KR20040094045A - A defrosting method for refrigerator - Google Patents

Abstract

PURPOSE: A method for defrosting a refrigerator is provided to reduce power consumption due to unnecessary defrosting operation. CONSTITUTION: If a compressor is operated, first defrosting time and a first defrosting period are inputted to a refrigerator control unit(S200). It is judged whether an external temperature reaches a set temperature(S210). If the external temperature is lower than the set temperature, the first defrosting period is changed into a second defrosting period(S250). It is judged whether operation time of the compressor reaches first set time(S240). If the external temperature is higher than the set temperature, it is judged whether a door of a refrigerator is opened(S220). If the door is not opened, it is judged whether an operation rate of the compressor reaches 70%(S230). If the operation time of the compressor reaches the first set time, it is judged whether the defrosting period is the first defrosting period(S260). If so, the first defrosting time is changed into second defrosting time(S270). If the defrosting period is the second defrosting period, it is judged whether the operation time of the compressor reaches second set time(S280).

Description

Defrosting method of refrigerator {A DEFROSTING METHOD FOR REFRIGERATOR}

The present invention relates to a method of defrosting a refrigerator, and more particularly, to a method of defrosting a refrigerator in which a defrost cycle is automatically changed according to a refrigerator use condition associated with a refrigerator ambient temperature and whether a refrigerator door is opened or closed.

In general, the refrigerator is cooled while the refrigerant undergoes a cooling cycle of compression, expansion, condensation, and evaporation. The configuration of the refrigerator having such a cooling cycle includes a fan installed at the top of the evaporator installed at the rear of the freezer compartment of the refrigerator. The freezing chamber is provided with a cold air vent through which the cold air is blown by the rotation of the fan. In addition, a cold air inlet is formed in the freezer compartment so that cold air generated by the evaporator circulates inside the freezer compartment and then returns to the evaporator, and a cold air vent for allowing cold air to be blown by the rotation of the fan at the upper and rear sides of the cold compartment. The cold air suction port is formed to cycle through the inside of the refrigerating chamber and return to the evaporator.

In the cold air circulation operation of the refrigerator having such a configuration, when the fan of the evaporator is operated together with the operation of the refrigerator, cold air is blown into the freezer compartment and the refrigerating compartment. On the other hand, after the cold air is generated from the evaporator to cool the air in the freezer compartment and exit the freezer compartment through the cold air inlet, the cold air flows into the refrigerating compartment after circulating inside the cold compartment and exits the cold compartment through the cold air inlet. .

At this time, when the user opens the refrigerator door, hot air from the outside of the refrigerator flows into the freezer compartment and is cooled, and moisture contained in the refrigerator adheres to the surface of the cold evaporator to form a frost layer. On the other hand, if the frost layer is attached to the surface of the evaporator to hinder the heat exchange of the evaporator, to reduce the cooling performance of the refrigerator. In order to prevent this phenomenon, the refrigerator is generally provided with a defrosting device.

The defrost apparatus removes the frost layer on the surface of the evaporator by heating and melting the frost layer adhered to the evaporator. The defrosting method used in controlling the defrost apparatus is shown in FIG. 1.

Referring to FIG. 1, the defrost of the conventional refrigerator determines whether the refrigerator is in the defrost mode in the first step (S1), and in the defrost mode, turns off all the cooling devices (P1 step) and simultaneously supplies the cold room cold air. Start the fan (P2 step).

In the second step (S2), the refrigerator cold air supply fan is operated for a predetermined defrost time, for example, about 40 minutes, and the refrigerator cold air supply fan is turned off (step P3), and at the same time, the defrost heater is operated. (P4 step).

On the other hand, in the third step (step S3), it is checked whether the detected temperature of the defrost sensor reaches the set temperature (image 9 ??), and when the set temperature is reached, the defrost heater is turned off (step P5), and the defrost mode is terminated. (P6 step)

However, according to the defrosting method as described above, the defrost of the refrigerator only checks whether the elapsed time from the previously executed defrost has reached the set time, and when the elapsed time, that is, the defrost cycle reaches the set time, In the defrost mode, the refrigerator door is operated separately from the opening / closing state of the refrigerator and the driving state of the compressor. Thus, the door is not opened and the outside temperature of the refrigerator is similar to the high temperature of the refrigerator. There is a problem in that the defrost heater is operated even when no frost layer is formed on the evaporator surface because the temperature difference between the evaporator surface temperature and the freezer compartment internal temperature is insignificant.

A method for partially solving this problem has been disclosed in the related art, and in particular, Korean Patent Application No. 2002-0073695, filed in 2002, describes whether to perform defrosting according to compressor operation rate, door opening and closing, and compressor running time. Although it was determined, the application was performed in the same defrost cycle even when the outside temperature of the refrigerator is high or low, it is executed even when defrosting is unnecessary, there is a problem that the refrigerator still consumes excessive power.

Accordingly, the present invention determines whether to enter the defrost mode according to the open / closed state of the refrigerator door, the operating state of the refrigerator compressor, the external temperature of the refrigerator, and the defrost cycle can be automatically changed according to these conditions. It is an object of the present invention to provide a defrosting method of a refrigerator that can reduce consumption.

