KR20010018429A - Condensingwater splasher structure for window type air conditioner - Google Patents

Abstract

PURPOSE: A condensate dispersing device is provided to disperse a condensate remaining on the bottom face of a casing to a condensing heat exchanger. CONSTITUTION: A condensate dispersing device(70) has: a rotating ring(71) connected to an outdoor blower fan to be met with a condensate collected on the bottom face of a casing; and condensate guide grooves(71a) formed on the edge of the rotating ring to spray the condensate. The condensate dispersing device includes the plural condensate guide grooves to spray the condensate toward a condensing heat exchanger. Therefore, the cold condensate is sprayed to the condensing heat exchanger to increase condensing efficiency of the heat exchanger and to enhance cooling efficiency remarkably.

Description

CONDENSING WATER SPLASHER STRUCTURE FOR WINDOW TYPE AIR CONDITIONER}

The present invention relates to a window air conditioner, and more particularly to a condensate diffuser structure of the window air conditioner to effectively splash the condensate accumulated in the bottom of the casing to the heat exchanger for condensation.

In general, the window-type Enercon is a compressor, condensation heat exchanger and evaporator heat exchanger, etc. outdoor unit and indoor unit forming a refrigeration cycle device is mounted on a casing and fixed to the outer wall or window of the building, A general example is shown in FIG. 1.

As shown in the drawing, in the conventional window air conditioner, a compressor (not shown) is installed at the center of the bottom surface of the casing 1 having air intake and discharge holes (not shown) separately on both sides, and condensation communicated with the compressor. A heat exchanger (2) is installed outside the casing (1), and an evaporation heat exchanger (3) in which an expansion mechanism (not shown) communicates with the condensation heat exchanger (2) is connected to the casing (1). It is installed on the indoor side of the.

In addition, between the condensation heat exchanger 2 and the evaporation heat exchanger 3, a drive motor 4 divides the casing 1 into an outdoor chamber S1 and an indoor chamber S2. It is fixed to the 1a), the inner side of the heat exchanger for condensation (axial fan) (5) coupled to the rotating shaft of the outdoor room side of the drive motor (4) to suck the outdoor air and discharge it again to the outside (5) Is installed, and inside the evaporation heat exchanger (3) is coupled to the room-side rotation axis of the drive motor (4) is a sirocco fan (siroccofan 6) to suck the air in the room and discharge it back to the room It is installed.

On the outside of the wing end of the axial fan (5), a condensate scattering machine (7) which is in contact with the condensate accumulated on the bottom surface of the casing (1) and splashes the condensate on the condensation heat exchanger (2) when rotating is installed The condensate scatterer 7 is composed of an annular rotary ring 7a and a support 7b for connecting the rotary ring 7a to each blade end 5b.

In the figure, reference numeral 5a is a hub.

The conventional window air conditioner configured as described above is operated as follows.

That is, as the power is supplied, the compressor (not shown) operates and at the same time the driving motor 4 operates. The refrigerant gas compressed and discharged from the compressor is the condensation heat exchanger 2 and the evaporation heat exchanger ( While passing through 3), the heat exchanger for condensation (2) releases heat to the outside while the evaporation heat exchanger (3) achieves a series of refrigeration cycles that absorb heat from the outside.

Meanwhile, the axial fan 5 and the sirocco fan 6 coupled to both rotation shafts of the driving motor 4 rotate together, among which the axial fan 5 sucks outdoor air from the side wall surface. While the condensation heat exchanger (2) is discharged toward the rear surface (for convenience, the indoor side to the front side), while the sirocco fan (6) is the front surface where the evaporation heat exchanger (3) is installed It was sucked toward and discharged toward the top or side end of the front surface to supply cool air to the room.

However, in the condensate scattering machine of the conventional window air conditioner as described above, the condensate is splashed using only the viscosity of the condensate and the centrifugal force of the rotary ring 7a, but the amount of condensate that is actually splashed is extremely small. There was no significant effect on the condensation efficiency of 2).

The present invention has been made in view of the above problems of the conventional window air conditioner condensate water scattering, the condensate water scattering structure of the window air conditioner that can condense the condensate accumulated in the bottom surface of the casing sufficiently to the heat exchanger for condensation The purpose is to provide.

1 is a longitudinal sectional view showing an example of a conventional window air conditioner.

Figure 2 is a perspective view showing a window air conditioner equipped with a conventional scattering machine.

Figure 3 is a longitudinal sectional view showing an example of the present invention window air conditioner.

Figure 4 is a side view showing the scattering of the present invention window air conditioner.

** Explanation of symbols for main parts of drawings **

10 casing 20 heat exchanger for condensation

30: heat exchanger for evaporation 40: drive motor

50: outdoor side axial flow fan 51: hub

52: wing 60: indoor side sirocco fan

70: scattering machine 71: rotation ring

71a: Condensate Guideway

In order to achieve the object of the present invention, a condensation heat exchanger and an evaporation heat exchanger for forming a refrigeration cycle including a compressor is divided into the outdoor side and the indoor side and mounted together in contact with each heat exchanger. Each blowing fan for circulating the outside air and the indoor air independently is installed inside the casing, among which the condensate scatterer which splashes the condensate accumulated on the bottom of the casing to the heat exchanger for condensation. In the window air conditioning provided; The condensate diffuser is connected to the outdoor blower fan is formed with a rotating ring to contact the condensate accumulated in the bottom of the casing, the condensate guide groove for raising the condensed water is sprinkled on the condensation heat exchanger during the rotation of the rotary ring Provided is a condensed water diffuser structure of a window air conditioner, characterized in that formed.

