KR100600782B1 - Defrosting method of refrigerator - Google Patents

Abstract

The present invention provides a method of controlling a compressor of a refrigerator of a hot gas defrosting system in which a high-temperature, high-pressure refrigerant from a compressor is directly supplied to an evaporator to defrost, wherein the defrosting system of the refrigerator has an increase in power consumption and a high temperature within the defrosting operation. Since there is a problem of rising, or there is a problem to reduce the reliability of the compressor by overloading the compressor,

In the defrosting operation, by operating the compressor with less power than in normal operation,

Since the driving force of the compressor is changed according to the operation mode of the refrigerator, the operation stop due to the overload does not occur so that the smooth defrosting is performed and the overload is not applied to the defrosting method of the refrigerator to improve the reliability of the compressor.

Refrigerator, Defrost, Overload protection device, Variable capacity compressor, Evaporator

Description

Defrosting method of refrigerator             

1 is a configuration diagram showing a defrost structure of a typical refrigerator;

2 is a configuration diagram showing a hot gas defrost structure;

3 is a view showing a compressor operating method according to the defrosting method of the refrigerator according to the present invention.

The present invention relates to a method for removing frost formed in a freezer compartment of a refrigerator, and more particularly, to a method of defrosting a refrigerator to ensure reliability of a compressor by controlling an operation mode of the compressor in a refrigerator to be defrosted using hot gas. will be.

In general, an evaporator is installed in a freezer of a low temperature state to further lower the temperature. Therefore, a phenomenon in which frost is formed on the evaporator installed in the freezer compartment occurs, and as the frost is formed, a problem occurs that the freezing efficiency is lowered and the temperature in the refrigerator is increased.

Designed to solve this problem is a defrost system as shown in FIG. The defrosting system installs defrost heaters 13 on both sides of the evaporator 10 which is composed of a copper tube 11 through which a refrigerant flows and a fin 12 installed around the defroster. When the heat is supplied to the defrost heater 13 for a predetermined time (about 20 to 30 minutes), the frost formed on the surface of the evaporator 10 and the fin 12 is removed. At this time, a thermostat (not shown) may be installed on the surface of the evaporator 10 in order to avoid excessive rise of the internal temperature due to long-term heat supply, the thermostat is applied to the defrost heater when the temperature is 13 ℃ or more Losing heat cuts off the heat and ends the defrost.

However, the conventional defrosting system has a large amount of power consumed during the defrosting and the defrosting time is long, so that the temperature in the refrigerator is raised, which adversely affects the freshness of the food stored in the refrigerator.

Therefore, many studies have been conducted to solve the problem of the defrost system using a defrost heater, one of which is the hot gas method shown in FIG.

The hot gas defrosting system forms a bypass tube between the compressor 22 outlet of the refrigeration cycle and the inlet of the evaporator 21 and installs a defrost valve 25 for opening and closing the bypass tube. ) Is opened so that the high temperature and high pressure refrigerant compressed by the compressor 22 is supplied directly to the evaporator 21 without passing through the condenser 23 and the pressure reducing valve 24. Therefore, the high temperature and high pressure refrigerant passes through the evaporator 21 to quickly melt frost formed on the surface of the evaporator 21.

At this time, the compressor 22 can perform an effective defrost only by continuing the operation. As a result, a problem arises in that the evaporation pressure in the evaporator 21 is increased and thus the compressor 22 is overloaded. When the compressor 22 is overloaded, an overload protection device (OLP; not shown) installed in the compressor 22 is activated to stop the operation of the compressor 22, thereby preventing defrosting and performing defrosting. Whenever it is carried out a heavy load on the compressor (22).

As a result, the hot gas defrosting system of the conventional refrigerator includes problems such as an increase in power consumption and an increase in the internal temperature of the defrosting operation, or has a problem of reducing the reliability of the compressor by overloading the compressor.

The present invention has been made to solve the above problems of the prior art, by using a hot gas defrost system to prevent an increase in power consumption, by varying the control method of the compressor, at the same time performing a defrosting and compressor It is an object of the present invention to provide a defrosting method of a refrigerator to prevent overloading.

