KR100555417B1 - Micro Channel Heat Exchanger - Google Patents

Abstract

The present invention relates to a condensate discharge structure of a heat exchanger provided in an outdoor unit of an air conditioner, and includes a collecting tank through which the condensate is collected in the heat exchanger of the outdoor unit, so that the condensed water overflows on both side walls of the collecting tank by a predetermined height or more. The drainage groove is formed, and the condensed water overflowed to cool the heat exchanger of the outdoor unit to quickly cool the heat exchanger of the outdoor unit, and the structure is simple.

Outdoor unit, condensate, exhaust, heat exchanger

Description

Condensate Discharge Structure of Outdoor Unit {Micro Channel Heat Exchanger}

1 is a perspective view showing a conventional air conditioner composed of an indoor unit and an outdoor unit.

2 is a perspective view showing a heat exchanger provided in a conventional outdoor unit side.

3 is a perspective view showing a heat exchanger provided in the outdoor unit according to the present invention.

Figure 4 is a side cross-sectional view of the main portion of the heat exchanger provided on the outdoor unit side according to the present invention.

<Description of Symbols for Main Parts of Drawings>

1: air conditioner indoor unit 2: air conditioner outdoor unit 3: condensate discharge pipe

3a: condensate outlet groove 4: condensate connector 5: heat exchanger

6: collection tank 6a: reservoir 6b: cover

6c: drain groove 7: condensate

The present invention relates to a condensed water discharge structure of the heat exchanger provided in the outdoor unit of the air conditioner, and more particularly, to guide the condensed water generated in the heat exchanger provided in the indoor unit to the heat exchanger provided in the outdoor unit to cool the heat exchanger of the outdoor unit. The condensate discharge structure of the outdoor unit.
In general, an air conditioner composed of an outdoor unit and an indoor unit including a heat exchanger uses a refrigerant to cool the room. At this time, the heat exchanger surface of the indoor unit meets the dew of heat and the cold energy generated from the heat exchanger of the indoor unit. This bears. As described above, dew formed on the surface of the heat exchanger of the indoor unit not only lowers the cooling efficiency of the heat exchanger of the indoor unit but also causes corrosion of parts of the indoor unit.
Therefore, in order to effectively remove the dew generated in the heat exchanger of the indoor unit, the dew condensed water formed on the surface of the heat exchanger of the indoor unit is sent to the outdoor unit to effectively remove the condensate to improve the cooling efficiency of the air conditioner.
1 is a perspective view showing a conventional air conditioner composed of an indoor unit and an outdoor unit, Figure 2 is a perspective view showing a heat exchanger provided in the conventional outdoor unit side.

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Referring to these drawings with reference to the outdoor unit of the air conditioner, the indoor unit (1) and the heat generated from the indoor unit (1) for generating cold air to maintain the indoor temperature at a predetermined predetermined temperature to the outside While the outdoor unit 2 is installed outdoors to block the noise according to this is formed an air conditioner.
The outdoor unit 2 is an axial fan (not shown) for forcibly circulating external air in order to efficiently achieve heat exchange between the heat exchanger 5 and the heat exchanger 5 provided in the outdoor unit case (not shown). And an axial fan motor (not shown) for driving the axial fan (not shown).

In general, the heat exchanger 5 performing heat exchange includes a header (not shown) that serves as a passage for the refrigerant and a tube (not shown) that is coupled to the header and performs heat exchange with external air from the refrigerant flowing therein. Lose. An axial flow fan is installed to forcibly supply external air to the heat exchanger 5 to the rear adjacent to the heat exchanger 5. When the axial fan is installed as described above, the circulation of air generated by the axial fan is transmitted to the heat exchanger 5 to discharge heat generated from the tube to the outside.

At this time, in order to improve the performance of the heat exchanger (5), it has conventionally been proposed to use the condensate generated in the indoor unit, which sends the condensate generated in the indoor unit (1) to the outdoor unit (2) in the outdoor unit (2) It was sprayed on the provided heat exchanger (5). That is, the condensed water generated in the heat exchanger of the indoor unit 1 is sent to the heat exchanger 5 of the outdoor unit 2 through the condensed water connecting pipe 4 leading to the heat exchanger 5 side of the outdoor unit 2, The condensate discharge pipe 3 is provided above the heat exchanger 5 of the outdoor unit 2, and the condensate connection pipe 4 is installed on one side of the condensate discharge pipe 3.

