KR200156397Y1 - Window type airconditioner - Google Patents

Abstract

The present invention has a bottom plate installed in the lower part of the compressor, the evaporator and the condenser to form a receiving space of the condensate generated in the evaporator, a condenser inlet pipe for supplying the refrigerant from the compressor to the condenser, and discharged from the condenser A window type air conditioner having a condenser outlet pipe forming a discharge passage of a refrigerant, wherein the air conditioner surrounds at least one of the condenser inlet pipe and the condenser outlet pipe, and a portion of the water absorbent is immersed in the condensed water in the bottom plate. It is characterized by having a condensate absorber made of an excitation material. Thereby, condensation performance is improved by effectively using the condensed water stored in the bottom plate for cooling the refrigerant.

Description

Window Air Conditioner

The present invention has a bottom plate installed in the lower part of the compressor, the evaporator and the condenser to form a receiving space of the condensate generated in the evaporator, a condenser inlet pipe for supplying the refrigerant from the compressor to the condenser, and discharged from the condenser A window type air conditioner having a condenser outlet pipe forming an outlet flow path of a refrigerant to be provided.

In an air conditioner, when the heat of absorption generated when the refrigerant evaporates in the evaporator cools the air around the evaporator, the surrounding air becomes relatively humid relative to the temperature of the evaporator, condensing on the outer surface of the evaporator, and dew or frost is generated. In the window air conditioner, in which the outdoor unit is integrally produced without distinguishing the indoor unit, dew or frost flows down to the bottom plate to form condensate, and the collected condensate is used for cooling the condenser.

Figure 3 is a partial perspective view of a state in which the upper portion of the device casing of a conventional window air conditioner is removed. As shown in this figure, a conventional window air conditioner forms an appliance casing with both side walls and top plate (not shown) and bottom plate (21), and the bottom plate (21) accommodates condensate generated in an evaporator (not shown). have.

On the bottom plate 21, a compressor 30 which forms a refrigerant gas from an evaporator (not shown) at high temperature and high pressure, and a refrigerant gas having a high temperature and high pressure formed in the compressor 30 are received through a condenser inlet pipe 25. The condenser 22 which condenses is provided. The condenser 22 forms a circular opening 26 in the center region of the front plate, and is provided with a blowing fan 27 connected to the drive motor 29 in the opening 26.

The refrigerant condensed in the condenser 22 is discharged through the condenser outlet pipe 26. The condenser outlet pipe 28 is in contact with the bottom plate 21, and is cooled by the condensate containing the discharge refrigerant.

As a result, the conventional window air conditioner uses a blower fan that cools the condenser in the state where the condensate generated by the evaporator is accommodated in the bottom plate, while the received condensate is scattered on the front of the condenser, while the condensed water is evaporated to condense. The condensate is used for cooling the condenser by allowing its own temperature to be lost as the heat of evaporation of the condensate.

However, in the conventional window air conditioner, cooling of the condenser is not very efficient because only a relatively small amount of condensate contained in the bottom plate is scattered on the surface of the condenser by the condenser cooling blowing fan. That is, if the condensate can be evaporated from the surface of the condenser inlet pipe or the condenser discharge pipe in which the refrigerant flows, it is preferable to improve the condensation performance.

Accordingly, it is an object of the present invention to provide a window air conditioner having improved condensation performance by effectively using condensed water contained in the bottom plate for cooling the refrigerant.

1 is a partial perspective view of the upper portion of the device casing of the window air conditioner according to the present invention is removed,

Figure 2 is a partial perspective view of the window air conditioner according to another embodiment of the present invention,

3 is a partial perspective view of a conventional window air conditioner.

* Explanation of symbols for main parts of the drawings

1: bottom plate 2: condenser

7: blower fan 10: compressor

11 condenser piping 15 condenser inlet pipe

16: condenser outlet pipe 17: sponge

The object is, according to the present invention, the bottom plate which is installed in the lower part of the compressor, the evaporator and the condenser to form a receiving space of the condensate generated in the evaporator, and a condenser inlet pipe for supplying the refrigerant from the compressor to the condenser; And a condenser outlet pipe forming a discharge passage of the refrigerant discharged from the condenser, wherein the condenser inlet pipe surrounds at least one of the condenser inlet pipe and the condenser outlet pipe, and a section is immersed in the condensate in the bottom plate. It is achieved by a window air conditioner characterized by having a condensate absorber made of a material having water absorption.

Here, the condensate absorber is preferably made of a sponge.

And, it is more effective that the condensate absorber surrounds the outer surface of the condenser inlet pipe.

