KR20070080712A - Air conditioner - Google Patents

Abstract

An air conditioner is provided to improve cooling efficiency by allowing indoor air to be passed through only an evaporator for cooling, and to cool heat generated in a condenser by using condensed water generated in the evaporator. An air conditioner comprises a main body(1), circulation cooling space(3) and compulsory cooling space(5). The main body respectively forms the circulation cooling space having an evaporator(30) for indoor cooling, and the compulsory cooling space having a condenser(50) and a compressor(60). The circulation cooling space installs an inflow hole(32) suctioning air from the indoor in a lower part, installs the evaporator and a blow fan in the inside, and arranges a discharge hole(36) discharging air cooled in the inside. The compulsory cooling space installs an inflow hole(52) suctioning air from the outdoor in a lower part, installs the condenser, the compressor and a rapid blow fan(54) in the inside, and arranges a discharge hole discharging air cooled in the inside.

Description

Air Conditioner

1 is a schematic diagram schematically showing a preferred example of the present invention;

2 is a schematic diagram schematically showing another example of the present invention;

3 is a schematic longitudinal sectional view of the present invention;

4 is a schematic diagram schematically showing another example of the present invention;

5 is an enlarged front view of a main portion of the air filter employed in the present invention in FIGS. 1, 3, and 4;

6 is an enlarged front view of the main portion of the air filter employed in the present invention in FIG. 2;

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

1: main body, 3: circulation cooling space,

4: barrier, 5: forced cooling space,

7: distributed feed mechanism, 30: evaporator,

32, 52: inlet, 34: blower fan,

36,56: outlet, 38: condensate,

50: condenser, 54: feeding fan,

58: air filter, 60: compressor,

70: supply line, 72: distributor,

72a: supply hole, 74: tank,

76: discharge line, 78: pump,

80: nozzle, 82: UV sterilization lamp

The present invention relates to a cooling apparatus for cooling the heat generated from the refrigerant of the condenser effectively and to remove the condensed water generated from the evaporator in an integrated air conditioner that can perform cooling using only an indoor unit without an outdoor unit.

In general, an integrated air conditioner without an outdoor unit cools air by air by introducing some air from a room where air is cooled to cool the heat generated by a condenser and a compressor during operation. Air is discharged to the outside, and in some cases, the main form is a combination of cooling water from the outside and cooling by water.

This conventional method does not discharge the indoor air to the outside, and cooling the indoor air to the condenser in a state in which cooling is performed in a situation where the cooling efficiency may not be sufficient even when a circulation operation for cooling the evaporator is performed based on the evaporator. If it is used as a medium for reducing the cooling efficiency more and more undesirable disadvantages occur.

Moreover, in the case of water-cooling in which cooling water is introduced from the outside to cool the heat generated in the condenser, tap water, which is mainly used as a cooling medium as water-cooling, must be continuously introduced from the outside, and eventually a connection configuration is required by the outside and piping. Therefore, the purpose of constituting the air conditioner integrally without the outdoor unit due to its structural characteristics is a factor which makes it impossible to achieve the basic purpose of making it convenient to move during installation or use.

In addition, in the conventional cooling device, in the evaporator which performs the cooling action, condensed water is generated by the temperature difference with the indoor air during the cooling operation. In the case of such condensed water, additional measures for discharging to the outside are required. In the case where it is possible to install pipes and discharge pumps for the discharge of condensate, it is inconvenient to install such facilities, and when condensate is not easily installed or discharged to the outside, the condensate is collected in a separate container. Has periodically adopted an artificial discharge method, which is a very inconvenient reality.

The present invention has been made in order to solve such a conventional problem, was developed with the following objectives.

The main purpose of the present invention is to use the indoor air by utilizing the outdoor air, rather than using the indoor air to cool the heat generated from the condenser during operation in the integrated cooling device configured without the outdoor unit as conventional cooling purposes. It is intended to improve the cooling efficiency relatively by adopting a method of utilizing the cooling inlet and repeatedly discharging it to the outside.

Another object of the present invention is to utilize the condensed water generated in the evaporator during the operation of the cooling system to cool the heat generated in the condenser, so that the more effective diffusion in the cooling space of the condenser and evaporation and drying to be extinguished As such, it is intended to be utilized without a separate condensate discharge means as before.