1 is a flowchart of a defrosting operation for conventionally defrosting a refrigerator.

2 is a flowchart illustrating a defrosting order for defrosting a refrigerator according to the present invention.

In the refrigerator defrosting method according to the present invention to achieve the object as described above, the operation time is accumulated while the compressor is operating, the first step in which the first defrost time and the first defrost cycle is set in advance, the temperature outside the refrigerator is set temperature To determine whether the compressor operation time has reached the first operating time. If the temperature is below the set temperature, the compressor operation time is changed to the first defrost cycle after the first defrost cycle is changed to the second defrost cycle. In the second and second steps of determining whether the time has been reached, the defrost cycle is checked after the compressor operating time reaches the first operating time, and if the defrost cycle is the second defrosting cycle, the compressor operating time is the second operating time. When the defrost is performed during the first defrost time after reaching and the defrost cycle is the first defrost cycle, the first defrost time is changed to the second defrost time and the compressor is operated. After reaching the second operating time is configured to include a third step that the first defrost defrost time for two runs.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

2 is a flowchart configured to defrost the refrigerator according to the present invention. First, although not shown, the refrigerator is equipped with a temperature sensor for measuring the outside temperature of the refrigerator on the outer surface of the refrigerator and a sensor for detecting the presence or absence of door opening and closing.

As the compressor operates, the operating time is accumulated in the refrigerator control unit while the defrosting time is, for example, 30 minutes in the refrigerator control unit, and, for example, 6 hours in the defrosting cycle. The first defrost cycle is input (step S200).

In addition, it is determined whether or not the refrigerator external temperature input from the sensor mounted on the external surface of the refrigerator has reached the set temperature (step S210). After changing to the second defrost cycle (step S250), it is determined whether the compressor operation time has reached the first set time, for example, 8 hours (step S240). On the other hand, if the outside temperature of the refrigerator is higher than the set temperature, it is preferably determined whether the refrigerator door is opened or closed (S220). In this step, whether the door is opened or closed may determine whether the number of openings of the door is less than or equal to the set number of times, but preferably only one opening is determined.

On the other hand, when the door is opened, the defrost cycle is determined whether or not the compressor operating time reaches the first set time after changing to the first defrost cycle. When the door is not opened, the operation rate of the compressor is, for example, In operation S230, it is determined whether the operation rate of 70% is reached. In this case, when the operation rate of the compressor reaches the set operation rate, the defrost cycle is changed from the first defrost cycle to the second defrost cycle, and then it is determined whether the compressor operation time reaches the first operation time (step S240).

At this time, the compressor operation rate represents the ratio of the operation time of the compressor to the total time including the down time when the compressor is repeatedly started and stopped to cool the inside of the refrigerator. When the refrigerator door is opened, the cold inside the refrigerator is moved out of the refrigerator. As the outflowing and hot outside air flows into the inside of the refrigerator, the compressor increases its operating rate to cool it. On the contrary, when the outside temperature of the refrigerator approaches the set temperature of the refrigerator, the heat loss inside the refrigerator is small, and thus the operation rate of the compressor is lowered.

Further, steps S210 to S250 are repeated until the compressor operating time reaches the first operating time, and when the first operating time is reached, it is determined whether the defrosting cycle is the first defrosting cycle (S 260). If the defrosting cycle is the first defrosting cycle in this step, the defrosting time is changed from the first defrosting time to the second defrosting time (S 270). For example, at the first defrosting time set to 30 minutes, for example, This will increase the second defrost time of 45 minutes.

In addition, when the defrost cycle is not the first defrost cycle, that is, when the defrost cycle is the second defrost cycle, it is determined whether or not the compressor operating time reaches, for example, the second operating time of 10 hours ( S 280 step). At this time, the defrost is preferably performed during the first defrost time or the second defrost time when the compressor operating time reaches the second operating time.

In the refrigerator defrosting method according to the present invention as described above, the defrosting cycle and the defrosting time of the refrigerator is determined according to the external temperature of the refrigerator as well as whether or not the refrigerator is opened or closed, the operation rate of the compressor, the compressor operating time, and thus the undesired defrosting. There is an advantage to reduce the electricity consumption by the implementation.

Claims (1)

A first step in which an operating time is integrated while the compressor is operated, and a first defrost time and a first defrost cycle are set in advance; It is determined whether the temperature outside the refrigerator has reached the set temperature, but if the set temperature is higher than the set temperature, it is determined whether the compressor operating time has reached the first operating time. A second step of determining whether the operation time has reached the first operation time; In the second step, the defrost cycle is checked after the compressor operating time reaches the first operating time.If the defrosting cycle is the second defrosting cycle, defrosting is performed during the first defrosting time after the compressor operating time reaches the second operating time. And if the defrosting cycle is the first defrosting cycle, a third step of defrosting is performed during the second defrosting time after the compressor operation time reaches the second operating time after the first defrosting time is changed to the second defrosting time. Defrost method of the refrigerator, characterized in that.