KR101408771B1 - Method for controlling defrosting of refrigerator - Google Patents

Abstract

A refrigerator defrost control method comprising the steps of: determining whether a defrosting operation condition is met; turning on a valve formed in parallel in a capillary tube between an evaporator and a condenser corresponding to a defrosting operation condition; The method comprising the steps of: detecting a temperature of the evaporator after a predetermined time; determining whether a temperature of the evaporator has reached a defrost termination temperature; determining whether a temperature of the evaporator reaches a defrost termination temperature And turning the valve off.

 With this configuration, the defrosting operation can be performed efficiently.

Compressor, evaporator, valve, defrost

Description

[0001] The present invention relates to a refrigerator defrosting method,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a defrosting control method for a refrigerator, and more particularly, to a defrosting method using a heat of a condenser in performing defrosting operation of a refrigerator.

 Generally, a refrigerator liquefies a refrigerant compressed by a compressor at a high temperature and a high pressure in a condenser, and then is evaporated in an evaporator to cool ambient air. The cooled air is supplied to a freezer and a refrigerator to store and refrigerate the stored food do.

When the refrigerant is evaporated in the evaporator, the saturated humidity is lowered as the air around the evaporator is cooled, so that excess moisture contained in the air is frozen on the surface of the evaporator. Such malaise interferes with the heat exchange between the evaporator and the surrounding air, thereby lowering the cooling efficiency. To prevent this, the refrigerator generally has a defrosting mode in which the evaporator is defrosted.

In a conventional refrigerator defrosting method, a heater is installed around an evaporator, and a heater is operated at a predetermined defrosting time to dissolve frozen gasses in the evaporator, and defrosting time is considered to be a malaise in the evaporator according to the operation time of the compressor The heater is operated in response to the temperature change signal from the temperature sensor of the refrigerator compartment or the freezer compartment so that the heater operates when a predetermined time elapses after accumulating the compressor operation time.

In this way, the heat generated by the heater melts and removes the frost formed on the evaporator. However, since it takes a long time to completely melt the frost, there is a problem that the power consumption increases.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a refrigerator defrost control method capable of reducing power consumption due to operation of a defrost heater by performing defrosting using heat of a condenser separately from a defrost heater .

According to another aspect of the present invention, there is provided a refrigerator defrost control method comprising the steps of: determining whether a defrosting operation condition is satisfied; turning on a valve formed in parallel in a capillary between an evaporator and a condenser, The method comprising the steps of: detecting a temperature of the evaporator after a predetermined time; determining whether the temperature of the evaporator has reached the defrost termination temperature; determining whether the temperature of the evaporator And turning off the valve when the defrost termination temperature reaches the defrost termination temperature.

Further, the present invention is a refrigerator defrost control method, further comprising the step of operating the defrost heater when the temperature of the evaporator does not reach the defrost termination temperature.

According to another aspect of the present invention, there is provided a refrigerator defrost control method comprising the steps of: determining whether a defrosting temperature has reached a defrosting termination temperature after a predetermined time after the defrost heater is operated; And turning off the defrost heater and the valve when the temperature of the evaporator reaches the defrost termination temperature.

The present invention as described above does not depend only on the defrost heater during the defrosting operation of the refrigerator but performs the defrosting by preferentially using the heat of the condenser and operates the defrost heater in an auxiliary operation to reduce the power consumption generated by using only the defrost heater have.

Hereinafter, a refrigerator defrost control method according to the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a schematic view showing a structure for a refrigerator defrosting according to the present invention, and FIG. 2 is a schematic view for defrosting a refrigerator according to the present invention.

As shown in FIG. 1, the structure of the refrigerator defrost apparatus according to the present invention forms a separate valve in parallel to the capillary tube, in which the high-temperature high-pressure refrigerant of the condenser is delivered to the evaporator to perform refrigerator defrosting.

As shown in FIG. 2, the refrigerator according to the present invention includes a power source 100 for applying power to a refrigerator, a compressor 110 for compressing refrigerant, a condenser 120 for liquefying refrigerant compressed at high temperature and high pressure, A capillary 140 for transferring high-temperature and high-pressure refrigerant to the evaporator, a valve 150 formed in parallel with the capillary tube for sending the high-temperature and high-pressure refrigerant to the evaporator, A defrost heater 160 for transmitting the heater heat to the evaporator during the defrosting operation, a defrost sensor 170 for detecting the temperature of the evaporator, and a microcomputer 180 for controlling the defrosting operation of the refrigerator.

 The compressor is driven and the compressed refrigerant circulates in a refrigeration cycle (not shown). That is, the refrigeration cycle includes a compressor, a condenser, and an evaporator, and the refrigerant compressed through the compressor is delivered to the evaporator through the condenser. A heat exchange operation with outside air is performed in the evaporator, and cold cool air is supplied to the inside of the furnace. After the refrigeration cycle has been driven for a predetermined time, a defrosting operation is performed to remove the malaise caused by the heat exchange operation in the evaporator.

