KR100908257B1 - Heat exchanger element assembly for an air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner comprising a plurality of rectangular partition plates mounted as a laminated structure at predetermined intervals, a plurality of partition walls connecting both sides of the partition plates so as to form a one-way air passage for each space between the partition plates, And a heat transfer area expanding portion provided as a corrugated plate structure on the upper surface of each of the diaphragms so that a projection plane of the diaphragm forms a corrugated surface. Further, each of the diaphragms connects the other sides of the diaphragms to each other, The present invention provides a heat exchanging element assembly for an air conditioner which is repeatedly formed at right angles to each layer, wherein the partition plate has a structure in which a latent heat transmitting portion made of paper and a heat transmitting portion made of a metallic material are integrally formed, It is possible to exchange sensible heat and latent heat among the air, so that not only the temperature of room air but also the humidity So that it can be properly maintained.

Air conditioner, heat exchanger

Description

[0001] HEAT EXCHANGE STRUCTURE IN AIR CONDITIONER [0002]

1 is a perspective view schematically showing the structure of an air conditioner equipped with a heat exchanging element assembly;

2 is a perspective view showing the structure of the heat exchanging element assembly in detail;

3 is an exploded perspective view showing a structure of a conventional heat transfer area enlarging portion

4 is an exploded perspective view showing the structure of the heat transfer area enlarging portion of the heat exchanging element assembly according to the present invention.

DESCRIPTION OF REFERENCE NUMERALS

1: air conditioner 10: heat exchange element assembly

11: diaphragm 11a: latent heat transfer part

11b: current heat transfer part 12: partition wall

13: air flow

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner, and more particularly, to a heat exchanger assembly that enables efficient heat exchange between inflow air and outflow air passing through an air conditioner.

The air conditioner refers to a device that adjusts a certain indoor space to a temperature, humidity, and air flow distribution suitable for human activity and at the same time removes dust and the like in the air. Generally, .

In order to increase the efficiency of the air conditioner, the present invention maximizes the mutual contact between the inside and outside air, while minimizing the temperature difference between the inside and outside air, while preventing the inside / outside air from being directly mixed To a heat-exchanging element having a structure for allowing the heat-exchanging element to be formed.

FIG. 1 is a perspective view schematically showing the structure of an air conditioner 1 equipped with a heat exchange element assembly 10, and FIG. 2 is a perspective view showing the structure of the heat exchange element assembly 10 in detail.

As shown in the figure, the heat exchanger assembly 10 for an air conditioner includes a plurality of rectangular partition plates 11 mounted as a laminated structure at predetermined intervals, and a plurality of rectangular partition plates 11 A plurality of partition walls 12 connecting both sides of the diaphragm 11 so as to form a wave form on the upper surface of each diaphragm 12 so that a projection plane in the direction of each air flow path 13 forms a wave, (14) provided as a corrugated plate structure and each of the partition walls (12) connects the other side of the diaphragm (11) with respect to each layer so that each air passage (13) And a structure formed perpendicularly and repeatedly.

2, when air of different nature passes through the heat exchanger assembly 10 through different air passages 13A and 13B, these air pass through the diaphragms 11 And the partition wall 12, the mutual heat transfer progresses actively as the contact area is enlarged by the diaphragm 11 and the heat transfer area expanding portion 14, so that the air of the different nature The temperature difference between the air passing through the heat exchanging element assembly 10 can be minimized.

As shown in FIG. 1, the heat exchanger assembly 10 having such a structure is mounted on the air conditioner 1, and the outdoor air passes vertically through the heat exchanger assembly 10 by a blowing fan (not shown) So that the contaminated indoor air is discharged to the outside and fresh outdoor air is introduced into the room while achieving the basic purpose of the air conditioning. So that efficient operation of the air conditioner can be realized.

That is, when the indoor temperature is to be maintained higher than the outdoor temperature as in the winter, the heat contained in the outgoing air is transferred to the air introduced by the heat-exchanging element assembly 10, In the case where the indoor temperature should be kept lower than the outdoor temperature as in the summer, since the heat contained in the incoming air is transferred to the air discharged by the heat-exchanging element assembly 10, the driving of the air conditioner is saved You can.

3 shows the structure of each layer of the heat exchange element assembly 10, showing the structure of the partition 11, the partition 12 and the heat transfer area enlarging portion 14 constituting one heat exchange element.                         

As shown in the figure, the heat transfer area enlarging unit 14 is formed as a corrugated plate structure having a projected surface in the direction of the air flow path 13. Air passing through the air flow path 13 passes through the adjacent air flow paths 13a and 13b And indirectly in contact with the air passing through the heat exchanger.

Since the air flowing out from the room and the air flowing into the room have a humidity difference as well as a temperature difference, in order to maintain the humidity of the room properly, excessive moisture in the room air or excess moisture in the outdoor air Should be prevented.

However, in the structure of the conventional heat exchanging element assembly, there has been a problem that the structure for maintaining the humidity is not considered.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a heat exchange element assembly capable of maintaining the temperature of indoor air as well as the humidity appropriately by enabling exchange of sensible heat and latent heat between the inflow air and the outflow air passing through the air conditioner. And the like.

