KR200366368Y1 - Portable air-cooled air conditioner - Google Patents

Abstract

The present invention relates to a self-cooling air conditioner, by extending the refrigerant supply pipe in the condensation unit to the upper part of the condensation unit, and forming a plurality of heat dissipation fins in the extended refrigerant pipe,

Water vapor generated when cooling the refrigerant pipe can be completely evaporated by the heat radiating fins so that only the evaporated air can be discharged through the exhaust port to prevent falling water discharged to the exhaust port. It can minimize the failure of the, and relates to a water-cooled mobile air conditioner that can further lower the temperature of the condensation unit by secondary cooling by water vapor.

Description

Portable air-cooled air conditioner

The present invention relates to a self-cooling air conditioner, and more particularly, to a water-cooled mobile air conditioner that enables efficient evaporation of water vapor generated in a condensation unit, while optimizing its performance.

The air conditioner is used for cooling the room indoors in summer, and it is a device that cools the outside air and discharges the cold air into the room. It uses a refrigerant gas for cooling the outside air, and a compressor for compressing the refrigerant, An evaporator that absorbs heat in the air as the refrigerant expands, and a condenser for cooling the refrigerant gas heated by absorbing heat from the evaporator.

That is, a conventional air conditioner is divided into an indoor unit provided with an evaporator and a blower fan installed indoors, and an outdoor unit installed outdoors with a compressor and a condenser, and the indoor unit and the outdoor unit are connected by a refrigerant pipe.

However, the conventional air conditioner formed by separating the indoor unit and the outdoor unit is complicated to install, and once installed, it is impossible to move, and in order to move the air conditioner for reasons such as moving, etc. Waste, of course, there was a problem that disassembly and installation is very inconvenient.

Therefore, a mobile self-cooling air conditioner is provided that does not require a separate outdoor unit to enter the near field, and this self-cooling air conditioner cools the refrigerant pipe by air cooling by air and water cooling by water in the inside of the air conditioner body. Since there is no generation of condensate by continuously circulating the cooling water, there is a self-cooling air conditioner that does not require a separate hose and device for discarding the condensate discharged as in the prior art.

However, the conventional self-cooled air conditioner is water vapor generated when cooling the coolant supply pipe of the cooling water by the cooling water, which does not completely evaporate, and the particulate water vapor is discharged to the outside through the exhaust port, resulting in a drop of water. Occurred because of aesthetic problems.

In addition, condensation may occur in the air conditioner body or the tubular body due to water vapor that is not completely discharged through the exhaust port, and thus, a serious problem may occur.

The present invention has been made to solve the above problems, by extending the refrigerant supply pipe in the condensation unit to the upper part of the condensation unit, by forming a plurality of heat radiation fins in the extended refrigerant pipe,

Water vapor generated when cooling the refrigerant pipe can be completely evaporated by the heat radiating fins so that only the evaporated air can be discharged through the exhaust port to prevent falling water discharged to the exhaust port. The purpose of the present invention is to provide a water-cooled mobile air conditioner that can minimize the failure and can further lower the temperature of the condensation unit by secondary cooling by water vapor.

1 is a structural diagram of the present invention water-cooled mobile air conditioner.

Figure 2 is a sectional view of the main part of the present invention water-cooled mobile air conditioner.

<Description of Symbols for Main Parts of Drawings>

1: compressor 2: refrigerant supply pipe

3: refrigerant recovery pipe 4: condensing unit

5: capillary tube 6: evaporator

7: water sprayer 8: dispersion plate

10: main body 12: drive motor

13: impeller 14: drip tray

15: exhaust port 20,20 ': heat radiation fin

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

1 is an overall structural diagram of the water-cooled mobile air conditioner of the present invention, and FIG.

