KR20090043991A - Hot-line apparatus of refrigerator - Google Patents

Abstract

A hot line device of a refrigerator is disclosed.

In the refrigerator of the disclosed hot line apparatus includes a refrigeration cycle that provides cool air in a refrigerator of a refrigerator while a refrigerant is circulated,

A heat pipe that receives heat from a refrigerant circulating through the refrigeration cycle and removes dew caused by a difference between an internal temperature and an external temperature of the refrigerator; And a three-way valve disposed on the refrigerant circulation flow path of the refrigeration cycle to control whether the refrigerant is circulated toward the heat pipe.

According to the hot line apparatus of the refrigerator disclosed, while preventing dew condensation during operation of the refrigerator, there is an advantage that the operating efficiency of the refrigerator can be improved.

Hot line, dew removal, three way valve, heat pipe

Description

Hot-line apparatus of refrigerator

The present invention relates to a refrigerator, and more particularly, to a hot line device of the refrigerator.

In general, a refrigerator is a device having a cooling chamber to keep food and the like at a low temperature. The cooling chamber of such a refrigerator may be classified into a freezing chamber maintained at a sub-zero temperature and a refrigerating chamber maintained at an image temperature according to its maintenance temperature.

The temperature inside the refrigerator and the temperature of the outside show a lot of difference. In particular, if the external environment is a high temperature and high humidity condition dew on the front of the refrigerator. This is caused by the relatively low temperature low humidity cold inside the refrigerator and the high temperature and high outside air.

Such dew condensation occurs frequently at the part where the door and the refrigerator main body come into contact with each other, where air and cold air meet when the door of the refrigerator is opened.

In a conventional refrigerator, in order to prevent the dew condensation as described above, a hot line is provided. Hot line is to evaporate the dew formed on the front of the refrigerator by using a high-temperature, high-pressure refrigerant from the compressor. In other words, the hotline is a pipe through which a high-temperature, high-pressure refrigerant from the compressor flows.

However, according to the dew condensation preventing structure of the conventional refrigerator, due to the high temperature and high pressure refrigerant continuously passing through the hot line, the heat insulation load in the high rises, there is a disadvantage that the operating efficiency of the refrigerator is lowered.

An object of the present invention is to provide a hot line device of a refrigerator having a structure capable of preventing dew condensation and improving the operating efficiency of the refrigerator.

In the refrigerator of the hot line device according to an aspect of the present invention, in the refrigerator having a refrigeration cycle for providing cold air in the refrigerator of the refrigerator, while the refrigerant is circulated,

A heat pipe that receives heat from a refrigerant circulating through the refrigeration cycle and removes dew caused by a difference between an internal temperature and an external temperature of the refrigerator; And a three-way valve disposed on the refrigerant circulation flow path of the refrigeration cycle to control whether the refrigerant is circulated toward the heat pipe.

If the dew point of the refrigerator is required to remove dew during operation of the refrigerator, the three-way valve opens the heat pipe side to circulate the refrigerant toward the heat pipe,

If dew removal is not required during the operation of the refrigerator, the three-way valve may be characterized by closing the heat pipe side.

According to the hot line apparatus of the refrigerator according to an aspect of the present invention, when the heat pipe and the three-way valve is installed, when dew removal is required during the operation of the refrigerator, a part of the high temperature and high pressure refrigerant passing through the compressor is bypassed to heat it. Dew can be removed by heat transfer to the pipe, and if dew removal is not required, all of the high temperature and high pressure refrigerant passing through the compressor is circulated along the refrigerant cycle to supply cold air into the refrigerator. Therefore, while preventing dew condensation during operation of the refrigerator, there is an effect that the operation efficiency of the refrigerator can be improved.

In addition, according to the hot line apparatus of the refrigerator according to another aspect of the present invention, a check valve for preventing the refrigerant flow back to the heat pipe in the refrigeration cycle is disposed at the point where the refrigerant via the heat pipe is re-introduced into the refrigeration cycle, the heat Refrigerant backflow into the pipe is prevented. Therefore, there is an effect that the operating efficiency of the refrigeration cycle can be improved.

Hereinafter, a hot line apparatus of a refrigerator according to an embodiment of the present invention will be described with reference to the drawings.

