KR19980045836U - Evaporator Structure of Separate Air Conditioner - Google Patents

Abstract

The present invention is to form an evaporator installed in the indoor unit main body of the separate air conditioner to exchange heat with low-temperature low-temperature refrigerant inside the indoor air, the cross section of the evaporator is formed in a polygonal shape bent along the inner surface of the inlet In order to provide the evaporator structure of the separate type air conditioner which increases the cooling efficiency of the room by increasing its area, the low-temperature and low-pressure refrigerant is heat exchanged with the indoor air in the main body of the indoor unit in which the indoor suction port is formed at the front and the top and the indoor discharge port is formed at the bottom In the installation of the evaporator, the evaporator is arranged in a zigzag coolant tube (5a) flowing the refrigerant, a plurality of cooling fins (5b) is provided on the outer circumferential surface of each refrigerant pipe (5a) so that the cross section of the indoor suction port It is characterized in that it is bent into a polygon along the inner surface of the.

Description

Evaporator Structure of Separate Air Conditioner

The present invention relates to an evaporator structure of a separate air conditioner, and more particularly, in installing an evaporator for exchanging heat of low temperature refrigerant with indoor air in an indoor unit main body, the cross section of the evaporator is polygonal along the inner surface of the indoor suction port. The present invention relates to an evaporator structure of a separate type air conditioner, which increases the cooling efficiency of a room by increasing its area by forming a curved shape.

The conventional split air conditioner is provided with an indoor unit body 1 installed on a window or a wall as shown in FIG. 1, and an evaporator 2 having a planar structure is installed inside the body 1.

The evaporator 2 has a coolant tube 2a through which coolant flows and is arranged in a zigzag shape, and a plurality of cooling fins 2b are provided on the outer circumferential surface of each coolant tube 2a to cool the surrounding air.

That is, the evaporator 2 is a refrigerant that is expanded through a capillary tube (not shown) flows therein, and absorbs ambient heat in the process of evaporating the liquid refrigerant of the refrigerant, thus the room temperature is lowered and the refrigerant itself is It becomes high temperature.

Then, a motor 3 generating power to the lower end of the evaporator 2 is installed, and a circulation fan 4 rotated by the motor 3 is installed to circulate the indoor air toward the evaporator 2.

In addition, the indoor suction port 5 through which the indoor air is sucked toward the evaporator 2 by the rotation of the circulation fan 4 is formed at the front and the upper end of the main body 1, respectively, and the evaporator 2 behind the indoor suction port 5. An indoor discharge port 6 through which heat exchanged and cooled cold air is discharged into the room is formed at the bottom of the main body 1 through the through.

On the other hand, the outdoor unit provided with a compressor and a condenser (not shown) is installed outdoors to circulate the refrigerant.

In the conventional split type air conditioner configured as described above, when the circulation fan 4 is rotated by the driving of the motor 3, the indoor air is sucked into the indoor unit main body 1 along the upper side of the main body 1 and the indoor suction port 5. Discharged through the evaporator 2 to the indoor discharge port 6.

At this time, the low-temperature low-pressure refrigerant flows inside the refrigerant pipe (2a) of the evaporator (2), the refrigerant condensed by condensation at low temperature low pressure in the condenser of the outdoor unit (not shown) is expanded while passing through the capillary tube (not shown) When circulated toward the evaporator 2 of the indoor unit main body 1 with the refrigerant in the liquid mixed state, the double liquid refrigerant evaporates to absorb the surrounding heat.

Therefore, the indoor air is cooled by the indoor air cooled through the plurality of cooling fins 2b formed on the outer circumferential surface of the refrigerant pipe 2a of the evaporator 2 and discharged into the room through the indoor discharge port 6 at the bottom of the main body 1. It is cooled.

The conventional air conditioner has a problem that the evaporator formed on the top of the indoor unit has a planar structure and occupies a lot of space when installed, and the cooling efficiency is lower than that of the occupied space.

The present invention was created in view of the above problems, and in installing an evaporator for exchanging heat of low temperature and low pressure refrigerant with indoor air in the indoor unit, the cross section of the evaporator is polygonal along the inner surface of the indoor suction port. The purpose of the present invention is to provide an evaporator structure of a separate air conditioner which increases the cooling efficiency of the room by increasing the area by forming the curved shape.

1 is a side cross-sectional view of an indoor unit of a conventional split air conditioner.

Figure 2 is a side cross-sectional view of the indoor unit of a separate type air conditioner showing an embodiment of the present invention.

Figure 3 is an excerpt perspective view showing an evaporator of the present invention.

* Description of the symbols for the main parts of the drawings *

10-indoor body, 11-indoor intake,

12-outdoor discharge, 20-evaporator,

21-cooling tube, 22-cooling fin.