The microcomputer turns on the valve formed between the condenser and the evaporator when the defrosting operation condition is satisfied in order to perform the defrosting operation condition. Although the high-pressure and high-pressure refrigerant is transferred to the evaporator through the capillary tube, the high-temperature and high-pressure refrigerant delivered through the capillary tube is not sufficient to perform defrosting. Therefore, the microcomputer turns on a separate valve in conjunction with the defrosting operation condition.

The defrost sensor senses the temperature of the evaporator after a predetermined set time. The sensed temperature is transmitted to the microcomputer, and the microcomputer determines whether the temperature reaches the defrost termination temperature. When the defrost termination temperature is reached, the valve is turned off to stop the defrosting operation, and if the defrost termination temperature is not reached, the defrost heater is further operated.

The defrost heater generates a heater heat to remove ice and frost formed on the evaporator, and the defrost sensor detects the temperature of the evaporator which is raised by the heater heat of the defrost heater. The detected temperature value is transmitted to the microcomputer.

The microcomputer turns off the defrost heater and the valve when the temperature of the evaporator delivered through the defrost sensor reaches the defrost termination temperature.

As described above, if the defrosting is performed using the high-temperature high-pressure refrigerant of the condenser and the defrost heater is turned on when the defrosting is not completed for a predetermined period of time, the operation time of the defrost heater is shortened, will be.

3 is a flowchart of a method for controlling the defrosting of the refrigerator according to the present invention. 3, the method for controlling defrosting of a refrigerator according to the present invention determines whether defrosting operation conditions are satisfied (S310). The defrosting operation conditions can be variously set (for example, compressor operating time, The number of openings of the door, etc.) is reached.

Next, in response to the defrosting operation condition, the valve formed in parallel to the capillary between the evaporator and the condenser is turned on (S320). The high temperature and high pressure refrigerant of the condenser is used to defrost the evaporator. The valve is turned on so that the high-temperature high-pressure refrigerant is delivered to the evaporator.

And the high-temperature and high-pressure refrigerant of the condenser flows through the valve to the evaporator to perform defrosting.

Next, the temperature of the evaporator is sensed after a predetermined time (S330)

The temperature of the evaporator is sensed through the defrosting sensor to know the defrosting performance.

Next, it is determined whether the temperature of the evaporator has reached the defrost termination temperature (S340)

Next, when the temperature of the evaporator reaches the defrost termination temperature, the valve is turned off (S350). Since defrosting is terminated, the valve is closed so that the valve is turned off so that the refrigerant of high temperature and high pressure is not delivered to the evaporator through the valve .

Next, when the temperature of the evaporator does not reach the defrost termination temperature, the defrost heater is operated (S360). If the defrosting can not be sufficiently performed by only the high temperature refrigerant provided in the condenser, the defrost heater is operated to rapidly perform defrosting .

Next, it is determined whether the defrosting temperature has reached the defrosting temperature by operating the defrost heater and a predetermined time (S370).

Next, when the temperature of the evaporator reaches the defrost termination temperature, the defrost heater and the valve are turned off. (S380) If the evaporator temperature reaches the defrost termination temperature, defrost may be terminated.

The present invention having such a configuration can prevent inefficiency and energy waste due to the operation of only the defrost heater by performing the defrosting primarily using the high temperature and high pressure refrigerant during the defrosting of the refrigerator.

The present invention relates to a method for controlling defrosting of a refrigerator, and is useful for utilizing a high-temperature and high-pressure refrigerant of a condenser on a refrigerator.

1 is a schematic view of a refrigerator for performing refrigerator defrost control according to the present invention.

FIG. 2 is a schematic configuration diagram of a refrigerator for performing refrigerator defrost control according to the present invention.

3 is a flowchart of a method for controlling the defrosting of a refrigerator according to the present invention.

DESCRIPTION OF THE REFERENCE SYMBOLS

100: power supply unit 110: compressor

120: condenser 130: evaporator

140: capillary 150: valve

160: defrost heater 170: defrost sensor

180: Microcomputer

Claims (3)

Determining whether the defrost operation condition is satisfied: Turning on a valve formed in parallel with the capillary between the evaporator and the condenser if the defrosting operation condition is satisfied; Performing a defrost by flowing high-temperature and high-pressure refrigerant in the condenser to the evaporator through a valve; Sensing a temperature of the evaporator after a predetermined time; Determining whether the temperature of the evaporator has reached a defrost termination temperature; And turning off the valve when the temperature of the evaporator reaches the defrost termination temperature, Operating the defrost heater when the temperature of the evaporator does not reach the defrost termination temperature; Determining whether the evaporator temperature has reached the defrost termination temperature after a certain period of time after the defrost heater is operated; And And turning off the defrost heater and the valve when the temperature of the evaporator reaches the defrost termination temperature. delete delete

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