KR100713822B1 - Structure of preventing condensation in kim-chi storage - Google Patents

Abstract

The present invention relates to a kimchi refrigerator, comprising: a main body forming a storage compartment having a door opening, a door connected to the main body to open and close the door opening, and a cooling device for cooling the storage compartment. And, it relates to a kimchi refrigerator dew prevention structure, characterized in that to prevent dew formation by embedding a heat pipe inside the upper surface of the main body in contact with the lower surface of the door.

According to the above configuration, by operating the heater pipe using a high temperature pipe of the cooling device in operation, there is an effect of reducing the power consumption.

Heat pipe, endothermic tube, heating tube, connector, working fluid

Description

Kimchi refrigerator dew prevention structure {Structure of preventing condensation in kim-chi storage}

1 is a perspective view of a kimchi refrigerator according to the prior art.

Figure 2 is a perspective view showing a kimchi refrigerator dew formation prevention structure according to the present invention.

Figure 3 is a block diagram showing a kimchi refrigerator dew formation prevention structure according to the present invention.

Figure 4 is a cross-sectional view of the heat pipe of the kimchi refrigerator dew preventing structure according to the present invention.

* Explanation of symbols for main parts of drawings *

100: kimchi refrigerator 110: main body

112: storage compartment 114: door opening

120: door 130: cooling device

132: condensation pipe 140: heat pipe

142: condensation unit 144: inclined portion

146: evaporator 150: working fluid

The present invention relates to a kimchi refrigerator, and more particularly, a heat pipe is embedded in the upper surface of the main body that is in contact with the bottom surface of the kimchi refrigerator, that is, the outer side of the door opening, to prevent dew condensation, and It relates to a kimchi refrigerator dew formation structure to reduce the power consumption by forming the inclined portion between the evaporation portion and the smooth movement of the working fluid in the heat pipe, by using the heat of the high temperature pipe of the cooling device.

In general, a refrigerator is a type of air conditioner that compresses and liquefies a refrigerant at a high pressure with a condenser driven by a motor, and instantly vaporizes the refrigerant in an evaporator while moving the refrigerant condensed at a high pressure to an expansion valve having a small diameter. Since it evaporates to generate a cold air by dropping the temperature, the cold air generated at this time is supplied into the main body of the refrigerator to keep the food stored in the refrigerator fresh.

In addition, the refrigerant evaporated in the evaporator and absorbed heat is moved to the condenser from the compressor to condensate and liquefy to release heat to the outside to continuously cool through the above-described process.

On the other hand, recently Kimchi refrigerators, which apply the principle of refrigerators to mature and fresh storage of kimchi, have been widely used. Since the Kimchi refrigerators are small in size, the general refrigerator is configured to open and close the door to the side. On the contrary, the door is hingedly fixed to the upper surface of the body, and has a top retractable structure that is flipped upward and open.

On the other hand, the inside of the kimchi refrigerator described above is a compressor, a cooling device for cooling the compressor and other various internal devices are built to keep the kimchi fresh and cool.

As shown in FIG. 1, the kimchi refrigerator 1 according to the related art has an operation panel 12 attached to a front surface thereof, and a storage chamber 14 that is insulated by a heat insulating material is formed therein, and the storage chamber 14 is It consists of a main body 10 having a cooling device (not shown) in the machine chamber formed in the lower portion, and a plurality of doors 20 which are hinged to the main body 10 to open and close the storage chamber 14.

The conventional upper open / close door 20 opens and closes at the upper portion of the storage compartment 14, and heat and air are transferred to the air having a relatively high temperature.

At this time, the condensation of water occurs on the upper edge of the storage compartment 14 as the low air temperature inside the storage compartment 14 and the high air temperature introduced from the atmosphere meet each other.

The condensation shape of the water generated in this way generates water droplets such as dew on the rim of the storage chamber 14, thereby causing a decrease in product performance of the conventional kimchi refrigerator 1.

That is, the conventional kimchi refrigerator is not provided with a separate means for preventing the formation of dew, but in order to solve this problem by providing a heat pipe around the storage compartment of the Kimchi refrigerator main body to prevent the generation of dew due to the condensation of moisture Attempt to do so.

However, it is inefficient to use a lot of power required for the operation of the heat pipe, the installation of the heat pipe is relatively complicated, there is a disadvantage that the effectiveness is very low because it does not directly dry the moisture.

Therefore, the present invention has been made to solve the above problems, the present invention is to prevent the dew condensation by embedding the heat pipe inside the upper surface of the main body that is in contact with the lower surface of the door of the kimchi refrigerator, ie the outer side of the door opening, The inclined portion is formed between the condenser and the evaporator of the heat pipe to smoothly move the working fluid in the heat pipe, and by using the heat of the high temperature pipe of the cooling device, a kimchi refrigerator dew preventing structure that reduces power consumption. The purpose is to provide.

The present invention for achieving the above object is a kimchi refrigerator having a main body for forming a storage compartment having a door opening, a door for opening and closing the door opening, and a cooling device for cooling the storage compartment, the door It is characterized in that the heat pipe is embedded in the upper surface of the main body in contact with the lower surface to prevent dew formation.

The heat pipe is a device in which the working fluid in the pipe body continuously evaporates and condenses and naturally circulates. The heat pipe is extremely heat-responsive according to the steam flow and has a very high thermal conductivity that can transfer a lot of heat as a low temperature difference. to be.

