KR20010003007A - Apparatus for cooling condenser of window type air conditioner - Google Patents

Abstract

PURPOSE: An apparatus is provided to achieve an improved cooling efficiency of air conditioner by lowering the evaporation temperature of an evaporating heat exchanger. CONSTITUTION: A window air conditioner comprises a casing(10) having outdoor air inlet and outlet ports(11a,11b) and indoor air inlet and outlet ports(12a,12b); a condensing heat exchanger(20) and an evaporating heat exchanger(30) installed at an outdoor chamber(S1) and an indoor chamber(S2) of the casing, respectively, and which form a cooling cycle; an outdoor cross flow fan(40) installed in the outdoor chamber of the casing and which circulates outdoor air; an indoor cross flow fan(50) installed in the indoor chamber of the casing and which circulates indoor air; and a condensate water scattering device(60) for collecting the condensate water from the surface of the evaporating heat exchanger and scattering the collected condensate water to the condensing heat exchanger. The condensate water scattering device includes a water tray for collecting the condensate water from the evaporating heat exchanger, a water pipe communicated to the water tray and extended toward the condensing heat exchanger, and a water scattering pipe with injection holes for scattering the water to the outlet side of the outdoor cross flow fan.

Description

Heat exchanger cooling device for condensation of window air conditioner {APPARATUS FOR COOLING CONDENSER OF WINDOW TYPE AIR CONDITIONER}

The present invention relates to a window air conditioner, and more particularly, to a heat exchanger cooling device for condensation of a window air conditioner suitable for efficiently cooling an outdoor heat exchanger.

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 suction and discharge holes (not shown) separately on both sides, and the compressor (not shown). A heat exchanger for condensation (2) communicated with is provided on the outdoor side of the casing (1), and an evaporation heat exchanger (3) communicates with an expansion mechanism (not shown) in the condensation heat exchanger (2). It is provided in the indoor side of the casing 1.

In addition, between the condensation heat exchanger 2 and the evaporation heat exchanger 3, a diaphragm 4 which partitions the casing 1 into an outdoor room S1 and an indoor room S2 is fixedly installed. One drive motor 5 having a rotating shaft protruding toward both sides of the diaphragm 4, the outdoor chamber S1, and the indoor S2 is installed at the center of the casing 1, and the inner side of the heat exchanger 2 for condensation is provided. The axial fan (6) is an outdoor fan coupled to the rotating shaft of the outdoor room side of the drive motor (5) and sucks the outdoor air and discharges it to the outside, and the evaporation heat exchanger (3) The inside is provided with a sirocco fan (siroccofan) (7) is an indoor fan coupled to the indoor chamber-side rotation shaft of the drive motor 5 to suck the indoor air and discharge it back to the room.

The condensate scattering machine 8 which contacts the condensate accumulated on the bottom surface of the casing 1 outside the wing end 6a of the axial flow fan 6 and splashes the condensate to the condensation heat exchanger 2 when rotating. The condensate scattering machine (8) is composed of an annular rotary ring (8a) and a support (8b) for connecting the rotary ring (8a) to each wing end.

In the figure, reference numeral 6b denotes an axial fan hub.

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

That is, as power is supplied, the compressor (not shown) operates and the driving motor 5 operates at the same time. The refrigerant gas compressed and discharged from the compressor is a condensation heat exchanger 2 and an 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.

On the other hand, the axial fan (6) and the sirocco fan (7) coupled to both rotation shafts of the drive motor (5) rotates together, among which the axial fan (6) sucks outdoor air from the side wall surface. While the condensation heat exchanger 2 is installed to the rear surface (for convenience, the indoor side is the front surface) toward the discharge, while the sirocco fan 7 is the front surface of the evaporation heat exchanger 3 is installed It is suctioned toward the top and discharged toward the top or side end of the front surface to supply cool air to the room.

At this time, the evaporation heat exchanger (3) is formed with water droplets according to the temperature difference between the inside and outside, and flows down to the bottom surface of the casing (1), the condensate flows to the bottom surface of the outdoor room (S1) and the It was splashed by the condensate scattering machine 8 which rotates with the axial fan 6, and it was made to cool the heat exchanger 2 by condensation.

