KR101332127B1 - A Cooling device for outdoor heat exchanger of air-conditioning unit using condensation water - Google Patents

Abstract

The present invention relates to an outdoor unit cooling apparatus for an air conditioner using condensed water, which solves the problem that the effect of improving the cooling efficiency is insignificant because only the upper part of the heat exchanger is wetted by the condensed water in the existing water- A condenser for condensing the condensed water generated in the indoor unit to the outdoor unit through a condensate induction pipe to wet the heat exchanger of the outdoor unit; A conductive bucket 34 for storing condensed water supplied through a condensate induction pipe 20 is rotatably installed at an upper portion of the heat exchanger 32 of the outdoor unit 30, When the condensed water supplied from the indoor unit 10 is filled in the conductive bucket 34 by a predetermined amount or more, the center of gravity of the conductive bucket 34 becomes unstable and instantaneously inverted, Is poured at once through the guide plate (36) to wet the heat exchanger (32) of the outdoor unit (30).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cooling apparatus for an outdoor unit using condensate,

In the present invention, condensate generated in an indoor unit installed in a separate type air conditioner is supplied to an outdoor unit through a condensate induction pipe to be filled on a conductive bucket installed in an upper part of an outdoor unit. When condensate is filled in a conductive bucket over a certain amount, The heat exchanger (heat exchanger pin) of the outdoor unit is dewatered so that the bucket is inverted and poured through the water guide plate at a time to improve the cooling efficiency. The conductive bucket is repeatedly turned over each time the condensed water is filled, In the case where the amount of condensed water generated in the indoor unit is small in the high temperature and dry weather, the water supply is automatically supplied to the outdoor unit so that the cooling efficiency can be improved. It is.

Generally, in a separate type air conditioner separated from an indoor unit and an outdoor unit, condensate generated in the indoor unit is discharged to the outside through a hose or water is taken in a separate bucket. In the outdoor unit, the fan is operated to cool the refrigerant flowing through the heat exchanger And is circulated and supplied to the room again.

Attempts have been made to improve the heat exchange efficiency, that is, the cooling efficiency, of the outdoor unit by supplying the condensed water generated from the indoor unit to the outdoor unit without flowing or discarding it.

According to the present invention, there is provided a cooling apparatus for an outdoor heat exchanger using condensate of an air conditioner, a condenser discharge structure of an outdoor unit, 190877 disclose an air-cooled cooling apparatus which supplies condensed water generated from an indoor unit of an air conditioner to an outdoor unit using a condensate connection pipe to wet the lower portion of the heat exchanger of the outdoor unit with condensed water (Patent No. 0406047) And the condensed water stored in the water collecting tank is dripped onto the heat exchanger through the discharge groove to wet the heat exchanger so as to improve the thermal efficiency of the air conditioner (Japanese Patent No. 0555417 and Japanese Patent Laid- 2004-190877).

On the other hand, a spraying method (Japanese Patent Laid-Open No. 2000-0040089, Patent Publication No. 2000-0040090, etc.) in which condensed water of an air conditioner is sprayed to a heat exchanger of an outdoor unit is proposed.

Meanwhile, in the above-described prior art draft water cooling system, since the amount of water to be dumped is insufficient, the condensed water only moistens the upper side of the heat exchanger, which is not effective for improving the overall cooling efficiency. It is impossible to improve the cooling performance substantially by reducing the injection efficiency in the case of ejecting by the ejector method using the fan of the outdoor unit. In case of using the separate injection device, the electric power for operation of the injection device is further increased Since the power consumption of the air conditioner has to be consumed, the power consumption of the air conditioner is relatively increased and the running cost is increased.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to overcome the disadvantages of the conventional spray type outdoor unit cooling apparatus which requires an increase in the number of components, The present invention provides a water outlet type outdoor unit cooling apparatus of improved structure capable of solving the problem that the effect of improving the cooling efficiency is insignificant because the condensed water is locally wetted only on the upper side of the heat exchanger in the water outlet type outdoor unit cooling apparatus.

In order to accomplish the above object, the present invention provides an outdoor unit cooling apparatus for an indoor unit of an air conditioner which induces condensate generated in an indoor unit to a outdoor unit through a condensate induction pipe to wet a heat exchanger of the outdoor unit; A condensing water supplied through the condensing water induction pipe is rotatably installed in the upper portion of the heat exchanger of the outdoor unit so that the condensing water supplied from the indoor unit is introduced into the conductive bucket Provided is an outdoor unit cooling apparatus for an air conditioner using condensed water in which the center of gravity of a conductive bucket becomes unstable and instantaneously flipped over and poured through a water induction plate all at once to fill a heat exchanger of an outdoor unit.

According to another embodiment of the present invention, since the amount of condensed water generated in the indoor unit is small in the hot and dry weather, the water pipe is connected to the condensate induction pipe so that the water can be supplied to the outdoor unit, Thereby providing an outdoor unit cooling device.

