KR100670614B1 - Condensor of refrigeration device - Google Patents

Abstract

The present invention relates to a condenser of a cooling device, and more particularly to a condenser of a cooling device that improves cooling efficiency by supplying a temperature of the condensed refrigerant to a low temperature as well as condensation of the refrigerant by using latent heat of evaporation of water. It is about.

The condenser of the cooling device according to the present invention is a condenser of a cooling device for condensing a gaseous state of high temperature and high pressure gas from a compressor to a liquid state at room temperature and high pressure, the refrigerant delivered from the compressor and external air introduced from the outside A first heat exchanger for heat exchange with the refrigerant, a second heat exchanger for heat exchange with the refrigerant transferred from the first heat exchanger, and a surrounding heat medium, and the heat supplied from the predetermined water supply source to the heat exchanger with the refrigerant in the second heat exchanger. At least one blower means for forming a flow of outside air such that a water supply for supplying the heat exchanger around the second heat exchanger and the outside air flows out from the outside and flows out sequentially through the first heat exchanger and the second heat exchanger Characterized in that it comprises a.

Chiller, Condenser

Description

CONDENSOR OF REFRIGERATION DEVICE}

1 is a schematic view showing a condenser of a cooling apparatus according to an embodiment of the present invention

2 is a schematic view showing a condenser of a conventional cooling device

<Short description of the major reference symbols>

10 compressor

20 condenser

21 First Heat Exchanger

22 Second Heat Exchanger

23 Moisturizer

24 Blowing means

25 3rd Heat Exchanger

30 Expansion Valve

40 evaporator

50 Cold air blowing means

The present invention relates to a condenser of a cooling device, and more particularly to a condenser of a cooling device that improves cooling efficiency by supplying a temperature of the condensed refrigerant to a low temperature as well as condensation of the refrigerant by using latent heat of evaporation of water. It is about.

The cooling device is a device for cooling the object to be cooled, such as air, using the heat of vaporization of the refrigerant.

2 illustrates an air cooler for cooling indoor air. Referring to the drawings, an air cooler generally includes a compressor (1) for compressing a gaseous refrigerant at room temperature and a low pressure gas into a gaseous refrigerant at a high temperature and high pressure. ), A condenser (2) for receiving a gaseous refrigerant of high temperature and high pressure from the compressor (1) and condensing it into a liquid state at room temperature and high pressure, and an expansion valve (4) for expanding the low temperature and low pressure delivered from the condenser. And an evaporator 5 for heat exchange with air introduced from the outside while evaporating the refrigerant delivered from the expansion valve. The condenser 2 takes heat from the coolant and cools it to condense the coolant into a liquid state at room temperature and high pressure. Cooling of the refrigerant is mainly used in the water-cooled and air-cooled method and in the drawing to form a flow such that the heat exchanger (2a) and the outside air for the heat exchange between the refrigerant and the external air introduced from the outside is introduced and flows out through the heat exchanger (2a) It is configured to include a blowing means (2b) for. On the other hand, the drawing shows an air cooling device, the air blowing means 6 and the water vapor contained in the air passing through the evaporator 5 for forming a flow of air to pass the evaporator 5 by sucking the air in the room An embodiment is shown which comprises a condensation vessel 7 for receiving condensate condensed.

However, in the conventional cooling apparatus having a condenser for cooling the refrigerant by air cooling, the cooling of the refrigerant in the condenser consists only of heat exchange between the refrigerant and the introduced outside air. For example, when the outside air temperature of the summer in Korea is 35 ° C, the temperature of the refrigerant condensed by heat exchange with the outside air is about 40 ° C while passing through the heat exchanger of the condenser. Therefore, the temperature of the refrigerant delivered to the expansion valve is relatively high. In addition, when the outside air temperature increases, the refrigerant is not sufficiently cooled in the heat exchanger, so that the refrigerant is not completely condensed.

The present invention was conceived by recognizing the problems as described above, the object of the present invention is to heat exchange the refrigerant with the external air introduced from the outside and the moisture supplied from a predetermined moisture supply source to evaporate the moisture to evaporate the moisture By using the latent heat in the process to the second heat exchange of the refrigerant to provide a condenser of the cooling device that can not only completely condensate the refrigerant but also lower the temperature of the condensed refrigerant.

Particularly, an object of the present invention is to maximize the evaporation of moisture by evaporating moisture by using evaporation of outdoor air having a high temperature by the first heat exchange with the refrigerant so that moisture evaporates better, thereby maximizing the cooling of the refrigerant by latent heat by evaporation of moisture. It is to provide a condenser of a cooling device that can be.                         

