KR20090052026A - A portable air conditioner - Google Patents

Abstract

 A portable air conditioner according to the present invention includes a compression unit through which a refrigerant is sucked and compressed; A condensation unit through which the refrigerant passing through the compression unit is liquefied; An expansion unit for lowering and expanding pressure applied to the liquefied refrigerant; An evaporator through which the refrigerant passing through the expansion part exchanges heat with the atmosphere; And a blower fan configured to flow cold air around the evaporator in a predetermined direction, and an accommodation space in which the evaporator is accommodated is provided. According to this, the air conditioner with high cooling efficiency can be miniaturized and easily carried, and the cost consumed for creating an environment suitable for pets can be saved.

Compression unit, condensation unit, expansion unit, evaporation unit, blowing unit

Description

Portable air conditioner {A portable air conditioner}

 BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable air conditioner, and more particularly, to a portable air conditioner which can be easily carried by miniaturizing the air conditioner with excellent cooling efficiency.

 Typically, air conditioners are installed to provide a more comfortable indoor environment by supplying cold air to a hot and humid room. Here, a conventional air conditioner (hereinafter, referred to as a 'prior art') has a blower fan for flowing cold air in a predetermined direction on one side of an evaporation unit in which a refrigerant exchanges air with the atmosphere. The configuration as described above has a problem in that a space is wasted because the blowing fan and the evaporator should be spaced apart a predetermined distance.

 In addition, the conventional apparatus is provided with a single blower fan, there is a problem that does not flow more than the cold air that can be flown by the blower fan has a low cooling efficiency.

 In addition, the conventional apparatus is provided so that the outdoor unit portion corresponding to the compressor in which the refrigerant is sucked and compressed and the condenser for liquefying the refrigerant passing through the compressor is separated from the indoor unit portion corresponding to the evaporator and the blower fan through which the actual cold air is discharged. There was a problem that the installation and movement is very difficult. Moreover, when trying to move the conventional apparatus, it is difficult for the general person who is not familiar with the structure to separate and install the conventional apparatus, so that a certain cost and substitute for the expert was wasted and the economic cost was wasted.

 On the other hand, the air conditioner for pets that move frequently so far, for the same reason as described above has not been provided. Currently, the number of pets raised in Korea is increasing rapidly every year, and the need for facilities and devices for pets is rising. On the other hand, articles related to pet food, clothing, and ornaments have already been developed and actively commercialized. However, the technology for providing a suitable environment for pets, etc., is underdeveloped.

 Taking Siberian Husky, a kind of dog, as an example, Siberian Husky is suitable for living in a cold environment because of its characteristics. In reality, however, it costs 30,000 won a day to keep the temperature in sync. The cost consumed is equivalent to more than 4.5 million won even when estimated only during the summer period in Korea. In addition, Siberian husky species move frequently as pets, while Siberian husky species move frequently as pets, even though they pay about 4.5 million won. However, air conditioners cannot be as effective as the actual cost. There was a problem.

 The present invention was devised to solve the above problems, and more particularly, the portable air conditioner can be miniaturized and easily carried by being accommodated in each of the blowing fans provided with a plurality of evaporation units for exchanging heat between the refrigerant and the air. There is an object of the invention.

 Portable air conditioner of the present invention for achieving the above object, the refrigerant is compressed and sucked; A condensation unit through which the refrigerant passing through the compression unit is liquefied; An expansion unit for lowering and expanding the pressure applied to the liquefied refrigerant; An evaporator through which the refrigerant passing through the expansion part exchanges heat with the atmosphere; And a blower fan configured to flow cold air around the evaporator in a predetermined direction, and an accommodation space in which the evaporator is accommodated is provided.

 Here, the blowing fan, the main body is formed with a plurality of blowing wings on the side; and a drive motor for rotating the main body.

 The evaporator may further include a hollow tube through which a refrigerant flows, and may have a spiral structure, and the diameter of the spiral structure may be smaller than a diameter of the blower fan, and the evaporator may be accommodated in an accommodation space of the blower fan. According to this, it is possible to save the space wasted due to the installation of the evaporator and the blowing fan in a conventional air conditioner.

 In addition, the driving motor, the blower fan is connected to a plurality, it is possible to discharge a greater amount of cold air than when the blower fan is connected in a single number. According to this, the air conditioner which is more excellent in cooling efficiency than a normal air conditioner can be anticipated.

 On the other hand, there is provided a portable air conditioner case in which the portable air conditioner is installed. According to this, the portable air conditioner can be easily moved.

