KR0146327B1 - Defrosting method of a refrigerator - Google Patents

Abstract

The present invention relates to a method of defrosting a refrigerator, and periodically performs first and second defrosting operations according to the inside temperature of the freezer compartment and the temperature of the evaporator so as to fundamentally block the rise of the inside temperature of the freezer compartment by driving the defrost heater. A method of defrosting a refrigerator.

The present invention determines whether defrosting operation according to the internal temperature of the freezer compartment and the temperature of the evaporator detected from the freezer compartment temperature detection unit and the evaporator temperature detection unit, the preset internal temperature of the freezer compartment to a suitable temperature for storing the frozen food The first defrosting operation and the second defrosting operation are performed periodically to remove the frost formed on the evaporator by driving the defrost heater while satisfying a set temperature range. Therefore, the present invention has the effect of maintaining the internal temperature of the freezer compartment within the set temperature range to the extent that it is possible to prevent the deterioration of the frozen refrigerated food even during defrosting operation.

Description

How to defrost the refrigerator

The present invention relates to a method of defrosting a refrigerator, and in particular, by periodically performing the first and second defrosting operations according to the inside temperature of the freezer compartment and the temperature of the evaporator, the rise of the inside temperature of the freezer compartment by driving of the defrost heater can be fundamentally blocked. It relates to a method of defrosting a refrigerator.

The defrosting method of the refrigerator according to the prior art includes the first defrosting operation when a predetermined time arrives during the operation of the refrigerator, and the second defrosting operation by detecting the temperature on the evaporator and integrating the time, and the third ambient temperature and the door. Some defrosting operations may be performed in consideration of the opening and closing frequency. However, in the conventional defrosting method, the defrost heater is continuously driven until the ambient temperature of the evaporator rises above a predetermined temperature during the defrosting operation, which acts as a factor that increases the internal temperature of the freezer compartment. There was a problem with this alteration.

An object of the present invention is to operate the defrost heater according to the internal temperature of the freezer compartment and the temperature of the evaporator to periodically perform the first and second defrosting operation to remove frost formed on the evaporator, so that the internal temperature of the freezer compartment during defrosting is set within the set temperature range It is to provide a defrosting method of a refrigerator to maintain the inside.

1 is a control block diagram of a defrosting apparatus of a refrigerator used in the present invention,

2 is an operation flowchart showing a defrosting method of a refrigerator according to the present invention;

* Explanation of symbols for main parts of the drawings

10: freezer temperature detection unit 20: evaporator temperature detection unit

30: Mycom 40: Drive

50: defrost heater 60: compressor

An object of the present invention as described above in the defrosting method of the refrigerator to defrost the frost formed on the evaporator by driving the defrost heater, in the initial state to determine whether the first defrosting operation, the second defrosting operation and the compressor operation, respectively Defrost determination step; As a result of the determination of the defrosting determination step, when the defrosting time is entered and the internal temperature of the freezer compartment falls below the minimum temperature of the set temperature range when the defrosting time is applied, the compressor is stopped when the compressor is stopped. A first defrosting step of performing a first defrosting operation by driving a defrost heater to remove frost formed on an evaporator; During the first defrosting according to the first defrosting step, the inside temperature of the freezer compartment and the temperature of the evaporator are sensed, and the temperature of the evaporator reaches a defrostable temperature by driving the defrost heater, and the inside temperature of the freezer compartment is Performing a defrosting operation to be maintained within a set temperature range, and stopping the defrost heater and operating a compressor to complete the first defrosting operation when the internal temperature of the freezer compartment is higher than the maximum temperature of the set temperature range; As the compressor is operated according to the first defrosting completion step, when the internal temperature of the freezing compartment drops below the minimum temperature of the set temperature range, it is determined that the compressor is turned off, and the compressor is placed on the evaporator in the state of stopping the compressor. A second defrosting step of performing a second defrosting operation by driving the defrost heater to remove frost; And detecting the inside temperature of the freezer compartment and the temperature of the evaporator during the second defrosting according to the second defrosting step 3, and the temperature of the evaporator is defrosted while the inside temperature of the freezer compartment is maintained within a set temperature range. When the evaporator set temperature is reached, the defrost heater is stopped and the compressor is operated to complete the second defrosting operation.After completion of the second defrosting operation, the defrosting time enters during the refrigeration operation. And a second defrosting completion step of returning to the defrosting determination step so as to periodically perform the second defrosting operation, and when the defrosting time enters during the freezing and cooling operation after the second defrosting operation is completed, the first defrosting operation is performed. It is achieved by returning to the defrosting determination step so that the secondary and secondary defrosting operations can be performed periodically.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a control block diagram of a defrosting apparatus of a refrigerator used in the present invention. As shown in FIG. 1, the present invention provides a freezer compartment temperature detecting unit 10 for detecting an internal temperature of a freezer compartment, an evaporator temperature detection unit 20 for detecting a temperature of an evaporator, and an internal temperature of a freezer compartment and a temperature of an evaporator. A microcomputer 30 for controlling the first defrosting operation, the second defrosting operation and the compressor operation, a drive 40 for outputting a drive signal for driving the defrost heater and the compressor under the control of the microcomputer 30; The defrost heater unit 50 for driving the defrost heater in accordance with the drive signal of the drive 40 and the compressor 60 is driven in accordance with the drive signal of the drive 40.

