KR200222092Y1 - a combination atructure of water-cooled movable type air-conditioner - Google Patents

Abstract

The present invention relates to a self-cooling mobile air conditioner that does not require an outdoor unit. Since the exhaust and cooling water are supplied at the same time with a single power motor, the cooling water spray method is improved by the up-spraying method while simplifying the installation and manufacturing space. Maximizing efficiency, and effectively remove the moisture by a plurality of heat radiation fins relates to a combined structure of a water-cooled mobile air conditioner that can create a more comfortable indoor environment.

Description

{A combination atructure of water-cooled movable type air-conditioner}

The present invention relates to a self-cooling mobile air conditioner that does not require an outdoor unit, and more particularly, to a coupling structure of a water-cooled mobile air conditioner, which is more efficient and economical and reduces installation space by improving a coupling structure of a known mobile air conditioner. will be.

An air conditioner (hereinafter, referred to as an air conditioner) is used for cooling the room indoors in summer, and serves to cool the room, thereby lowering the room temperature.

A general air conditioner is generally divided into an evaporation means and a blowing means located in the room and a condensation means located in the room, each of which is abbreviated as indoor unit and outdoor unit.

However, conventional air conditioners separated from the indoor and outdoor units are not only complicated to install, but also cannot be moved once installed. Also, if you want to move the air conditioner for reasons such as moving, you need a professional man. Not only waste, but also its disassembly and installation is very inconvenient, and the environmental pollution is caused by the outflow of cooling gas, as well as the exterior of the building by the refrigerant inlet and outflow pipe exposed to the building's outer wall during installation. There is a problem that must be installed to damage the outer wall or windows of the building.

Therefore, self-cooling air conditioners are created that do not require a separate outdoor unit in the near field. Such self-cooling air conditioners cool the refrigerant pipe by air-cooling by air and water-cooling by water inside the air conditioner body, Since there is no generation of condensate by continuously circulating, the self-cooling air conditioner does not need a separate hose and device to discard the condensate discharged as in the prior art.

However, in the conventional self-cooling air conditioner described above, since both the water sprayer and the diffusion plate injected to cool the condensation tube are installed downward, the diffusion of the water is deteriorated and the condensation tube cannot be cooled evenly. There is a problem that the cooling efficiency is lowered, the nozzle end is easily clogged, and when a large amount of water is sprayed for even cooling of the condensation tube, noise is generated as well as the consumption of water is very uneconomical.

In addition, the supply of the cooling water is connected to a separate water supply to replenish whenever necessary, but this is a problem that is difficult to use because the air conditioner is impossible to move, the cooling efficiency is lowered as described above, so that the condensation tube is made of aluminum It is proposed that the heating efficiency is increased by using the tube of the material, but this also has a problem in that its service life is reduced by foreign matter and corrosion generated in the aluminum tube.

The present invention was devised to eliminate the problems described above. Since the exhaust and cooling water are supplied at the same time with one power motor, the cooling water spraying method is improved by the upspray spraying method while simplifying the installation and manufacturing space. The purpose of the present invention is to provide a combined structure of a water-cooled mobile air conditioner that maximizes and effectively removes moisture by a plurality of heat radiation fins, thereby creating a more comfortable indoor environment.

1 is an overall structure of the present invention mobile air conditioner

Figure 2 is a detailed view showing the water jet of the present invention mobile air conditioner

Figure 3 is a top view of the condenser of the present invention mobile air conditioner

Explanation of symbols on the main parts of the drawings

1: compressor 2: refrigerant supply pipe

3: refrigerant recovery pipe 4: condensing unit

5: capillary tube 6: evaporator

7: water spray nozzle 8: dispersion plate

9: drive motor 10: exhaust fan

11: collection cover 12: drip tray

13: exhaust port 14: tube

15,15 ': Heat dissipation fin 16: Water tank

17: automatic water supply device 18: pipe

19 impeller 20 body

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

1 is an overall structural diagram of the present invention water-cooled mobile air conditioner, Figure 2 is a detailed view showing the injection portion of the cooling water.

The refrigerant supply pipe (2) and the refrigerant recovery pipe (3) is connected to the compressor (1), the refrigerant supply pipe (3) is formed as a condensation unit (4) in the form of a plurality of bent, the end of the refrigerant supply pipe (3) In a conventional mobile air conditioner, the capillary tube 5 is formed, and the capillary tube 5 is formed with an evaporator 6 so that the tubular end of the evaporator 6 is connected to the refrigerant recovery tube 3.

The water spray nozzle 7 is upwardly formed in the middle portion of the condensation unit 4, and the dispersion plate 8 is formed on the upper portion thereof. The water spray nozzle 7 described above has an impeller (1) below the main body 20. 19, the impeller 19 is to be rotated by a separate drive motor (9), the upper part of the drive motor (9) to form an exhaust fan 10 to be interlocked with the impeller (19) ,

At the outer circumference of the exhaust fan 10, a collecting cover 11 is formed to connect the lower part of the exhaust fan 10 with the drip tray 12 where the impeller 19 is located, to each other, and the collecting cover 11 has an exhaust port at one side thereof. 13), and the upper portion is to be connected to the conduit 14 connected to the inside of the condensation unit (4).

