KR920004920Y1 - Heat exchanging device - Google Patents

Abstract

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Description

Heat exchanger of air conditioner

1 is a cross-sectional view showing an air conditioner incorporating a heat exchanger according to the prior art.

2 is a diagram illustrating a state in which air is introduced into a heat exchanger according to the related art.

3 is a cross-sectional view showing an air conditioner with a heat exchanger device applied to the present invention.

Figure 4 is a state diagram showing a state in which air is introduced into the heat exchanger of the air conditioner applied to the present invention.

* Explanation of symbols for main parts of the drawings

10 air conditioner 11 intake

12 outlet 20 heat exchanger

21: refrigerant pipe 22: heat exchange fin

23: flexible hose 30: blowing fan

40: ultrasonic vibration means 50: receiving member

51: hole

The present invention relates to a heat exchanger embedded in an air conditioner, and in particular, by placing ultrasonic vibration means in the lower part of the heat exchanger to vibrate the heat exchanger in the vertical direction, the air flowing into the heat exchanger in the room is in an irregular motion state, that is, the heat exchanger in a turbulent state. The present invention relates to a heat exchanger of an air conditioner, which can improve the heat exchange rate of the air, thereby improving the efficiency of the heat exchanger.

In general, the air conditioner 10 is configured to heat-exchange the intake port 11 formed in the lower part of the front surface to suck the indoor air as shown in FIGS. 1 to 2. The heat exchanger 20, and the heat exchanged air was composed of a discharge port 12 formed in the upper front to be discharged to the outside by the blowing fan (30).

In addition, a coolant pipe (not shown) through which the coolant supplied through the coolant pipe 21 flows is disposed inside the heat exchanger 20, and a plurality of heat exchange fins 22 are welded to the coolant pipe.

That is, the air sucked through the inlet 11 formed in the air conditioner 10 is in contact with a plurality of heat exchange fins 22 formed in the heat exchanger 20 to be heat exchanged.

In addition, the heat-exchanged air was supplied to the room through the exhaust port 12 formed in the upper front of the air conditioner 10 by the blowing fan 30.

At this time, when the air sucked through the inlet 11 formed in the air conditioner 10 flows into the heat exchanger 20, as shown in the arrow shown in FIG. Passed.

As a result, sufficient contact motion between the air and the heat exchange fins 22 was not achieved, and the heat exchange rate between the air and the plurality of heat exchange fins 22 was low.

That is, since the heat exchange rate between the air and the heat exchange fins 22 is low, the efficiency of the heat exchanger 20 may not be improved by more than a certain efficiency, so that the efficiency of the air conditioner 10 may not be improved by more than a certain efficiency.

In addition, in the conventional air conditioner, in order to improve the heat exchange rate of the heat exchanger fin and the air introduced into the scene, the heat exchanger fin and the suction port were increased, but there were various problems such as an increase in the size of the air conditioner.

The present invention has been made in view of the above-described various problems, and an object of the present invention is to provide an ultrasonic vibration means for generating ultrasonic vibration in the lower part of the heat exchanger so that the heat exchanger vibrates with ultrasonic waves in the vertical direction. The air flowing into the heat exchanger is changed into a relatively turbulent state and passes between the plurality of heat exchanger fins formed in the heat exchanger, thereby improving the heat exchange rate between the air and the heat exchanger fins.

That is, to provide a heat exchanger of the air conditioner that can improve the efficiency of the heat exchanger by improving the heat exchange rate between the air and the heat exchange fins.

In order to achieve the above object, the heat exchanger of the air conditioner according to the present invention is an air conditioner with a heat exchanger, the receiving member for accommodating the heat exchanger, and disposed in the lower center of the receiving member to the ultrasonic vibration Ultrasonic vibration means for generating and the elastic member is disposed so that the vibration generated in the ultrasonic vibration means is not transmitted to the outside, the air flowing through the suction port formed in the air conditioner can pass between a plurality of heat exchange fins formed in the heat exchanger. When it is relatively changed to the turbulent gas state is characterized by improving the efficiency of the heat exchanger.

The present invention configured as described above, by vibrating the receiving member and the heat exchanger in the vertical direction by the vibration generated by the ultrasonic vibration means to change the air flowing into the heat exchanger from the inlet of the air conditioner to a relatively irregular turbulent state of molecular movement Pass through a plurality of heat exchange fins welded to the refrigerant pipe.

That is, since the air passes while contacting a plurality of heat exchange fins formed in the heat exchanger with irregular molecular motion, the heat exchange rate between the air and the heat exchange fins is improved, thereby improving the efficiency of the heat exchanger.

