KR20160010143A - Defrost system for Freezer - Google Patents

Abstract

The present invention relates to a defrosting system for a freezer, and more specifically, to a defrosting system for a freezer, that increases the temperature using the refrigerant heat of a refrigerant pipe, which is circulated inside a thermal storage tank installed between a compressor and a condenser, as a defrosting heat source of an evaporator and allowing the refrigerant pipe installed inside the evaporator and a defrosting heater pipe to be integrally formed by being in parallel contact with each other. The defrosting system for the freezer, which includes a cooling cycle connecting the compressor, the condenser, an expansion valve, and the evaporator through the circulated refrigerant pipe, comprises: the thermal storage tank; the defrosting heater pipe; the evaporator; and a circulation pump. The thermal storage tank is installed on the refrigerant pipe circulated between the compressor and the condenser to store the refrigerant heat created in the compressor and includes a heat storing material inside. The defrosting heater pipe is installed and circulated on one inner side of the thermal storage tank to undergo heat exchange, which allows defrosting in the evaporator, and then, is re-circulated into the thermal storage tank. The evaporator includes the refrigerant pipe installed inside the evaporator and the defrosting heater pipe having an outer circumferential surface in parallel contact with the refrigerant pipe in a longitudinal direction to be integrally coupled with the refrigerant pipe. The circulation pump is installed on a circulation route of the defrosting heater pipe to allow the refrigerant to be circulated in the evaporator and thermal storage tank.

Description

Defrost system for Freezer [0002]

[0001] The present invention relates to a defrost system device for a refrigerator, and more particularly to a defrost system device for a refrigerator, which comprises a heating device for heating a refrigerant line of a refrigerant pipe circulating inside a heat storage tank provided between a compressor and a condenser, The present invention relates to a defroster system for a refrigerator which can efficiently perform defrosting operation by integrally forming a common heater pipe in contact with each other in parallel.

Generally, a refrigerator is a device that stores food such as fish meat or other frozen food such as a refrigerator or a frozen warehouse. The principle is that the refrigerant circulates through the refrigeration cycle of compression, condensation, expansion, and evaporation, .

At this time, the surface of the evaporator which is provided in the freezer to generate cold air is frozen and frozen, and the freezing area is increased with time, and the refrigeration efficiency is lowered.

In order to obtain a cooling effect of the refrigerator due to the above-described problems, defrosting operation of the evaporator is required continuously.

As shown in FIG. 1, the prior art disclosed in Japanese Patent Application No. 10-0388720 (defrosting device and defrosting method for freezing storage system for freezing warehouse) comprises a supply part 52 for supplying water to the upper part of the evaporator 20 An inlet pipe 50 and a spray pipe 56 formed in the distribution pipe 54 of the inlet pipe 50. The inlet pipe 50 is branched into a plurality of branch pipes 54, A reflection plate 60 formed on the upper side of the main body 10 so as to correspond to the main body 10 so as to be inclined at a predetermined angle in the outward direction on both sides of the main body 10, Is dropped on the reflection plate (60) in a fractional manner.

However, in the above-described technique, water is sprayed through the atomizing holes 56 formed in the upper direction of the distribution pipe 54, and in the process of being sprayed to the evaporator 20 in the lower direction while bumping against the reflection plate 60 provided at the upper part, The water drops formed in the spray hole 56 of the pipe 54 again freeze and the frozen portion is frozen as a result of which the spray hole 56 is clogged to cause a problem in smooth spraying action.

In addition, since it is sprayed to the evaporator 20 through the distribution pipe 54 in the downward direction against the reflection plate 60, the area occupied by the distribution pipe 54 can not be sprayed uniformly over the entire evaporator 20, The defrosting effect is deteriorated.

As another prior art, Japanese Unexamined Patent Application Publication No. 1995-0003760 (a defrost apparatus for a refrigerator) stores a predetermined substance so as to heat a high temperature generated in the compressor 1, and is installed in close contact with the compressor 1 A heat storage container 7 and a closed circuit configured to circulate the inside of the heat storage container 7 and wrap the evaporator 5 in a predetermined form so that heat exchange can be performed between the heat storage container 7 and the evaporator 5 And a circulation pump (10) installed at a predetermined portion of the refrigerant pipe (9) for forgery and forcedly driving the flow of the refrigerant.

