KR100608129B1 - Air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, an object of the present invention is to provide an air conditioner provided to improve the heat exchange efficiency of the air conditioner.

To this end, the present invention is an air conditioner having a main body having a discharge port and a suction port formed on the upper and side surfaces, a blower installed at the discharge port side, and a heat exchanger provided inside the suction port,

The heat exchanger is provided such that the heat exchange area becomes larger from a portion corresponding to the lower end side of the suction port toward a portion corresponding to the upper end side of the suction port.

Description

Air Conditioner {AIR CONDITIONER}

1 is a perspective view showing the structure of an outdoor unit of an air conditioner according to the present invention.

2 is a cross-sectional view showing the structure of the outdoor unit of the air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

10: body 11: partition plate

12: heat exchange chamber 13: machine room

14: suction port 15: discharge port

16: machine room inlet 20: heat exchanger

21: heat exchange fin 21a: first heat exchanger

21b: second heat exchanger 21c: third heat exchanger

22: refrigerant pipe 30: blower

31: Axial flow fan 32: Motor

The present invention relates to an air conditioner, and more particularly, to an air conditioner provided to improve heat exchange efficiency by improving a structure of a heat exchanger.

In general, the air conditioner includes a refrigeration cycle connected to the compressor, the condenser, the expansion device and the evaporator to form a closed circuit through the refrigerant pipe.

Therefore, the refrigerant circulating along the refrigerant pipe releases heat to the surroundings while condensing in the condenser, absorbs the surrounding heat while evaporating in the evaporator, and a cooling action is performed by the evaporator.

Such an air conditioner is classified into an integrated type in which a component of the refrigeration cycle is installed in one housing and a separate type in which a component of the refrigeration cycle is separated from an indoor unit installed on an indoor side and an outdoor unit installed on an outdoor side. .

In the case of a separate air conditioner, the indoor unit is provided with an indoor heat exchanger which is formed as a normal evaporator to generate cold air through heat exchange with indoor air, and an indoor blower which generates a blowing force to exchange heat with indoor air passing through the indoor heat exchanger. The outdoor unit includes a compressor for compressing a refrigerant and an outdoor heat exchanger provided with a conventional condenser to condense the refrigerant compressed by the compressor through heat exchange with the outdoor air, and generate a blowing force so that the outdoor air passes through the outdoor heat exchanger. The outdoor blower is installed.

Some of the indoor units and the outdoor units are provided with an upper discharge type, which will be described below with an example of an outdoor unit.

The upper discharge outdoor unit is divided into a machine chamber of the lower body in which the compressor is installed and a heat exchange chamber of the upper part in which the heat exchanger is installed, and a discharge port is formed in the upper side of the heat exchange chamber, Suction ports are formed on both left and right sides.

In addition, a normal axial blower fan employed as the blower is installed at the inner side of the discharge port, and a heat exchanger having a square pillar shape having a central side open in the vertical direction is installed at the main body inside the suction port.

Therefore, when the axial blower fan is driven, the outdoor air sucked into the main body through the suction ports on each side is discharged to the outside through the discharge port again by the blow operation of the blower fan which is heat exchanged after passing through the heat exchanger.

However, such a conventional upper discharge type air conditioner has a blower installed on the upper side of the main body in which the discharge port is formed, so that a large amount of air is sucked into the upper side of the suction port adjacent to the blower, and the inlet is far from the blower. While the lower side of the structure has a structure in which a relatively small amount of air is sucked in, the heat exchanger has a problem that the heat exchange efficiency of the heat exchanger is lowered because the upper and lower portions are provided to have the same heat exchange area.

The present invention is to solve such a problem, it is an object of the present invention to provide an air conditioner provided to improve the heat exchange efficiency through the improvement of the structure of the heat exchanger.

According to an aspect of the present invention, there is provided an air conditioner including a main body having a discharge port and a suction port formed on an upper side and a side thereof, a blower installed at the discharge port side, and a heat exchanger provided inside the suction port. Characterized in that the heat exchange area is increased from the portion corresponding to the lower end side of the suction port toward the portion corresponding to the upper side of the suction port.

And the suction port is formed along the side circumference of the body, the heat exchanger is characterized in that provided along the circumference of the suction port.

