KR19980023013U - Condenser of Air Conditioner - Google Patents

Abstract

The present invention improves the structure of the cooling fan that causes the wind in the air conditioner to cool the condenser and has a dual cooling fan having a different diameter, thereby improving the wind speed distribution of the wind supplied to the condenser surface to improve the heat dissipation effect In order to provide a condenser of an elevated air conditioner, the refrigerant compressed in the compressor is circulated toward the condenser, and the refrigerant condensed in the condenser is circulated back to the compressor through a capillary tube and an evaporator to perform cooling. Cooling fan is formed in the rear to blow wind to dissipate heat of the condenser, a motor having a rotating shaft is inserted so that the cooling fan is rotated, and an auxiliary cooling fan formed in front of the cooling fan to help heat dissipation It is done.

Description

Condenser of Air Conditioner

The present invention relates to an air conditioner, and more particularly, by having a dual structure having a cooling fan structure that causes wind to cool the condenser in different diameters, improving the wind speed distribution of the wind supplied to the condenser surface to increase the heat dissipation effect. It relates to a condenser of an air conditioner.

In general, the air conditioner is installed in a window or the like as shown in Figure 1 is provided with a main body 10 is exposed to the inside, the outside, the outside, the inside of the main body 10 by the diaphragm 20 to the indoor space portion ( 11) and the outdoor space portion 21 and the diaphragm 20 is provided with a motor 28 for transmitting the rotational force in both directions from the center.

In addition, a compressor 26 for compressing the refrigerant at a high temperature and high pressure is installed in the outdoor space 21, and a condenser 22 for liquefying the refrigerant compressed at high temperature and high pressure in the compressor 26 at the rear thereof is installed. . The condenser 22 is provided with a plurality of refrigerant pipes 23 in which the refrigerant flows are arranged in a zigzag form, and a heat dissipation fin 24 for radiating heat generated therefrom to the outer circumferential surface of each refrigerant pipe 23.

In addition, the cooling fan 25 is inserted into the rotating shaft 29 formed in the motor 28 at the rear of the motor 28 corresponding to the outdoor space 21 to blow the wind toward the condenser 22 to condense the condenser 22. Air-cool). In addition, outdoor suction holes (not shown) are formed at both side plates of the outdoor space portion 21, and an outdoor discharge hole 27 is formed at the rear of the condenser 22.

Therefore, when the cooling fan 25 is rotated by the driving of the motor 28, outdoor air is sucked along the outdoor suction port (not shown) and air cooled while passing through the rear condenser 22. Meanwhile, the outdoor air cooled by air is discharged to the outside along the outdoor discharge port 27.

In addition, an evaporator 12 is installed inside the indoor space 11. The evaporator 12 is an expanded refrigerant flows through a capillary tube (not shown) therein, and absorbs ambient heat to evaporate the refrigerant, and lowers the room temperature in the process of evaporating the refrigerant. The circulation fan 15 is installed in front of the motor 28 corresponding to the indoor space 11.

The circulation fan 15 is rotated by a motor 28 which rotates in both directions to circulate the indoor air toward the evaporator 12. In addition, the indoor suction port 13 is installed in the front of the main body 10 by the rotation of the circulation fan 15, the indoor air is sucked toward the evaporator 12, and the heat exchange while passing through the evaporator 12 under the indoor suction port 13 An indoor discharge port 14 through which cooled cold air is discharged to the room is formed.

In the conventional air conditioner configured as described above, when the motor 28 is operated, the circulation fan 15 and the cooling fan 25 installed by being fitted to the rotation shaft 29 in both directions thereof are rotated at the same time. In addition, when the refrigerant is compressed at a high temperature and high pressure in the compressor 26 and then circulated toward the condenser 22, the refrigerant is air-cooled by wind generated by the rotation of the cooling fan 25.

That is, when the cooling fan 25 is rotated, the outdoor air is sucked into the outdoor space 21 through the outdoor suction port (not shown) and then passes through the condenser 22 at the rear. At this time, as the strong wind passes through the condenser 22, the heat of the condenser is radiated to the outside and cooled, and then the wind is exhausted to the outside along the outdoor discharge port 27.

