KR20180115853A - Plastic Heat Exchanger for Heat Recovery - Google Patents

Abstract

The present invention relates to a plastic heat exchanger to recover heat. According to the present invention, the plastic heat exchanger (1) comprises: a plurality of heat transfer plates (10) formed with a plastic panel having a plurality of holes (11) formed parallel to each other therein and stacked at predetermined vertical intervals to allow the hole (11) formed in each heat transfer plate to form the same direction; and a pair of brackets (20) installed at both ends of each plastic heat transfer plate (10) and supporting both surfaces of the plastic heat transfer plate (10). The bracket (20) comprises: a pair of side protrusions (21) formed in a plate shape to be bent so as to allow both ends to support a side surface of the plastic heat transfer plate (10); a plurality of supporting protrusions (22) longitudinally bent on both surfaces perpendicular to both ends having the side protrusions (21) therein at predetermined intervals; and a plurality of vent holes (23) formed between the side protrusion (21) and the supporting protrusion (22), and between the neighboring supporting protrusions (22). The vent hole alternately has a portion to form the vent hole (23) therein and a portion not to form the vent hole (23). As such configuration, generation of a pressure loss is reduced while lowering a manufacturing price and deformation caused by twisting and the like is minimized even after a long term use.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a plastic heat exchanger for heat recovery,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a plastic heat exchanger for heat recovery, and more particularly, to a heat exchanger using a plastic panel for manufacturing a packaging container in which a plurality of holes are formed parallel to each other, To a plastic heat exchanger for heat recovery, which can reduce the pressure loss in an assembly groove and can maintain the structural integrity even when used for a long period of time.

Inside buildings such as buildings, schools, hospitals, theaters, etc., which are used by many people, an air conditioner or a thermo-hygrostat is installed to keep indoor air always pleasant and clean. Such an air conditioner or thermo-hygrostat . At this time, the air conditioner or the thermo-hygrostatemperature circulates inside the building, and some of the returned air is discharged to the outside of the building while introducing fresh outside air. In this process, the heated or cooled air is discharged to the outside in order to maintain a comfortable indoor temperature Therefore, the amount of heat discharged to the outside must be supplied again to the outside air or the outside air must be cooled again, so that the energy can not be utilized reasonably.

In addition, when the indoor air is cooled by using an air conditioner or a thermo-hygrostat, air is passed through the cooling coil and the heating coil to cool, dehumidify and reheat the circulating air. At this time, Lowering the temperature of the cooled / dehumidified air, reheating the cooled / dehumidified air to raise the temperature, and then supplying the air to the room, so that a lot of heat energy is wasted.

In order to solve such a problem, various methods have been proposed for recovering the heat contained in the air (exhaust) discharged from the building and reusing it. As one example thereof, there has been proposed an exhaust heat recovery heat exchanger of Patent No. 10-0783616 (Patent Document 1).

In the heat exchanger in the above patent, a plurality of heat transfer plates having different inlet / outlet forming directions are stacked vertically, and indoor / outdoor air flows between the respective layers formed thereby, thereby performing heat exchange between indoor and outdoor air.

However, in the heat exchanger having the above-described structure, since the surface of the heat transfer plate forming the different layers is flat, the surface area of the heat transfer plate with which the outside air is in contact is small, and the heat exchange efficiency is lowered. Further, the air flowing between the upper and lower heat transfer plates There is a problem that the heat exchange efficiency is further lowered.

In order to solve the problems of the conventional heat exchanger as described above, the present inventors proposed a heat exchanger for exhaust heat recovery of a plastic (Patent Document 2) through a patent No. 10-0991946, The heat transfer plates 100 having a mouth and an outlet are stacked one on top of the other so as to allow the supply and exhaust to flow in opposition to each other, and on the upstream side of the inlet and the outlet, Shaped air induction portions are formed on the middle inner side surfaces of the first and second heat transfer plates positioned above and below and the assembly grooves are formed at the edges of the first and second heat transfer plates to fit the assembly grooves to each other As a result of this structure, the air flowing between the upper and lower heat transfer plates flows counter to each other, and the efficiency of heat exchange is greatly improved It will have to.

However, the plastic heat exchanger proposed in the above patent has an advantage of high thermal efficiency and low manufacturing cost compared with a heat exchanger made of aluminum, but it is difficult to form an assembly groove and is formed at the inlet side and the outlet side There is a problem in that not only the pressure loss in the assembly groove is large but also leakage occurs in the assembly portion and the pressure loss in the wavy air induction portion formed on the heat transfer surface is large and the flow rate in the inlet and outlet flow paths is not uniform, have.

Furthermore, in order to manufacture the heat exchanger having the above-described structure, a number of molding dies are required depending on the shape of the first and second heat transfer plates, the shape and size of the heat transfer promotion protrusions formed on the first and second heat transfer plates, The shape of the first and second heat transfer plates is distorted by heat or the like, and the original manufacturing form of the heat exchanger can not be maintained as it is.