1 is a conceptual diagram of a refrigerator to which a hot line device is applied according to an embodiment of the present invention, and FIG. 2 is a conceptual view showing a state in which a hot line device is not operated in a refrigerator to which a hot line device is applied according to an embodiment of the present invention. 3 is a conceptual diagram illustrating a hot line device operating in a refrigerator to which a hot line device is applied according to an embodiment of the present invention.

1 to 3 together, the hot line apparatus according to an embodiment of the present invention is applied to the refrigerator 100 having a refrigeration cycle for providing cold air in the refrigerator while the refrigerant is circulated.

The refrigeration cycle of the refrigerator 100 includes a compressor 110, a condenser 120, an expansion valve 130, and an evaporator 140.

The refrigeration cycle of the refrigerator 100 will be briefly described as follows.

First, the refrigerant is compressed by the compressor 110 to a high temperature and high pressure. The compressed high temperature and high pressure refrigerant is conveyed to the condenser 120.

The refrigerant compressed by the condenser 120 is cooled by a temperature difference from the outside air. At this time, the refrigerant is not cooled, but the phase changes from gas to liquid.

The liquefied refrigerant as described above is moved to the expansion valve 130. The liquefied high pressure refrigerant moved to the expansion valve 130 is expanded rapidly while passing through the expansion valve 130, thereby changing to a low temperature low pressure fog form.

As described above, the refrigerant changed into a low temperature low pressure mist is moved to the evaporator 140. The refrigerant in the form of low temperature low pressure mist moved to the evaporator 140 is evaporated while absorbing heat from the relatively high temperature air (indoor air) around the evaporator 140. Through this evaporation process, the refrigerant changes to a gaseous state.

The refrigerant changed into a gaseous state as described above is introduced again into the compressor 110.

Through the above process, the refrigeration cycle is completed, the cold air can be supplied to the inside of the refrigerator 100 by this refrigeration cycle.

In this embodiment, a hot line device is connected to the refrigeration cycle.

The hot line apparatus receives heat from a refrigerant circulating through the refrigeration cycle, and heat pipe 150 capable of removing dew caused by a difference between an internal temperature and an external temperature of the refrigerator 100 and the refrigeration. It is disposed on the refrigerant circulation flow path of the cycle, and includes a three-way valve 200 for controlling the refrigerant circulation to the heat pipe (150).

The heat pipe 150 is a heat exchanger in which a predetermined refrigerant is sealed in the pipe itself, and when heat is applied outside the pipe, the refrigerant in the pipe transfers heat to a required position while repeating evaporation and condensation.

The heat pipe 150 may be disposed at a portion where the dew condensation preventing function of the refrigerator 100 is required, for example, a casing portion near the door, and may function as a hot line to prevent condensation.

 The three-way valve 200 may be connected to an outlet of the compressor 110 constituting the refrigeration cycle, an inlet of the condenser 120, and a flow path to the heat pipe 150.

When dew removal is required during the operation of the refrigerator 100, the three-way valve 200 opens the heat pipe 150 to circulate the refrigerant toward the heat pipe 150.

Since the refrigerant circulated toward the heat pipe 150 is a part of the high temperature and high pressure refrigerant passing through the compressor 110, the refrigerant in the heat pipe 150 is heated by the refrigerant circulated toward the heat pipe 150.

The refrigerant in the heated heat pipe 150 circulates in the heat pipe 150 and evaporates the dew generated during the operation of the refrigerator 100.

Through this process, dew generated during operation of the refrigerator 100 may be removed.

Here, the controller (not shown) may control the three-way valve 200. The controller senses dew condensation conditions according to conditions such as temperature and humidity of the outside air, and if dew condensation conditions are met, dew removal is required during operation of the refrigerator 100. Judging by the case.

On the other hand, if dew removal is not required during the operation of the refrigerator 100, the three-way valve 200 closes the heat pipe 150. Then, the entire high temperature and high pressure refrigerant passing through the compressor 110 does not flow toward the heat pipe 150, but flows to the condenser 120 and circulates along the refrigerant cycle.

As described above, when the heat pipe 150 and the three-way valve 200 are installed, when dew removal is required during the operation of the refrigerator 100, some of the high temperature and high pressure refrigerant passing through the compressor 110 is removed. Dew can be removed by heat transfer to the heat pipe 150 by bypass, and when the dew removal is not required, all of the high temperature and high pressure refrigerant passing through the compressor 110 is circulated along the refrigerant cycle, Cold air is supplied into the interior of the chamber (100). Thus, while preventing dew condensation during operation of the refrigerator 100, the operation efficiency of the refrigerator 100 may be improved.

