KR102299623B1 - Method for driving defrost of refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator defrosting operation method, comprising the steps of: a controller determining whether a defrosting operation condition is satisfied while performing a normal operation of the refrigerator; Determining a reference temperature based on the step, the control unit driving the defrost heater, and when the defrost temperature measured by the defrost sensor is equal to or greater than the reference temperature, the control unit stopping the driving of the defrost heater. characterized.

Description

How to operate a refrigerator defrost

The present invention relates to a defrosting operation method of a refrigerator, and more particularly, to a defrosting operation method of a refrigerator capable of variable temperature.

In general, a refrigerator is a device for keeping various foods fresh for a long period of time using cold air generated in a freezing cycle. and a cooling system for cooling the refrigerating compartment.

The cooling system is generally composed of a compressor, a condenser condensing the compressed refrigerant, a capillary tube for adiabatically expanding the condensed refrigerant, and an evaporator for evaporating the expanded refrigerant, in addition to supplying the cold air generated by the evaporator to each storage chamber It may be configured to further include a blowing fan and a three-way valve that is provided between the condenser and each evaporator to selectively supply the refrigerant to each evaporator. According to this configuration, the conventional refrigerator cools the storage chamber by circulating the air cooled by heat exchange in the evaporator to the storage chamber through a blower fan.

On the other hand, when the air circulated by the blower fan is heat exchanged in the evaporator, over-floating occurs in which water vapor contained in the air is frozen in the evaporator. Defrost operation is required to do this.

Therefore, when the accumulated operation time, which is the total operation time of the compressor for the defrost operation, exceeds the preset defrost start time, it enters the defrost mode and heats the defrost heater provided separately in the evaporator, or drives the blower and methods were used to remove it.

That is, in this defrost operation, after driving the defrost heater, when the defrost temperature sensed through the defrost temperature sensor installed in the evaporator rises above the preset release temperature, it is determined that the defrost is complete and the drive of the defrost heater is stopped. carried out

Meanwhile, the background technology of the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-2009-0078388 (2009.07.20.).

However, if the defrost heater is turned off based on the preset release temperature as described above, the defrost operation may be terminated or excessive defrosting may be performed in a state in which the frost is not completely removed.

That is, recently produced refrigerators are made so that the temperature of the refrigerating chamber can be adjusted by the consumer.

In other words, the amount of frost accumulated in the evaporator may vary depending on the set temperature of the refrigerator. A problem existed.

An object of the present invention is to solve the above problems, and it is an object of the present invention to provide a refrigerator defrosting operation method capable of controlling the degree of continuation of the defrosting operation according to a set temperature of the refrigerator.

A refrigerator defrosting operation method according to the present invention includes the steps of: determining, by a controller, whether a defrosting operation condition is satisfied while performing a normal operation of the refrigerator; determining, by the controller, a reference temperature based on a set temperature of the refrigerator when it is determined that the defrosting operation condition is satisfied; driving the defrost heater by the control unit; and when the defrost temperature measured by the defrost sensor is equal to or greater than the reference temperature, the control unit stopping the driving of the defrost heater.

In the present invention, determining whether the defrosting operation condition is satisfied may include: integrating, by the control unit, a driving time of the compressor; counting, by the controller, the number of times the refrigerator door is opened and closed; and when the integrated driving time reaches the first reference time, or when the counted number of openings and closings is equal to or greater than the reference number and the integrated driving time reaches the second reference time, the control unit determines that the defrost operation condition is satisfied. and determining that it is, wherein the first reference time is longer than the second reference time.

In the present invention, the step of stopping the driving of the defrost heater is characterized in that it comprises the step of the control unit initializing the accumulated driving time and the counted number of openings and closings.

In the step of determining the reference temperature of the present invention, the control unit is characterized in that the lower the set temperature, the higher the reference temperature is determined.

In the step of determining the reference temperature of the present invention, the control unit determines the reference temperature as a first reference temperature if the set temperature is less than or equal to a reference value, and if the set temperature is greater than the reference value, sets the reference temperature as a second reference It is determined as a temperature, wherein the first reference temperature is higher than the second reference temperature.