The heat exchanger may include a plurality of heat exchanger fins spaced apart from each other in parallel with each other along the circumference of the intake port, and a refrigerant pipe penetrated through the heat exchanger fins so as to pass through each of the heat exchanger fins multiple times. The heat exchange area is increased from the portion corresponding to the lower end side of the suction port to the portion corresponding to the upper side of the suction port, and the refrigerant pipe is a portion corresponding to the upper side of the suction port from the portion corresponding to the lower side of the suction port. The heat exchange fin of the side is characterized in that the densely provided.

In addition, the heat exchange fin is characterized in that the left and right width is increased from the portion corresponding to the lower end side of the suction port toward the portion corresponding to the upper end side of the suction port.

In addition, the heat exchange fin is characterized in that provided in step.

In addition, the blower is characterized in that it comprises an axial blower.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail. For reference, the present invention may be applied to both an indoor unit and an outdoor unit of a conventional air conditioner. Hereinafter, a case where the present invention is applied to an outdoor unit of an air conditioner for convenience of explanation.

1 to 2, the outdoor unit of the air conditioner according to the present invention has a rectangular parallelepiped shape in which an inner space is partitioned into an upper heat exchange chamber 12 and a lower machine chamber 13 by a partition plate 11. The main body 10 is provided.

Inlet 14 is formed in the main body 10 on the heat exchange chamber 12 side and on both front and rear and right and left sides along the side circumference, and a discharge port 15 is formed on the top surface of the main body 10 on the heat exchange chamber 12 side. In order to cool the machine room 13, a machine room suction port 16 is formed at one side of the main body 10 at the machine room 13, and a plurality of through holes 11a are formed in the partition plate 11.

In the heat exchange chamber 12, a heat exchanger 20 is formed along a circumference of the suction port 14 and has a square pillar shape in which an overall shape is opened in a vertical direction, and a heat exchange chamber inside the discharge port 15. (12) An air blower (30) is provided at an upper portion, and the air blower (30) includes a conventional axial blower fan (31) provided with an outer circumference thereof close to the discharge port (15), and the axial blower fan (31). And a support member 33 installed in the transverse direction on the heat exchange chamber 12 so as to support the motor 32 and the motor 32.

In addition, the machine room 13 is provided with a compressor 40 for compressing a refrigerant, and an electrical equipment box 50 containing electrical components.

Therefore, the outdoor unit of the air conditioner having such a structure, as the blower 30 operates, the air sucked through the intake port 14 on each side of the heat exchange chamber 12 passes through the heat exchanger 20, The heat exchange operation of the heat exchanger 20 is made by being discharged to the outside again through the discharge port 15. In addition, outside air is also introduced through the machine room suction port 16 by the driving of the blower 30. The outside air is cooled through the through hole (C) after cooling the compressor 40 and the electric box 50 inside the machine room 13. After moving to the heat exchange chamber 12 through 11a) is discharged to the outside of the body 10 together with the air of the heat exchange chamber 12.

On the other hand, the heat exchanger 20 is provided so as to increase the heat exchange area from the portion corresponding to the lower end side of the inlet 14 to the portion corresponding to the upper side of the inlet 14.

The configuration of the heat exchanger 20 is a large amount of air is sucked to the upper side of the inlet port 14 adjacent to the blower 30, while the lower side of the inlet port 14 far from the blower 30 is relatively Since a small amount of air is sucked in, the heat exchange area of the heat exchanger 20 at the portion corresponding to the upper side of the suction port 14 having a large amount of air suction is formed to be large, and the lower side of the suction port 14 having a small amount of air suction The heat exchange area of the heat exchanger 20 of the corresponding portion is to be formed relatively small to improve the heat exchange efficiency of the heat exchanger 20.

For reference, in this embodiment, the top and bottom of the heat exchanger 20 are provided to have a height corresponding to the top and bottom of the inlet 14, respectively, so that the heat exchanger 20 toward the top side from the bottom of the heat exchanger 20. ) Is provided to increase the heat exchange area.

In more detail, the heat exchanger 20 includes a plurality of heat exchange fins 21 provided to be spaced apart in parallel with each other along the circumference of the inlet 14, and a refrigerant pipe 22 provided to penetrate through the heat exchange fins 21. It is configured to include, the refrigerant pipe 22 is provided to be bent to pass through each heat exchange fin (21) a plurality of times. Therefore, the heat exchanger 20 having such a structure allows the outdoor air to exchange heat with the refrigerant flowing along the inside of the refrigerant pipe 22 through the outer surfaces of the respective heat exchange fins 21 and the refrigerant pipes 22.

