KR100287633B1 - Improved cooling structure of indoor unit self cooling air conditioner. - Google Patents

Abstract

(1) The technical field to which the invention described in the claims belongs.

In an air conditioner that uses a water and air to cool (condensate) a refrigerant inside an indoor unit, to improve the structure of water injection and air flow and to prevent bacteria from growing in the cooling water.

(2) The technical problem which invention is going to solve.

If water only flowed down, it would be difficult to cool the condenser properly and some of the hygiene problems could be caused by the growth of bacteria in the water.

(3) The subject matter of the present invention solution.

On the bottom or side of the condenser case 10, a spray nozzle 12 for spraying water in the form of a mist with a high pressure pump was installed, and the water tank 20 was equipped with an ultraviolet sterilization lamp 21 and an antibacterial filter 22. Installed.

(4) Important uses of the invention.

The condenser 2 can be cooled more efficiently and the cooling water can be kept clean, further improving the performance of the indoor unit self-cooling air conditioner.

Description

Improved cooling structure of indoor unit self cooling air conditioner.

The present invention relates to an air conditioner consisting only of an indoor unit by cooling (condensing) a refrigerant by using water and air in an indoor unit. The condenser case and water tank for cooling the condenser are improved to improve cooling efficiency and to provide cooling water. To prevent the growth of harmful bacteria.

As is well known, the indoor unit self-cooling air conditioner has a condenser case in which the condenser is built in, and a water tank, a water pump, and a compressor are installed inside the indoor unit to cool the refrigerant passing through the condenser with water and air inside the indoor unit. Consists of.

In order for the air conditioner to function properly during the cooling of the indoor unit itself, it is important to efficiently cool the condenser using water and air, and in the case of simply spraying water as in the prior art, it will be difficult to cool the condenser evenly. .

Another problem is that water is used for cooling, which causes bacteria to multiply in the water tank, which is a hygienic problem. There was also a problem with the exhaust.

Accordingly, the present invention proposes a method for efficiently cooling the structure in which water is sprayed to the condenser and the air circulates in the condensation method of the indoor air conditioner self-cooling air conditioner, and the bacteria grow in the cooling water. It has been devised to further improve the efficiency and reliability of the indoor unit's own cooling air conditioner by preventing hygienic problems.

1 is a cross-sectional view showing the overall configuration of an air conditioner according to the present invention

Figure 2 is a cross-sectional view showing a condenser case of the present invention

3 is a cross-sectional view taken along the line A-A 'of FIG.

4 is a cross-sectional view showing a water tank of the present invention.

5 is a cross-sectional view taken along the line B-B 'of FIG.

6A-6D are cross-sectional views showing another embodiment of the condenser case of the present invention.

※ Explanation of code for main part of drawing

(1) air conditioner (2) condenser

(3) High pressure pumps (4) Water jet plates

(10) Condenser Case (11) Air Inlet

(12) Spray Nozzle (13) Cover

(14) Support plate (15) Air suction space

(16) Air Holes (17) (17 ') Cover

(18) Guide Plate (19) Exhaust Fan

(20) Water Tank (21) UV Sterilization Lamp

(22) Antibacterial filter (30) Filtering net

The present invention forms a plurality of air inlet holes (11) on the side when the condenser case 10 of the indoor unit self-cooling air conditioner (1) as shown in Figure 2, 3 and the condenser 2 is the bottom surface After a little spaced apart from the installation of a plurality of spray nozzles 12 on the bottom surface so that the water is sprayed to the condenser in the form of mist in the form of fine particles, the spray nozzle 12 is the water of the water tank (20) Was sprayed by the high pressure pump (3).

In addition, as shown in FIGS. 4 and 5, the water tank 20 is installed with an ultraviolet sterilization lamp 21 so that the end is submerged in water, and one side of the mesh antibacterial filter 22 across the water tank 20. ) Was installed.

Referring to the embodiment shown in Figure 6a, after the support plate 14 is installed in the middle of the condenser case (10a), that is, the condenser 2, the spray nozzles (12) are installed on both sides of the support plate (14) It was.