The refrigerator defrost operation method according to the present invention has an effect of improving energy consumption efficiency and food storability by determining a reference temperature that is a reference temperature for stopping the defrosting operation based on a set temperature of the refrigerator.

1 is an exemplary view for explaining an apparatus for performing a refrigerator defrosting operation method according to an embodiment of the present invention.
2 is a flowchart illustrating a refrigerator defrosting operation method according to an embodiment of the present invention.

Hereinafter, an embodiment of a refrigerator defrosting operation method according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is an exemplary diagram for explaining an apparatus for performing a refrigerator defrosting operation method according to an embodiment of the present invention, and FIG. 2 is a flowchart for explaining a refrigerator defrosting operation method according to an embodiment of the present invention. A refrigerator defrosting operation method according to the present embodiment will be described with reference to the following.

As shown in FIG. 1 , the apparatus for performing the refrigerator defrost operation method according to an embodiment of the present invention includes a control unit 100 , a door open/close detection unit 120 , a defrost sensor 130 , and a defrost heater 140 . may include

The door opening/closing detection unit 120 may detect a door opening/closing state of the refrigerator and provide it to the control unit 100 . That is, the controller 100 may count the number of times the refrigerator door is opened and closed to determine the degree of frost on the evaporator. As the number of times of opening and closing of the door increases, water vapor flowing into the evaporator may increase. Therefore, the controller 100 may determine that the greater the number of times of opening and closing the door, the greater the amount of frost implanted in the evaporator.

In addition, the control unit 100 may determine the degree of frost implanted in the evaporator by accumulating the driving time of the compressor 110 as well as the number of times of opening and closing the door. That is, the longer the driving time of the compressor 110 is, the more over-implantation may occur, so it can be determined that the amount of frost deposited on the evaporator is large.

The defrost heater 140 may apply heat to the evaporator to allow the frost to be removed. That is, the control unit 100 may drive the defrost heater 140 to perform a defrosting operation.

The defrost sensor 130 may detect the surface temperature of the evaporator and provide it to the control unit 100 . That is, the controller 100 may determine the end time of the defrost operation based on the defrost temperature measured by the defrost sensor 130 .

Meanwhile, as shown in FIG. 2 , in the refrigerator defrosting operation method according to an embodiment of the present invention, the controller 100 first performs a normal operation of the refrigerator ( S200 ). That is, the controller 100 may perform a general operation of storing food by driving the cooling system of the refrigerator.

Next, the control unit 100 determines whether the defrosting operation condition is satisfied (S210). For example, when the accumulated driving time of the compressor 110 reaches the first reference time, or when the counted number of times of opening and closing of the refrigerator door is equal to or greater than the reference number, the integrated driving time of the compressor 110 is set. When the 2 standard time is reached, it can be determined that the defrost operation condition is satisfied. Here, the first reference time, the second reference time, and the reference number may be basically preset, and may be designed with various values according to the intention of the user. However, the first reference time may be set longer than the second reference time.

That is, if the number of times of opening and closing the door is large, the amount of frost on the evaporator can be increased. It may be shorter than when less than the number of times.

As a result of the determination in step S210, if the defrost operation condition is not satisfied, the controller 100 returns to step S200 and continues the normal operation. That is, in the present embodiment, the control unit 100 may determine whether a defrosting operation condition is satisfied during normal operation of the refrigerator, and when the condition is satisfied, the controller 100 may operate in a manner to perform a defrosting operation.

On the other hand, if the defrost operation condition is satisfied as a result of the determination in step S210, the controller 100 determines the reference temperature based on the refrigerator set temperature (S220). For example, the controller 100 may determine the reference temperature as a higher temperature as the refrigerator set temperature is lower. That is, when the set temperature of the refrigerator is low, since the temperature in the refrigerator is relatively low, the amount of frost naturally melted when the compressor 110 is stopped may be relatively small. Accordingly, the control unit 100 may set the reference temperature, which is the criterion for stopping the defrosting operation, to be higher as the set temperature of the refrigerator is lower, so that the defrost time (the driving time of the defrost heater 140 ) is longer.