In order to achieve the above-mentioned object, the present invention provides a method of manufacturing a plasma display panel, comprising: a plurality of rectangular partition plates mounted as a laminated structure at predetermined intervals; A plurality of partition walls and a heat transfer area enlarging section provided as a corrugated plate structure on the upper surface of each of the partition plates so that a projection plane in the direction of each of the air flow paths forms a wave shape, Wherein the partition plate is formed integrally with a latent heat transfer part made of a paper material and a heat transfer part made of a metal material, wherein the latent heat transfer part is made of a metal material and the heat transfer part is made of a metal material A heat exchanger element assembly for an air conditioner is proposed.

Here, it is preferable that the latent heat transfer part is formed at the deep part of the partition, and the current heat transfer part is formed at the periphery of the partition.

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

As shown in FIGS. 1 and 2, the heat exchanger element assembly for an air conditioner according to the present invention basically comprises a plurality of rectangular partition plates 11 mounted as a laminated structure at predetermined intervals, A plurality of partition walls 12 connecting both sides of each partition plate 11 so as to form a one-way air flow path 13 for each space and a projection surface in the direction of each air flow path 13 are wave- And the heat transfer area enlarging section 14 provided as a corrugated plate structure on the upper surface of the diaphragm 12 so as to form the diaphragm 11 and the diaphragm 11, The structure is the same as the conventional structure in that the air flow paths 13 are repeatedly formed so as to be perpendicular to each other.

However, as shown in FIG. 4, the diaphragm 11 is characterized in that it has a structure in which a latent heat transfer portion 11a made of paper and a current heat transfer portion 11b made of metal are integrally formed.                     

That is, in the conventional structure, the partition plate 11, which has a structure integrally formed of a metal material, is divided to form a latent heat transmission portion 11a made of paper, and the remaining portion is formed of a metal heat- So that the latent heat is transferred by absorbing moisture in the latent heat transfer portion 11a. The latent heat is transferred to the latent heat transfer portion 11a through the heat transfer portion 11b.

Therefore, in the case of the dry area, the moisture contained in the indoor air is transferred to the air introduced into the room through the latent heat transmission portion 11a during the discharge through the air conditioner, thereby preventing the indoor moisture from flowing out to the outside In the case of a wet area, the moisture contained in the outdoor air is transferred to the air flowing out to the outside through the latent heat transfer portion 11a during the flow of the moisture through the air conditioner, thereby preventing the outdoor wetting from flowing into the room .

4, the latent heat transfer portion 11a is formed in the partition plate 11 so as to have a more stable structure. And the current heat transfer portion 11b has a structure formed on the periphery of the diaphragm 11. As shown in Fig.

In the case of a wet area, the area ratio of the latent heat transfer portion 11a to the current heat transfer portion 11b is preferably about 20 to 40%. In the case of a dry region, The area ratio of the portion 11a is preferably about 50 to 70%.

The other structures and working principles are the same as the conventional structure.

That is, as shown in FIG. 2, when air of different nature passes through the heat exchanger assembly 10 through different air passageways 13A and 13B, these air pass through the diaphragms 11 And the partition wall 12, the mutual heat transfer progresses actively as the contact area is enlarged by the diaphragm 11 and the heat transfer area expanding portion 14, so that the air of the different nature The temperature difference between the air passing through the heat exchanging element assembly 10 can be minimized.

As shown in FIG. 1, the heat exchanger assembly 10 having such a structure is mounted on the air conditioner 1, and the outdoor air passes vertically through the heat exchanger assembly 10 by a blowing fan (not shown) So that the contaminated indoor air is discharged to the outside and fresh outdoor air is introduced into the room while achieving the basic purpose of the air conditioning. So that efficient operation of the air conditioner can be realized.

That is, when the indoor temperature is to be maintained higher than the outdoor temperature as in the winter, the heat contained in the outgoing air is transferred to the air introduced by the heat-exchanging element assembly 10, In the case where the indoor temperature should be kept lower than the outdoor temperature as in the summer, since the heat contained in the incoming air is transferred to the air discharged by the heat-exchanging element assembly 10, the driving of the air conditioner is saved You can.

4, the diaphragm 11 has a structure in which a latent heat transfer portion 11a made of paper and a current heat transfer portion 11b made of metal are integrally formed. In the current heat transfer portion 11b, A general heat transfer by radiation occurs, and latent heat is transferred by the absorption of moisture in the latent heat transfer portion 11a.

The present invention provides a heat exchange element assembly that enables exchange of sensible heat and latent heat between the inflow air and the outflow air passing through the air conditioner, thereby maintaining the temperature of room air as well as the humidity appropriately.

Claims (4)

A plurality of rectangular partition plates mounted as a laminated structure at predetermined intervals and a plurality of partition walls connecting both sides of the partition plates so as to form a one-way air passage for each space between the partition plates; And a heat transfer area enlarging section provided as a corrugated plate structure on the upper surface of each of the diaphragms so as to form a corrugated sheet, and each of the diaphragms connects the other sides of the diaphragms with respect to each layer, A heat exchanger assembly for an air conditioner, Wherein the diaphragm is made of a paper material and is formed integrally with a latent heat transfer part formed at the core of the diaphragm and a heat transfer part formed of a metal material and formed at the periphery of the diaphragm. delete The method according to claim 1, Wherein when the installation environment of the air conditioner is humid, the area ratio of the latent heat transmission portion to the current heat transfer portion is 20 to 40%. The method according to claim 1, Wherein when the installation environment of the air conditioner is dry, an area ratio of the latent heat transmission portion to the current heat transfer portion is 50 to 70%.

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