KR20070065749A - Method for controlling defrost of refrigerator - Google Patents

Abstract

A defrosting control method for a refrigerator is provided to control defrosting operation while keeping a defrosting time uniformly, thereby preventing thermal deformation of parts around a defrosting heater against overheating of the defrosting heater. In a defrosting control method for a refrigerator, a control part outputs an operation signal of a compressor and detects an operation time of the compressor for comparing the same with a first reference time for determining defrosting operation(S110,S120). The control part outputs an operation finishing signal for the compressor and outputs an operation signal for a defrosting heater if the driving time of the compressor exceeds a first reference time for determining the defrosting operation(S120-S140). Operation time of the defrosting heater is compared with a second reference time for determining operation finishing of the defrosting heater(S150). If the operation time of the defrosting heater is smaller than the second reference time, an internal temperature of the refrigerator is detected by a defrosting sensor to determine operation finishing of the defrosting heater(S160). The controller outputs the operation finishing signal to the defrosting heater in the other case, wherein the operation finishing signal output is kept for a remaining defrosting operation time(S151,S180). The controller outputs the operation finishing signal to the defrosting heater when the detected temperature is lower than the reference temperature(S170,S180).

Description

Method for controlling defrost of refrigerator

1 is a front view showing the structure of a conventional refrigerator defrost heater.

Figure 2 is a block diagram schematically showing the configuration of the defrost system of the refrigerator for explaining the defrost control method of the refrigerator according to the present invention.

3 is a flowchart illustrating a defrost control process of the refrigerator according to the present invention;

(Explanation of symbols for the main parts of the drawing)

100: control unit 110: defrost sensor

120: timer 130: defrost heater

140: compressor

The present invention relates to defrost control of a refrigerator, and more particularly, to a defrost control method of a refrigerator for controlling defrost time of a refrigerator to prevent deterioration efficiency and thermal deformation around a defrost heater due to defrost heat.

In general, a refrigerator is a device used to freeze and refrigerate food by the evaporative heat of a refrigerant using a cooling cycle, so that the cold food cooled by the cooler is introduced into the refrigerator to freeze and refrigerate the stored food.

Conventional refrigerators have a cabinet having a certain volume of cavity in appearance and a door rotatably installed on the side of the cabinet.

In addition, the rear of the cabinet is provided with a separate machine room in which the equipment, such as a compressor, a condenser, a capillary tube constituting the cooling cycle is accommodated.

The cooling cycle is a compressor for compressing a refrigerant gas into a high-temperature, high-pressure gas refrigerant, and a condenser and a liquid refrigerant from the condenser for cooling, condensing and liquefying the high-temperature and high-pressure gas refrigerant delivered from the compressor by external air. And a capillary tube and an evaporator for absorbing and cooling the surrounding heat while the refrigerant depressurized from the capillary tube is evaporated.

There is always a circulation of air in such a refrigerator, and water vapor contained in the air is formed on the surface of the refrigerant pipe of the low temperature evaporator to form frost. When the frost grows and becomes more than a certain thickness of ice, a defrost process is performed to remove the frost at regular intervals because it causes a fatal effect on the heat exchange performance of the evaporator. This defrosting process is generally removed by heating the defrost heater installed in the evaporator.

In the evaporator 10 shown in FIG. 1, a heat pipe 12 and a refrigerant pipe 13 supplied with a low temperature low pressure refrigerant therein are repeatedly arranged up and down, and inserted into pipe holders 1a and 1b on both sides. It is installed as it is.

In addition, a plurality of heat exchange fins 14 are inserted into the refrigerant pipes 13 and the heat pipes 12, and in the defrosting process, the heat pipes 12 and the refrigerant pipes 13 are formed through the heat exchange fins 14. Perform heat exchange.

The frost formed on the refrigerant pipe 13 is removed by the operation of the defrost heater, and the removed frost is discharged to the tray drain 19 on the bottom through the drain pipe located at the bottom of the refrigerator.

In addition, when the frost is separated from the refrigerant pipe 13 into the drain pipe during the defrosting process, the frost blocks the drain pipe to block the flow of the defrost water. Thus, the heat pipe 12 may be a refrigerant pipe 13. ) Is not limited to the portion where it is present, but extends to the bottom of the evaporator.

However, the heat pipe 12 and the refrigerant pipe 13 have a problem that the shape deformation occurs by using a metal material with heat deformation.