In this technique, the heat storage container 7 is installed in close contact with the compressor 1, and vibration is directly transmitted to the heat storage container 7 closely attached by a considerable amount of vibration generated in the compressor 1 to break the heat storage container 7 There is a problem in that the replacement or maintenance cost of the heat storage container 7 and the leakage of the internal material are caused.

In addition, the above-described technology has a structure in which the defrosting refrigerant tube 9 only surrounds the outside of the evaporator 5, and since heat is not sufficiently transferred to the inside, not only the heat efficiency is lowered but also the temperature inside the refrigerator rises Therefore, in order to obtain a smooth defrosting effect, there is a problem that a hot gas or water jetting device must be separately provided.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

A heat storage tank is provided between the compressor and the condenser to store the high temperature refrigerant heat through the compressor and to use the heat storage tank as a heat source for the heater for the defrosting, so that the energy can be saved and the heat storage tank is not affected by the vibration generated in the compressor So that the self-durability of the heat storage tank can be enhanced and the preservability of the heat storage material inside can be improved.

In addition, since the refrigerant tube of the evaporator and the heater tube of the defrosting heater are integrally formed so as to be in parallel with each other, it is possible to effectively defrost not only the outside of the evaporator but also the defrosted interior and the refrigeration system during the defrosting operation, The present invention provides a defrosting device for a refrigerator capable of maintaining a low temperature without affecting the defrosting device.

Also, it is an object of the present invention to provide a defrosting device for a refrigerator which can reduce the capacity of a condenser according to the heat storage capacity of a heat storage tank and thus reduce the installation cost and the maintenance cost, because the refrigerant pipe is connected to the condenser through the heat storage tank.

The present invention relates to a refrigerator comprising a refrigeration cycle for circulating and connecting a compressor, a condenser, an expansion valve, and an evaporator to a refrigerant pipe, wherein the refrigerant tube is installed in a refrigerant pipe circulated between a compressor and a condenser so as to heat the refrigerant heat through the compressor, A heater tube installed in the evaporator for circulating the evaporated refrigerant to the heat storage tank, and a refrigerant tube provided inside the evaporator, the evaporator having a heat storage tank, And a circulation pump installed in the circulation path of the defrost heater tube for circulating the refrigerant between the evaporator and the heat storage tank. The evaporator and the evaporator are connected to each other in parallel, do.

Further, the heat storage material of the heat storage tank is provided as a phase change material (PCM).

Further, the refrigerant used in the defrost heater tube is characterized by being made of liquid refrigerant.

Further, a blowing fan for blowing air into one side of the evaporator is provided, and a defrost heater tube is installed in front of the blowing air inflow direction, and a refrigerant tube is installed at the rear side.

In addition, an extended contact surface is formed on the outer circumferential surface between the defrost heater heater tube and the refrigerant tube so that the heat transfer area can be enlarged.

The present invention can save energy by providing a heat storage tank between a compressor and a condenser, storing the heat of the refrigerant passing through the compressor, and using it as a heat source for the heater for the defrosting, and the heat storage tank is not affected by vibrations generated in the compressor It has the effect of enhancing the self-durability of the heat storage tank and improving the preservability of the heat storage material therein.

In addition, since the refrigerant tube of the evaporator and the heater tube of the defrosting heater are integrally formed so as to be in parallel with each other, it is possible to effectively defrost not only the outside of the evaporator but also the defrosted interior and the refrigeration system during the defrosting operation, There is an effect that the low temperature maintenance can be maintained without affecting.

Further, since the refrigerant tube is connected to the condenser through the heat storage tank, the capacity of the condenser can be reduced according to the heat storage capacity of the heat storage tank, thereby reducing the installation cost and maintenance cost.

1 is a view showing a conventional defrosting apparatus.
2 is a configuration diagram of a defrost apparatus according to the present invention.
3 is a perspective view showing a configuration of an evaporator according to the present invention.
4 is a cross-sectional view showing the combination of a refrigerant tube and a heater-heater tube of the evaporator according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Generally, the refrigeration cycle of the refrigerator will be described as follows.

A compressor (100) for compressing a refrigerant and discharging it in a gaseous state at a high temperature and a high pressure; a condenser (200) for heat exchanging (releasing heat) the compressed refrigerant with the outside air to bring the refrigerant into a high temperature and high pressure liquid state; And an evaporator 400 that exchanges heat (heat absorption) with the outside air to transfer the low-temperature and low-pressure liquid-state refrigerant to the compressor 100 in a low-temperature and low-pressure gaseous state .