Here, each of the heat exchange fins 21 is formed to be stepped so that its left and right widths become larger toward the upper side. The heat exchange fins 21 are the first heat exchange part 21a and the left and right widths of the upper side having the largest left and right widths. The third heat exchange part 21c on the lower side formed smallest, and the second heat exchange part 21b provided on the center side so that the left and right widths are smaller than the first heat exchange part 21a and larger than the third heat exchange part 21c. It is formed to be stepped to have, and the refrigerant pipe 22 is provided closer to the first heat exchange portion 21a side from the third heat exchange portion (21c).

Therefore, through the structure of the heat exchange fin 21 and the density distribution of the refrigerant pipe 22 provided to be stepped as described above, the heat exchange fin 21 and the refrigerant pipe 22 respectively have a heat exchange area toward the upper side of the heat exchanger 20. The heat exchange area of the entire heat exchanger 20 including the heat exchange fins 21 and the refrigerant pipes 22 is also increased toward the upper side, and through this, the heat exchanger of the side heat exchanger 20 having less intake air amount. The heat exchange area of the side heat exchanger 20 with a large amount of suction air compared to the area is increased, and the overall heat exchange efficiency of the air conditioner is improved.

Next will be described with respect to the operation of the air conditioner outdoor unit according to the present invention configured as described above and the resulting effects.

First, when the blower 30 is operated by the rotation of the axial blower fan 31 according to the driving of the motor 32, the air sucked through the inlet 14 formed on each side of the heat exchange chamber 12 is a heat exchanger. After passing through 20, the heat exchange operation of the heat exchanger 20 is performed by being discharged again through the discharge port 15 in the upper part of the heat exchange chamber 12, and driven by the blower 30. The outside air introduced through the machine room suction port 16 cools the compressor 40 and the electric box 50 inside the machine room 13, moves to the heat exchange chamber 12 through the through hole 11a, and then heat exchange chamber. It is discharged out of the main body 10 together with the air of the (12).

In this case, the heat exchanger 20 corresponds to an upper end of the inlet 14 which is adjacent to the axial blower fan 31 from a portion corresponding to the lower end of the inlet 14 that is separated from the axial blower fan 31. Since the heat exchange area is increased toward the site, the heat exchange area of the side heat exchanger 20 with a large amount of suction air is increased compared to the heat exchange area of the side heat exchanger 20 with a small amount of intake air, thereby increasing the overall air conditioner. The heat exchange efficiency is improved.

As described above in detail, the air conditioner according to the present invention heat exchanges from the portion corresponding to the lower end of the inlet in which the heat exchanger is separated from the axial blower fan to the portion corresponding to the upper end of the inlet adjacent to the axial blower fan. Since the area is increased, the heat exchange area of the side heat exchanger with a large amount of intake air is increased compared to the heat exchange area of the side heat exchanger with a small amount of intake air, thereby improving the overall heat exchange efficiency of the air conditioner.

Claims (6)

delete In the air conditioner having a main body having a discharge port and a suction port formed on the top and side, respectively, a blower provided on the discharge port side, and a heat exchanger provided on the suction port side, the suction port is formed along the side circumference of the main body, And a heat exchanger is provided along the circumference of the inlet, and the heat exchange area is increased from the portion corresponding to the lower side of the inlet to the portion corresponding to the upper side of the inlet. The method of claim 2, The heat exchanger includes a plurality of heat exchange fins arranged to be spaced in parallel with each other along the circumference of the inlet, and a refrigerant pipe penetrated through the heat exchange fins so as to pass through the heat exchange fins a plurality of times. The heat exchange area is increased from the portion corresponding to the side to the portion corresponding to the upper side of the suction port, and the refrigerant pipe is heat exchanged from the portion corresponding to the lower side of the suction port to the upper side of the suction port. Air conditioner characterized in that the denser toward the fin side. The method of claim 3, wherein The heat exchange fin is an air conditioner, characterized in that the left and right widths are increased from the portion corresponding to the lower end side of the suction port toward the portion corresponding to the upper side of the suction port. The method of claim 4, wherein The heat exchange fin is an air conditioner, characterized in that provided in step. The method of claim 2, The air blower is characterized in that it comprises an axial flow fan.

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