In the present invention, condensate generated in an indoor unit is used, condensed water is filled in a predetermined amount or more on a conductive bucket without flowing it in a pointwise manner, and the condensed water is poured all at once to wet the entire heat exchanger, thereby effectively improving the cooling efficiency of the outdoor unit And it is possible to improve the cooling efficiency of the outdoor unit by supplying tap water to the hot and dry weather, thereby having a useful effect of maximizing the efficiency of the summer air conditioner.

1 is a perspective view showing the overall configuration of an outdoor unit cooling apparatus according to the present invention,
2 is a perspective view showing an outdoor unit of an outdoor unit cooling device according to the present invention,
3 is a sectional view of an air conditioner outdoor unit according to the present invention,
FIG. 4 is a sectional view showing an operation state of an air conditioner outdoor unit according to the present invention,
5 is a configuration diagram of an outdoor unit cooling apparatus according to another embodiment of the present invention.

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

1 to 4 show an outdoor unit cooling apparatus according to a first embodiment of the present invention.

1 to 4, in this embodiment, the condensed water generated in the indoor unit 10 is guided to the outdoor unit 30 through the condensed water induction pipe 20 so that the heat exchanger 32 of the outdoor unit 30 is wetted. A conductive bucket 34 for storing condensed water supplied through a condensate induction pipe 20 is rotatably installed at an upper portion of the heat exchanger 32 of the outdoor unit 30, When the condensate water supplied from the indoor unit 10 is filled in the conductive bucket 34 by a predetermined amount or more, the center of gravity of the conductive bucket 34 becomes unstable, The condensed water is poured through the water leading guide plate 36 at the same time so as to wet the heat exchanger 32 of the outdoor unit 30.

The outdoor unit cooling device of the present invention is basically the same as the existing water outlet type outdoor unit cooling device in the principle that the condensation water generated in the indoor unit is guided to the outdoor unit side to wet the heat exchanger of the outdoor unit to improve the cooling efficiency by the latent heat of evaporation, In the present invention, the condensed water supplied in the room is temporarily stored in the conductive bucket 34, and when a predetermined amount or more of the condensed water is filled in the conductive bucket 34, the condensed water is poured into the heat exchanger 32 all at once, So that the cooling efficiency of the refrigerant flowing in the heat exchanger 32 can be improved. In the conventional dew condensation type outdoor unit cooling device, only a small amount of condensed water is dripped, Only the upper side of the vessel is locally wetted so that the visibility of the heat exchange efficiency The one will help you overcome the drawbacks novelties not achieved.

3, the conductive bucket 34 is formed in an inverted triangular cross-sectional shape, and has a length corresponding to the left and right widths of the heat exchanger 32 of the outdoor unit 30, The left and right side surfaces of the conductive bucket 34 are closed and the lower sides of the left and right side surfaces are rotatably provided by the rotary shaft 35 so that the interior of the conductive bucket 34 is made hollow, The conductive bucket 34 is in a stable state. When the condensed water is filled in the conductive bucket 34, the center of gravity gradually increases and becomes unstable, and the water level rises to some extent The conductive bucket 34 is unbalanced and turned upside down so that the condensed water is poured out.

In the present invention, the center of gravity of the conductive bucket 34 is not shown in the figure, but a weight is provided at the lower portion of the conductive bucket 34 so that the water is filled normally, When the water level of the condensed water filled in the conductive bucket 34 becomes higher than a certain level, the weight of the condensed water and the weight of the weight can be maintained. As the center of gravity of the weight changes to the upper side of the rotary shaft 35, the conductive bucket 34 reverses backward to empty the condensate. When the condensate is emptied, the conductive bucket 34 is re- The center of gravity is positioned below the rotary shaft 35, and the state returns to a stable state where the condensed water can be received again.

Meanwhile, the conductive bucket 34 is installed on the upper side of the transparent case 37. The transparent case 37 serves to prevent external scattering of the condensed water, and functions as a function of the below- .

In the present embodiment, the conductive bucket 34 may be provided with a stopper or the like so that the conductive bucket 34 is not poured forward but inverted only to the rear side. Such a stopper may be formed by a person skilled in the art Therefore, a detailed description thereof will be omitted.

A primary water drop guide plate 36a for guiding the condensed water poured from the conductive bucket 34 rearwardly to the front and guiding it forward; And a second water leading-out plate (36b) for guiding the water to the heat exchanger (32) of the outdoor unit.

In the present embodiment, the secondary water fall guide plate 36b corresponds to the front surface of the transparent case 37, and the lower portion of the secondary water fall guide plate 36b is formed with a circular arc shape so as to allow the condensate to flow toward the heat exchanger 32 It is bent in an arc shape.

The primary water fall guide plate 36a provided in the case 37 is bent in the opposite direction to the secondary water fall guide plate 36b so that the condensed water of the inverted bucket 34 turned backward And the direction is changed toward the water drop guide plate 36b.

