KR100803376B1 - Heat exchange device - Google Patents

Abstract

A heat exchange device is provided to modify air flow paths in the heat exchange device for generating eddies of air, thereby promoting heat exchange to carry out heat exchange in a reduced section effectively with energy saving effect. A heat exchange device includes a plurality of unit heat exchange plates(100) stacked in a multiple layer structure with a predetermined distance from each other. The unit heat exchange plate includes a frame(110) formed with a plurality of pole insertion holes(111) and having an inlet(120) and an outlet(121) for inside air. A central heat exchange film(170) is attached in the frame for preventing air from mixing, and has heat transfer and moisture transfer functions. A plurality of inside air flow guide ribs(130) are formed at a surface of the central heat exchange film and protruded by a predetermined height uniformly. A plurality of outside air flow guide ribs(140) are formed correspondingly to the inside air flow guide ribs and protruded by a predetermined height uniformly, wherein the outside air flow guide ribs form a plurality of air flow paths crossing each other together with the inside air flow guide ribs. An outer heating film is attached to outer surfaces of the inside air flow guide ribs.

Description

Heat Exchanger

1 is a perspective view showing the configuration of a heat exchanger device to which the present invention is applied.

Figure 2 is a partial separation perspective view of the unit heat exchange plate laminated state of the embodiment of the present invention.

Figure 3 is a perspective view of an embodiment unit heat exchange plate of the present invention.

4 is a plan view showing the configuration of FIG.

5 is a vortex forming state diagram by the vortex forming means according to the present invention,

a) shows the horizontal vortex formation process by the offset strip,

b) shows the up and down vortex formation process by the jaw.

Figure 6 is a perspective view of a heat exchanger according to the prior art.

* Explanation of symbols for main parts of the drawings

100: unit heat exchange plate

110: frame 111: pole insertion hole

120: inside air inlet 121: inside air outlet

130: inside air flow guide rib 140: outside air flow guide rib

150: offset strip 160: jaw

170: central heat exchange membrane 180: outer heat transfer membrane

190: outside air inlet 191: outside air outlet

200: heat exchange case

210: inner air inlet pipe 220: inner air discharge pipe

230: outside air inlet pipe 240: outside air discharge pipe

250: center blocking wall 260: pole

270: upper and lower sponge

The present invention relates to a heat exchanger, and more particularly, a change in an air flow path of a heat exchanger in which heat exchange is performed while cross-passing each other without mixing air discharged from an indoor space and air introduced from an outdoor space, exchanging heat exchange efficiency. It relates to a heat exchanger to improve the.

In general, the heat exchanger is a device for minimizing heat loss during the operation of the air conditioner.In each home, office, and restaurant, the heat exchanger discharges contaminated air to the outside and fresh air from the outside to the inside to ventilate the room. Installed in the ventilator means heat exchange between the indoor air flowing out of the room and the outdoor air flowing into the room.

The heat exchanger of the prior art, as shown in Figure 6, consists of a multi-layer heat exchanger plate 10 spaced up and down by a predetermined interval, and in each of these layers repeatedly between the air discharged from the interior and the air discharged from the indoor The air flowing into the room cross-flows and consists of a rectangular box shape to allow heat exchange.

Looking at the heat exchanger in detail, an outdoor air inlet 12 is formed on one side exposed to the outdoors on the basis of the wall 11 of the building to distinguish between the indoor and the outdoor in the shape of the hexahedron. The outdoor air inlet 12 penetrates in a straight line and communicates with the room. In addition, the outdoor air inlet 12 is interviewed at a right angle with the surface formed and air is discharged from one side of the room. An indoor air outlet 14 is formed, and passes through the indoor air outlet 14 in a straight direction to communicate with the outside.

And, both ends of each of the outdoor air inlet 12 and the indoor air outlet 14 is formed with a sealed wall (16, 18), respectively, so that they go straight without leaking to both sides, the air flowing in from the outside and the air flowing out from the room Are not mixed with each other, and go straight to each side to flow indoor or outdoor air.

