KR20090075276A - Method for controlling defrost of refrigerator - Google Patents

Abstract

A method for controlling a defrosting process of a refrigerator is provided to solve a temperature rising problem, a frosting problem, and an electric power consumption process by changing the defrosting process in consideration of use circumstance of the refrigerator. A method for controlling a defrosting process of a refrigerator includes the following steps of: calculating an average value of 24 hours humidity through an outside humidity sensor(S210); measuring the total driving time of a compressor(S220); comparing the average value of 24 hours humidity with a reference humidity value(230); determining whether the total time is reached to a defrosting point or not(S250); and performing a defrosting process when the total time is reached to the defrosting point(S260).

Description

Method for controlling refrigerator defrosting {Method for controlling defrost of refrigerator}

The present invention relates to a refrigerator defrosting operation control method, and more particularly, to a defrost control method of controlling the defrost cycle by checking the humidity outside the refrigerator.

 Generally, a refrigerator liquefies a refrigerant compressed at a high temperature and a high pressure in a compressor in a condenser, and then the opportunity is cooled in an evaporator to cool the surrounding air. do.

As the refrigerant evaporates in the evaporator, the saturation humidity is lowered as the air around the evaporator cools, so that excess moisture contained in the air freezes on the surface of the evaporator. These defrosts interfere with the heat exchange between the evaporator and the surrounding air, resulting in a problem of lowering the cooling efficiency, so in order to prevent this, the refrigerator generally has a defrost mode to remove the defrost from the evaporator.

In the conventional refrigerator defrosting method, a heater is installed around an evaporator to operate the heater at a predetermined defrosting time to dissolve and remove frost frozen in the evaporator. The compressor operation time is accumulated to allow the heater to operate when a predetermined time elapses or to operate the heater in response to a temperature change signal from the temperature sensor of the refrigerating compartment or the freezing compartment.

However, the defrost cycle is determined based on the cumulative compressor time only without considering the environmental requirements affecting the freezing, which causes the internal temperature to rise due to the frequent defrosting, which leads to increased power consumption due to excessive compressor operation after defrosting. do.

In addition, if the environmental factors affecting freezing are not taken into account, in some cases, defrost cycles may occur due to a longer defrost cycle than necessary.

The present invention is to solve the problems of the prior art, and relates to a refrigerator defrost control method that prevents residual ice or rise in internal temperature or excessive power consumption through rational defrost operation considering the use environment.

In order to achieve the above object, the present invention provides a refrigerator defrosting control method comprising: calculating a humidity average value for 24 hours a day through an external humidity sensor, accumulating the accumulated operation time of the compressor, determining whether the humidity average value is greater than or equal to the reference humidity; The method may include determining whether the compressor accumulated time reaches a set defrost time when the humidity average value is greater than or equal to the reference humidity, and entering the defrost when the compressor accumulated time reaches the defrost time.

In addition, the present invention is a refrigerator defrost control method, characterized in that when the humidity average value is a high reference humidity, the defrosting point (defrost cycle) is extended.

 In addition, the present invention is a refrigerator defrosting control method, the reference humidity is characterized in that the relative humidity is 80% or more.

The present invention as described above has the effect of solving the problem of remaining ice, temperature rise in the high temperature and power consumption problems caused by proper defrosting by changing the defrost cycle in consideration of the use environment of the refrigerator.

Hereinafter, a refrigerator defrosting control method according to the present invention will be described in detail with reference to the accompanying drawings. 1 is a configuration diagram for the operation and defrost control of the refrigerator according to the present invention.

As shown in Figure 1, the configuration of the refrigerator for performing the refrigerator defrost control according to the present invention comprises a power supply unit 100 for applying power to the refrigerator, a compressor 110 for compressing the refrigerant, a high internal temperature sensing the internal temperature The sensor 120 is provided with a defrost heater 130 for transmitting heater heat to the evaporator during defrosting operation, a defrost sensor 140 for detecting a temperature of the evaporator, and a microcomputer 150 for controlling the defrosting operation of the refrigerator.