In order to achieve the above objects, the present invention independently constitutes a circulation cooling space having an evaporator for cooling the room and a forced cooling space having a condenser and a compressor. An inlet for introducing air from the inside is installed, an evaporator and a blower fan are installed at the inside, and an outlet for discharging the air cooled therein is provided at the upper portion. It provides an inlet for the inlet, and a condenser and a compressor, respectively, along with a feeding fan on the inside, and a heat exchanger in the upper part to provide an air outlet for discharging the air in an elevated temperature state to the outside.

In addition, an air filter is installed at a position adjacent to the inlet of the forced cooling space, and the air filter provides a cooling device that is configured to disperse supply condensed water of the evaporator.

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

As shown, according to a preferred embodiment of the present invention as shown in Figures 1 to 6, the circulation cooling space 3 and the condenser 50 having an evaporator 30 for cooling the interior of the main body 1 ) And the forced cooling space (5) having a compressor (60) are configured independently from each other, the circulation cooling space (3) is installed in the inlet 32 for introducing air from the room at the bottom and the evaporator (inside) 30) and a blower fan 34 are installed, respectively, and the upper part is provided with an outlet 36 for discharging the air cooled inside, and the forced cooling space 5 is configured to introduce air from the outside to the lower part. The inlet 52 is provided, and the condenser 50 and the compressor 60 are respectively installed together with the feeding fan 54 on the inner side, and the heat outlet is discharged to the outside through the heat exchange in the upper portion ( 56).

The main body (1) is a sound-absorbing insulating material excellent in heat insulation and sound absorption so that noise and the like can be blocked between the circulation cooling space (3) and the forced cooling space (5) without mutual heat transfer ( 4) is provided and made.

In addition, an air filter 58 is installed at a position adjacent to the inlet port 52 of the forced cooling space 5, and the air supply unit 58 has a distribution supply mechanism for dispersing and supplying condensed water of the evaporator 30. 7) is made.

Furthermore, as illustrated in FIG. 4, the circulation cooling space 3 including the evaporator 30, the condenser 50, and the compressor 60 for cooling the interior of the main body 1 is constituted. The cooling space 3 is provided with an inlet 32 for introducing air from the inside to the lower portion, an evaporator 30 and a blower fan 34 for the inside, respectively, and an outlet for discharging the air cooled from the inside to the upper portion. An air filter 58 is provided at a position adjacent to the inlet 32 of the circulation cooling space 3 and the condensed water of the evaporator 30 is dispersed in the air filter 58. It is made by configuring a distributed feed mechanism (7) for supplying.

At this time, the air filter 58 is formed in the form of a woven fabric to prevent the inflow of impurities or foreign substances from the outside air introduced into the inside and to protect the internal device.

At this time, the dispersion supply mechanism 7 is connected to the upper portion of the air filter 58 via the supply line 70 from the condensate receiver 38 of the evaporator 30 and a plurality of supply holes 72a are provided. It is made in the form of a distributor 72 is provided.

In addition, the dispersion supply mechanism 7 is connected to the supply line 70 via the supply line 70 from the condensate receiver 38 of the evaporator 30 and a tank 74 for storing the collected condensate, and the tank 74 and Pump 78 installed in the middle of the discharge line 76 is connected to the installation, and a plurality of installed in the position adjacent to the air filter 58 as the end of the discharge line 76 via the pump 78 The nozzle 80 is formed in a combined form, the ultraviolet sterilization lamp 82 is installed on the inner upper portion of the tank 74 may be configured to sterilize the internal condensed water of the tank 74.

The present invention to be made as described above is made as follows.

First, when the operation is made, the air in the room is repeatedly cooled through the circulation cooling space 3 provided in the main body 1, and while the blower fan 34 operates, the air in the room is inlet 32 Through the evaporator 30 is introduced into the circulation cooling space (3) through the evaporator 30, the heat exchange is cooled, and the air thus cooled is fed back to the room via the discharge port (36). The phosphorus operation lowers the temperature of the air in the room to perform the cooling operation.

When the cooling operation is repeatedly performed as described above, air passing through the evaporator 30 is condensed by the water vapor on the surface of the evaporator 30 by the temperature difference, and flows down to the condensate receiver 38. Are gathered.

Next, in the forced cooling space 5, the heat generated from the condenser 50 and the compressor 60 inside is caused by the air introduced into the interior through the inlet port 52 from the outside by the operation of the feeding fan 54. After cooling and cooling operation is performed via the condenser 50, it is discharged to the outside through the outlet 56.