6b shows the central portion of the condenser case 10b. It shows that the air inlet space (15) is formed in this form to form an air inlet (11) and a plurality of spray nozzles (12) are installed on the side wall.

FIG. 6C shows that the water spray plate 4 is installed on the condenser 2 in the condenser case 10c to sprinkle water downward, and the air inlet 11 is attached to the cover 17 of the condenser case 10c. After the formation, the guide plate 18 and the exhaust fan 19 were installed on the bottom surface so that the air also flowed downward. At this time, the air hole 16 was protruded and the cover thereon so that water was not discharged to the exhaust fan 19. (13) is comprised.

The embodiment shown in FIG. 6D is a nonwoven fabric in the form of a zigzag across the space between the upper part of the condenser case 10d, ie, the top of the condenser 2 and the cover 17 'on which the exhaust fan 19 is installed. The filter net 30 is installed.

In the drawings, reference numeral 5 denotes an evaporator, 6 a solenoid valve, 7 a water level sensor, and 8 a diaphragm for preventing a wave of water.

According to the present invention configured as described above, the spray nozzle 12 sprays water toward the condenser 2 in the form of a mist, thereby effectively cooling the entire surface of the condenser 2 evenly. While it is well discharged with air, the rate of circulating the heated water back to the water tank 20 is reduced, so that the cooling action is more smooth.

In addition, since the ultraviolet light sterilization lamp 21 is installed in the water tank, the sterilization effect is also provided, and the antibacterial filter 22 is installed next to the sterilization filter.

6A and 6B illustrate another embodiment of the present invention, in which the installation positions of the spray nozzles 12 are different, and water is sprayed from the central part or both sides, thereby allowing the condenser 2 to be cooled more evenly.

In the embodiment of 6c, the water flows in the same direction as the air flows, and the water flows uniformly and correctly like the air, thereby allowing the condenser 2 to be cooled down more efficiently without causing the water to flow out of unnecessary places. . At this time, the water is not discharged to the air hole 16 like the air due to the cover (7).

The embodiment of Figure 6d is because the cooling air containing the steam is not immediately discharged to the filter net 30 is filtered so that the water is filtered and eventually prevent the consumption of water to save the replenishment water.

As described above, the present invention improves the cooling efficiency by improving the configuration and water flow structure of the indoor unit self-cooling air-conditioning and can solve the sanitary problem of the water tank 30, etc. It is a useful invention that can further increase the reliability of the air conditioner.

Claims (5)

In the air conditioner when the indoor unit itself cools, a plurality of air inlet holes 11 are formed on the side when the condenser case 10 is formed to cool the refrigerant by incorporating the condenser 2 and the bottom surface of the condenser case 10. The spray nozzle 12 is installed in the water tank 20 to supply water to the high pressure pump 13, and the water tank 20 is installed at one side with an infrared sterilization lamp 21 so that the bottom is submerged in water. And one side is an improved cooling device of the indoor unit self-cooling air conditioner, characterized in that the water tank 20 is installed by installing the antibacterial filter 22 of the mesh type to cross the inside. The method of claim 1, Improved cooling device of the indoor air-conditioning-cooled air conditioner, characterized in that it is configured by installing the support plate 14 in the center of the condenser case (10a) and then install the spray nozzle (12) in both directions of the support plate (14). The method of claim 1, In the center of the condenser case 10b; After the air intake space (15) in the form of the air inlet hole (11) formed here and the spray nozzle (12) on the side wall is configured to improve the cooling device of the indoor magnetic cooling air conditioner. The method of claim 1, Install a water spray plate 4 on the condenser 2 upper part inside the condenser case 10c and sprinkle water down, and form an air inlet 11 in the cover of the condenser case 10c, 18) and an exhaust fan 19 are installed to allow air to flow in a downward direction, and the bottom surface protrudes the air hole 10, and a cover 13 is formed thereon. Cooling system. The method of claim 1, It is configured by installing a non-woven filtration net 30 to zigzag the space between the upper portion of the condenser case (10d), that is, the upper portion of the condenser 2 and the cover (17 ') in which the exhaust fan (19) is installed. An improved cooling system for an indoor gas self-cooling air conditioner.