KR19990061269A - How to defrost the refrigerator - Google Patents

Abstract

The present invention relates to a method of defrosting a refrigerator, comprising: a first step of determining whether the defrost mode is in normal operation if it is not in the defrost mode, and operating the refrigerating compartment cold air supply fan after turning off all systems in the defrost mode; A second step of determining whether 40 minutes have elapsed after performing the first step and checking the time continuously if it has not elapsed, and turning off the refrigerating chamber cold air supply fan if it has not elapsed; After performing the second step, it is determined whether the detection temperature of the defrost sensor exceeds -9 ℃ and if not exceeded, it checks and compares the detection temperature continuously. If it exceeds, it turns off the defrost heater and ends the defrost mode. It is composed of a third step to be operated to a defrosting method of the refrigerator to remove the frost on the evaporator in a short time.

Description

How to defrost the refrigerator

The present invention relates to a method of defrosting a refrigerator, and more particularly, to a method of defrosting a refrigerator to more efficiently remove frost formed on an evaporator of a refrigerator and to reduce power consumption.

In general, a refrigerator is a device that generates cold air so that food stored in a space formed by being divided into a predetermined size can be kept fresh for a long time.

As such, the cooling cycle that generates cold air in the refrigerator in order to preserve the food stored in the refrigerator in a frozen or refrigerated state is sucked into the compressor installed in the machine room by a high-temperature refrigerant gas heat exchanged with ambient air through an evaporator installed in the cooler room. The gasified refrigerant containing high heat is liquefied by dissipating heat of condensation through heat exchange with external air while passing through a condenser while being compressed to high pressure through the compressor.

Thereafter, the liquefied refrigerant passing through the condenser is passed through a dryer and a capillary tube to form a cold liquid refrigerant at a low temperature and low pressure with impurities and water removed, and is sent to an evaporator in a cooler chamber provided at the rear of the freezing chamber. The circulation of the refrigerant generating cold air is repeated by the ambient air and the heat exchange ring.

In this process, the evaporator absorbing the latent heat of evaporation while exchanging heat with the ambient air in the cooler chamber gradually forms frost on its surface due to the temperature difference with the ambient air heat exchanged in the cooler chamber. Each defrost heater provided in the lower part of the cooler chamber is heated in accordance with the defrost signal of the refrigerator control unit to defrost frost formed on the surface of the evaporator.

However, the defrost heater of the conventional refrigerator is formed to be as long as the length of the evaporator is installed in the lower side of the refrigerator compartment of the refrigerator to generate heat in the defrost mode and to remove the frost on the evaporator at the same time, the power consumption increases Problems have arisen.

In addition, the defrosting time is short from 1 hour to 4 hours, the defrosting time is long, causing the problem of losing the original function of the refrigerator.

In addition, since the frost formed on the entire surface of the evaporator is to be removed, if the calorific value of the defrost heater is large, there is a problem that defrost heat is introduced into the freezer compartment or the refrigerating compartment of the refrigerator to break the cooling balance in the refrigerator.

The present invention has been made to solve the above problems of the prior art, to provide a defrosting method of the refrigerator to prevent the increase in power consumption during defrosting, and to allow the defrosting to proceed in a short time.

1 is a front view of the refrigerator according to the present invention showing a state in which louver A is removed;

2 is an enlarged partial perspective view of a cooler chamber of a refrigerator according to the present invention;

3 is a flowchart showing the control flow of the present invention.

Explanation of symbols on the main parts of the drawings

10 ..... cooler chamber, 20 ..... evaporator,

30 ..... Defrost heater, 40a ..... Cold air supply fan for freezer,

40b ..... Refrigeration fan, 50 ..... Louver A,

A ..... Preheating zone.

A feature of the refrigerator defrosting method according to the present invention is a defrosting method for removing frost formed on an evaporator of a refrigerator, wherein it is determined whether the defrosting mode is operated so that the defrosting mode is operated normally. A first step of operating the cold air supply fan for the refrigerating compartment; A second step of determining whether 40 minutes have elapsed after performing the first step and checking the time continuously if it has not elapsed, and turning off the cold air supply fan for the refrigerating compartment if it has not elapsed; After performing the second step, it is determined whether the detection temperature of the defrost sensor has exceeded -9 ℃, and if not exceeded, the detection temperature is continuously checked. If the detection temperature is exceeded, the defrost heater is turned off and the defrost mode is terminated. Provided is a defrosting method of a refrigerator comprising a third step of operating.