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

3 is a cross-sectional view showing an air conditioner incorporating a heat exchanger according to the present invention, and FIG. 4 is a cross-sectional view showing a heat exchanger of the air conditioner of the present invention.

3 to 4, reference numeral 40 denotes ultrasonic vibration means for generating ultrasonic vibration in the vertical direction, and is disposed in the lower end central portion of the receiving member 50 to be described later.

In the figure, reference numeral 20 denotes a heat exchanger that heat-exchanges the air flowing in the inlet 11 of the air conditioner 10, and the air conditioner is generally matched with the inlet 11 formed in the air conditioner 10. 10 is disposed inside the plurality of heat exchange fins 22 inserted into the refrigerant pipe (not shown) through which the refrigerant supplied through the refrigerant pipe 21 and the flexible hose 23 is formed.

That is, in the heat exchanger 20, the air flowing from the inlet 11 of the air conditioner 10 passes through contact with the plurality of heat exchange fins 22 formed in the heat exchanger 20, thereby performing heat exchange of the air. .

In addition, the lower portion of the heat exchanger 20 is formed with a size substantially the same as the bottom surface of the heat exchanger 20, the receiving member 50 is formed so that the heat exchanger 20 is not separated.

In addition, the lower end of the receiving member 50, the ultrasonic vibration means 40 for generating ultrasonic vibration as described above is disposed.

That is, when the ultrasonic vibration means 40 generates ultrasonic vibration in the vertical direction, the receiving member 50 and the heat exchanger 20 are vibrated in the vertical direction.

As a result, the air flowing between the plurality of heat exchange fins 22 formed in the heat exchanger 20 is relatively changed to an irregular movement state, that is, a turbulent state as shown by the arrow shown in FIG. (22) and a vigorous contact movement is made to improve heat exchange.

In addition, a hole 51 is formed in the lower portion of the accommodating member 50 so that the absorbent water generated by the temperature difference between the air and the refrigerant in the heat exchanger 20 flows to the outside without accumulating on the accommodating member 50. do.

On the other hand, in the figure (60) is an elastic member that absorbs vibration in itself, when the heat exchanger (20) vibrates in the vertical direction by the ultrasonic vibration means 40, the vibration is absorbed from itself so that the vibration is not transmitted to the outside. And the receiving member 50 is disposed in the upper and lower predetermined positions, respectively.

In addition, one end of the elastic member 60, the support member 70 for supporting the elastic member 60 is fixed to a predetermined position inside the air conditioner 10, respectively.

Meanwhile, in the figure, the elastic member 60 is disposed at the upper and lower edges of the heat exchanger 20, respectively. However, the elastic member 60 is installed at an optimum position capable of absorbing up and down vibrations depending on the location of the heat exchanger 20. In principle.

In addition, the flexible hose 23 connected between the refrigerant pipe 21 and the heat exchanger 20 may also absorb vibration from the vibration pipe itself without being transmitted to the refrigerant pipe 21. It is supposed to be.

According to the present invention configured as described above, when the ultrasonic vibration means generates vibration in the vertical direction, the heat exchanger vibrates in the vertical direction so that the air flowing into the heat exchanger from the inlet formed in the air conditioner is relatively irregular in motion, that is, the refrigerant flows in the turbulent state. Heat exchange rate is improved by contact motion with a plurality of heat exchange fins welded to the pipe.

As a result, the efficiency of the heat exchanger can be improved and the efficiency of the air conditioner can be improved.

Claims (2)

In the air conditioner (10) in which a heat exchanger (20) having a plurality of heat exchange fins (22) is disposed, an accommodation member (50) for accommodating the heat exchanger (20) and a lower center portion of the accommodation member (50) Ultrasonic vibrating means 40 is disposed to generate the vibration of the ultrasonic wave and the elastic member 50 is disposed so that the vibration generated in the ultrasonic vibrating means 40 is not transmitted to the outside of the air conditioner 10 Heat exchanger of the air conditioner, characterized in that the air flowing through the formed inlet 11 is changed to a relatively turbulent gas state in the heat exchanger (20) to improve the efficiency of the heat exchanger (20). The method of claim 1, wherein the receiving member 50 has a hole 51 formed in the lower portion, the dehumidifying water generated by the temperature difference between the air and the refrigerant in the heat exchanger 20 is discharged to the outside to the receiving member 50 Heat exchanger of the air conditioner, characterized in that not accumulated.