The conventional condensate discharge structure as described above leads the condensate generated in the indoor unit 1 to the condensate discharge pipe 3 installed above the heat exchanger 5 of the outdoor unit 2 through the condensate connection pipe 4. . When the condensed water of the indoor unit 1 is guided to the outdoor unit 2 as described above, the condensed water discharge groove 3a formed in the bottom surface of the condensed water discharge pipe 3 is drained. A plurality is formed while maintaining a predetermined interval on the bottom surface, and the condensate guided to the condensate discharge pipe 3 flows down while wetting the heat exchanger 5 of the outdoor unit 2 through the condensate discharge groove 3a.

However, in the conventional condensate discharge structure as described above, since the condensate is discharged only in some condensate discharge grooves 3a adjacent to the condensate connection pipe 4, the entire heat exchanger 5 provided in the outdoor unit 2 is provided. There is a problem that can not be cooled.

The present invention has been made in view of the above problems, and in an air conditioner consisting of an outdoor unit and an indoor unit including a heat exchanger, the condensate discharge structure of the outdoor unit capable of cooling the condensate generated from the heat exchanger of the indoor unit to the heat exchanger of the outdoor unit The purpose is to provide.
In addition, when cooling the heat exchanger of the outdoor unit with condensed water, to provide a condensate discharge pipe that can flow down while soaking the heat exchanger of the outdoor unit as a whole, to simplify the structure to provide a discharge structure of the condensate of the outdoor unit easy to manufacture. .

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Technical idea of the present invention for achieving the above object, In the air conditioner consisting of an outdoor unit and an indoor unit including a heat exchanger, Condensate tube for transferring the condensate generated in the indoor unit to the outdoor unit; The upper part of the condensate supplied from the condensate connecting pipe is opened, and the discharge groove is provided in the water storage part having a hollow rectangular shape so that when the condensate rises above a certain height, the condensate overflows to the front and rear of the heat exchanger of the outdoor unit. Sump tank; And a water collecting tank cover mounted above the water storage portion of the water collecting tank to block foreign substances from being introduced, and detachably mounted above the water storage portion of the water collecting tank to enable cleaning of the water collecting tank. The discharge structure is achieved by the condensate discharge structure of the outdoor unit.
Hereinafter, a preferred embodiment of the condensate discharge structure of the outdoor unit according to the present invention will be described with reference to the accompanying drawings.
3 is a perspective view showing a heat exchanger provided in the outdoor unit according to the present invention, Figure 4 is a side cross-sectional view of the main portion of the heat exchanger provided in the outdoor unit according to the present invention.

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Referring to these drawings, when the indoor unit installed to cool the room starts to operate and meets the cool energy generated in the heat exchanger provided in the indoor unit and the hot energy of the indoor dew, that is, condensed water on the surface of the heat exchanger of the indoor unit. (7) is formed. The condensed water connecting pipe 4 extending from the indoor unit to cool the heat exchanger 5 of the outdoor unit by directing the condensed water 7 generated in the heat exchanger of the indoor unit to the heat exchanger 5 provided in the outdoor unit is an outdoor unit. Induced.
In addition, the collection tank 6 is installed above the heat exchanger 5 so that the condensed water 7 is uniformly wetted over the entire area of the heat exchanger 5 of the outdoor unit, and one side of the collection tank 6 is provided. Condensate connecting pipe (4) to which the condensed water (7) guided by the indoor unit is supplied to the communication.
The collecting tank 6 has a collecting part 6a through which the condensate 7 supplied from the condensate connecting pipe 4 is collected, and the collecting part 6a has a hollow rectangular shape. The length has a length corresponding to the heat exchanger 5 of the outdoor unit. Here, the water collecting part 6a is opened upward, and the cover 6b, which is detachable, is covered.
A plurality of discharge grooves 6c having a predetermined height are formed on both bottom walls of the water collecting unit 6a on the bottom surface of the water collecting unit.
Looking again at the condensate discharge structure of the outdoor unit as described above, the condensate (7) generated in the indoor unit is sent to the heat exchanger (5) of the outdoor unit through the condensate connecting pipe (4) above the heat exchanger (5) of the outdoor unit The condensate connecting pipe 4 is provided with a collecting tank 6 and extending from the indoor unit to one side of the collecting tank 6.