Meanwhile, a check valve 210 may be disposed at the point where the refrigerant passing through the heat pipe 150 is re-introduced into the refrigeration cycle to prevent the refrigerant backflow toward the heat pipe 150 in the refrigeration cycle. Can be.

As the check valve 210 is disposed, the back flow of the refrigerant toward the heat pipe 150 may be prevented, thereby improving the operating efficiency of the refrigeration cycle.

4 is a view schematically showing a portion where heat exchange occurs in a hot line apparatus of a refrigerator according to an embodiment of the present invention.

Referring to FIG. 4, the three-way valve 200 and the check valve 210 are installed in the hot line apparatus of the refrigerator 100 according to the present embodiment.

One side of the three-way valve 200 is connected by the compressor 110 and the pipe 101. Through the side connected to the compressor 110, the high temperature and high pressure refrigerant flows from the compressor 110 to the three-way valve 200.

The other side of the three-way valve 200 is connected to the pipe 103 forming a flow path in contact with the heat pipe 150, the other side of the three-way valve 200 forms a flow path toward the condenser 120 Is connected to the pipe 102.

When the three-way valve 200 connected as described above is required to remove dew, the heat pipe 150 is opened to flow a portion of the refrigerant to the pipe 103 on the heat pipe 150 side.

If no dew removal is required, the three-way valve 200 will close the heat pipe 150.

Meanwhile, the pipe 102 connecting the three-way valve 200 and the condenser 120 and the pipe 103 on the heat pipe 150 near the point where the pipe 103 on the heat pipe 150 is laminated ( The check valve 210 is installed at the 103 to prevent the backflow of the refrigerant to the pipe 103 toward the heat pipe 150.

While the invention has been shown and described with respect to specific embodiments thereof, those skilled in the art can variously modify the invention without departing from the spirit and scope of the invention as set forth in the claims below. And that it can be changed. Nevertheless, it will be clearly understood that all such modifications and variations are included within the scope of the present invention.

According to the hot line apparatus of the refrigerator according to an aspect of the present invention, it is possible to prevent dew condensation and to improve the operating efficiency of the refrigerator, and thus, the industrial availability thereof is high.

1 is a conceptual diagram of a refrigerator to which a hot line device is applied according to an embodiment of the present invention.

2 is a conceptual view illustrating a state in which a hot line device is not operated in a refrigerator to which a hot line device is applied according to an embodiment of the present invention.

3 is a conceptual view showing the operation of the hot line device in the refrigerator to which the hot line device is applied according to an embodiment of the present invention.

4 is a view schematically showing a portion in which heat exchange occurs in a hot line apparatus of a refrigerator according to one embodiment of the present invention;

<Explanation of symbols for the main parts of the drawings>

110: compressor 120: condenser

130: expansion valve 140: evaporator

150: heat pipe 200: three-way valve

210: check valve

Claims (5)

A refrigerator having a refrigeration cycle for providing cold air in a refrigerator of a refrigerator while a refrigerant is circulated, A heat pipe that receives heat from a refrigerant circulating through the refrigeration cycle and removes dew caused by a difference between an internal temperature and an external temperature of the refrigerator; And And a three-way valve disposed on the refrigerant circulation passage of the refrigeration cycle and controlling whether the refrigerant is circulated toward the heat pipe. The method of claim 1, And the three-way valve is connected to an outlet of a compressor constituting the refrigeration cycle, an inlet of a condenser, and a flow path to the heat pipe. The method of claim 1, If dew removal is required during the operation of the refrigerator, the three-way valve opens the heat pipe side to circulate the refrigerant toward the heat pipe, And if the dew removal is not required during the operation of the refrigerator, the three-way valve closes the heat pipe side. The method of claim 1, And a check valve at the point where the refrigerant passing through the heat pipe is re-introduced into the refrigeration cycle is arranged to prevent a backflow of the refrigerant toward the heat pipe in the refrigeration cycle. The method of claim 4, wherein The check valve is installed on the pipe connected to the three-way valve and the condenser constituting the refrigeration cycle, and the heat pipe side pipe near the point where the pipe branched from the three-way valve through the heat pipe is laminated. Line device of refrigerator.

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