KR 10-0783616 B1 KR 10-0991946 B1 JP 1997-511565 A JP 1996-121986 A

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the problems of the conventional plastic heat exchanger for heat recovery, and it is an object of the present invention to provide a plastic heat exchanger for heat recovery which is low in manufacturing cost and can reduce the occurrence of pressure loss, And a plastic heat exchanger for heat recovery.

It is an object of the present invention to provide a plastic heat exchanger having a plurality of heat transfer plates formed of a plastic panel in which a plurality of holes are formed in parallel with each other, And a pair of brackets provided on both ends of the plurality of heat transfer plates and supporting both sides of the plurality of heat transfer plates, wherein the pair of brackets are formed in a plate shape so that both ends are bent so as to support the side surfaces of the heat transfer plates A pair of side projections; A plurality of support protrusions formed on both side surfaces perpendicular to both ends of the pair of side surface protrusions; A plurality of vent holes formed between the side projections and the support protrusions and between adjacent support protrusions are formed and the vent holes are formed in such a manner that a portion where a vent hole is formed and a portion where a vent hole is not formed are alternately formed .

The present invention is characterized in that the heat transfer plate is arranged only at a position where the vent holes are formed so that the plurality of holes formed in the heat transfer plate are in communication with the vent holes of the pair of brackets.

The present invention is further characterized in that, in addition to a pair of brackets provided at both ends of the leading edge plate, the auxiliary brackets are formed on both side surfaces of the heat transfer plate, respectively, and are formed with a plurality of holes at predetermined intervals, do.

In addition, the present invention is characterized in that the size of the air holes formed in the pair of brackets is formed to be smaller than the sectional height and length of the heat transfer plate.

The plastic heat exchanger for heat recovery according to the present invention is advantageous in that the structure of the plastic heat transfer plate and the bracket is simple and easy to manufacture and that the heat exchanger can be easily assembled to make a heat exchanger of a required size.

Further, the plastic heat exchanger of the present invention can detach the plastic heat transfer plate simply by detaching the bracket, so that the plastic heat transfer plate can be easily cleaned or replaced.

1 is a perspective view showing an example of a conventional plastic heat exchanger,
2 is a perspective view showing an example of a plastic heat exchanger for heat recovery according to the present invention,
FIG. 3 is an exploded perspective view of FIG. 2,
4 is a perspective view showing an example of a heat transfer plate according to the present invention,
5 is a perspective view showing an example of a bracket according to the present invention,
6 (a) and 6 (b) are a side view and a plan view showing an example of a bracket according to the present invention,
FIG. 7 is a use state view showing an example of using a plastic heat exchanger for heat recovery according to the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings showing preferred embodiments.

An object of the present invention is to provide a plastic heat exchanger for heat recovery which can reduce the occurrence of pressure loss while minimizing the manufacturing cost and can minimize the deformation due to warping even when used over a long period of time. A plurality of plastic heat transfer plates 10 and a pair of brackets 20 for fixing both ends of the plurality of plastic heat transfer plates 10 as shown in FIG.

As shown in FIG. 4, the heat conductive plate 10 is made by cutting a plastic panel having a small thickness into a proper size. The heat conductive plate used in the present invention is formed by extruding a poly-propylene copolymer resin (Hereinafter referred to as "danpla"), which is made of corrugated paper, is lightweight, has excellent chemical resistance, and is excellent in resilience, heat insulation and sound insulation effects. And a plurality of holes 11 having a quadrangular cross section are formed in parallel with each other. In the present invention, a plurality of holes 11 are formed in a heat exchanger The heat conductive plates 10 are arranged at regular intervals by a bracket 20 to be described later, When the heat conductive plates 10 are arranged at regular intervals as described above, the holes 11 formed in the respective heat conductive plates 10 are arranged in the same direction.

A pair of brackets 20 are formed at both ends of the heat transfer plate 10 so that the heat transfer plates 10 are arranged so as to be spaced apart from each other at regular intervals while ventilation holes 23 are formed corresponding to the positions of the holes 11 of the heat transfer plate 10 And a plurality of heat transfer plates 10 are arranged at predetermined intervals to be firmly fixed by the pair of brackets 20 and at the same time a space between the air flowing through the holes 11 of the heat transfer plate 10 and the heat transfer plates 10 So that the air flowing through the spaced apart gaps of the first and second flow passageways flows perpendicularly to each other.

5 and 6 (a) and 6 (b), the pair of brackets 20 are formed of rectangular plastic or metal plates, and the side surfaces of the heat transfer plates 10 The side projections 21 are formed.