In the present embodiment, the secondary water fall guide plate 36b is formed to have a longer length than the primary water fall guide plate 36a so that the lower fall water guide plate 36b can fall with a sufficient drop so that the condensed water can drop down toward the heat exchanger 32 So that it can be deeply diffused to the inside of the heat exchanger.

The condensed water generated in the indoor unit 10 is supplied to the outdoor unit 30 through the condensed water induction pipe 20 without being immediately discharged to the heat exchanger and supplied to the upper portion of the heat exchanger 32 When the amount of condensed water filled in the conductive bucket 34 becomes equal to the amount that the condensed water can wet the entire heat exchanger, Likewise, the conductive bucket 34 is turned upside down and diffused to the entire heat exchanger 32 through the water inducing plate 36 to wet the entire heat exchanger. By evaporating the condensed water wetted the entire heat exchanger It is possible to cool the refrigerant passing through the inside of the heat exchanger more effectively, thereby improving the heat exchange efficiency, thereby increasing the running cost Ido, which will be effective to maximize the cooling efficiency of the air conditioner.

5, the outdoor unit cooling apparatus according to the second embodiment of the present invention is basically similar to the first embodiment described above except that the outdoor unit cooling apparatus according to the second embodiment of the present invention is similar to the first embodiment, An auxiliary induction pipe 22 connected to a condensate induction pipe 20 connected between the indoor unit 10 and the outdoor unit 30 is connected to the induction pipe 22 so as to improve efficiency, It is to be prepared in case.

A solenoid valve 24 is installed in the auxiliary induction pipe 22 and a humidity sensor 12 is installed on the indoor unit 10 to control the temperature of the indoor unit 10 The solenoid valve 24 is closed so that the supply of the water supply water is stopped and the indoor unit 10 is closed when the indoor humidity is higher than the set value So that the cooling efficiency of the outdoor unit can be improved.

The auxiliary induction pipe 22 and the solenoid valve 24 may be installed at appropriate places in the room or outdoor space in consideration of the position where the indoor unit 10 or the outdoor unit 30 of the air conditioner, And an auxiliary water tank or the like for supplying additional auxiliary supply water may be additionally provided in the indoor or outdoor environment at the site where there is no water pipe.

The outdoor unit cooling apparatus of the present embodiment having the above-described structure is suitable for use in a region where the weather is kept at a high temperature and dry, or has such a climate characteristic, and the outdoor unit is cooled by both air cooling type and water cooling type without consuming a separate running cost, The cooling efficiency can be maximized.

10: indoor unit 11:
12: Humidity sensor 20: Condensate induction pipe
22: auxiliary induction tube 24: solenoid valve
30: outdoor unit 32: heat exchanger
34: Conductive bucket 35:
36: water drop guide plate 36a: primary water drop guide plate
36b: second order water leading plate 37: transparent case

Claims (4)

An outdoor unit cooling device for an air conditioner of an air conditioner which induces condensate generated in an indoor unit to an outdoor unit through a condensate induction pipe to wet a heat exchanger of the outdoor unit;
A conductive bucket 34 is installed in the upper part of the heat exchanger 32 of the outdoor unit 30 to store condensed water supplied through the condensate induction pipe 20 and the conductive bucket 34 is long The left and right side surfaces of the left and right side surfaces of the conductive bucket 34 are rotatably supported by a rotary shaft 35. A lower portion of the conductive bucket 34 is provided with a center of gravity of the conductive bucket 34 And a drain water guide plate 36 is installed at a lower portion of the conductive bucket 34 so that the condensate water supplied from the indoor unit 10 flows into the conductive bucket 34 The center of gravity of the conductive bucket 34 becomes unstable and momentarily overturns and is poured all the way through the water inducing plate 36 to wet the heat exchanger 32 of the outdoor unit 30 and to condense the condensed water Return to original state when emptied Air conditioner outdoor unit with a cooling device for the condensate, characterized in that the.
The method according to claim 1,
Wherein an auxiliary induction pipe (22) connected to a water pipe is connected to the condensate induction pipe (20) so that water can be supplied to the outdoor unit side.
The method according to claim 1,
The waterfalling guide plate 36 is provided to be guided rearwardly. The waterfalling guide plate 36 includes a primary waterfalling guide plate 36a which receives the water from the conduit bucket 34 and guides the water to the front, And a second water leading-out plate (36b) for guiding the water of the primary water leading-in guide plate (36a) to the heat exchanger (32) of the outdoor unit.
The method of claim 2,
A solenoid valve 24 is installed in the auxiliary induction pipe 22 and a humidity sensor 12 is installed on the indoor unit 10 to open the solenoid valve 24 when the indoor humidity is lower than a set value, And the solenoid valve (24) is closed when the humidity of the room is higher than the set value, thereby stopping the supply of the water.

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