In addition, the refrigerant condensed at low temperature and low pressure in the condenser 22 is expanded through a capillary tube (not shown), and thus the expanded gas liquid mixed refrigerant is circulated toward the evaporator 12 of the indoor space 11 to provide a double liquid state. The refrigerant evaporates to absorb external heat.

Therefore, when the circulation fan 15 is rotated by the driving of the motor 28, the indoor air is sucked into the indoor space 11 along the indoor suction port 13 and then cooled while passing through the evaporator 12. In addition, the cooled indoor air is discharged into the room through the indoor discharge port 14 and the room is cooled.

At this time, a strong wind is supplied to the condenser 22 through the cooling fan 25 to radiate heat generated in the refrigerant condensation process of the condenser 22 to the outside, which will be described in more detail with reference to FIG. 2. .

2 is a view showing the strength of the wind speed for each part of the conventional air conditioner cooling fan, the cooling fan 25 rotated by the motor 28 is a strong wind blowing around the rotation axis 29 around the In the center of the wind is a very slight wind blowing.

Therefore, the surface of the condenser is not evenly dissipated by the strength of the wind speed, and in particular, a very slight wind is blown through the center, so that the heat dissipation effect is almost not at the center of the condenser.

As described above, in the condenser of the conventional air conditioner, the intensity of the wind blown from the cooling fan varies depending on each part of the condenser, so that the distribution of condensation efficiency is not uniform, and in particular, a very small wind is blown in the center of the condenser. There was a problem that the heat dissipation effect of the resulting condensation efficiency is lowered.

The present invention was created in view of the above problems, by improving the structure of the cooling fan that causes the wind to cool the condenser by providing a cooling fan having a dual structure of different diameters, the wind speed of the wind supplied to the condenser surface The purpose of the present invention is to provide a condenser of an air conditioner with improved heat distribution by improving the distribution.

1 is a side cross-sectional view of a conventional air conditioner condenser.

2 is a view showing the strength of the cooling fan wind speed of the conventional air conditioner condenser.

Figure 3 is a side cross-sectional view of an air conditioner condenser showing an embodiment of the present invention.

Figure 4 is a view showing the strength of the cooling fan wind speed of the air conditioner condenser of the present invention.

Explanation of symbols for the main parts of the drawings

12-evaporator, 22-condenser,

26-compressor, 30-secondary cooling fan,

31-extended rotating shaft, 32-cooling fan,

33-spindle, 34-motor.

In order to achieve the above object, the present invention provides a refrigerant compressed in a compressor to be circulated toward a condenser and radiated by a cooling fan, and then recirculated to the compressor through a capillary tube and an evaporator, so that the condenser is located in front of the cooling fan. It is characterized in that the auxiliary cooling fan is provided to blow the wind toward.

In addition, the auxiliary cooling fan is fitted to the rotary shaft extending to the other side of the motor in the rotary shaft of the motor; The cooling fan is characterized in that it is formed in a different diameter.

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

Figure 3 is a side cross-sectional view of the air conditioner condenser showing an embodiment of the present invention, Figure 4 is a view showing the strength of the cooling fan wind speed of the air conditioner condenser of the present invention, the front, rear is indoor, out The main body 10 is provided. The main body 10 is partitioned into an inner space 11 and an outer space 21 by a diaphragm 20, and a diaphragm 20 is rotated at the center of the diaphragm 20. The motor 34 is installed to transmit the rotational force in both directions through.

In addition, a compressor 26 for compressing the refrigerant at a high temperature and high pressure is installed in the outdoor space 21, and a condenser 22 for liquefying the refrigerant compressed at high temperature and high pressure in the compressor 26 at the rear thereof is installed. . The condenser 22 is provided with a plurality of refrigerant pipes 23 in which the refrigerant flows are arranged in a zigzag form, and a heat dissipation fin 24 for radiating heat generated therefrom to the outer circumferential surface of each refrigerant pipe 23.

In addition, a cooling fan 32 and an auxiliary cooling fan 30 are installed at the rear of the motor 34 corresponding to the outdoor space 21 to blow air to the condenser 22 to cool the condenser 22 by air.