In the conventional window air conditioner as described above, the rotary ring 8a of the condensate scattering machine 8 connected to the axial fan 6 rotates together with the axial fan 6, and the viscosity and condensation ring of the condensate 8a are rotated. The condensate is splashed only by the centrifugal force of the condensate. However, the amount of condensate actually splashed by the condensate scattering machine 8 is not only small but also a large amount of diarrhea splashes. It was sprayed to the side, which had no significant effect on the condensation efficiency.

The present invention has been made in view of the problems of the conventional window air conditioner as described above, the heat exchanger cooling device for condensation of the window air conditioner that can be evenly sprayed throughout the condensation heat exchanger cold condensate flowing from the heat exchanger for evaporation 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 an outdoor fan of a conventional window air conditioner.

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

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

5 is a perspective view showing a modification to the scattering apparatus of the present invention window air conditioner.

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

10 casing 20 heat exchanger for condensation

30: evaporator heat exchanger 40: outdoor cross flow fan

50: indoor cross flow fan 60: condensate

61,61 ': condensate receiver 62: condensate channel

63: condensate scattering pipe 63a: injection hole

In order to achieve the object of the present invention, a condensate tray is installed on the lower side of the evaporation heat exchanger to collect the condensate falling from the heat exchanger, and a condensate passage tube which is connected to one side of the condensate receiver and extends toward the condensation heat exchanger, It is installed in the transverse direction so as to be in communication with the condensate passage tube to face the condensation heat exchanger, and the plurality of injection holes are provided so that the condensate collected through the condensate receiver and the condensate passage tube is sprayed on the discharge side of the outdoor blower fan and scattered to the condensation heat exchanger. A heat exchanger cooler for condensation of window air conditioners, including condensate splash lines, is provided.

Hereinafter, the heat exchanger cooling device for condensation of a window type 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 perspective view showing a scattering device of the window air conditioner of the present invention.

As shown therein, the window-type air conditioner according to the present invention includes a casing 10 having an outdoor side and an indoor side air suction and discharge ports 11a, 11b, 12a, and 12b independently formed therein, and the casing 10 of the casing 10. A condensation heat exchanger 20 and an evaporation heat exchanger 30 that are respectively installed in both the outdoor room S1 and the indoor room S2 to form a refrigeration cycle together with a compressor (not shown), and the casing 10. Is installed in the outdoor room S1 of the outdoor air flow fan (crossflow fan) 40 and the indoor room (S2) of the casing 10 to circulate the indoor air circulating the outdoor air circulating And a cross flow fan (50), which is an indoor side blowing fan, and a condensate scattering machine (60) configured to collect condensate flowing down from the surface of the evaporating heat exchanger (30) and scatter it to the condensation heat exchanger (20). do.

The casing 10 has a diaphragm 13 partitioning the outdoor room S1 and the indoor room S2 at an intermediate point thereof. The outdoor and indoor air suction and discharge ports 11a and 11b and 12a are formed. 12b) may be variously formed according to the shape of each blower fan 40 or 50 or the guide 14, but the outdoor air inlet 11a of the present embodiment is the rear side of the casing 10 (for convenience). The outdoor side air outlet 11b is formed on the rear side and the rear side upper surface. In addition, the indoor air intake 12a is formed at the upper front and front side of the casing 10, while the indoor air outlet 12b is formed at the lower front.

The heat exchanger 20 for condensation is formed by bending an intermediate portion to face the rear surface and the upper surface side of the outdoor chamber S1, and the evaporation heat exchanger 30 includes an upper end of the front surface of the indoor chamber S2 and The intermediate part is also formed to be bent so as to face the upper surface side.

The outdoor cross-plug fan 40 is preferably installed at a position lower than the injection hole 63a of the scattering pipe 63 in order to blow the condensed water from the scattering pipe 63 to be described later.