In addition, as the size of the refrigerator increases, the size of the evaporator 10 and the size of the defrost heater also increase together. In this case, the degree of thermal deformation is further increased, and in the case of the defrost heater, the thermal deformation is particularly high. The risk increases.

In addition, since the heat deformation due to the defrost heater may cause a fire in the refrigerator, a method for controlling the defrost heater of the refrigerator is required.

SUMMARY OF THE INVENTION In order to solve the above problems, an object of the present invention is to provide a defrost control method of a refrigerator which prevents thermal deformation around a heater due to overheating of a defrost heater by controlling a defrost process through a defrost time and a defrost sensor of the refrigerator. .

In order to achieve the above object, the present invention provides a defrost control method of a refrigerator, the control unit for controlling the operation of the refrigerator outputs the operation signal of the compressor compressing the refrigerant, and detects the operation time of the compressor to determine whether the defrost operation Comparing with a first reference time for; The controller controls the compressor when the driving time of the compressor exceeds the first reference time for determining whether the defrosting operation is performed as a result of the comparison with the first reference time for detecting the operation time of the compressor and determining whether to operate the defrost. Outputting an operation termination signal of the and outputting an operation signal of the heater for defrosting; Detecting, by the controller, an operation time of the defrost heater and comparing it with a second reference time for determining whether the defrost heater is terminated; The operation time of the defrost heater determines whether the operation of the defrost heater is finished as a result of the comparison of the step of the control unit detecting the operation time of the defrost heater and comparing the second reference time for determining whether the defrost heater is terminated. Detecting, by the controller, a temperature from a defrost sensor detecting an internal temperature of a refrigerator when the temperature is less than a second reference time, and comparing the temperature with a reference temperature for determining whether the operation of the defrost heater is terminated; And comparing the detected temperature with a reference temperature for determining whether the operation of the defrost heater is terminated by detecting the temperature from a temperature from a defrost sensor that detects the internal temperature of the refrigerator. When the reference temperature for determining whether or not to exceed the control unit includes the step of outputting the operation termination signal of the defrost heater, Preferably the operation termination signal of the defrost heater to maintain the output for the remaining defrosting operation time It is characterized by.

In addition, as a result of the step of the control unit detects the operation time of the defrost heater and compares it with a second reference time for determining whether the operation of the defrost heater is finished, whether the operation time of the defrost heater is the end of the operation of the defrost heater And outputting an operation end signal of the defrost heater by the controller when exceeding a second reference time for determining.

In addition, the control unit detects a temperature from a defrost sensor that detects the internal temperature of the refrigerator and compares it with a reference temperature for determining whether the operation of the defrost heater is finished. The control unit maintains the output of the operation signal of the defrost heater when the temperature is less than or equal to the reference temperature for determining.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a block diagram schematically illustrating a configuration of a defrost system of a refrigerator for explaining a defrost control method of the refrigerator according to the present invention.

The defrosting system of the refrigerator includes a control unit 100 that controls the operation of the refrigerator, a defrost sensor 110 that detects an internal temperature of the refrigerator during defrosting operation, a timer 120, a defrost heater 130, and a compressor 140. It includes.

The controller 100 controls the overall operation of the refrigerator and controls the operation of the defrost heater 130 and the compressor 140 according to the information detected from the defrost sensor 110 and the timer 120.

The timer 120 detects an operating time of the defrost heater 130 and the compressor 140 and provides the same to the controller 100.

3 is a flowchart illustrating a defrost control process of the refrigerator according to the present invention. As shown in FIGS. 2 and 3, the controller 100 controlling the operation of the refrigerator outputs an operation signal of the compressor 140 compressing the refrigerant to drive the compressor 140 (S100).

The controller 100 outputs an operation signal of the compressor 140 and then counts the operation time of the compressor 140 through the timer 120 to detect the driving time of the compressor 140 (S110).

The driving time of the compressor detected in the step S110 is compared with the first reference time for the controller 100 to determine whether the defrost heater 130 is operating (S120).

When the operation time of the compressor detected in operation S110 is less than or equal to the first reference time for determining whether the defrost heater 130 is operated, the control unit 100 outputs an operation signal of the compressor 140. Returning to the step S110 to maintain the drive of the compressor 140.

On the other hand, when the operation time of the compressor detected in step S110 as a result of the comparison of step S120 exceeds the first reference time for determining whether the defrost heater 130 is operating, the controller 100 operates the compressor 140. Outputs a control signal for ending the operation, and outputs the operation signal of the defrost heater 130 for defrosting operation (S130).

