KR20080026941A - Total heat exchanger element using different material - Google Patents

Abstract

A total heat exchanger unit having a corrugation element made of plastic materials is provided to make corrugation elements of a plastic material for minimizing the deformation of the corrugation elements due to the expansion and retraction thereof, thereby ensuring ventilation performance of the total heat exchanger unit. A total heat exchanger unit having a corrugation element made of plastic materials includes first and second stacking parts(30,40), each being formed of a liner(10) in the flat plate shape and a corrugation element(20) attached to the liner. The corrugation elements of the first and second stacking parts intersect each other. The liner is made of paper and the corrugation element is made of any one plastic material chosen among polyethylene, polypropylene, and polystyrene.

Description

Total heat exchange element using two materials {TOTAL HEAT EXCHANGER ELEMENT USING DIFFERENT MATERIAL}

1 is a perspective view showing a total heat exchange element according to the present invention.

Figure 2 is an enlarged perspective view of the liner and the colgate of the total heat exchange element according to the present invention.

(Description of symbols in the drawings)

1: electrothermal exchange element 10: liner

20: Colgate 30: first laminate

40: second laminate

The present invention relates to a total heat exchange element, and more particularly, to a total heat exchange element that can prevent the deformation of the colgate due to heat exchange by forming a colgate supporting the liner made of a plastic material.

In general, the total heat exchange element is a device that is mounted on an air conditioner such as a waste heat recovery ventilator to allow heat exchange between the outdoor air flowing into the room and the indoor air flowing out to the outside in an opposite direction in a separate frame. This is to minimize the loss of energy due to heating or cooling.

The heat exchange element inserts paper materials side by side in a multi-stage inside the frame of the box shape, and the inserted paper material is inserted in a diagonal direction with an adjacent layer so that the air flowing into the room from the outside and the air flowing out from the room to the outside are inserted. Each flow path is formed by a paper material formed in multiple stages within the frame and configured to exchange heat.

Specifically, in the conventional electrothermal heat exchange element, a flat liner and a colgate attached to an upper portion of the liner to form a flow path form a single layer, and each of these layers is positioned in a diagonal direction with an adjacent layer and stacked in multiple stages. Heat exchange between the fluid flowing through adjacent layers.

However, in the conventional heat exchange element, both the liner and the corrugated sheet are made of paper, and the corrugated sheet is deformed due to shrinkage and expansion due to the exchange of heat and water, which may cause a gap between the corrugated liner and the liner. Therefore, there is a problem that the ventilation capacity of the total heat exchange element is lowered and the life is shortened.

In order to solve the above problems, the present invention is to provide a total heat exchange element that can prevent the deformed colgate supporting the liner due to shrinkage expansion by heat exchange by forming the corrugated plastic.

In order to achieve the above object, the electrothermal heat exchange element according to the present invention comprises a first laminated portion consisting of a flat liner and a corrugated corrugated shape attached to the liner; And a second stacking portion including a flat liner and a corrugated corrugated shape attached to the liner, wherein the first stacking portion is orthogonal to each other so that the colgate of the first stacking portion and the colgate of the second stacking portion are perpendicular to each other. And a plurality of second stacked parts sequentially stacked, the liner is made of paper, and the colgate is made of plastic.

Preferably, the plastic is characterized in that any one of polyethylene, polypropylene, and polystyrene.

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

1 is a perspective view showing the total heat exchange element according to the present invention, Figure 2 is an enlarged perspective view of the liner and the corrugated gate of the total heat exchange element according to the present invention.

1 and 2, a flat liner 10 and a corrugated corrugated shape 20 are attached to an upper portion of the liner 10 to form a first stacked portion 30. In addition, similarly to the first layered portion 30, a flat liner 10 and a corrugated corrugated shape 20 are attached to the upper portion of the liner 10 to form the second stacked portion 40.

The first stacked portion 30 and the second stacked portion 40 are vertically stacked to be orthogonal to each other, and a pair of the first stacked portion 30 and the second stacked portion 40 stacked to be orthogonal to each other as described above. A plurality of are stacked to form the total heat exchange element (1).

In other words, the first stacked portion 30 and the second stacked portion 40 are arranged such that the colgate 20 of the first stacked portion 30 and the colgate 20 of the second stacked portion 40 are perpendicular to each other. Are stacked.

Referring to the total heat exchange element 1, air is flowed in the direction of arrow A in the first stacking unit 30, and air is flowed in the direction of arrow B in the second stacking unit 30. Heat exchange occurs between the air passing through the second stacked portion 40.

That is, air passing through the first stacked portion 30 and air passing through the second stacked portion 40 through the liner 10 partitioning the first stacked portion 30 and the second stacked portion 40. Heat exchange is made between.

At this time, the liner 10 is made of a paper material so that heat and moisture exchange between the upper and lower laminations is sufficiently performed. In addition, the corrugated corrugated shape 20 attached to the liner 10 may be made of a plastic material, thereby minimizing the deformation of the corrugated 20 due to shrinkage and expansion due to moisture and heat exchange between the laminates.

That is, since the colgate 20 is made of a plastic material to minimize shrinkage deformation due to heat exchange, it is possible to more firmly support the liner 10 attached to the upper and lower sides of the colgate 20, and thus electrothermal exchange It is possible to secure the ventilation capacity of the device 1, there is an advantage that the life of the total heat exchange device (1) is extended.

Preferably, the colgate 20 is lightweight, flexible, exhibits chemical resistance and excellent strength, and has excellent insulation and processability, polyethylene (PE), excellent tensile strength and heat resistance, polypropylene (PP), or water resistance, It is made of any one of polystyrene (Polystyrene; PS) excellent in acid resistance and alkali resistance.

As such, by constructing the material of the corrugated gate 20 supporting the liner 10 with plastic, the deformation of the corrugated gate 20 due to heat exchange can be minimized to extend the life of the total heat exchange element.

As described above, the present invention has the effect of minimizing the deformation due to the contraction and expansion of the colgate by heat exchange by constructing the plastic material.

In addition, by preventing the deformation of the Colgate as described above, it is possible to ensure the ventilation capacity of the total heat exchange element, it is possible to extend the life.

Claims (2)

A first stacking portion including a flat liner and a corrugated corrugate attached to the liner; And A second stacked portion including a flat liner and a corrugated corrugated sheet attached to the liner, The first stacked portion and the second stacked portion are sequentially stacked such that the colgate of the first stacked portion and the colgate of the second stacked portion are perpendicular to each other. The liner is a paper material, the heat exchange element, characterized in that the corrugated plastic material. The method of claim 1, The plastic is any one of polyethylene, polypropylene, and polystyrene.

Images