The freezer compartment temperature detecting unit 10 includes a temperature sensor installed in the inside of the freezer compartment, and outputs a detection signal detecting the inside temperature of the freezer compartment to the microcomputer 30.

The evaporator temperature detection unit 20 has a temperature sensor for detecting the temperature of the evaporator, and outputs a detection signal for detecting the temperature of the evaporator to the microcomputer 30.

The microcomputer 30 controls the operation of performing the defrosting operation to remove the frost formed on the evaporator by continuing the operation of the compressor 60, the freezer compartment temperature detection unit 10 and the evaporator temperature detection unit ( Defrost operation is determined according to the internal temperature of the freezer compartment and the temperature of the evaporator detected from 20). That is, the microcomputer 30 drives the defrost heater while the internal temperature of the freezer detected during the normal refrigeration operation satisfies a preset temperature range suitable for storing the refrigerated food. By controlling the operation of the first defrosting operation and the second defrosting operation to remove the frost formed on the evaporator, and when the defrosting time during the refrigeration refrigeration after completing the first defrosting operation and the second defrosting operation Periodically, the first defrosting operation and the second defrosting operation are performed. To this end, when the first defrosting operation and the second defrosting operation or the compressor operation are performed at the start stage, the microcomputer 30 proceeds to the corresponding operation stage to remove the frost formed on the evaporator. Will drive.

When the control signal for turning on the defrost heater is input by the micom 30, the drive 40 outputs a drive signal for driving the defrost heater to the defrost heater 50, and the micom 30. When a control signal for turning on the compressor 60 is input so that the refrigerator refrigeration operation can be performed, a driving signal for driving the compressor 60 is output.

The defrost heater unit 50 drives the defrost heater by the drive signal of the drive 40 to remove frost formed on the evaporator by the heat of the defrost heater.

Hereinafter, the defrosting method of the refrigerator according to the present invention will be described according to the operation flowchart of FIG. 2.

2 is an operation flowchart illustrating a defrosting method of a refrigerator according to the present invention, wherein the microcomputer 30 determines whether each of the defrosting operations corresponds to the second defrosting operation, the compressor operation, and the first defrosting operation in an initialization state 250. And, the first defrost step 260 to start the first defrost operation to start the defrost time, the first defrost to complete the first defrost when the internal temperature of the freezer compartment reaches the maximum temperature of the set temperature range by the first defrost operation Completion step 270, the second defrost step 280, the second defrost to start the second defrost operation when the internal temperature of the freezer compartment reaches the minimum temperature of the set temperature range as the compressor operates after the completion of the first defrost operation When the temperature of the evaporator reaches the set evaporator set temperature by the operation, the operation of sequentially performing the second defrosting completion step 290 of completing the second defrosting operation is periodically performed.

In detail, first, the microcomputer 30 determines whether the initial state is in the second defrosting operation to remove frost formed on the evaporator (step 200). If the determination result of the step 200 is during the second defrosting operation, the process proceeds to the step 213, while the determination result of the 200 step determines whether the compressor 60 is operating unless the secondary defrosting operation is performed (second Step 201). As a result of the determination of step 201, if the compressor 60 is in operation, the process proceeds to step 210. On the other hand, if the compressor 60 is not in operation, the frost formed on the evaporator is removed. It is determined whether the first defrosting operation is performed (step 202).

If the determination result of the step 202 is the first defrosting operation, the process proceeds to the step 206, while the determination result of the step 202 determines whether the defrost time has entered (step 203). When the defrosting time has not been entered as a result of the determination of step 203, the compressor 60 is driven in accordance with a pre-prepared program to perform a normal refrigeration operation, whereas the defrosting time has been entered as a result of the determination of step 203. In this case, the off point of the compressor 60 is determined in order to determine the stopping of the compressor 60 according to whether the internal temperature of the freezer compartment sensed by the freezer compartment temperature detection unit 10 is lower than the minimum temperature of the set temperature range. (Step 204). If the determination result of the step 204 is not the off-time of the compressor 60, the refrigerator returns to wait until the internal temperature of the freezer compartment reaches the minimum temperature of the set temperature range, while the compressor ( In step 60, the control signal for turning on the defrost heater is output to perform the first defrost operation (step 205).