However, the surface of each heat exchanger plate 10 forming a conventional heat exchanger has no air flow guide ribs for controlling the flow of air or is simply formed so that the air flowing between each heat exchanger plate 10 regularly flows regularly. Since the flow along the heat exchange through the heat exchange plate 10 there was a problem that can not be made faithfully.

The present invention has been made to solve this problem, by forming a separate guide rib in the air flow path on the heat exchange plate that is a heat exchange member by installing a plurality of vortex forming means on the air flow path to change the air flow It is an object of the present invention to provide a heat exchanger to increase the heat exchange efficiency.

The present invention for achieving the above object is a plurality of unit heat exchange in the interior of the casing so that the mutual heat exchange in the process of the cross-flow flow of the indoor air flows from the indoor to the outside and the outdoor air flowing into the indoor from the outside respectively A heat exchanger configured by stacking plates in a plurality of layers spaced apart from each other by a predetermined interval, the unit heat exchanger plate having a predetermined thickness at a part of a circumference, and having a plurality of pole bar insertion holes formed therein and an inlet and an outlet of inner air; A central heat exchange membrane attached to the inside of the frame to block mixing of air, and having a heat transfer and a water transfer function; A plurality of inner air flow guide ribs formed to protrude at a uniform height on one side to form a diverged air flow path on one side of the central heat exchange membrane; A plurality of outer air flow guide ribs formed at the boundary of the central heat exchange membrane and protruding at a uniform height so as to form a diverged air flow path to cross each other in correspondence to the inner air flow guide ribs; And an outer heat transfer film attached to an outer surface of the inner air flow induction rib.

In the present invention, a plurality of vortex forming means is provided on the air flow path formed by the inner air flow guide rib and the outer air flow guide rib of the unit heat exchange plate to cause the vortex of the air flow.

In the present invention, the vortex forming means is an offset strip to cause a horizontal vortex in the air flow formed in parallel along the inner / outer air flow induction ribs and the vortices in the vertical direction It characterized in that it further comprises a jaw formed to protrude.

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

1 is a perspective view showing a configuration of a heat exchanger device to which the present invention is applied, FIG. 2 is a partially separated perspective view of a laminated state of a unit heat exchanger plate of an embodiment of the present invention, and FIG. 3 is a perspective view of a unit heat exchanger of an embodiment of the present invention, and FIG. Is a plan view showing the configuration of FIG.

The present invention is installed in the heat exchanger case 200, the indoor air flowing out from the room to the outside through the inner air inlet pipe 210 and the outdoor air introduced into the room from the outside through the outside air inlet pipe 230, respectively The plurality of unit heat exchange plates 100 are stacked in a plurality of layers so as to be spaced apart at regular intervals so that mutual heat exchange occurs in the cross flow process.

The plurality of unit heat exchange plates 100 inserted into the heat exchange case 200 are precisely aligned and fixed by the pole 260 so that the inlet and the outlet are constantly aligned, and the upper and lower portions are respectively upper and lower portions. Sponge 270 is added to the buffer function to mitigate noise and vibration.

In addition, by the central blocking wall 250 of the heat exchange case 200 to allow the indoor air and the outside air to be separated without being mixed with each other as the inlet / outlet of the air, respectively, unit heat exchange plate 100 stacked in multiple layers All of the inner air inlet 120 of the case 200 to be matched with the inner air inlet pipe 210, the outer air inlet 190 of all the unit heat exchange plate 100 also the outside of the case 200 It was to match the air inlet pipe (230).

Therefore, each of the inner air outlet 121 is matched to the inner air discharge pipe 220, the outer air outlet 191 is also matched to the outer air discharge pipe 240.

The unit heat exchange plate 100 includes a frame 110 in which the inner air flow guide ribs 130 and the outer air flow guide ribs 140 are integrally formed, the central heat exchange membrane 170, and the outer heat transfer membrane 180. .

The frame 110 has a predetermined thickness in a portion of the circumference, and a plurality of pole bar insertion holes 111 are formed, and the inlet 120 and the outlet 121 of the inner air are formed.

The central heat exchange membrane 170 is attached to the inside of the frame 110 to block the mixing of air, and has a heat transfer and moisture transfer function.