In addition, the collection tank 6 receives condensate 7 from the condensate connection pipe 4 and stores the condensate 7 in the reservoir 6a and then drains the condensate 7 evenly to the heat exchanger 5. A plurality of discharge grooves 6c are provided at a predetermined height.
In addition, the upper portion of the reservoir 6a is opened to cover the detachable cover 6b. When the upper portion is opened to the reservoir 6a, the outdoor unit is used for a long time and the catchment portion 6a is opened. In addition to the cleaning of the generated scale, the foreign matters have the convenience of repairing the clogging of the discharge groove 6c, and the foreign matter is collected by the cover 6b which is covered above the water storage portion 6a. It can be prevented from flowing into.
Looking at the operation according to the condensate discharge structure of the outdoor unit as described above, when the indoor unit is operated to cool the room, the refrigerant flows into the heat exchanger of the indoor unit. Since the refrigerant flowing through the heat exchanger of the indoor unit has a very cold property, the ambient air of the heat exchanger of the indoor unit is cooled.
However, on the surface of the heat exchanger of the indoor unit, cool and hot energy meet and condensate 7 forms. The condensate 7 is supplied to the water collecting tank 6 installed above the heat exchanger 5 of the outdoor unit through the condensate connecting pipe 4.
The condensate 7 supplied to the collection tank 6a through the condensate connecting pipe 4 is stored in a predetermined amount in the reservoir 6a of the collection tank 6. As the condensate 7 is supplied to the reservoir 6a, the water level of the reservoir 6a gradually increases, and when the condensate 7 is stored in the reservoir 6a by a predetermined amount or more, the reservoir 6a The condensed water 7 flows through the discharge grooves 6c formed on both side walls of the side wall).
Thus, when the condensed water 7 overflows through the discharge groove 6c, it flows while soaking the heat exchanger 5 of the outdoor unit located below the water storage tank 6, and the discharge formed in the water storage tank 6 is discharged. Since the grooves 6c are formed at both sides, the condensed water 7 overflowing from the water storage tank 6 flows while wetting both the front and the rear of the heat exchanger 5.
In addition, since the discharge groove 6c is formed at the same height at the bottom surface of the reservoir 6a, the discharge groove 6c flows down over the entire area of the heat exchanger 5 of the outdoor unit.

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Therefore, the condensate discharge structure of the outdoor unit according to the present invention cools the entire heat exchanger of the outdoor unit with condensate, so that the thermal efficiency of the air conditioner is greatly improved.

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The condensate discharge structure of the outdoor unit according to the present invention has the effect of improving the performance of the air conditioner by treating the condensate generated in the indoor unit and heat exchange of the heat exchanger with the condensate.
In addition, when the heat exchanger of the outdoor unit is cooled with condensed water, the heat exchanger of the outdoor unit can be flowed while soaking as a whole to not only improve the cooling effect of the heat exchanger, but also the structure is simple and easy to manufacture, and maintain the storage tank. Is convenient.

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Claims (3)

In the air conditioner consisting of an outdoor unit and an indoor unit including a heat exchanger, A condensate tube for transferring the condensate generated by the indoor unit to the outdoor unit; The upper part of the condensate supplied from the condensate connecting pipe is opened, and the discharge groove is provided in the water storage part having a hollow rectangular shape so that when the condensate rises above a certain height, the condensate overflows to the front and rear of the heat exchanger of the outdoor unit. Sump tank; And A water collecting tank cover mounted above the water storage tank of the water collecting tank to block foreign material from being introduced and detachably mounted above the water storage tank of the water collecting tank so as to clean the water collecting tank; rescue. delete delete

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