KR100906327B1 - Eco-friendly air conditioner with condensate drain - Google Patents

Abstract

The present invention relates to an environment-friendly air conditioner having a condensate drainage device, and in an air conditioner having a blower and a cooling coil installed in a case, a water removing unit installed to prevent condensation from scattering in front of the air flow direction of the cooling coil, It includes a cooling coil and a drain installed below the water removal portion, wherein the water removal portion is composed of a frame forming an outer shape, and a plurality of diaphragm spaced apart from each other transversely with respect to the air flow direction inside the frame, The drain part is located throughout the lower end of the cooling coil and the water removing part, and a first drip tray having a first sloped surface at the bottom thereof, and a second drip tray installed at an end of the first sloped surface of the first drip tray and having a second sloped surface toward one side thereof. Characterized in that consisting of.

      According to the air conditioner as described above, according to the environment-friendly air conditioner having a condensate drainage device according to the present invention is provided with a drain having an inclined surface so that smooth drainage is possible to prevent the condensate film from occurring in the cooling coil.

Description

A environment-friendly air conditioner mounted with condensing water draining apparatus}

The present invention relates to an air conditioner, and in particular, to provide a condensate drainage device inside the air conditioner to prevent the scattering of condensate, to ensure a smooth drainage, and to an eco-friendly air conditioner having a condensate drainage device does not use chemicals.

In general, an air conditioner (air conditioner) is to control a certain space to a temperature, humidity, air flow distribution suitable for human activity, and at the same time to remove dust in the air. Pleasant indoor temperature is subtle due to human sensation, but outside air and temperature difference is about 5 ~ 6 ℃ in summer, indoor temperature 25 ~ 29 ℃, humidity 60 ~ 70%, winter temperature 18 ~ 21 It is known that the optimum temperature is about 55 ~ 70%.

These air conditioners range from the small size used in the home to the large size used in the building. The large special type air conditioner is the central unit that cools and heats each room with a duct in the center. Concentration predominates.

Referring to Figure 1 attached to an example of the air conditioner as described above are as follows.

As shown, the outer side is in communication with the ventilator RA and the first case 100 having a first blowing fan 110 therein, the first case 100 is in communication with the exhaust portion (EA) ) And the outside air (OA) is in communication with the second case 200, the second case 200, the filter case 210, the cooling coil 220 and the heating coil 230 is installed therein, and the outside The third case 300 is connected to the air supply unit SA and includes a second blowing fan 310 therein.

However, the conventional air conditioner has a problem that the condensate water generated in the cooling coil during the air cooling is not smoothly discharged to generate a condensed water film on the cooling coil, thereby reducing the heat exchange efficiency.

In addition, corrosion of the blower and the duct due to the splashing of condensation and flooding of the drain plate caused by condensate, and there is a problem that maintenance and repair is cumbersome.

That is, in the conventional air conditioner, the condensed water film and condensation of the cooling coil are scattered by the cooling condensate generated when the air is cooled in the cooling coil. Accordingly, the thermal efficiency is lowered and the air contaminated by the corrosion of the blower fan and the duct is indoors. There was a problem with the supply.

In addition, in the related art, a separate absorbent material may be used to absorb moisture that is scattered and exists in a mist form, thus causing environmental pollution.

The present invention has been made to solve the above-described problems, an object of the present invention is to provide an eco-friendly air conditioner having a condensate drainage device that can prevent the condensate film is generated in the cooling coil to facilitate the drainage of the condensate. It is.

It is also to provide an eco-friendly air conditioner having a condensate drainage device that can prevent condensation from condensate and damage to other internal components due to condensate flooding.

In addition, it is to provide an environmentally friendly air conditioner having a condensate drainage device does not cause environmental pollution because it prevents and discharges the condensate by the pure structural characteristics.

In order to achieve the above object, the eco-friendly air conditioner having a condensate drainage device according to the present invention, the air conditioner, the blower and the cooling coil is installed in the case, the air flow direction of the cooling coil is installed in order to prevent the condensation of the condensation. And a water removal unit and a drainage unit installed below the water removal unit, wherein the water removal unit includes a frame forming an external shape, and a plurality of diaphragms spaced apart from each other transversely with respect to an air flow direction inside the frame. The drainage part is disposed over the entire lower end of the water removing unit, and comprises a first drip tray having a first sloped surface formed on the bottom, and a second drip tray installed at an end of the sloped surface of the first drip tray and having a second sloped surface toward one side. It is characterized by.

Here, each of the partitions preferably have a 'V' shape when viewed in a plane.