The refrigerant supply pipe (2) and the refrigerant recovery pipe (3) is connected to the compressor (1), the refrigerant supply pipe (2) is formed as a condensation unit (4) in the form of a plurality of bent, the end of the refrigerant supply pipe (2) A capillary tube 5 is formed, and an evaporator 6 is formed in the capillary tube 5 so that an end of the tube body of the evaporator 6 is connected to the refrigerant recovery tube 3, and a water spray nozzle is formed on the condenser 4. 7) is upwardly formed, the upper part of which forms a dispersion plate 8, the water spray nozzle 7 is connected to the impeller 13 on one side of the lower body 10, the impeller 13 is separate In the water-cooled mobile air conditioner configured to be rotated by the drive motor 12 of,

The refrigerant supply pipe 2 is extended to the upper part of the distribution plate 8 of the condensation part 4 in the main body 10, and a plurality of heat dissipation fins 20 and 20 ′ are formed in the extended refrigerant supply pipe 2. will be.

In the figure, reference numeral 14 denotes a drip tray and 15 denotes an exhaust port.

Hereinafter, the operation of the configuration will be described in more detail with reference to the drawings.

As shown in FIG. 2, when the compressor 1 operates to supply the refrigerant at a high pressure to the condensation unit 4 inside the main body 10 by the refrigerant supply pipe 2, the refrigerant is compressed and liquefied, and the refrigerant supply pipe 2 is provided. There is a high fever in the bar,

The cool air is generated by the cooler in a cooler state by properly cooling the coolant supply pipe 2 that generates high heat. As in a conventional water-cooled air conditioner, cooling water is used as a cooling catalyst of the coolant supply pipe 2. Therefore, the cooling water contained in the drip tray 14 is discharged at high pressure by the impeller 13 rotated by the drive motor 12 formed at one lower side of the air conditioner, and the cooling water is discharged to the water spray nozzle 7.

At this time, the cooling water sprayed upward from the water spray nozzle 7 hits the dispersion plate 8 formed on the upper portion, diffuses and scatters, and falls to the lower portion of the condensation unit 4 by gravity, and the falling cooling water is condensation unit 4. The coolant supply pipe 2 is cooled by contacting the coolant supply pipe 2 inside, and the coolant cooled by the coolant is introduced into the evaporator 6 through the capillary tube 5.

In the above process, the refrigerant in the liquefied state is vaporized and absorbs the surrounding heat, and by the absorbed heat, the tube inside the evaporator 6 is rapidly cooled to generate cooling air inside the evaporator 6, Cooling air generated inside the evaporator (6) is sent to the room by a separate air conditioning blower fan (not shown in the figure).

At this time, in the condensing part 4, when the water sprayed from the water sprayer 7 contacts the refrigerant supply pipe 2, particulate water vapor is generated. As shown in FIG. 2, the heat dissipation fins 20 and 20 ′ formed on the coolant supply pipe 2 extending upwardly of the distribution plate 8 are completely evaporated.

The evaporated air completely evaporated as described above is discharged to the outside through the exhaust port 15 by the rotation of the impeller by the driving motor as in the process of exhausting the conventional air conditioner.

As described above, the present invention, water vapor generated when cooling the coolant pipe can be completely evaporated by the heat radiation fins, so that only the evaporated air can be discharged through the exhaust port to prevent falling water discharged to the exhaust port, on the air conditioner body or pipe By preventing condensation occurring, it is possible to minimize the failure of the air conditioner, and it is possible to obtain an effect of lowering the temperature of the condensation unit by secondary cooling by water vapor.

Claims (1)

The refrigerant supply pipe 2 and the refrigerant recovery pipe 3 are connected to the compressor 1, and the refrigerant supply pipe 2 is formed by the condensation part 4 in the main body 10 in a plurality of bent shapes, and the refrigerant supply pipe of the bending part. (3) In the end of the capillary tube (5), a conventional evaporator (6) is formed in the capillary tube (5) in the water-cooled mobile air conditioner in which the tubular end of the evaporator (6) is connected to the refrigerant recovery pipe (7), Water cooling is characterized in that the refrigerant supply pipe (2) of the condensation unit (4) in the main body 10 is extended to form an upper portion, and a plurality of heat radiation fins (20, 20 ') are formed in the extended refrigerant supply pipe (2). Portable air conditioner.