 The compressor is driven and the compressed refrigerant is circulated through a refrigeration cycle (not shown). That is, the refrigeration cycle is composed of a compressor, a condenser, an evaporator, and the refrigerant compressed through the compressor is transferred to the evaporator through the condenser. The evaporator performs heat exchange with the outside air, so that cold cold air is supplied to the inside of the refrigerator. After the refrigeration cycle is driven for a predetermined time, a defrosting operation is performed to remove the frost generated by the heat exchange operation in the evaporator.

The defrost heater generates heater heat to remove freezing and defrost formed on the evaporator, and the defrost sensor senses the temperature of the evaporator that is raised by the heater heat of the defrost heater. The sensed temperature is then sent to the microcomputer.

The microcomputer 150 determines whether the defrosting operation is performed according to the temperature value of the evaporator transmitted through the defrost sensor. As a result, the defrosting operation is stopped when the temperature value of the evaporator detected through the defrost sensor reaches the reference temperature value, and the defrosting operation is continued when the reference temperature value is not reached. At this time, the defrosting operation is performed in consideration of the compressor operation time and the external relative humidity to perform the defrosting or to change the defrosting cycle.

2 is a flowchart of a refrigerator defrost control method according to the present invention. As shown in FIG. 2, the method for controlling the refrigerator defrosting according to the present invention calculates an average value of humidity 24 hours a day through an external humidity sensor. Therefore, the humidity outside the refrigerator is averaged 24 hours a day using an external humidity sensor.

Next, the accumulated operation time of a compressor is integrated. If the compressor operates for a certain time, it reaches the point where defrosting has to be done, and accumulates the compressor operation time.

Next, it is determined whether the humidity average value is greater than or equal to the reference humidity. (S230) When the defrosting time is determined only by the operation time of the compressor, it is not efficient defrosting, and thus external humidity affecting freezing is measured by an external humidity sensor. It will be judged against the reference humidity.

Next, if the humidity average value is greater than or equal to the reference humidity, it is determined whether the accumulated compressor time has reached a defrosting time point (S250). The reference humidity is a humidity that may enter the defrost when the compressor operation time reaches a predetermined time. For example, if the compressor defrosting time is set to 12 hours under the assumption that the reference humidity is 80% or more of the external relative humidity, the dehumidification is performed when the external humidity is 80% or more and the cumulative compressor time is 12 hours.

 If the humidity average value is less than or equal to the reference humidity, the defrosting time point (defrost cycle) according to the cumulative compressor operation time is extended (S240). That is, if the external humidity is low humidity, the dehumidification cycle is extended because the influence of humidity in the air is small. . When the defrost cycle is extended and the extended defrost cycle (defrost time) is reached, the defrost cycle is started. This prevents unnecessary power consumption and prevents the internal temperature from rising.

 Next, it is determined whether the cumulative compressor operation time has reached the defrosting time point (S250). If the external humidity condition and the compressor cumulative time condition are satisfied accordingly, the dehumidification process is started (S260). Here, the reference humidity is 80% or more relative humidity.

 The present invention having such a configuration enables efficient defrosting operation by performing refrigerator defrost control in consideration of a user's external humidity condition of the refrigerator.

The present invention relates to a refrigerator defrosting control method, and is useful for performing efficient defrosting by changing a defrosting cycle in consideration of external humidity in a refrigerator operation.

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

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

<Description of the code | symbol about the main structure of drawing>

100: power supply unit 110: compressor

120: high temperature sensor 130: defrost heater

140: defrost sensor 150: microcomputer

Claims (3)

Calculating an average humidity level for 24 hours per day using an external humidity sensor; Integrating a cumulative operation time of the compressor; Determining whether the average humidity level is equal to or greater than a reference humidity level; Determining whether a cumulative compressor time reaches a defrosting time when the humidity average value reaches a reference humidity; And defrosting the compressor when the accumulated time of the compressor reaches a defrosting time point.  The method of claim 1, wherein if the humidity average value is less than or equal to the reference humidity, the defrosting point is extended.  The method of claim 1, wherein the reference humidity has a relative humidity of 80% or more.

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