 According to the portable air conditioner of the present invention, the air conditioner can be miniaturized and easily carried.

 In addition, the portable air conditioner can be provided with a higher cooling efficiency than when a single blower fan is provided.

 The portable air conditioner according to the invention can also be used especially for pets that move frequently. As described above, the number of pets currently raised in Korea is very large, and the number is increasing every year. However, if the living environment is a pet that is not suitable for the domestic climate, much effort, time and money must be spent to match the appropriate climatic conditions. For example, in order to raise Siberian husky species in Korea, it is necessary to spend 30,000 won a day to set the right temperature for Siberian husky species to live.

 However, the use of the portable air conditioner and the portable air conditioner case according to the present embodiment can solve problems such as economic cost and effort consumed to adjust the climatic conditions suitable for the pets whose living environment is not suitable for the domestic climate. When moving a pet, carry a portable air conditioner together, and operate the portable air conditioner at the place where the pet is settled, it is possible to adjust the temperature suitable for the pet even if the pet moves frequently.

 Hereinafter, a portable air conditioner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

 First, FIG. 1 illustrates a process of moving a refrigerant used in a portable air conditioner. The refrigerant changes state while circulating through the compression unit 20, the condensation unit 30, the expansion unit 40, and the evaporation unit 50 to exchange heat with the atmosphere. Here, the portable air conditioner according to the present embodiment is provided with two evaporators 50, so that two evaporators 50 are shown in FIG. 1.

 As shown in FIG. 2, the portable air conditioner according to the present embodiment includes a base member 10, a compression unit 20, a condensation unit 30, an expansion unit 40, an evaporation unit 50, and a blowing unit ( 60).

 The compression unit 20 is provided in a predetermined space of the base member 10 and is connected to the condensation unit 30. The compression unit 20 increases the pressure to a saturation pressure corresponding to the condensation temperature so as to suck the gas refrigerant evaporated in the evaporator 50 to condense and liquefy the next condensation unit 30.

 1 and 2, the condensation unit 30 includes a condensation tube 32 and a condensation fan 34.

 The condensation tube 32 is formed of a spiral structure of the hollow tube through which the refrigerant flows. One end of the condensation tube 32 is connected to the compression unit 20 and the other end is connected to the expansion unit 40.

 The condensation fan 34 is installed to face the hollow portion of the spiral structure. As a result, the air supplied from the condensation fan 34 flows through the hollow part of the spiral structure. Therefore, the refrigerant in the spiral structure is better condensed.

 One end of the expansion part 40 is connected to the condensation tube 32, and the other end is connected to the evaporator 50. It lowers the pressure of the condensed and liquefied refrigerant to change the liquid refrigerant into a gaseous state.

 3 and 5, the evaporator 50 is formed of a spiral structure in the same manner as the condensation tube 32, and one end thereof is connected to the expansion part 40, and the other end is connected to the compression part 20. Connected. In addition, the spiral structure of the evaporator 50 is formed smaller than the diameter of the blower body 62 to be described later. Therefore, the evaporator 50 is accommodated in the storage space of the blowing fan body 62.

 In the related art, the evaporator 50 and the blower unit 60 are spaced apart from each other so that the installation space is wasted. However, in this embodiment, the evaporator 50 is configured to be stored in the blower unit 60, thereby saving installation space. According to this, there is an advantage that the portable air conditioner can be miniaturized and can be easily carried.

 Referring to FIG. 5, the blowing unit 60 includes a blowing fan body 62, a blowing wing 64, and a driving motor 66.

 The blowing fan body 62 is provided in a tubular shape with an open side to accommodate the evaporator 50. Specifically, flanges are provided at both ends of the blower fan body 62, and the flanges at both ends are connected to the plurality of blower blades 64. Meanwhile, in the present embodiment, the blowing fan body 62 is provided in plural numbers.

 In the conventional apparatus, a single blower unit 60 is provided. Therefore, it was not possible to flow more than the cold air that can be flown by the single blower unit 60. However, in this embodiment, a plurality of blower units 60 may be provided, so that high cooling efficiency may be expected as compared with a case in which a single blower unit 60 is provided.

 The blowing blades 64 are provided on the side surface of the blowing fan body 62. Specifically, the blowing blades 64 are provided to be spaced apart from each other, having a predetermined direction and a slope with respect to the normal of the side surface in order to flow the cold air in the direction of the outlet 65.