A plurality of bending projections 22 are formed at regular intervals along the longitudinal direction on the other two sides of the opposite side edges of the pair of side projections 21. At this time, Are inserted and supported and fixed, the plates on both sides are partially cut to correspond to the thickness of the heat transfer plate 10, and then the cut ends are set up so as to be substantially perpendicular.

A vent hole 23 is formed in a space formed between the side projections 21 and the support protrusions 22 and a space where the support projections 22 are adjacent to each other. 23 are formed alternately with the portions where the vent holes 23 are not formed so that the vent holes 23 are formed at positions where the heat conductive plates 10 are arranged at regular intervals, And the hole 11 are communicated with each other, air passes through the vent hole 23 and the hole 11.

The size of the vent hole 23 is formed to be smaller than the height and length of the cross section of the heat transfer plate 10. Even if the heat transfer plate 10 and the vent hole 23 are not sealed using silicon or the like, So that air does not leak between the heat transfer plate 10 and the vent hole 23 and therefore the air flowing along the vent hole 23 and the hole 11 and the air flowing through the heat transfer plate 10 And the air flowing into the space in which the heat transfer plate 10 is separated are not mixed with each other and airtightness is maintained.

In assembling the plastic heat exchanger of the present invention having the above structure, first, the heat transfer plates 10 are cut according to widths of both sides of the pair of brackets 20 to prepare a plurality of heat transfer plates 10, The platen 10 is inserted between the supporting protrusions 22 in correspondence with the positions of the vent holes 23 formed in the upper and lower brackets 20 and 20 so that both side ends thereof are fixed. A further bracket 20 is installed and fixed to the side of the heat transfer plate 10 located on the opposite side of the bracket 20 so that the heat exchanger 1 having a rectangular or cubic shape having a predetermined size as shown in FIG. Is assembled.

Next, both sides of the heat exchanger 1 provided with the bracket 20 are connected to the exhaust flow path, and the other two sides orthogonal to each other are connected to the air supply flow path. At this time, the installation direction of the exhaust flow path and the air supply flow path is selected, When the heat exchanger 1 is connected to the supply and exhaust flow paths by this process, the indoor air is discharged to the outside through the holes 11 formed in the heat transfer plate 10 of the heat exchanger 1. At the same time, The outdoor air is supplied to the room, and the heat exchange is performed while flowing in a cross flow form to each other.

The holes 11 of the heat transfer plate 10 are formed on both ends of the heat transfer plate 10 in correspondence with the air holes 23 of the bracket 20. However, (Not shown) having a large plate shape covering the side surface may be additionally provided on the heat transfer plate 10 so that four sides of the heat transfer plate 10 may be covered with the auxiliary bracket. A plurality of holes communicating with the space between the first and second electrodes 10 are formed.

As described above, the plastic heat exchanger for heat recovery according to the present invention is easy to manufacture due to the simple structure of the plastic heat transfer plate and the bracket, and it is easy to assemble them to make a heat exchanger of a required size. Also, by separating the brackets, The plastic heat transfer plate can be easily cleaned or replaced.

1: Heat exchanger 10: Heat transfer plate
11: hole 20: bracket
21: side projection 22: support projection
23: Ventilation holes

Claims (4)

1. A heat recovery plastic heat exchanger (1) assembled by arranging a plurality of plastic heat transfer plates in parallel,
The heat exchanger (1) comprises a plastic panel in which a plurality of holes (11) are formed in parallel with each other, and a plurality of holes (11) A heating plate (10);
And a pair of brackets (20) installed at both ends of the plurality of heat transfer plates (10) and supporting both side surfaces of the plurality of heat transfer plates (10)
The pair of brackets 20 are formed in a plate shape and each have a pair of side projections 21 bent at both ends to support the side surfaces of the heat transfer plates 10; A plurality of support protrusions (22) bent at predetermined intervals along the longitudinal direction on both side surfaces perpendicular to both ends of the pair of side surface protrusions (21); A plurality of ventilation holes 23 are formed between the side projections 21 and the support protrusions 22 and between the adjacent support protrusions 22,
Wherein the vent hole (23) is formed alternately with a portion where the vent hole (23) is formed and a portion where the vent hole (23) is not formed.
The method according to claim 1,
The heat transfer plate 10 is arranged only at a position where the vent holes 23 are formed so that the plurality of holes 11 formed in the heat transfer plate 10 are communicated with the vent holes 23 of the pair of brackets 20 Wherein the heat exchanger is a heat exchanger.
The method of claim 2,
In addition to the pair of brackets 20 provided at both ends of the heat transfer plate 10, auxiliary brackets are formed on both side surfaces of the heat transfer plate 10, respectively, and formed with a plurality of holes at regular intervals, Wherein the heat exchanger is installed in the plastic heat exchanger for heat recovery.
The method according to any one of claims 1 to 3,
Wherein a size of the vent hole (23) formed in the pair of brackets (20) is smaller than a height and a length of a cross section of the heat transfer plate (10).

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