The inner air flow guide ribs 130 are formed to protrude at a uniform height on one side of the central heat exchange membrane 170 so as to form a diverged air flow path, and are formed in plural at regular intervals.

In addition, the outer air flow induction rib 140 is bounded by the central heat exchange membrane 170, so as to protrude to a uniform height to form a multi-path air flow path to cross each other corresponding to the inner air flow induction rib 130. It is formed and is formed in plural at regular intervals.

The outer surface of the inner air flow guide rib 130 is formed by the outer heat-transfer film 180 is in close contact to form an inner air flow path.

In addition, the unit heat exchange plate 100 as described above is regularly stacked in a predetermined direction to fix the outer air flow path is formed in the interspace formed by the outer air flow guide rib 140 of each unit heat exchange plate (100). .

On the air flow path formed by the inner air flow guide ribs 130 and the outer air flow guide ribs 140 of the unit heat exchange plate 100, a plurality of vortex forming means are formed to cause vortices of the air stream to proceed. It is installed.

The vortex forming means has an offset strip (150) for generating a vortex in the horizontal direction to the air flow formed in parallel along the inner / outer air flow guide ribs (130, 140). It is formed at the site.

In addition, the vortex forming means further includes a jaw (160) formed to protrude toward the conduit to cause the vortex phenomenon in the vertical direction to the air flow formed in parallel along the inner / outer air flow induction ribs (130, 140).

5 is a vortex forming state diagram by the vortex forming means according to the present invention, a) shows a horizontal vortex forming process by the offset strip, b) is a constant flow as showing a vertical vortex forming process by the jaw By changing the airflow to promote heat exchange.

As shown in Figure 5a between the inner / outer air flow induction ribs 130, 140, the vortex in the horizontal direction in the flow of air by an offset strip (150) installed in an island shape in several places To get more heat exchange effect.

In addition, as shown in FIG. 5B, the jaw 160 is formed without making the bottom surface constant, so that the vortex is formed in the vertical direction by the jaw 160, thereby obtaining more heat exchange effect.

As described above, the heat exchanger of the present invention changes the air flow path in the heat exchanger so that vortex phenomena occur on the air flow path so that heat exchange is more actively performed, thereby making heat exchange through the shorter section more efficiently. It is to promote heat exchange by minimizing heat loss due to the operation of indoor air conditioning equipment.

Claims (4)

A plurality of unit heat exchanger plates 100 are spaced apart from each other in the case 200 so that mutual heat exchange is performed in the process of indoor air flowing out from the indoors and outdoor air flowing into the indoors from the outside. In the heat exchanger device is laminated in multiple layers, The unit heat exchange plate 100 A frame 110 having a predetermined thickness at a portion of the circumference thereof, and having a plurality of pole inserting holes 111 formed therein and an inlet 120 and an outlet 121 of inner air; A central heat exchange membrane 170 attached to the inside of the frame 110 to block mixing of air, and having a heat transfer and a water transfer function; A plurality of inner air flow guide ribs 130 formed to protrude at a uniform height on one side to form a diverged air flow path on one side of the central heat exchange membrane 170; A plurality of outer air flow guide ribs 140 bounded by the central heat exchange membrane 170 and formed to protrude at a uniform height so as to form a diverged air flow path so as to cross each other in correspondence with the inner air flow guide ribs 130. )Wow; An outer heat transfer film 180 attached to an outer surface of the inner air flow induction rib 130; and an upper / lower portion that is added to upper and lower surfaces of the outer heat transfer membrane to cushion noise and vibration; Including the sponge 270, On the air flow path formed by the inner air flow guide ribs 130 and the outer air flow guide ribs 140 of the unit heat exchange plate 100, a plurality of vortex forming means are formed to cause vortices of the air stream to proceed. Installed, The vortex forming means To cause the vortex in the horizontal direction to the air flow formed in parallel along the inner / outer air flow guide ribs 130, 140 "

The jaw is formed to protrude toward the conduit so as to cause the up and down vortex in the offset strip 150 of the shape and the air flow formed in parallel along the inner and outer air flow guide ribs 130 and 140 ( Heat exchanger, characterized in that consisting of 160). delete delete delete

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