 The driving motor 66 is provided between the plurality of blowing fan bodies 62 and is connected to each of the blowing blades 64 provided in plurality.

 On the other hand, as shown in Figure 6, in order to easily move the portable air conditioner, a portable air conditioner case 70 (hereinafter 'case') is used. The portable air conditioner is stored in the case 70. Here, the case 70 is open to the portion 72 corresponding to the sonong unit 60 of the portable air conditioner.

 The operation and effect of the portable air conditioner according to the embodiment of the present invention having the above configuration will be described in detail.

 The compression unit 20 sucks and compresses the refrigerant. Specifically, the refrigerant sucked by the compression unit 20 means refrigerant vapor evaporated from the evaporator 50. The sucked refrigerant vapor is compressed in the compression unit 20 to be easily liquefied, and is moved to the condensation unit 30.

 The condensation unit 30 receives the compressed refrigerant vapor and lowers the temperature of the refrigerant vapor while flowing through the condensation tube 32. Furthermore, the condensation fan 34 supplies air outside the condensation tube 32 to a temperature lower than the temperature of the refrigerant vapor. Therefore, the refrigerant vapor is liquefied while passing through the condensation unit (30). And the liquefied refrigerant vapor is moved to the expansion portion (40).

 The expansion part 40 serves to lower the pressure applied to the liquefied refrigerant received from the condensation unit 30. The pressure applied to the coolant is lowered so that the coolant can be easily evaporated from the evaporator 50. The refrigerant passing through the expansion part 40 is moved to the evaporation part 50.

 In the evaporator 50, the refrigerant received from the expansion unit 40 is evaporated. The liquid refrigerant having passed through the expansion part 40 is moved to the evaporation part 50 and evaporates while absorbing the surrounding heat. Therefore, low temperature air, that is, cold air, is formed around the evaporator 50. Meanwhile, the refrigerant evaporated in the evaporator 50 is sucked back into the compression unit 20 and circulated through the above process.

 The blowing unit 60 flows cold air formed around the evaporator 50 in a predetermined direction. Cold air flowing by the blower unit 60 may create a hot and humid room in a comfortable environment.

 Thus, the portable air conditioner according to the present invention can be miniaturized due to its configuration. Miniaturization here means that one person can easily carry the air conditioner by manpower.

 In the above, certain preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiments, and any person having ordinary skill in the art to which the present invention pertains without departing from the spirit and spirit of the present invention claimed in the claims may make various modifications and variations. Would be possible.

1 is a flowchart illustrating a process of moving a refrigerant.

2 is a perspective view of a portable air conditioner according to an embodiment of the present invention.

3 is a plan view of a portable air conditioner according to an embodiment of the present invention.

4 is a side view of a portable air conditioner according to an embodiment of the present invention.

5 is a rear view of a portable air conditioner according to an embodiment of the present invention.

Figure 6 is a perspective view of a blowing unit housed in the evaporator according to this embodiment.

7 is a view showing that the portable air conditioner is installed in the case according to the embodiment of the present invention.

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

10 ... Base member 20 ... Compression part

30 ... condensing unit 32 ... condensation tube

34 ... condensation fan 40 ... expansion

50 ... Evaporator 60 ... Blower Unit

62.Blowing body 64 ... Blowing wing

66 drive motor 70 case

Claims (5)

 A compression unit through which the refrigerant is sucked and compressed;  A condensation unit through which the refrigerant passing through the compression unit is liquefied;  An expansion unit for lowering and expanding the pressure applied to the liquefied refrigerant;  An evaporator through which the refrigerant passing through the expansion part exchanges heat with the atmosphere; And  And a blower fan configured to flow cold air around the evaporator in a predetermined direction, and an accommodation space for accommodating the evaporator therein is provided therein.  According to claim 1, wherein the blowing fan,  The main body is formed with a plurality of blowing wings on the side; And  Portable air conditioner, characterized in that consisting of; a drive motor for rotating the main body.  The method of claim 1, wherein the evaporation unit,  A hollow tube through which a refrigerant flows is formed into a spiral structure, and the diameter of the spiral structure is smaller than the diameter of the blowing fan, and the evaporator is accommodated in a storage space of the blowing fan.  The method of claim 2, wherein the drive motor,  Portable air conditioner, characterized in that the blower fan is connected to a plurality, it is possible to discharge a larger amount of cold air than when the blower fan is connected in a single number.  A portable air conditioner case according to claim 1, wherein the portable air conditioner is installed.

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