In addition, it is preferable that two or more reinforcing members supporting the cooling coil are interposed between the cooling coil and the first inclined surface.

In addition, the second inclined surface is formed downward in the direction transverse to the air flow direction, characterized in that the drain hole is formed in the vicinity of the lower end of the second inclined surface.

In addition, the drainage hole is characterized in that the drain pipe is formed to extend downward.

In addition, when viewed in plan, the end portion of the cooling coil side of the diaphragm may be formed in a streamlined shape.

In addition, the cooling coil, the water removal unit and the drain portion is characterized in that arranged at least two stages in the vertical direction.

As described above, according to the environment-friendly air conditioner having a condensate drainage device according to the present invention is provided with a drain having an inclined surface smooth drainage is possible to prevent the formation of a condensate film in the cooling coil.

In addition, according to the present invention, it is possible to prevent the condensation of the condensate by the water removal unit, to prevent the overflow of the condensate by the smooth drainage of the drainage to prevent damage to the internal components of the air conditioner and to extend the life, Can be supplied indoors.

In addition, according to the present invention, there is also an advantage that does not cause environmental pollution because it prevents and discharges the scattering of condensed water by purely structural characteristics.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Here, the internal configuration and assembly state of the air conditioner is a technique that is already known and used, and since the overall configuration of the air conditioner is similar to the prior art shown in FIG.

As shown in FIG. 2, the air conditioner according to the embodiment of the present invention is largely the first case 100, the second case 200 and the second case 200 communicating with the first case 100. ) Is configured to communicate with the third case 300.

An outer surface of the first case 100 is connected to the ventilation unit RA, and a first blowing fan 110 operated by the first driving motor M1 is installed therein. Here, the first blowing fan 110 serves to move the ventilation flow introduced from the ventilation unit RA to the third case 300 through the second case 200 to be described later.

In addition, the second case 200 is connected from the outer surface so as to communicate with the first case 100, the exhaust portion (EA) for discharging a portion of the ventilation air to the outside of the second case 200 and Outside air units OA are formed to allow the outside air to flow from the outside, respectively.

The filter case 210, the cooling coil 220, and the heating coil 230 are respectively installed in the second case 200.

In addition, the cooling coil 220 and the heating coil 230 is disposed in the rear of the filter unit 210 described above serves to keep the temperature of the filtered airflow to keep warm or cold.

In addition, one side of the cooling coil 220 is provided with a water removal unit 250 to prevent the condensation of the condensation, condensed water below the cooling coil 220 and the cooling coil 220 and the water removal unit 250. Drainage portion 240 for draining is formed.

On the other hand, the third case 300 is connected from the other outer surface to communicate with the second case 200, the outer surface of the third case 300 is connected to the air supply (SA), the second drive inside The second blowing fan 310 which is operated by the motor M2 is installed.

In this case, the second blower fan 310 serves to forcibly move the airflow introduced into the third case 300 to the duct connected to the room through the air supply unit SA.

Referring to the features of the present invention in more detail.

Prior to the description, in the embodiment of the present invention, the cooling coil 220 is made up of two stages up and down, but it is possible to target a single one.

As shown in FIG. 3, the water removal unit 250 is assembled at the front of the air flow direction of each cooling coil 220.

In addition, as shown in FIG. 4, the water removing unit 250 includes a frame 252 forming an outer shape and a plurality of diaphragms disposed to be spaced apart from each other in the frame 252 laterally with respect to an air flow direction. 251).

In particular, the diaphragm 251 has a 'V' shape when viewed in a plan view, and a plurality of diaphragms 251 are arranged at one end in the air flow direction of the frame 252 to the other end at predetermined intervals. However, the planar cross-sectional shape of the diaphragm 251 may be freely selected. That is, a wave pattern or a simple curved shape may be adopted, and may have a streamlined cross section so that the air flow is more smooth.

Accordingly, when the air including water passes through the water removing unit 250, the air passes through the water removing unit 250, and moisture in the air hits the diaphragm 251 and remains on the surface of the diaphragm 251. .

According to this configuration, the condensation generated is scattered after a short distance and then hit by the diaphragm 251 and then aggregated to flow downward along the diaphragm 251 to fall to the first drip tray 241 to be described later, while the air is separated Passed through the gap is directed to the third case 300.

On the other hand, the drainage portion 240 is formed over the entire lower end of the cooling coil 220 and the water removal unit 250.

The drainage part 240 is located at the lower end of the cooling coil 220 and the water removal part 250 and the first inclined surface 243 is formed on the bottom of the first drip tray 241 and the first drip tray ( It is provided with the 2nd drip tray 244 provided in the edge part of the 1st inclined surface 243 of 241, and the 2nd inclined surface 245 toward one side.