In addition, the condensate absorbent body may surround the outer surface of the condenser outlet pipe.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

1 is a partial perspective view of a state in which the upper portion of the device casing of the window air conditioner according to the present invention is removed. As shown in this figure, in this window type air conditioner, as described with reference to FIG. 3, a condenser 2 is provided on the bottom plate 1 from which both side plates and the top plate constituting the main body casing are removed. In the condenser 2, the condenser piping 11 is arranged by bending several times. The inner side front plate of the condenser 2 is formed with a circular opening 6 in the center region. In the opening 6, a blowing fan 7 operated by the drive motor 9 is provided toward the condenser pipe 11.

The bottom plate 1 is further provided with a compressor 10 which compresses the refrigerant gas received from the evaporator on the indoor side (not shown) adjacent to the drive motor 9 to a state of high temperature and high pressure.

The condenser inlet pipe 15 which delivers the high temperature and high pressure refrigerant gas formed in the compressor 10 to the condenser 2 is double bent so that the intermediate region of the flow path is adjacent to the condensed water not shown in the bottom plate 1. Is connected to (2). A sponge 17 surrounds the outer surface of the bent portion of the condenser inlet pipe 15. The sponge 17 is immersed in the condensed water collected on the bottom plate 1 at the bent load end region of the condenser inlet pipe 15. As a result, the condensate is absorbed by the sponge 17 and rises, and is naturally evaporated due to the action of the air, in particular the blowing fan 7. The naturally evaporated condensate cools the refrigerant in the condenser inlet pipe 15.

In addition, a condenser outlet pipe 16 is provided on the lower side of the side wall 4 of the condenser 2 to transfer the liquid refrigerant from the condenser 2 to the evaporator. The outlet pipe 16 has a lower portion of its outer surface in contact with the bottom plate 1 and is immersed in the condensed water contained in the bottom plate 1. As a result, the discharged refrigerant is cooled by water.

With this configuration, the window air conditioner according to the present invention is absorbed by the sponge 17 surrounding the condenser inlet pipe 15, the condensed water contained in the bottom plate 1, the absorbed condensed water is sponged by capillary phenomenon It moves upward along (17). The upper portion of the sponge 17 is exposed to the outside atmosphere, so that the condensate that has moved upward is spontaneously evaporated, whereby the condenser inlet pipe 16 is cooled by the evaporative absorption heat of the condensate, and from the compressor 10. The refrigerant gas of high temperature and high pressure is condensed to some extent before reaching the condenser (11).

In addition, Figure 2 is a partial perspective view of the upper portion of the device casing of the window air conditioner according to another embodiment of the present invention, the window air conditioner according to this embodiment, the outflow pipe 16 immersed in the bottom plate (1) The partial region of is bent upward so as to be exposed to the atmosphere, and a sponge 19 in which the lower region is immersed in the condensate is provided around the outer surface. As a result, the condensed water is absorbed by the sponge 19 and spontaneously evaporates to the outside atmosphere, whereby the refrigerant gas condensed by the condenser 2 is cooled once more in the process of being discharged to the outlet pipe 16.

In the above-described examples and the embodiment, a sponge is provided in one of the inflow pipe 15 and the outflow pipe 16 to absorb the condensate and evaporate to the atmosphere, so that the refrigerant is cooled. And it is possible to install a sponge that can absorb the condensed water in both the outlet pipe 16, or can cool the condenser pipe 11 of the condenser 11 in the same manner.

As described above, according to the present invention, a window air conditioner having improved condensation performance is provided by effectively using the condensed water contained in the bottom plate for cooling the refrigerant.

Claims (4)

A bottom plate installed under the compressor, the evaporator and the condenser and forming a receiving space for the condensate generated by the evaporator, a condenser inlet pipe for supplying the refrigerant from the compressor to the condenser, and the discharge of the refrigerant discharged from the condenser. A window type air conditioner having a condenser outlet pipe forming a flow path, the window air conditioner comprising: a condensate made of a water absorbent material surrounding at least one of the condenser inlet pipe and the condenser outlet pipe, and a portion of which is immersed in the condensate in the bottom plate A window air conditioner having an absorbent body. The window air conditioner according to claim 1, wherein the condensate absorber is made of a sponge. The window air conditioner according to any one of claims 1 to 3, wherein the condensate absorber surrounds an outer surface of the condenser inlet pipe. The window air conditioner according to claim 1 or 2, wherein the condensate absorber surrounds an outer surface of the condenser outlet pipe.