Subsequently, when the microcomputer 30 is in the first defrosting operation or the first defrosting operation according to the step 205, the microcomputer 30 rises above the maximum temperature of the set temperature range. In order to determine the operation of the compressor 60, the on-time of the compressor 6 is determined (step 206). As a result of the determination of step 206, if the compressor 60 is not turned on, the defrost heater is continuously driven so that the temperature of the evaporator reaches a defrostable temperature and the internal temperature of the freezer compartment is maintained within a set temperature range. After the defrosting operation is continued, the process returns to the step 206 (step 207). On the contrary, when the determination result of the step 206 indicates that the compressor 60 is turned on, the microcomputer 30 may drive a control signal for turning off the defrost heater and a control signal for driving the compressor 60. Each output is outputted to stop the heating operation of the defrost heater and the compressor 60 is driven to complete the first defrosting operation (step 208). Subsequently, the microcomputer 30 drives the compressor 60 for a predetermined time in order to lower the internal temperature of the freezer compartment that has been elevated in temperature by the first defrosting operation (step 209).

Subsequently, the microcomputer 30 determines that the internal temperature of the freezer compartment is reduced when the compressor 60 is in operation or the operation of the compressor 60 according to the step 209 results in the determination of the step 201. The off-time of the compressor 60 is determined according to whether the internal temperature of the freezer compartment detected by the freezer compartment temperature detecting unit 10 is lower than the minimum temperature of the set temperature range (step 210). As a result of the determination of step 210, if the compressor 60 is not turned off, the compressor 60 continues to operate and then returns to step 210 (step 211). As a result of the determination of step 210, when the compressor 60 is turned off, the second defrosting operation is performed by outputting a control signal for turning on the defrost heater (step 212).

Subsequently, the microcomputer 30 performs the defrost heater when the second defrosting operation is performed or the defrost heater is heated by the second defrosting operation according to the step 212. According to whether the detected temperature of the evaporator rises above the preset evaporator set temperature, the off point of the defrosting operation is determined to determine the stopping of the defrost heater (operation 213). As a result of the determination in step 213, if the defrosting operation is not off, the defrost heater is continuously driven to maintain the inside temperature of the freezer compartment within the set temperature range and the secondary until the evaporator reaches the evaporator set temperature. After the defrosting operation is continued, the process returns to the step 213 (step 214). On the other hand, if the defrosting operation is turned off at the determination result of step 213, the microcomputer 30 returns to the start stage and periodically performs the first and second defrosting operations when the defrosting time enters during the refrigerating and cooling operation. Done.

As described above, according to the present invention, the first and second defrosting operations are periodically performed according to the internal temperature of the freezer compartment and the temperature of the evaporator to remove frost formed on the evaporator, thereby preventing the deterioration of the refrigerated food during defrosting operation. As a result, the internal temperature of the freezer compartment can be maintained within the set temperature range, thereby increasing the internal temperature.

Claims (1)

A defrosting method of a refrigerator for defrosting frost formed on an evaporator by driving a defrost heater, the defrosting step (250) of determining whether the first defrosting operation, the second defrosting operation, and the compressor operation are respectively performed in an initial state; As a result of the determination of the defrosting determination step 250, when the defrosting time enters the defrosting time and the internal temperature of the freezer compartment falls below the minimum temperature of the set temperature range, the compressor is stopped when the compressor is stopped. A primary defrosting step 260 which drives the defrost heater to perform the first defrosting operation so as to remove frost formed on the evaporator in the above state; During the first defrosting according to the first defrosting step, the inside temperature of the freezer compartment and the temperature of the evaporator are sensed, and the temperature of the evaporator reaches a defrostable temperature by driving the defrost heater, and the inside temperature of the freezer compartment is The defrosting operation is performed to maintain the temperature within the set temperature range, and if the internal temperature of the freezer compartment is higher than the maximum temperature of the set temperature range, the first defrosting completion step of stopping the defrost heater and operating the compressor to complete the first defrosting operation ( 270); As the compressor is operated according to the first defrosting completion step 270, when the internal temperature of the freezer compartment falls below the minimum temperature of the set temperature range, it is determined that the compressor is turned off and the compressor is stopped. A second defrosting step 280 of performing a second defrosting operation by driving the defrost heater so as to remove frost formed on the surface of the defrost heater; And detecting the inside temperature of the freezer compartment and the temperature of the evaporator during the second defrosting according to the second defrosting step, and the temperature of the evaporator is completed when the inside temperature of the freezer compartment is maintained within a set temperature range. When the evaporator set temperature is set as the reference, the defrost heater is stopped and the compressor is operated to complete the second defrosting step 290 to complete the second defrosting operation. The defrosting method of the refrigerator, characterized in that to return to the defrosting determination step (250) to perform the first and second defrosting operation periodically if the defrost time during the execution.