The condensate diffuser 60 is a condensate receiver 61 collecting the condensate falling from the heat exchanger 30 for evaporation, and a condensate passage tube communicating with the condensate receiver 61 and extending toward the condensation heat exchanger 20 ( 62 and the end of the condensate passage tube 62 are installed to terminate the condensation heat exchanger 20 in the transverse direction, and a plurality of injection holes 63a are formed to discharge the condensate to the outdoor blower fan 40. It consists of a condensed water scattering tube (63) sprinkled on the discharge side of the.

Here, the condensate receiver 61 is installed at the lower side of the evaporation heat exchanger 30 as shown in FIG. 4, or the surface of the condensate receiver 61 at the middle height of the evaporation heat exchanger 30 as shown in FIG. 5. It can be wound up to be installed on.

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

The window air conditioner according to the present invention configured as described above is operated as follows.

That is, as power is supplied, a compressor (not shown) is operated to discharge high-pressure compressed gas, and the discharged refrigerant gas passes through the condensation heat exchanger 20 and the evaporation heat exchanger 30 in sequence, and then externally. The furnace is a series of refrigeration cycles that release heat or absorb heat from the outside.

In addition, the outdoor cross flow fan 40 and the indoor cross flow fan 50 are rotated together by the respective driving motors (not shown), and the outdoor cross flow fan 40 and the indoor cross are As the flow fan 50 rotates, the outdoor or indoor air is sucked and discharged.

On the other hand, while the indoor air is in contact with the cold evaporation heat exchanger (30) forms a drop of water on the outer surface of the evaporation heat exchanger (30) and falls naturally to the condensate receiver 61, and falls into this condensate receiver The condensate flows into the condensate scattering pipe 63 along the condensate flow pipe 63 and is scattered through the respective injection holes 63a in the condensate splashing pipe 63. The condensed water that is scattered is blown by the outdoor cross flow fan 40 to be evenly sprayed on the heat exchanger 20 for condensation.

In this way, the outdoor blower fan 40 is provided as a cross flow fan, and the condensate scattering pipe 63 is installed between the outdoor crossflow fan 40 and the condensation heat exchanger 20 in the horizontal direction. When the condensed water sprayed from the injection hole 63 of the condensed water scattering pipe 63 is blown to the cross flow fan 40 to the condensation heat exchanger 20, the condensed water is evenly distributed by the cross flow fan 40. It is scattered and evenly sprayed on the heat exchanger 20 for condensation, thereby increasing the cooling efficiency of the heat exchanger 20 for condensation, thereby lowering the evaporation temperature and improving the cooling efficiency.

In addition, when the condensate receiver 61 ′ of the condensate scatterer 60 is installed in the middle portion of the heat exchanger 30 for evaporation as shown in FIG. 5, the condensate receiver 61 ′ and the condensate scattering pipe ( The height of the 63 may be increased, so that the condensed water may be scattered on the upper side of the heat exchanger 20 for condensation, and thus the cooling efficiency of the heat exchanger 20 for condensation may be further improved.

In the heat exchanger cooling device for condensation of a window air conditioner according to the present invention, a condensate receiver is installed at a lower side or an intermediate portion of an evaporation heat exchanger, and the condensate received from the condensate receiver is guided between an outdoor blower fan and a condensation heat exchanger. By installing a condensate passage pipe and a condensate scattering pipe to spread the condensed water sprayed from the condensate scattering pipe to the outside blower fan evenly to the condensation heat exchanger, to increase the cooling efficiency of the heat exchanger for condensation evaporation heat exchanger By lowering the evaporation temperature of the air conditioning it can improve the cooling efficiency.

Claims (1)

A condensate receiver installed under the evaporation heat exchanger and collecting condensate falling from the heat exchanger, a condensate passage tube communicating with one side of the condensate receiver and extending toward the condensation heat exchanger, and connected to the condensate passage tube for condensation Condensation of a window-type air conditioner including a condensate scattering tube installed in the transverse direction so as to face the heat exchanger and having a plurality of injection holes so as to spray condensate collected through the condensate receiver and the condensate passage tube on the discharge side of the outdoor blower fan and scattered to the condensation heat exchanger. Heat Exchanger Chiller