In addition, another object of the present invention is a cooling device that can use the condensed water by using the condensed water to receive the condensed water condensed while the air is cooled when the cooling device is an air cooler to cool the air to utilize the condensed water. To provide a condenser.

In addition, another object of the present invention is to recover the cold air lost by the cooling of the condensate by pre-heat exchange with the relatively low temperature condensate and the refrigerant supplied to the condenser and at the same time raise the temperature of the condensate supplied for the second heat exchange in advance It is to provide a condenser of the chiller to be evaporated well.

Condenser of the cooling device according to the present invention for achieving the above object, in the condenser of the cooling device for condensing the refrigerant in a gas state of high temperature and high pressure from the compressor to a liquid state of room temperature high pressure, it is transmitted from the compressor A first heat exchanger for exchanging the refrigerant with external air introduced from the outside, a second heat exchanger for exchanging heat with the refrigerant transferred from the first heat exchanger, and the surrounding heat medium, and the water supplied from a predetermined water supply source. As a heat medium that exchanges heat with a refrigerant in a second heat exchanger, a water supply for supplying around the second heat exchanger and external air flow in such a way that external air flows in from the outside and flows out through the first heat exchanger and the second heat exchanger in sequence. It characterized in that it comprises at least one blowing means for forming. The refrigerant supplied to the condenser is first heat-exchanged with the outside air introduced from the outside in the first heat exchanger and cooled, and at the same time, the refrigerant is secondarily made by using latent heat in the process of evaporating the moisture in the second heat exchanger. Heat exchange cools the refrigerant.

In particular, the moisture in the second heat exchanger is evaporated by supplying and evaporating the moisture from the second heat exchanger to the outside air having a high temperature while passing through the first heat exchanger.

In addition, the condenser of the cooling device according to the present invention, the cooling device is an expansion valve for expanding to a low temperature low pressure delivered from the condenser and an evaporator for heat exchange with the air introduced from the outside while evaporating the refrigerant delivered from the expansion valve The air cooling device comprising a, the water supply source of water supplied to the water supply is characterized in that the condensed water condensation of water contained in the air while passing through the evaporator.

The condensed water naturally generated in the process of cooling the air without using a separate water supply source for the water supplied to the second heat exchanger may be used.

In addition, the condenser of the cooling apparatus according to the present invention, the refrigerant for supplying to the compressor from the evaporator or the refrigerant transferred from the compressor to the first heat exchanger and the condensate water condensed in the evaporator and the water supply to the water supply for the heat exchanger It further comprises a three heat exchanger.

Since the condensed water has a relatively low temperature, it is possible to recover cold air lost by cooling of the condensate by heat-exchanging with the refrigerant supplied from the third heat exchanger to the condenser in advance, and at the same time, the temperature of the condensed water that is supplied to the secondary heat exchanger and evaporated in advance It can be raised and evaporated well.

Hereinafter, with reference to the embodiment shown in the drawings will be described in more detail the condenser of the cooling apparatus according to the present invention.

1 is a configuration diagram schematically showing a condenser of a cooling apparatus according to an embodiment of the present invention.

The condenser of the cooling device according to the present invention is for condensing the liquid refrigerant at room temperature and high pressure by receiving the refrigerant in a high temperature and high pressure gas state from the compressor 10. Referring to the drawings, the condenser 20 of the cooling apparatus according to an embodiment of the present invention includes a first heat exchanger 21, a second heat exchanger 22, a water supply 23, a blower 24, and a third A heat exchanger 25.

The first heat exchanger 21 is to exchange heat with the refrigerant delivered from the compressor 10 and the outside introduced from the outside. The refrigerant supplied from the compressor 10 in a gaseous state of high temperature and high pressure is cooled in the first heat exchanger 21, and the outside air introduced from the outside increases in temperature while passing through the first heat exchanger 21.

The second heat exchanger 22 is for exchanging heat with the refrigerant transferred from the first heat exchanger 21 and the surrounding heat medium. Here, the heat medium is moisture supplied to the circumference of the second heat exchanger 22 and outside air passing through the first heat exchanger 21. The moisture supplied to the surroundings of the second heat exchanger 22 cools the refrigerant passing through the second heat exchanger with its own cold and latent heat of evaporation. In particular, the flow of the outside air to the moisture is added to the moisture to evaporate well, the present invention is characterized in that the temperature of the outdoor air is passed through the first heat exchanger is a state in which the evaporation of the moisture is accelerated.