The heat pipe is manufactured by injecting and sealing a very small amount of a working fluid (heat transfer medium) into a pipe body at a pressure lower than atmospheric pressure. When heat is applied at one end of the pipe, the working fluid evaporates to the other end. The working fluid condensed back into the liquid by heat exchange while transferring heat energy, and the working fluid is the one end of the original position by the capillary phenomenon along the wick made of metal mesh installed inside the pipe body. Return to.

Freon gas or other hydrocarbons are used as the working fluid, and copper and stainless steel are used as the material of the pipe body.

Since the heat pipe made as described above exhibits high heat transfer characteristics in an isothermal state without using external power, it is used as a heat exchanger for a heat dissipation structure of a refrigerator or home appliances.

Preferably, the heat pipe includes a condensation portion formed inside the outer circumference of the door opening, an inclined portion inclined downward from the end of the condensation portion, and an evaporation portion extending from the end of the inclined portion to the high temperature pipe of the cooling device.

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

In addition, this embodiment is presented by way of example only, not limiting the scope of the present invention, the same parts as the conventional configuration uses the same reference numerals or names.

Figure 2 is a perspective view showing a kimchi refrigerator dew formation prevention structure according to the present invention, Figure 3 is a schematic view showing a kimchi refrigerator dew formation prevention structure according to the present invention, Figure 4 is a kimchi refrigerator dew preventing structure according to the present invention. Is a cross-sectional view of the heat pipe.

As shown, the kimchi refrigerator dew preventing structure according to the present invention is the main body 110 to form a storage compartment 112 having a door opening 114, and the door 120 for opening and closing the door opening 114. And, in the kimchi refrigerator 100 having a cooling device 130 for cooling the storage compartment 112, the heat pipe 140 inside the upper surface of the main body 110 in contact with the lower surface of the door 120 It is constructed by embedding.

The heat pipe 140 has a condenser 142 formed inside the outer circumference of the door opening 114, an inclined portion 144 formed to be inclined downward from an end of the condensation portion 142, and the inclined portion ( At the end of the 144, the evaporator 146 extends into the high temperature pipe of the cooling device 130.

The condensation unit 142 is formed on each of the three surfaces excluding the outer surface of the door opening 114 in a '??' shape.

The working fluid 150 is injected into the heat pipe 140, and is formed as an elongated tube integrally formed from the evaporator 146 to the condenser 142.

The evaporator 146 is tightly fixed to the condensation pipe 132 having the highest temperature among the cooling devices 130.

Hereinafter, the operation and effect of an embodiment of the present invention having the above configuration will be described.

First, as shown in FIG. 3, the evaporator 146 is tightly fixed to the condensation pipe 132 having the highest temperature among the cooling devices 130, and thus the working fluid 150 positioned in the evaporator 146. Is evaporated and the evaporated working fluid 150 moves through the inclined portion 144 and performs heat transfer and heat exchange in the condensation portion 142.

In addition, the cycle of condensing in the condenser 142 and flowing back down the inclined portion 144 to the evaporator 146 is repeatedly performed.

The working fluid 150a of the liquid in the evaporator 146 is evaporated by the temperature of the condensation pipe 132 to become the working fluid 150b in the gas phase and moves to the condensation part 142.

The condensation unit 142 is formed in the outer periphery of the door opening 114 and is located in a section requiring dew, and the working fluid 150b of the gas phase inside the condenser 142 exchanges heat to the storage compartment 112. Prevent dew condensation on the side of the.

The gaseous working fluid 150b, which has undergone heat exchange, becomes a liquid working fluid 150a and passes through the inclined part 144 to the evaporator 146 again.

At this time, as shown in Figure 4 by the inclined portion 146, the liquid working fluid 150a passes through the lower end of the tube by gravity, the working fluid 150b of the gas phase evaporated from the evaporator 146 While passing through the upper end, the movement of the working fluid 150 is made smoothly.

As described above, according to the kimchi refrigerator dew preventing structure, the heat pipe is embedded inside the upper surface of the main body that is in contact with the lower surface of the door of the kimchi refrigerator, ie the outer side of the door opening to prevent dew formation, and the heat pipe The inclined portion is formed between the condenser and the evaporator of the working fluid in the heat pipe is made smoothly, by using the heat of the high-temperature piping of the cooling device, there is an effect of reducing the power consumption.

Claims (4)

In the Kimchi refrigerator having a main body for forming a storage chamber having a door opening, a door for rotating and opening the door opening, and a cooling device for cooling the storage chamber, Kimchi refrigerator dew formation structure to prevent dew formation by embedding a heat pipe inside the upper surface of the main body in contact with the lower surface of the door. The method of claim 1, The heat pipe includes a condensation unit formed inside the outer circumference of the door opening; An inclined portion formed to be inclined downward from an end of the condensation portion; Kimchi refrigerator dew preventing structure, characterized in that consisting of the evaporation portion extending from the end of the inclined portion to the high temperature pipe of the cooling device. The method of claim 2, The condensation unit Kimchi refrigerator dew preventing structure, characterized in that formed on each of the three surfaces excluding the outer side of the door opening '??' shape. The method of claim 2, The evaporator is kimchi refrigerator dew preventing structure, characterized in that formed in contact with the highest condensation pipe temperature of the cooling device.

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