In order to achieve the above object, the present invention provides an evaporator for exchanging a low-temperature low-pressure refrigerant with indoor air in an indoor unit body in which an indoor suction opening is formed at a front and an upper end, and an indoor discharge port is formed at a lower end of the indoor evaporator. Coolant pipes are arranged in a zigzag form, a plurality of cooling fins are provided on the outer circumferential surface of each refrigerant pipe and its cross section is bent in a polygon along the inner surface of the indoor suction port.

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

Figure 2 is a side cross-sectional view of the indoor unit of a separate type air conditioner showing an embodiment of the present invention,

Figure 3 is an excerpt perspective view showing an evaporator of the present invention.

The indoor unit main body 10 is provided on the window or wall surface, and the indoor suction port 11 is formed at the front and the upper end of the main body 10, respectively, and the indoor discharge port 12 is formed at the lower end thereof.

On the other hand, inside the main body 1, the evaporator 20 bent in a polygon is installed at the bottom of the indoor suction port (11).

The evaporator 20 is configured to cool the air around the refrigerant pipes 21 through which the refrigerant flows are arranged in a zigzag form, and a plurality of cooling fins 22 bent on the outer circumferential surface of each refrigerant pipe 21. do.

That is, the evaporator 20 is bent in a polygon along the inner surface of the indoor suction port 11 of the upper and lower ends so that the surface area of the cooling fin 22 in contact with the indoor air is wide, and the refrigerant pipe 21 is The expanded refrigerant flows therein through a capillary tube (not shown), and absorbs ambient heat in the process of evaporating the liquid refrigerant.

In addition, a motor 13 generating power to the lower end of the evaporator 20 and a circulation fan 14 rotated by the motor 13 are installed, and the indoor air sucked through the indoor suction port 11 is discharged to the indoor outlet. It is configured to discharge toward (12).

On the other hand, the outdoor unit provided with a compressor and a condenser (not shown) is installed outdoors to circulate the refrigerant.

Referring to the operation of one embodiment of the present invention configured as described above in detail.

First, when cooling is started and power is applied, the motor 13 is driven, and the circulation fan 14 is rotated accordingly so that the indoor air is along the indoor suction opening 11 at the top and front of the main body 10. After being sucked into the interior, it is discharged to the indoor discharge port 12 via the evaporator 20.

At this time, the evaporator 20 is formed in a polygonal structure along the inner surface of the indoor suction port 11 to be in contact with more of the indoor air sucked from the indoor suction port 11.

That is, the area of each bent portion is added to the area of the front and rear surfaces of the evaporator 20 to increase the substantial area. In addition, since the evaporator 20 is bent along the indoor suction port 11 inside the main body, the evaporator 20 can be installed to increase the size of the evaporator 20 itself in the indoor unit space, resulting in a larger area in the main body 10 of the same size. Will be able to install the evaporator 20.

Accordingly, a larger amount of indoor air is brought into contact with the evaporator 20 to increase the cooling efficiency. Meanwhile, a low temperature low pressure refrigerant flows inside the refrigerant pipe 21 of the evaporator 20. The refrigerant condensed at low temperature and low pressure in the condenser is expanded while passing through a capillary tube (not shown), and is circulated toward the evaporator 20 of the indoor unit main body 10 with the refrigerant in a gas liquid mixed state, and the double liquid refrigerant is a refrigerant tube. (21) As it evaporates inside and absorbs the surrounding heat, the room temperature decreases and the refrigerant itself becomes high temperature.

Therefore, the indoor air outlet formed at the outer circumferential surface of the refrigerant tube 21 of the evaporator 20 and cooled by a plurality of cooling fins 22 in contact with a large amount of indoor air in a larger area. The room is cooled cool by being discharged to the room through the (12).

As described above, the present invention is not limited to the contents described in the above embodiment, and all modifications, variations, and improvements included in the contents of the utility model registration claims without departing from the spirit and principles of the present invention. This is to be included.

The present invention has the effect of increasing the area by forming a cross-section of the evaporator bent in a polygonal shape along the inner surface of the inlet to increase the area, thereby increasing the cooling efficiency of the room.

Claims (1)

In the indoor unit main body 10 having the indoor suction opening 11 formed at the front and the upper end and the indoor discharge opening 12 at the bottom thereof, the evaporator 20 for exchanging the low temperature low pressure refrigerant with indoor air is installed. The coolant tube 21 through which the coolant flows is arranged in a zigzag form, and a plurality of cooling fins 22 are provided on the outer circumferential surface of each coolant tube 21 so that its cross section is an inner surface of the indoor suction port 11. Evaporator structure of a separate air conditioner, characterized in that the bending along the polygon.