At this time, the surface of the evaporator (400) is frozen and freezes. As the time passes, the freezing area increases and the cooling efficiency deteriorates.

3 to 5, the present invention provides a refrigeration cycle in which a compressor 100, a condenser 200, an expansion valve 300, and an evaporator 400 are circulated and connected to a refrigerant pipe 1, A heat storage tank (not shown) provided in the refrigerant pipe (1) pivoting between the compressor (100) and the condenser (200) so as to heat the refrigerant heat through the compressor (100) A heater heater tube 2 which is installed at one side of the heat storage tank 250 so as to be heat-exchanged and then defrosted by the evaporator 400 and then recirculated to the heat storage tank 250; An evaporator 400 constituted by a refrigerant pipe 1 installed in the interior of the defrost heater 400 and a defrost heater tube 2 integrally joined to the outer circumferential surface in parallel in the longitudinal direction, And the refrigerant circulates through the evaporator 400 and the heat storage tank 250 Defroster of the refrigerator, characterized in that made including a circulation pump (500).

The heat storage tank 250 of the present invention is configured to recover and store the heat of the high-temperature, high-pressure gaseous refrigerant through the compressor 100, and the heat exchange between the refrigerant tube 1 and the defrost heater tube 2 is smoothly performed And the heat storage material is filled with a phase change material (PCM).

The phase change material is a well-known phase change material which accumulates a large amount of heat energy or releases stored heat energy through a phase change process and changes from a liquid to a solid to a liquid at a certain temperature, Storage) or dissipating heat (releasing heat).

The heat storage tank 250 according to the present invention is configured to accumulate the refrigerant heat through the compressor 100 and is installed between the compressor 100 and the condenser 200. However, as shown in FIG. 3, And is installed so as to be close to the condenser 200.

The condenser 200 is installed in front of the blowing fan 210 installed in one side of the condenser 200 so that the condenser 200 can be installed in the heat storage tank 250. [ And the heat storage tank 250 is provided at the rear of the heat storage tank 250, the heat discharged to the outside by the blowing fan 210 can heat the surface of the heat storage tank 250 once more to enhance the heat storage effect.

Since the defrost heater tube 2 of the present invention is filled with the liquid refrigerant and defrosts the evaporator 400 and the heat storage tank 250 while circulating by the circulation pump 500, defrosting operation can be performed at any time during the operation of the refrigerator It is possible to maintain the low temperature without affecting the internal temperature of the freezer even during defrosting operation.

4, the evaporator 400 of the present invention is installed in parallel with the longitudinal direction of the defrost heater pipe 2 and the refrigerant pipe 1, The defrosting effect can be obtained and the defrost heater tube 2 is in direct contact with the refrigerant tube 1 to be heated, so that defrosting is possible even with a small amount of heat.

It is preferable that the defrost heater 400 of the evaporator 400 is installed in front of the inflow direction of the blowing fan 410 installed at one side and the refrigerant pipe 1 is installed at the rear side of the blowing fan 410, The heat of the defrost heater tube 2 is quickly transmitted to the refrigerant pipe 1 by the generated wind, so that the defrosting effect can be raised.

The contact surface 2a is formed on the outer circumferential surface between the defrost heater 400 and the refrigerant pipe 1 by welding or metal fitting The defoaming effect can be increased by increasing the heat transfer area.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

100: Compressor
200: condenser
210, 410: blowing fan
250: Storage tank
300: Expansion side
400: evaporator
500: circulation pump

Claims (1)

The present invention is applied to a refrigerator comprising a refrigeration cycle in which a compressor 100, a condenser 200, an expansion valve 300, and an evaporator 400 are circulated and connected to a refrigerant pipe 1,
A heat storage tank 250 installed between the compressor 100 and the condenser 200 and filled with heat storage material,
A refrigerant pipe (1) installed to pivot inside the heat storage tank (250) and connected to the condenser (200)
A heater heater tube (2) installed in the heat storage tank (250) so as to be circulated and heat - exchanged, defrosted by the evaporator (400) and then recirculated to the heat storage tank (250)
An evaporator 400 constituted by a refrigerant tube 1 installed inside the evaporator 400 and a defrost heater tube 2 integrally joined to the outer circumferential surface in a longitudinal direction in parallel,
And a circulation pump (500) installed in the circulation path of the heater heater tube (2) for circulating liquid refrigerant between the evaporator (400) and the heat storage tank (250)
Defrost system device for refrigerator.

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