KR20040040166A - Heat exchange structure in air conditioner - Google Patents

Abstract

PURPOSE: A heat exchange structure for an air conditioner is provided to efficiently exchange heat between inflow air and outflow air passing through an air conditioner by adding a heat transfer effect by radiation. CONSTITUTION: A heat exchange structure for an air conditioner includes a plurality of square diaphragms(11) mounted at regular gaps in an accumulation structure, a plurality of partitions connecting both sides of each diaphragm to form air passages(13A,13B) in one direction every space between the diaphragms. The plurality of square diaphragms are made of a metal material. Colored coating thin films(100) are formed on both surfaces of the plurality of square diaphragms to increase the emissivity.

Description

Heat exchanger assembly for air conditioner {HEAT EXCHANGE STRUCTURE IN AIR CONDITIONER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to a heat exchange element assembly which enables more efficient heat exchange between inlet and outlet air passing through an air conditioner.

An air conditioner is a device that adjusts a certain indoor space to a temperature, humidity, and airflow distribution suitable for human activity, and removes dust in the air at the same time. Generally, a concept including an air conditioning and heating device. Used as

According to the present invention, in order to increase the efficiency of an air conditioner, the inside and outside air is prevented from being directly mixed while maximizing the mutual contact of the inside and outside air, while minimizing the temperature difference between the outside air. It relates to a heat exchange element of the structure to be able to.

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

As shown, the heat exchange element assembly 10 for the air conditioner forms a plurality of rectangular diaphragms 11 mounted as a stacked structure at predetermined intervals, and a one-way air passage 13 for each space between the diaphragms 11. Each partition 11 is provided with a plurality of partitions 12 connecting both sides of the partition 11, and each partition 12 is connected to each other side of the partition 11 for each floor, each air flow path 13 ) Has a structure repeatedly formed at right angles to each layer.

In addition, in order to enlarge the heat transfer area by each of the diaphragms 11, the upper surface of each diaphragm 12 has a corrugated plate structure so that the projection surface in the direction of each air flow path 13 forms a wave shape. The area enlargement part 14 is provided.

Therefore, as shown in FIG. 2, when air of different properties passes through the heat exchange element assembly 10 through different air flow paths 13A and 13B, these air flows through the diaphragm 11 constituting each layer. Although not directly mixed by the bulkhead 12 and the partition wall 12, the mutual heat transfer is actively progressed as the contact area is enlarged by the diaphragm 11 and the heat transfer area expanding portion 14, so that the air having different properties The temperature difference between the air while passing through the heat exchange element assembly 10 can be minimized.

The heat exchange element assembly 10 having this structure is mounted on the air conditioner 1 as shown in FIG. 1, and indoor and outdoor air passes vertically through the heat exchange element assembly 10 by a blower fan (not shown). While the heat exchange as described above, the contaminated indoor air is discharged to the outside and the fresh air is introduced into the room, while achieving the basic purpose of air conditioning, while the air flow is made in a state where the temperature difference between both air is minimized. In order to ensure efficient operation of air conditioning systems.

That is, when the indoor temperature is to be maintained higher than the outdoor, such as in winter, heat contained in the outflowing air is transferred to the air introduced by the heat exchange element assembly 10, thereby saving driving of the heating device. If the indoor temperature is to be kept low compared to the outdoor, such as in summer, the heat contained in the incoming air is transferred to the air discharged by the heat exchange element assembly 10, thereby saving the driving of the cooling device. It can be.

FIG. 3 is a structure of each layer of the heat exchange element assembly 10. The structure of the diaphragm 11 constituting one heat exchange element excluding the heat transfer area enlargement portion 14 is briefly described. It is shown.

As shown, the air passing through the air flow path 13A causes heat transfer while indirectly contacting the air passing through the adjacent air flow path 13B by the diaphragm 11, which causes heat transfer to convection, conduction and radiation. Is made by.

By the way, in the structure of the conventional heat exchange element assembly as described above, it has been criticized that it is an inefficient structure because it takes only the heat transfer by convection and conduction without any consideration of heat transfer by radiation. .

It is an object of the present invention to provide a heat exchange element assembly which can more efficiently exchange heat between inflow air and outflow air passing through an air conditioner.

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

Figure 2 is a perspective view showing in detail the structure of the heat exchange element assembly

Figure 3 is an exploded perspective view showing the structure of a conventional unit heat exchange element

Figure 4 is an exploded perspective view showing the structure of a unit heat exchange element according to the present invention

5 is an enlarged perspective view of a main part of FIG. 4;

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

1: air conditioner 10: heat exchange element assembly

11: plate 12: bulkhead

13: air flow path 100: colored coating thin film

In order to achieve the object described above, the present invention provides a plurality of rectangular diaphragms mounted as a laminated structure at predetermined intervals, and connecting both sides of each diaphragm to form a one-way air passage for each space between the diaphragms. A heat exchange element assembly for an air conditioner having a plurality of partitions, wherein each of the partitions is formed by connecting the opposite sides of the diaphragm to each layer so that the respective air flow paths are repeatedly formed at right angles to each floor. A plurality of rectangular diaphragm is formed by a metal material, the surface of the diaphragm is provided with a heat exchange element assembly for an air conditioner, characterized in that a colored coating thin film formed.

