KR100243083B1 - Assembly type airconditioner - Google Patents

Abstract

The present invention, the compressor, the evaporator and the condenser is installed on the bottom plate to form a receiving space of the condensate generated in the evaporator, the condenser casing surrounding the condenser, the inlet pipe connecting the compressor and the condenser, A window type air conditioner having an outlet pipe connecting the condenser and the evaporator, wherein an inner portion of the condenser casing adjacent to the condenser is provided with a cylindrical receiving barrel upwardly opened to receive the condensate; At least a portion of any one of the inlet pipe and the outlet pipe is characterized in that it is formed to be immersed in the condensed water accommodated in the receiving barrel through the condenser casing. Thus, by using the condensed water to cool the condenser inlet pipe or condenser outlet pipe connected to the condenser, it is possible to improve the overall cooling efficiency.

Description

Integrated Air Conditioners {}

The present invention relates to an integrated air conditioner, and relates to an integrated air conditioner that can improve the overall cooling efficiency by cooling the refrigerant flowing into the condenser from the compressor using the condensed water.

4 is a perspective view of a conventional integrated air conditioner. The main body 51 of the integrated air conditioner is composed of an outer casing (not shown) to form an exterior, a front cover (not shown) coupled to the front surface of the outer casing, and a bottom plate (53) forming a bottom surface in the outer casing.

On the bottom plate 53 in the main body 51, a compressor 56 for compressing the refrigerant at high temperature and high pressure, a condenser 55 for receiving and cooling the refrigerant from the compressor 56, and a refrigerant condensed in the condenser 55 The evaporator 54 is installed to receive and heat exchange the indoor air. Here, the compressor 56 and the condenser 55 are connected by a condenser inlet pipe 64 through which a high-temperature, high-pressure refrigerant flows, and the condenser 55 and the evaporator are condensed in the condenser 55 and the liquefied refrigerant flows. It is connected by the outlet pipe 63. On the other hand, a condenser casing 57 is formed at the front of the condenser 55 to form a flow path of air toward the condenser 55, and the condenser 55 is formed at the circular opening 62 of the central region of the condenser casing 57. A cooling fan 61 for blowing air toward the air is provided.

When power is applied to the integrated air conditioner and the compressor 56 is driven, the refrigerant compressed by the compressor 56 flows into the condenser 55 and passes through the condenser 55 to condense. The condensed refrigerant then enters the evaporator and passes through the evaporator 54 to evaporate. At this time, the heat of absorption generated when the refrigerant evaporates cools the air around the evaporator 54, and the relative humidity of the ambient air becomes high to condense on the outer surface of the evaporator 54, thereby forming dew or frost. The condensate generated by melting the dew or frost flows to the lower part of the evaporator 54, is temporarily collected by the condensate tray 65 installed at the lower part of the evaporator 54, and discharged to be received on the bottom plate 53.

The condensed water accommodated in the bottom plate is scattered toward the condenser 55 by the operation of the cooling fan 61 installed so that the lower end is immersed in the condensed water, and the scattered condensed water is evaporated from the surface of the condenser 55 to condense in the condenser 55. Cool the refrigerant.

By the way, in the conventional integrated air conditioner, although the condensate is scattered toward the condenser 55 by the driving of the cooling fan 61, it contributes to the cooling of the condenser 55, but the high-temperature refrigerant flows condenser outflow pipe 63 And there is a problem that the cooling of the condenser inlet pipe 64 is not effectively utilized.

Accordingly, an object of the present invention is to provide an integrated air conditioner that effectively utilizes condensed water to improve the cooling efficiency of a refrigerant flowing in a high temperature refrigerant and refrigerant pipes connected to the condenser.

1 is a plan view of the outdoor side of the integrated air conditioner according to the present invention;

FIG. 2 is an enlarged perspective view of the condenser casing region of FIG. 1, FIG.

3 is a cross-sectional view taken along line AA ′ of FIG. 2;

4 is an exploded perspective view of a conventional integrated air conditioner.

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

3: bottom plate 5: condenser

6: compressor 7: condenser casing

8 through hole 11: cooling fan

13 condenser outlet piping 14 condenser inlet piping

20: accommodation barrel 21: discharge hole

The object is, according to the invention, the compressor, the evaporator and the condenser is standing up and forming a receiving space of the condensate generated in the evaporator, the condenser casing surrounding the condenser, the compressor and the condenser connected In the window-type air conditioner having an inlet pipe for connecting, and an outlet pipe connecting the condenser and the evaporator, a cylindrical accommodating barrel opening upwardly to accommodate the condensate is provided in an inner region of the condenser casing adjacent to the condenser. ; At least a portion of any one of the inlet pipe and the outlet pipe is achieved by an integrated air conditioner, characterized in that it is formed so as to be immersed in the condensed water accommodated in the receiving barrel through the condenser casing.

Here, the receiving barrel is preferably formed integrally to have a semi-circular cross section on the inner wall surface of the condenser casing.

In addition, it is preferable that a discharge hole for discharging condensate is formed in the lower portion of the accommodation barrel, and the inflow pipe is immersed in the accommodation barrel, which is more effective in cooling than the outflow pipe.

In addition, the condenser casing is preferably formed with a through hole for the passage of the inlet pipe. Then, the inlet pipe is bent to the side to pass through the through-hole of the condenser casing, it is preferable to be bent in the receiving barrel to form a 'U' shape in the receiving barrel area.