The controller 100 outputs an operation signal of the defrost heater 130 and then counts the operation time of the defrost heater 130 through the timer 120 to detect the driving time of the defrost heater 130 (S140). At this time, the operation time of the compressor 140 detected through the timer 120 is reset.

The operation time of the defrost heater 130 detected in step S140 is compared with the second reference time for the controller 100 to determine whether the operation of the defrost heater 130 is terminated (S150).

When the operation time of the defrost heater detected in step S140 exceeds the second reference time for determining whether the operation of the defrost heater is terminated, the control unit 100 stops the operation of the defrost heater 130. The driving of the defrost heater 130 is terminated by outputting a control signal for terminating (S151).

In the step S151, when operation of the defrost heater 130 is maintained due to a malfunction of the defrost sensor 110, a fire occurs due to overheating of the defrost heater 130 and thermal deformation around the defrost heater 130, that is, due to overheating. Prevent deformation of the refrigerant pipe or heat pipe. In this embodiment, defrosting is performed for a predetermined time (for example, 35 minutes) after driving of the defrost heater 130.

In addition, when the operation time of the defrost heater detected in the step S140 is less than or equal to the second reference time for determining whether the operation of the defrost heater is terminated, the control unit 100 detects an internal temperature of the refrigerator. The temperature is detected from the sensor 110 (S160) and compared with a reference temperature for determining whether the defrost heater is terminated (S170).

When the temperature detected by the defrosting sensor 110 is equal to or less than a reference temperature for determining whether the defrosting heater is finished, the control unit 100 controls the defrosting heater 130 to maintain operation of the defrosting heater 130. Return to step S130 to output the operation signal of 130).

In addition, when the temperature detected from the defrost sensor 110 exceeds the reference temperature for determining whether the operation of the defrost heater is terminated, the control unit 100 may terminate the operation of the defrost heater 130. The defrost heater operation end signal is output (S180). That is, when the internal temperature for terminating the defrosting operation is 10 ° C., when the temperature detected from the defrosting sensor 110 reaches 10 ° C., the operation of the defrost heater 130 is terminated after the operation of the defrost heater 130 is remaining, regardless of the remaining defrosting operation time. The operation end signal of the defrost heater 130 is output during the operation time (the operation time of the next compressor).

Therefore, the defrosting process of the refrigerator and the defrosting sensor may be controlled to prevent thermal deformation around the heater due to overheating of the defrosting heater.

As described above, the present invention has an advantage of preventing the thermal deformation around the heater due to overheating of the defrost heater by controlling the defrosting operation process while maintaining a constant defrost time of the refrigerator.

In the above, the present invention has been illustrated and described with respect to certain preferred embodiments. However, the present invention is not limited to the above-described embodiments, and those skilled in the art to which the present invention pertains can vary as many as possible without departing from the spirit of the present invention as set forth in the claims below. Changes may be made.

Claims (4)

As the defrost control method of the refrigerator, a) a control unit controlling an operation of the refrigerator outputs an operation signal of a compressor for compressing a refrigerant, and compares the operation time of the compressor with a first reference time for determining whether to operate the defroster; b) when the driving time of the compressor exceeds the first reference time for determining whether the defrosting operation is performed as a result of the comparison in step a, the controller outputs an operation termination signal of the compressor and outputs an operation signal of the heater for defrosting. Outputting; c) the control unit detecting an operation time of the defrost heater and comparing it with a second reference time for determining whether the operation of the defrost heater is terminated; d) when the operation time of the defrost heater is less than a second reference time for determining whether the operation of the defrost heater is terminated as a result of the comparison of step c, the controller detects a temperature from a defrost sensor that detects an internal temperature of the refrigerator and defrosts the defrost. Comparing with a reference temperature for determining whether the heater is terminated; And e) defrosting control method of the refrigerator comprising the step of outputting an operation termination signal of the defrost heater when the detection temperature exceeds a reference temperature for determining whether the operation of the defrost heater is terminated as a result of the comparison of step d; . The method of claim 1, wherein the operation end signal of the defrost heater of step e is maintained for the remaining defrosting operation time. The method of claim 1, wherein the control unit outputs an operation end signal of the defrost heater when the operation time of the defrost heater exceeds a second reference time for determining whether the defrost heater is finished. Defrost control method of a refrigerator comprising a step. The defrost of the refrigerator of claim 1, wherein the control unit maintains an operation signal output of the defrost heater when the detected temperature is equal to or less than a reference temperature for determining whether the defrost heater is in operation. Control method.

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