In addition, outdoor suction holes (not shown) are formed at both side plates of the outdoor space portion 21, and an outdoor discharge hole 27 is formed at the rear of the condenser 22.

Accordingly, while the cooling fan 32 fitted to the rotary shaft 33 and the auxiliary cooling fan 30 fitted to the extended rotary shaft 31 are simultaneously rotated by the driving of the motor 34, outdoor air is sucked along the outdoor suction port (not shown). And air cooled while passing through the rear condenser 22. Meanwhile, the outdoor air cooled by air is discharged to the outside along the outdoor discharge port 27.

In addition, an evaporator 12 is installed inside the indoor space 11, and the evaporator 12 is an expanded refrigerant flowing through a capillary tube (not shown) therein, and absorbs ambient heat to evaporate the refrigerant. In addition, the room temperature decreases while the refrigerant evaporates.

In addition, a circulation fan 15 is installed in front of the motor 34 corresponding to the indoor space 11, and the circulation fan 15 is rotated by the motor 34 which rotates in both directions, so that the indoor air is evaporated ( To 12).

In addition, the indoor suction port 13 in which the indoor air is sucked toward the evaporator 12 by the rotation of the circulation fan 15 in front of the main body 10 is installed, and the heat exchanger while passing through the evaporator 12 under the indoor suction port 13 As a result, an indoor discharge port 14 through which the cooled cold air is discharged to the room is formed.

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

First, when cooling is started and the motor 34 is operated, the circulation fan 15, the cooling fan 32, and the auxiliary cooling fan 30 installed in both directions are rotated at the same time.

In addition, when the refrigerant is compressed at a high temperature and high pressure in the compressor 26 and then circulated toward the condenser 22, the refrigerant is air-cooled by the wind generated by the rotation of the cooling fan 32 and the auxiliary cooling fan 30. That is, when the cooling fan 32 and the auxiliary cooling fan 30 is rotated, the outdoor air is sucked into the outdoor space 21 through the outdoor suction port (not shown) and then passes through the condenser 22 at the rear.

At this time, in the heat dissipation of the heat of the condenser 22 to the outside while a strong wind passes through the condenser 22, as shown in Figure 4 by the auxiliary cooling fan 30 of the present invention cooling fan 32 Strong wind is also generated in the center of the) to cool the surface of the condenser 22 evenly.

Therefore, the condenser 22 has a uniform wind speed distribution throughout the condenser 22, thereby increasing the condensation efficiency.

Then, the wind cooling the condenser 22 is exhausted to the outside along the outdoor discharge port (27).

Meanwhile, the refrigerant condensed at a low temperature and low pressure in the condenser 22 is expanded while passing through a capillary tube (not shown), and thus the expanded gas liquid mixed refrigerant is circulated toward the evaporator 12 of the indoor space 11 to provide a double liquid state. The refrigerant of evaporates to absorb external heat.

Therefore, when the circulation fan 15 is rotated by the driving of the motor 28, the indoor air is sucked into the indoor space 11 along the indoor suction port 13, and then cooled while passing through the evaporator 12. The indoor air is discharged into the room through the indoor discharge port 14 and the room is cooled.

The above description is only one embodiment of the present invention and can be changed as many as possible within the scope of the present invention.

The present invention improves the structure of the cooling fan that causes the wind to cool the condenser to have a dual cooling fan with a different diameter, to evenly distribute the wind velocity supplied to the surface of the condenser to increase the heat radiation effect condensation efficiency Has the effect of raising.

Claims (2)

In the refrigerant compressed in the compressor 26 is circulated toward the condenser 22 and radiated by the cooling fan 32, and then recirculated to the compressor 26 via the capillary tube and the evaporator 12, A condenser of the air conditioner, characterized in that the auxiliary cooling fan (30) is provided to blow the wind toward the condenser (22) in front of the cooling fan (32). According to claim 1, wherein the auxiliary cooling fan 30 is fitted to the extended rotary shaft 31 formed extending to the other side of the motor 34 on the rotary shaft 33 of the motor 34, Condenser of the air conditioner, characterized in that formed in the cooling fan 32 and a different diameter.