Defrosting method of the refrigerator of the present invention for achieving the above object is a linear compressor that can change the load by adjusting the stroke; A condenser for condensing the refrigerant compressed by the linear compressor; A pressure reducing valve for expanding the refrigerant condensed in the condenser; An evaporator for evaporating the refrigerant expanded in the pressure reducing valve; A bypass tube formed between said linear compressor outlet and said evaporator inlet; A refrigerator including a defrost valve for opening and closing the bypass pipe, wherein during the defrosting operation of the refrigerator, the defrost valve is opened so that the refrigerant compressed by the linear compressor circulates through the defrost valve, the evaporator and the linear compressor, and the defrost valve. The linear compressor is operated with a smaller stroke than in normal operation to prevent overloading of the compressor which may occur upon opening.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

In the method of defrosting the refrigerator of the present invention using the hot gas type defrosting system shown in FIG. 2, the compressor 22 uses a variable capacity compressor that can change a load as necessary, In the defrosting operation as shown in FIG. 3, the compressor 22 is operated with less power than in normal operation.

Here, to operate the compressor 22 with low power, a method of lowering the operating frequency of the compressor 220 or reducing the stroke is used.

The defrosting method of the refrigerator of the present invention configured as described above prevents the compressor from being overloaded by controlling the operating state of the compressor.

The hot gas defrost system shuts off the defrost valve 25 of the bypass pipe during normal operation so that the refrigerant flows from the compressor 22 to the condenser 23 to the pressure reducing valve 24 to the evaporator 21 to the compressor 22. During the defrosting operation, the defrost valve 25 of the bypass pipe is opened so that the refrigerant is circulated along the path of the compressor 22 → defrost valve 25 → evaporator 21 → compressor 22. Therefore, during the defrosting operation, the high temperature and high pressure refrigerant from the compressor 22 is supplied to the evaporator 21 to remove frost formed on the surface of the evaporator 21.

During the defrosting operation, since the refrigerant having a high temperature and high pressure is supplied to the evaporator 21, the refrigerant pressure at the outlet of the evaporator 21 is increased, thereby overloading the compressor 22. Therefore, in the present invention, by reducing the driving force of the compressor 22, the work of the compressor 22 is reduced to prevent overload. That is, the compressor 22 used in the present invention is a variable capacity compressor employing an inverter or a linear motor, and can change the operating frequency or stroke as needed. This shortens the work done by the compressor 22.

When the work of the compressor 22 is reduced, the refrigerant pressure in the compressor 22 is reduced so that the compressor 22 is not overloaded, and therefore, the operation of the compressor 22 is not stopped due to the operation of the overload protection device. Will not. As a result, the stop of the defrosting operation due to the stop of the operation of the compressor 22 does not occur, so that the effective defrosting is achieved, and the temperature rise in the refrigerator is also prevented.

As described above, the defrosting method of the refrigerator of the present invention changes the driving force of the compressor according to the operation mode of the refrigerator, so that the operation stop due to the overload does not occur so that the smooth defrosting is performed and the overload is not applied and the reliability of the compressor is improved. There is an advantage.

Claims (4)

delete A linear compressor capable of varying the load by adjusting the stroke; A condenser for condensing the refrigerant compressed by the linear compressor; A pressure reducing valve for expanding the refrigerant condensed in the condenser; An evaporator for evaporating the refrigerant expanded in the pressure reducing valve; A bypass tube formed between said linear compressor outlet and said evaporator inlet; In the refrigerator comprising a defrost valve for opening and closing the bypass pipe, In the defrosting operation of the refrigerator, the defrost valve is opened to circulate the defrost valve, the evaporator and the linear compressor by the refrigerant compressed in the linear compressor, and the linear to prevent the compressor from being overloaded when the defrost valve is opened. A defrosting method for a refrigerator, characterized in that the compressor is operated with a smaller stroke than in normal operation. delete delete

Images