The water supply unit 23 is for supplying the water supplied from a predetermined water supply source around the second heat exchanger 22 as a heat medium that exchanges heat with the refrigerant in the second heat exchanger 22. In the second heat exchanger (22), heat is exchanged between the refrigerant and water to cool the refrigerant. The cooling of the refrigerant may be performed by thermal movement due to a temperature difference between moisture and the refrigerant. However, the cooling efficiency of the refrigerant can be much increased by the latent heat of evaporation by the evaporation of the moisture. Therefore, in the present invention, it is preferable that the water is sprayed so as to evaporate well and supplied to the circumference of the second heat exchanger 22.

By evaporating the moisture, the latent heat can be used to further cool the refrigerant.

The water supply source may be configured to supply water to the water supply 23, for example, a tank in which water is stored and a pump for pumping water from the tank. On the other hand, the moisture supply source may be configured by collecting the condensed water generated by the cooling of the air as shown in the figure. For example, an evaporator for exchanging an expansion valve 30 for expanding the low temperature and low pressure delivered from the condenser 20 and an air introduced from the outside while evaporating the refrigerant delivered from the expansion valve 30. In the case of an air cooler including the air 40, as the air passes through the evaporator 40, some of the water contained in the air condenses to generate condensed water. The present invention receives the condensed water generated by the cooling of the air as described above to the condensate container 61 to be pumped by the pump 62 can be supplied to the water supply 21.

The blowing means 24 is for forming a flow of the outside air so that outside air flows in from the outside and flows out through the first heat exchanger 21 and the second heat exchanger 22. The blowing means 24 is generally composed of a motor and a blowing fan.

The third heat exchanger 25 is for cooling the refrigerant supplied to the condenser. Since the condensed water is relatively cooled, the refrigerant is well condensed by pre-cooling the cooling water supplied to the condenser. The third heat exchanger 25 is a refrigerant supplied from the evaporator 30 to the compressor 10 or a refrigerant transferred from the compressor 10 to the first heat exchanger 21 and condensed in the evaporator 30. Heat exchange with the condensed water is delivered to the water supply (23).

Reference numeral 50 is an air blowing means for blowing air so that air is blown out through the evaporator.

The condenser of the cooling apparatus according to the present invention having the configuration as described above heat exchanges the refrigerant with external air introduced from the outside and receives moisture supplied from a predetermined water supply source to evaporate the moisture to evaporate the moisture. The second heat exchanger of the refrigerant using latent heat not only completely condenses the refrigerant, but also lowers the temperature of the condensed refrigerant and has an advantage of supplying it to the evaporator.

In addition, the condenser of the cooling apparatus according to the present invention evaporates the moisture by evaporating the water using the outside air whose temperature is increased by the first heat exchange with the refrigerant in the first heat exchanger so that the water supplied to the second heat exchanger is evaporated better. Maximize the cooling of the refrigerant to the latent heat by evaporation of moisture.

In addition, the condenser of the cooling device according to the present invention receives the condensed water condensed while the air is cooled, can be utilized as the water supplied to the second heat exchanger for the second heat exchanger of the condenser, as well as the condensate and the condenser having a relatively low temperature. The heat exchanged with the refrigerant supplied in advance recovers the cold air lost by the cooling of the condensate, and at the same time, the temperature of the condensed water supplied for the second heat exchange is increased in advance to evaporate well.

The condenser of the cooling device described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

Claims (3)

delete In the condenser of the cooling device for receiving a high-temperature, high-pressure gaseous refrigerant from the compressor to condense to a liquid state of room temperature high pressure, A first heat exchanger for exchanging heat with the refrigerant transferred from the compressor and the outside air introduced from the outside, a second heat exchanger for exchanging heat with the refrigerant transferred from the first heat exchanger and the surrounding heat medium, and a predetermined water supply source A heat supply for supplying moisture to the surroundings of the second heat exchanger as a heat medium that heat-exchanges with the refrigerant in the second heat exchanger, and outside air flows in from the outside and flows out through the first heat exchanger and the second heat exchanger sequentially At least one blowing means for forming a flow of outside air, The cooling device is an air cooling device including an expansion valve for expanding to a low temperature low pressure delivered from the condenser and an evaporator for heat exchange with the air introduced from the outside while evaporating the refrigerant delivered from the expansion valve, The condenser of the cooling device, characterized in that the water supply source of the water supplied to the water supply is condensed water condensed water contained in the air while passing through the evaporator. The method of claim 2, And a third heat exchanger configured to exchange heat with the refrigerant supplied from the evaporator to the compressor or the refrigerant transferred from the compressor to the first heat exchanger and the condensed water condensed in the evaporator and transferred to the water supply. Condenser.

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