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

1 is a front view of a refrigerator according to the present invention, which shows a state in which louver A is removed, and an evaporator 20 is installed in a cooler chamber 10 formed in a predetermined space on a rear surface of a freezer compartment F of the refrigerator in the same manner as in the prior art. .

And, the defrost heater 30 is installed below the evaporator 20, unlike the prior art is installed with a length less than half of the transverse length of the evaporator 20.

In addition, the upper side of the evaporator 20 is provided with a freezer cold air supply fan 40a for supplying cold air to the freezer compartment, and a cold storage air supply fan 40b for supplying cold air to the refrigerating compartment.

In addition, the 'A' is shown a range that affects the evaporator 20 by hitting the supply duct 60 formed in the louver A 50 of FIG. 2 to be described later when the cold air supply fan 40b for the refrigerating chamber is operated. It is shown.

2 is an enlarged partial perspective view illustrating a cooler chamber of a refrigerator according to the present invention, wherein an accumulator 70 is connected to a suction pipe by discharging a portion of the refrigerant connected to a capillary tube introduced into the evaporator 20 or a suction pipe. The evaporator 20 of the adjacent portion of the is not provided with a cooling fin 80 is attached to widen the contact area.

That is, the cooling fin 80 is removed in the portion 'B' shown, which is because the flow of air blown by the cold air supply fan 40b for the refrigerating chamber slightly affects the amount of implantation in the sex of this region. To reduce.

In addition, a defrost sensor 77 is installed at an adjacent position of the cold air supply fan 40a for the freezing compartment, which is an upper portion of the evaporator 20.

The refrigerator is operated in the state of such a configuration, which will be described with reference to the flowchart of FIG. 4 to which the control method is attached.

First, it is determined whether the refrigerator is in the defrost mode while the refrigerator is in operation (S1).

At this time, if it is determined that the defrost mode is not the normal operation of the refrigerator continues, if it is determined that the defrost mode to turn off all the system of the refrigerator to terminate (P1).

Thereafter, a cold air supply fan for the refrigerating compartment is operated (P2) to perform a first step of preheating the 'A' region of the evaporator.

Then, it is determined whether the refrigerating compartment cold air supply fan operated after performing the first step is operated for at least 40 minutes (S2).

If the refrigerating compartment cold air supply fan is not operated for more than 40 minutes, the time is continuously checked. If the checked time has elapsed for 40 minutes, the refrigerating compartment cold air supply fan is turned off (P3).

Thereafter, a second step of operating the defrost heater installed to a length less than half the transverse length of the evaporator (P4) is performed.

After performing the second step, it is determined whether the detection temperature of the defrost sensor installed on the upper side of the evaporator exceeds 9 ℃ (S3).

If the temperature detected by the defrost sensor does not exceed the set temperature to check the temperature detection continuously, if it exceeds the defrost heater is turned off (P5).

After the defrost heater is turned off, the defrost mode is completely terminated (P6), and the defrosting operation of the refrigerator is completed by performing the third step of switching the refrigerator to the normal operation mode.

As described above, by providing the defrosting method of the refrigerator according to the present invention, the defrosting can be completed in a short time by defrosting some frost in advance so that the defrosting proceeds easily and then defrosting with the defrost heater. Furthermore, without the need to install a defrost heater corresponding to the length of the evaporator as in the past, the same defrosting effect is provided with only half the size thereof. Furthermore, since only about half of the defrost heat is released compared with the existing one, it also provides an effect of preventing the problem of the breakdown of the cooling balance due to the inflow of the defrost heat.

Claims (1)

In the defrosting method for removing frost formed on the evaporator 20 of the refrigerator, A first step of determining whether the defrost mode is operated so that the defrost mode is normally operated, and in the defrost mode, turning off all the systems and then operating the refrigerating compartment cold air supply fan; A second step of determining whether 40 minutes have elapsed after performing the first step and checking the time continuously if it has not elapsed, and turning off the cold air supply fan for the refrigerating compartment if it has not elapsed; After performing the second step, it is determined whether the detection temperature of the defrost sensor has exceeded -9 ℃, and if not exceeded, the detection temperature is continuously checked. If the detection temperature is exceeded, the defrost heater is turned off and the defrost mode is terminated. In a third step of driving; Defrosting method of the refrigerator, characterized in that