At this time, the condensed water collected from the evaporator 30 is distributed to the distributor 72 via the supply line 70 when using the distributed supply mechanism 7 shown in FIGS. 1, 3, 4, and 5. The condensed water moved to the distributor 72 is moved downward through the plurality of supply holes 72a to spread evenly to the surface of the air filter 58, and thus condensed water is introduced into the air filter 58 to be dispersed. In the process of the outside air is continuously introduced through the air filter 58 and scattered in the form of fine particles to make contact with the inside of the condenser 50 and the entire area such as the inside of the forced cooling space (5). The cooling efficiency of the condenser 50 is greatly improved, and after the cooling process is evaporated, dried, and naturally extinguished through the cooling process, the condenser 50 is discharged to the outside together with the discharge air.

Of course, in the case of adopting and using the distributed supply mechanism 7 shown in Figs. 2 and 6, the condensed water collected in the tank 74 via the supply line 70 is pressurized by the operation of the pump 78. It is supplied in a state to be sprayed in the form of fine particles via the nozzle 80 and evenly scattered on the air filter 58, the inside of the forced cooling space (5) throughout the entire area, such as the inside and the surface of the condenser 50 The contact is made to greatly improve the cooling efficiency of the condenser 50, and after the cooling process, such as evaporation to dry and naturally disappears through the outlet 56 is discharged to the outside with the discharge air.

As described above, according to the present invention, in order to cool the heat generated from the condenser 50 during operation in the integrated cooling device configured without an outdoor unit, it is used for cooling purposes by introducing indoor air as in the prior art. In addition, by adopting the method of inflowing into the inside by using outdoor air for cooling purposes and repeatedly discharging to the outside, indoor air can be improved by only passing through the evaporator for pure cooling. The condensed water generated by the evaporator 30 is used to cool the heat generated by the condenser 50 during the operation of the cooling device, but more effectively diffuses in the cooling space of the condenser 50, and evaporation and drying are used to dissipate. So that it can be used without a separate condensate discharge means as before. Air is very convenient.

Claims (4)

The main body 1 is configured independently of the circulation cooling space (3) having an evaporator 30 for cooling the room and the forced cooling space (5) having a condenser (50) and a compressor (60). The circulation cooling space (3) is installed in the inlet 32 for introducing air from the room at the bottom, the evaporator 30 and the blower fan 34 are respectively installed on the inside, and the air cooled inside the upper discharged to the room It is made by providing an outlet 36 to The forced cooling space 5 is provided with an inlet 52 for introducing air from the outside in the lower portion, the condenser 50 and the compressor 60 are respectively installed with a feeding fan 54 inside the heat exchanger in the upper portion This is made by providing an outlet 56 for discharging the air in the state where the temperature is raised to the outside, The main body 1 is provided between the circulation cooling space (3) and the forced cooling space (5) is provided with a blocking wall (4) as a sound absorbing insulation, Dispersion supply mechanism 7 for distributing and supplying the condensed water of the evaporator 30 to the air filter 58 is installed in the position adjacent to the inlet port 52 of the forced cooling space (5) Cooling device, characterized in that consisting of. The method of claim 1, The air filter 58 is made of a woven form, The distribution supply mechanism 7 is connected to the upper portion of the air filter 58 via the supply line 70 from the condensate receiver 38 of the evaporator 30 is provided with a plurality of supply holes (72a) Cooling device, characterized in that configured in the form of a distributor (72). The method of claim 1, The dispersion supply mechanism 7 is connected to the supply line 70 via the supply line 70 from the condensate receiver 38 of the evaporator 30 by a tank 74 for storing the collected condensate water, A pump 78 installed in the middle of the discharge line 76 connected to the tank 74; and A plurality of nozzles 80 which are installed at a position adjacent to the air filter 58 as the end of the discharge line 76 via the pump 78 is formed in a combined form, Cooling device, characterized in that the ultraviolet light sterilization lamp 82 is installed on the inner upper portion of the tank (74). The inside of the main body 1 constitutes a circulating cooling space 3 having an evaporator 30, a condenser 50 and a compressor 60 for indoor cooling, The circulation cooling space (3) is installed in the inlet 32 for introducing air from the room at the bottom, the evaporator 30 and the blower fan 34 are respectively installed on the inside, and the air cooled inside the upper discharged to the room It is made by providing an outlet 36 to An air filter 58 is installed at a position adjacent to the inlet 32 of the circulation cooling space 3, and the air supply 58 is distributed to supply the condensed water of the evaporator 30. Cooling device, characterized in that consisting of.

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