Hereinafter, the present invention will be described in detail with reference to the drawings.

The integrated air conditioner has an indoor side for heat exchange with indoor air and an outdoor side for heat exchange with outdoor air.

The indoor side is provided with an evaporator for exchanging heat from the outdoor side with the indoor air, and a blower fan (not shown) for blowing the indoor air through the evaporator. Here, the evaporator exchanges the ambient air with the ambient air to evaporate the refrigerant. At this time, the generated heat of absorption cools the air around the evaporator, and the moisture in the air condenses on the outer surface of the evaporator because the relative humidity is high. The dew or castle condensed on the outer surface of the evaporator melts and flows down to the bottom of the evaporator to produce condensate. The condensate is temporarily collected in a condensate tray installed under the evaporator and discharged to be received on the bottom plate.

Meanwhile, as illustrated in FIGS. 1, 2, and 3, the outdoor side includes a compressor 6 for compressing a refrigerant at high temperature and high pressure, and a condenser 5 for condensing the refrigerant from the compressor 6 by heat exchange with outdoor air. The compressor 6 and the condenser 5 are interconnected by a condenser inlet pipe 14 through which a high temperature and high pressure refrigerant flows. In addition, the condenser 5 has a condenser outlet pipe 13 for discharging the condensed refrigerant to the indoor side is connected to the evaporator of the indoor side. On the other hand, in front of the condenser 5 toward the indoor side, a condenser casing 7 which forms a flow path of air flowing into the condenser 5 is standing up, and the condenser casing 7 is formed with a circular opening. The cooling fan 11 which blows air to the condenser 5 is provided. The cooling fan 11 is provided so that the lower end part is immersed in the condensed water accommodated in the bottom plate 3.

Here, the condenser casing 7 is formed in a 'c' shape so as to surround the condenser 5, the one side wall of the condenser casing 7 toward the condenser 5 during the rotation of the cooling fan 11 A receiving barrel 20 is formed to receive the condensate that is scattered. Receiving barrel 20 is formed in a barrel having a semi-circular cross section, formed integrally with the condenser casing (7) so that the condenser inlet pipe (14) is immersed. The side toward the cooling fan 11 of the receiving barrel 20 is formed at the upper end is bent toward the cooling fan 11 to facilitate the collection of condensate. Then, the lower portion of the receiving barrel 20 is formed with a fine discharge hole 21 for discharging condensed water so that a small amount of condensed water is continuously discharged through the discharge hole (21). On the other hand, a through hole 8 through which the condenser inlet pipe 14 connected to the condenser 5 is formed at the inlet side of the accommodation barrel 20 of the condenser casing 7 in which the accommodation barrel 20 is formed. Accordingly, the condenser inlet pipe 14 is bent to the side in the traveling direction of the refrigerant to pass through the through hole 8, and then bent downward to be accommodated in the receiving barrel (20).

By such a configuration, a condenser casing 7 forms an accommodating barrel 20 capable of accommodating condensed water, and the high temperature and high pressure refrigerant flowing from the compressor 6 into the condenser 5 flows into the accommodating barrel 20. By immersing the condenser inlet pipe 14, the refrigerant passing through the condenser inlet pipe 14 is cooled. Therefore, the temperature of the refrigerant flowing into the condenser 5 is lowered by a predetermined amount, thereby improving the cooling efficiency of the refrigerant in the condenser 5.

In the above-described embodiment, the condenser inlet pipe through which the high temperature and high pressure refrigerant from the compressor 6 passes is immersed in the condensed water, but the condenser outlet pipe through which the refrigerant flowing out of the condenser 5 flows to the evaporator may be immersed.

As described above, according to the present invention, by using the condensed water to cool the condenser inlet pipe or condenser outlet pipe connected to the condenser, it is possible to improve the overall cooling efficiency.

Claims (6)

(correction) A compressor, an evaporator, and a condenser are installed on the bottom plate to form a receiving space for condensate generated in the evaporator, a condenser casing surrounding the condenser, an inlet pipe connecting the compressor and the condenser, the condenser and the In the window air conditioner having an outlet pipe connecting the evaporator, A cylindrical accommodating barrel which is open upwardly to accommodate the condensate is provided in an inner region of the condenser casing adjacent to the condenser; At least a portion of any one of the inlet pipe and the outlet pipe is integrated air conditioning, characterized in that it is formed so as to be immersed in the condensed water accommodated in the receiving barrel through the condenser casing. (correction) The method of claim 1, The accommodating barrel is integrally formed air conditioner, characterized in that formed integrally to have a semi-circular cross section on the inner wall surface of the condenser casing. (correction) The method of claim 2, Integrated air conditioner, characterized in that the discharge hole for discharging the condensate water is formed in the lower portion of the receiving barrel. The method according to any one of claims 1 to 3, Integral air conditioner, characterized in that the inlet pipe is immersed in the receiving barrel. The method of claim 1, The condenser casing is integral air conditioner, characterized in that the through-hole for the passage of the inlet pipe is formed. The method of claim 5, The inlet pipe is bent to the side to pass through the through-hole of the condenser casing, then bent in the 'U' shape in the receiving barrel area is formed integral air conditioner, characterized in that immersed in the receiving barrel.

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