart illustrating a defrost control method of a refrigerator according to the present invention.

Hereinafter, an embodiment of a defrost control method of a refrigerator according to the present invention will be described with reference to the accompanying drawings.

2 is a flowchart illustrating a defrost control method of a refrigerator according to the present invention.

Referring to FIG. 2, when power is applied to the controller and each circuit through the power supply unit, the controller sends a driving signal to the compressor driver to drive the compressor (S201).

Cold air is generated around the evaporator by the operation of the compressor, and the cold air is supplied to the freezing / freezing chamber by the rotation of the blower fan.

At this time, frost is implanted on the evaporator while the cold and warm air distributed around the evaporator exchange heat.

Subsequently, the control unit determines whether the driving time of the compressor has passed a predetermined time and determines whether or not it is a condition to enter the defrost mode (S202).

As a result of the determination of the defrost mode, if it is not possible to enter the defrost mode, it is determined whether the temperature detected by the freezer temperature sensor is the normal freezer temperature (S203). If the freezer temperature is normal, the compressor is turned off (S204).

If, as a result of the determination in step S203, the temperature of the freezer compartment is higher than the usual freezer compartment temperature, the compressor is continuously turned on.

If the defrost mode is determined to enter the defrost mode, the pre-cooling is first performed before performing the defrost (S205).

At this time, the pre-cooling operation averages and stores the pre-cooling end temperature three times set in advance in the control unit (S206).

It is determined whether the temperature sensed by the freezer compartment temperature sensor is less than the average temperature value according to the implementation of the precooling (S207). If the average value or less, the drive of the compressor is stopped (S204) and defrosting is performed at the same time (S208).

Subsequently, at the end of the defrosting execution time, the internal temperature of the refrigerator is measured and applied to the controller (S209).

As described above, the present invention enables the pre-cooling to be performed according to the use conditions and environmental changes of the refrigerator before defrosting, thereby preventing food thawing problems and reducing power consumption.

Claims (1)

Determining whether the driving time of the compressor has entered a defrost mode by determining whether the driving time of the compressor has passed a predetermined time while driving the compressor; If it is determined that the defrost mode is not a condition to enter the defrost mode, determining whether the temperature detected by the freezer temperature sensor is the normal freezer temperature and turning off the compressor at the normal freezer temperature; Continuously turning on the compressor when the temperature of the freezer compartment is higher than the usual freezer compartment temperature; Performing pre-cooling before performing defrosting if the environment in which the defrost mode is entered can be entered into the defrost mode; It is determined whether the temperature sensed by the freezer compartment temperature sensor is less than the average temperature value by averaging the precooling end temperatures of the preceding three times set in the control unit. The defrost control method of the refrigerator comprising the step of stopping the operation of the compressor and performing defrosting when the pre-cooling end temperature is below the average value.