Here, the colored coating thin film is preferably formed on both sides of the plurality of rectangular diaphragm.

Further, it is preferable to further include a heat transfer area enlargement portion provided as a corrugated plate structure on the upper surface of each of the diaphragms so that the projection surface in the direction of each air flow path forms a wave shape.

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

As shown in Fig. 1 and Fig. 2, the heat exchange element assembly for an air conditioner according to the present invention is basically a plurality of rectangular diaphragms 11 mounted as a laminated structure at predetermined intervals, and between each diaphragm 11. Each partition 12 includes a plurality of partitions 12 connecting both sides of each partition 11 to form a one-way air flow path 13, and each partition 12 is different from each partition 11 in each floor. By connecting both sides, each air flow passage 13 is the same as the conventional structure in that it takes a structure repeatedly formed at right angles to each layer.

However, as shown in FIGS. 4 and 5, the plurality of rectangular diaphragms 11 are formed of a metal material, and the colored coating thin film 100 is formed on the surface of the diaphragm 11. Have

The emissivity of the general metal material is about 0.1 to 0.2, whereas the emissivity of the colored coating thin film 100 is about 0.9, so that the air passing through the air passage 13 with the diaphragm 11 therebetween. In the heat transfer indirectly generated, the heat transfer effect by radiation is added in addition to convection and conduction, so that a more efficient heat transfer can be obtained by a simple structure change.

Here, since the air flow path 13 is formed along both sides of the diaphragm 11, it is preferable to form the colored coating thin film 100 on both sides of the plurality of rectangular diaphragms 11 for more efficient heat transfer.

Based on such a structure, the heat transfer provided as a corrugated plate structure in the upper surface of each diaphragm 12 so that the projection surface in the direction of each air flow path 13 may form a wave like the conventional structure. It is a matter of course that it is more preferable to further provide the area expansion part 14.

The material of the diaphragm 11 is a metal material such as aluminum having a high thermal conductivity is suitable, the colored coating thin film is advantageous the thinner the thickness, the darker the color of the coating film is more effective.

Other structures and working principles are the same as the conventional structures.

That is, as shown in FIG. 2, when the air having different properties passes through the heat exchange element assembly 10 through the different air flow paths 13A and 13B, these air flows through the diaphragm 11 constituting each layer. Although not directly mixed by the bulkhead 12 and the partition wall 12, the mutual heat transfer is actively progressed as the contact area is enlarged by the diaphragm 11 and the heat transfer area expanding portion 14, so that the air having different properties The temperature difference between the air while passing through the heat exchange element assembly 10 can be minimized.

The heat exchange element assembly 10 having such a structure is mounted on the air conditioner 1 as shown in FIG. 1, and indoor and outdoor air passes through the heat exchange element assembly 10 perpendicularly to each other by a blowing fan (not shown). While the heat exchange as described above, the contaminated indoor air is discharged to the outside and the fresh air is introduced into the room, while achieving the basic purpose of air conditioning, while the air flow is made in a state where the temperature difference between both air is minimized. In order to ensure efficient operation of air conditioning systems.

That is, when the indoor temperature is to be maintained higher than the outdoor, such as in winter, heat contained in the outflowing air is transferred to the air introduced by the heat exchange element assembly 10, thereby saving driving of the heating device. If the indoor temperature is to be kept low compared to the outdoor, such as in summer, the heat contained in the incoming air is transferred to the air discharged by the heat exchange element assembly 10, thereby saving the driving of the cooling device. It can be.

As shown in Figures 4 and 5, on one side or both sides of each partition 11 is formed a colored coating thin film 100, which passes through the air flow path 13 formed on both sides of the partition 11 In the heat transfer between, by adding the heat transfer effect by radiation in addition to convection and conduction, more efficient heat transfer is enabled.

The present invention provides a heat exchange element assembly for more efficient heat exchange between the inlet air and the outlet air passing through the air conditioner.

Claims (3)

And a plurality of rectangular diaphragms mounted as a laminated structure at predetermined intervals, and a plurality of partition walls connecting both sides of each of the diaphragms so as to form a one-way air flow path for each space between the diaphragms. In the heat exchange element assembly for an air conditioner in which each air flow path is repeatedly formed at right angles to each floor by connecting different sides of the diaphragm to each floor, The plurality of rectangular diaphragm is formed by a metal material, the surface of the diaphragm heat exchange element assembly, characterized in that the colored coating thin film is formed. The method of claim 1, The colored coating thin film is a heat exchange element assembly for an air conditioner, characterized in that formed on both sides of the plurality of rectangular diaphragm. The method according to claim 1 or 2, And a heat transfer area enlargement portion provided as a corrugated plate structure on an upper surface of each of the diaphragms so that the projection surfaces in the direction of each air flow path form a wave shape.