In addition, a plurality of heat dissipation fins 15 and 15 'are formed in the refrigerant pipe located above the dispersion plate 8 of the condensation unit 4 to collect water vapor generated therein and to evaporate.

Water tank 16 is installed in the lower drip tray 12, the lower one side of the water tank 16 may be configured to form an automatic water supply device 17.

When described in more detail by the accompanying drawings the operation of the present invention mobile air conditioner as described above are as follows.

As shown in FIG. 1, when the compressor 1 operates to supply the refrigerant at a high pressure to the condensation unit 4 inside the main body 20 by the refrigerant supply pipe 2, the refrigerant is compressed and liquefied and the refrigerant supply pipe 2. There will be a high fever.

Therefore, the cool air is generated by the cooler in a cooler state by properly cooling the coolant supply pipe 2 that generates high heat. In the present invention, the coolant is used as the cooling catalyst of the coolant supply pipe 2. Since the cooling water contained in the lower drip tray 12 by the impeller 19 is discharged at a high pressure, the cooling water is discharged to the water spray nozzle 7 at a high pressure.

Therefore, as shown in FIG. 2, the cooling water discharged at a high pressure upwardly collides with the upper dispersion plate 8 and diffuses and scatters, and the cooling water diffused and scatters to the lower side by gravity and surrounds the condensation unit 4. Cool the heat generated from).

Accordingly, the coolant in a more cooled state is introduced into the evaporator 6 through the capillary tube 5, and in this process, the refrigerant in the liquefied state is vaporized and absorbs the surrounding heat, and the evaporator 6 is absorbed by the absorbed heat. The inner tube is cooled rapidly.

Therefore, when the cooling air inside the evaporator 6 is sent out by a separate blower fan (not shown in the drawing), the temperature of the room can be lowered.

In addition, the steam generated in the condensation unit 4 is to have a kinetic force rising to the upper portion as the water vapor in the form of particulates, in this case, as shown in FIG. Evaporates in contact with 15).

The evaporated air is introduced into the collection cover 11 through the pipe body 14 by the exhaust fan 10 formed at one side of the main body 20, and the water vapor introduced into the collection cover 11 is again exhausted at high speed. The water vapor having a high density by the fan 10 collides with the inner wall of the collecting cover 11 and is returned to the drip tray 12 through the lower tube body 18, and the air having a small density is discharged to the exhaust port 13. It is going to escape.

Therefore, there is almost no water vapor flowing out during the operation of the air conditioner, the consumption of cooling water is extremely low and there is no problem of increasing the water content of the room.

In addition, the water tank 16 formed on one side of the drip tray 12 is to supply the water to the drip tray 12 automatically when the amount of cooling water in the drip tray 12 is evaporated or used to reduce the amount of water. When the water level is detected by (17), it is possible to automatically supply the cooling water below a certain level.

Therefore, the user does not have to use the water supply connected to the water supply as in the prior art, or the inconvenience of supplying water from time to time, and since the water tank 16 is integrally integrated, the entire air conditioner can be moved, and the It is easy to move and reinstall, and can be done directly by non-expert users.

The combined structure of the present invention water-cooled mobile air conditioner improves cooling efficiency by improving the spraying method of the sprayed water by the up-splashing method while simplifying the installation and manufacturing space, and effectively removes the moisture by a plurality of heat-dissipating fins. The effect is to create an environment.

Claims (3)

The refrigerant supply pipe 2 and the refrigerant recovery pipe 3 are connected to the compressor 1, and the refrigerant supply pipe 3 is formed of a plurality of bent condensation parts 4, and at the end of the refrigerant supply pipe 3 of the bent part In the portable air conditioner to form a capillary tube (5), a conventional evaporator (6) is formed in the capillary tube (5) so that the tubular end of the evaporator (6) is connected to the refrigerant recovery tube (3). The water spray nozzle 7 is upwardly formed in the middle portion of the condensation unit 4, and the dispersion plate 8 is formed on the upper portion thereof. The water spray nozzle 7 described above has an impeller (1) below the main body 20. 19, the impeller 19 is to be rotated by a separate drive motor (9), the upper part of the drive motor (9) to form an exhaust fan 10 to be interlocked with the impeller (19) , At the outer circumference of the exhaust fan 10, a collecting cover 11 is formed to connect the lower part of the exhaust fan 10 and the drip tray 12 where the impeller 19 is located to each other, and the collecting cover 11 is provided at one side of an exhaust port ( 13) to form a coupling structure of the water-cooled mobile air conditioner, characterized in that the upper portion is connected to the conduit 14 connected to the inside of the condensation unit (4). The structure of claim 1, wherein a plurality of heat dissipation fins (15, 15 ') are formed in the refrigerant pipe located above the distribution plate (8) of the condensation unit (4). The water cooling system of claim 1, wherein a water tank (16) is installed in the drip tray (12), and an automatic water supply device (17) is formed at a lower side of the water tank (16). .