Hereinafter, the condensed water diffuser structure of the window air conditioner according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

Figure 3 is a longitudinal sectional view showing an example of the window air conditioner of the present invention, Figure 4 is a side view showing a scatterer of the window air conditioner of the present invention.

As shown therein, the window-type air conditioner equipped with the condensate scattering machine according to the present invention has a compressor (not shown) on the bottom surface of the casing 10 having air suction and discharge ports 11a and 11b (not shown) separately on both sides. Is installed, the heat exchanger 20 for condensation communicating with the compressor is installed on the outdoor room S1 side of the casing 10, and an expansion mechanism (not shown) is interposed on the heat exchanger 20 for the condensation. An evaporating heat exchanger (shown in FIG. 1) is provided at the indoor chamber (unsigned) side of the casing 10, and a driving motor is provided between the condensation heat exchanger 20 and the evaporation heat exchanger. 40 is fixedly installed on the diaphragm (shown in FIG. 1) 1a that divides the casing 10 into an indoor room S1 and an outdoor room (unsigned), and the outdoor side of the drive motor 40 is rotated outdoors. An axial flow fan 50 for circulating the side air is installed, and the sirocco for circulating the indoor air in the indoor rotation shaft of the drive motor 40. A (shown in FIG. 1) 6 are provided.

Condensate scattering device consisting of a generally annular rotary ring 71 and a support (not shown) for connecting the rotary ring 71 to each wing end 52 on the outside of the blade end 52 of the axial flow fan 50 70 is installed, a plurality of condensate guide grooves (71a) to the condensate scattering machine (70) to the rim of the rotary ring to guide the condensate water pulled up during rotation to sprinkle on the condensation heat exchanger (20) It is formed at equal intervals.

The condensate guide groove (71a) is preferably formed to be inclined upward in the acute angle toward the heat exchanger 20 so that the condensed water is sprayed toward the condensation heat exchanger 20 with respect to the rotation direction of the rotary ring 71, the rotation In order to facilitate injection molding or the like of the ring 71, the ring 71 may be formed at right angles to the rotational direction thereof.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the drawings, reference numeral 13 denotes a condensate receiving groove, and 51 is an axial fan hub.

The window air conditioner equipped with the above condensate splasher is operated as follows.

That is, as power is supplied, the compressor is operated to discharge high pressure compressed gas, and the discharged refrigerant gas discharges heat to the outside while passing through the condensation heat exchanger 20 and the evaporation heat exchanger in sequence, or from outside. A series of refrigeration cycles are taken up to absorb heat.

In addition, the drive motor 40 is operated so that the axial fan 50 or the sirocco fan coupled to the outdoor or indoor rotational shaft of the drive motor 40 rotates together, and the axial fan 50 and the sirocco As the fan rotates, the outdoor or indoor air is sucked and discharged, respectively.

Meanwhile, the indoor air contacts the cold evaporation heat exchanger (not shown), forms water droplets on the outer surface of the evaporation heat exchanger, and falls to the bottom surface of the casing 10 to allow the condensate receiving groove 13 on the outdoor side. The condensate accumulated in the condensate receiving groove 13 is attracted to the rotary ring 71 of the condensate scatterer 70 by centrifugal force during the rotation of the condensate scatterer 70 connected to the axial fan 50. It is fried in the heat exchanger 20 for condensation.

At this time, a plurality of condensate guide grooves 71a are formed at the edges of the rotary ring 71 of the condensate scatterer 70 so that the condensate guide grooves 71a rotate the condensate accumulated in the condensate receiving groove 13. Since it is pulled up in the rotational direction of the rotation and directed toward the condensation heat exchanger 20, the amount of condensed water accumulated on the bottom surface of the casing 10 and sprinkled on the condensation heat exchanger 20 is greatly increased. The condensation efficiency of the condensation heat exchanger 20 is remarkably improved.

The present invention is not limited to the case where the outdoor blower fan is an axial fan, and can be applied to all window air conditioners, such as a sirocco fan, equipped with a scattering device as in this embodiment, regardless of the type of blower fan.

In addition, in the present embodiment, the condensate guide groove is made of a single piece on the rim surface of the rotary ring, but in some cases, the shape may be variously formed, such as spirally formed throughout the rotary ring.

The condensed water diffuser structure of the window-type air conditioner according to the present invention, by raising the condensed water to the edge of the rotary ring in contact with the condensed water in the bottom surface of the casing to form a plurality of condensate guide grooves that can be sprayed to the condensation heat exchanger at equal intervals In addition, the cold condensate accumulated on the bottom surface of the casing is sprinkled in a large amount on the heat exchanger for condensation, the condensation efficiency of the heat exchanger for condensation is increased, the evaporation temperature is lowered, and the cooling efficiency is significantly improved.

Claims (1)

The condensation heat exchanger and the evaporation heat exchanger, which form a refrigeration cycle, including a compressor, are separately mounted in one casing into the outdoor side and the indoor side, and independently separate the outdoor side air and the indoor side air in contact with each heat exchanger. In the air-conditioning window is provided with each blowing fan circulated to the inside of the casing, the outdoor fan is provided with a condensate scattering machine for splashing the condensate accumulated in the bottom surface of the casing with a heat exchanger for condensation; The condensate diffuser is connected to an outdoor blower fan is provided with a rotary ring to contact the condensate accumulated on the bottom surface of the casing, the condensate guide groove for raising the condensed water during rotation to sprinkle on the heat exchanger for condensation Condensed water scattering structure of the window air conditioner, characterized in that formed.