In the drawing, the first inclined surface 243 is inclined downward in the air flow direction, and the second inclined surface 245 is inclined in the transverse direction with respect to the air flow direction.

The first and second drip trays 241 and 244 are formed in a rectangular box shape with an open upper surface so that the depth of the second drip tray 244 is deeper than the depth of the first drip tray 241. It is preferable to allow a natural flow from 241 to the second drip tray 244.

In addition, the reinforcing member 242 may be attached to the upper surface of the first inclined surface 243 so that the cooling coil 220 may be supported on a plane without being inclined. At least two reinforcing members 242 are preferably formed.

In addition, a drainage hole 246 is formed near the lower end portion of the second inclined surface 245, that is, the portion where water is collected, so that the condensate can be discharged smoothly.

In particular, although not shown, a second inclined surface may be formed from one upper vertex of the second inclined surface 245 to a lower vertex in a diagonal direction so that the condensed water may be discharged at one vertex of the second drip tray 244.

In addition, it is preferable that the drain pipe 247 is formed to extend below the drain hole 246 so that water falls in a desired place. In the case of the multi-stage structure as shown, the drain pipe 247 may be disposed to fall to the second drip tray 244 located below.

In the eco-friendly air conditioner having the condensate drainage device configured as described above, air containing water passes through the water removal unit 250 while passing through the cooling coil 220, and at this time, the moisture in the air hits the diaphragm 251. 251) are left on the surface.

Thereafter, the water remaining on the surface of the diaphragm 251 aggregates and falls to the first drip tray 241 by gravity, and the condensed water dropped to the first drip tray 241 flows toward the second drip tray 244 by the first inclined surface 243. Move.

In addition, the condensed water moved to the second drip tray 244 is moved toward the drain hole by the second inclined surface 245 and is moved to the lower end through the drain pipe 247 connected to the drain hole 246 and then discharged to the outside.

On the other hand, in the embodiment of the present invention for the convenience of description will be described by taking a two-stage cooling coil as an example, but is not limited to this can be applied to one cooling coil or three or more stages of the cooling coil is of course.

1 is a front view showing the structure of an air conditioner according to the prior art.

Figure 2 is a front view showing the structure of an eco-friendly air conditioner having a condensate drainage device according to the present invention.

Figure 3 is a perspective view of the cooling coil and the drain according to the present invention.

4 is a perspective view showing the cooling coil and the drain of FIG. 3 separately.

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

100: first case 200: second case

220: cooling coil 240: drain

241: first drip tray 242: reinforcing member

243: first slope 244: second drip tray

245: second slope 246: drainage hole

247: drain pipe 250: water removal unit

251: plate 252: frame

300: third case

Claims (7)

In the air conditioner in which the blower and the cooling coil are installed in the case, The front of the air flow direction of the cooling coil includes a water removal unit installed to prevent the dew condensation, and a drain installed below the cooling coil and the water removal unit, The water removing unit is composed of a frame forming an outer shape and a plurality of diaphragm spaced apart from each other transversely with respect to the air flow direction inside the frame, The drain portion is located throughout the lower end of the cooling coil and the water removing part, and a first drip tray having a first sloped surface formed at the bottom thereof, and a second sloped surface formed at an end portion of the first sloped surface of the first drip tray and having a second sloped surface toward one side thereof. Eco-friendly air conditioner having a condensate drainage, characterized in that consisting of a drip tray. The method of claim 1, Each of the diaphragm has an 'V' shape when viewed in a plane eco-friendly air conditioner having a condensate drainage device. The method of claim 1, Eco-friendly air conditioner having a condensate drainage device characterized in that at least two reinforcing members for supporting the cooling coil between the cooling coil and the first inclined surface. The method of claim 1, The second inclined surface is formed downward in the direction transverse to the air flow direction, the environment-friendly air conditioner having a condensate drainage, characterized in that the drain hole is formed near the lower end of the second inclined surface. The method of claim 4, wherein Eco-friendly air conditioner having a condensate drainage device, characterized in that the drainage hole is formed in the drainage hole extending downward. The method of claim 1, When viewed from the top, the cooling coil side end of the diaphragm eco-friendly air conditioner having a condensate drainage, characterized in that the streamlined. The method according to any one of claims 1 to 6, The cooling coil, the water removing unit and the drain portion is an eco-friendly air conditioner having a condensate drainage device, characterized in that arranged in more than two stages.

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