In addition, the controller 100 may determine the reference temperature as the first reference temperature if the refrigerator set temperature is less than or equal to the reference value, and may determine the reference temperature as the second reference temperature lower than the first reference temperature if the refrigerator set temperature exceeds the reference value. . That is, when the set temperature of the refrigerator is relatively low (below the reference value), the controller 100 may set a relatively high reference temperature (the first reference temperature) to lengthen the defrosting time, and when the set temperature of the refrigerator is relatively high (the reference value is higher than the reference value) ), a relatively low reference temperature (second reference temperature) can be set to shorten the defrosting time.

That is, the control unit 100 performs a defrost operation in consideration of the amount of frost on the basis of the refrigerator set temperature, thereby preventing excessive defrosting and improving energy consumption efficiency. It is possible to prevent the end of the food storability can be improved.

Meanwhile, after the step (S220), the control unit 100 drives the defrost heater 140 (S230). That is, when the defrosting operation condition is satisfied, the control unit 100 may start the defrosting operation by driving the defrost heater 140 .

Next, the control unit 100 determines whether the defrost temperature measured by the defrost swearing 130 is equal to or greater than the reference temperature determined in the step S220 (S240).

As a result of the determination of the step (S240), if the defrost temperature is higher than the reference temperature, the control unit 100 stops the driving of the defrost heater 140 (S250). That is, when the defrost temperature is higher than the reference temperature, the controller 100 may determine that sufficient defrosting has been performed and stop the defrosting operation.

Meanwhile, along with the step S250 , the control unit 100 may initialize the integrated driving time of the compressor 110 and the number of times of opening and closing the door. That is, the control unit 100 initializes the driving integration time of the compressor 110 and the number of door openings and closings, which are the conditions for the defrosting operation, so that it can be determined whether the defrosting operation conditions are newly satisfied later.

On the other hand, if it is determined in step S240 that the defrost temperature is not higher than the reference temperature, the control unit 100 returns to the step S230 and maintains the operation of the defrost heater. That is, if the defrost temperature is not higher than the reference temperature, the controller 100 may determine that sufficient defrosting has not been performed and may maintain the defrosting operation.

As described above, in the defrosting operation method according to the embodiment of the present invention, energy consumption efficiency and food storability can be improved by determining a reference temperature that is a criterion for stopping the defrosting operation based on the set temperature of the refrigerator.

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely an example, and it is understood that various modifications and equivalent other embodiments are possible by those of ordinary skill in the art. will understand Therefore, the technical protection scope of the present invention should be defined by the following claims.

100: control unit
110: compressor
120: door open/close detection unit
130: defrost sensor
140: defrost heater

Claims (5)

determining, by the controller, whether a defrosting operation condition is satisfied while performing a normal operation of the refrigerator;
determining, by the controller, a reference temperature based on a set temperature of the refrigerator when it is determined that the defrosting operation condition is satisfied;
driving the defrost heater by the control unit; and
When the defrost temperature measured by the defrost sensor is equal to or greater than the reference temperature, the control unit comprises the step of stopping the driving of the defrost heater,
In the step of determining the reference temperature,
The control unit is
The lower the set temperature, the higher the reference temperature is determined, or
If the set temperature is less than or equal to a reference value, the reference temperature is determined as a first reference temperature, and if the set temperature is greater than the reference value, the reference temperature is determined as a second reference temperature, wherein the first reference temperature is higher than the second reference temperature. Refrigerator defrost operation method, characterized in that high.
The method of claim 1,
The step of determining whether the defrost operation condition is satisfied,
accumulating, by the control unit, the driving time of the compressor;
counting, by the controller, the number of times the refrigerator door is opened and closed; and
When the integrated driving time reaches the first reference time, or when the counted number of opening and closing times is equal to or greater than the reference number and the integrated driving time reaches the second reference time, the controller determines that the defrost operation condition is satisfied. a step of judging,
The first reference time is a refrigerator defrosting operation method, characterized in that longer than the second reference time.
3. The method of claim 2,
The step of stopping the driving of the defrost heater,
and resetting, by the controller, the accumulated driving time and the counted number of openings and closings.
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