KR100513166B1 - Multi-stage heat exchanger - Google Patents

Abstract

The present invention relates to a heat exchanger, and more particularly, in a heat exchanger mounted on a ventilator, the heat exchanger is divided into three parts of the center part 1, the left part 2, and the right part 3 along the longitudinal direction, and indoors. Indoor air flows from the left indoor air inflow surface (2c) in contact with the left side (2) and the right indoor air inflow surface (3c) in contact with the right side (3), respectively. Left indoor air outlet 2d located on the opposite side of the left indoor air inlet 2c, and right indoor air outlet 3d located on the opposite side of the right indoor air inlet 3c; The air flowing out of the air outlet surface 2d and the right indoor air outlet surface 3d is mixed with each other and flows into the central indoor air inflow surface 1d that is in contact with the central portion 1, and the central indoor air outlet surface, which is the opposite side ( Outflow to 1c) and outflow The outdoor air is introduced into the central outdoor air inflow surface (1a) that is in contact with the central portion (1), and the heat exchange with the indoor air introduced into the central indoor air inflow surface (1d) of the central outdoor air inflow surface (1a) Flows to the central outdoor air outlet surface (1b) located on the opposite side and is divided and divided into the left side (2) and the right side (3),

The outdoor air divided into the left part 2 flows into the left outdoor air inflow surface 2b of the left part 2 and heat exchanges with the indoor air flowing into the left indoor air inflow surface 2c while the left outdoor air inflow surface 2b Is discharged to the right-sided outdoor air outlet surface (2a) located on the opposite side of the) to the indoor side, and the outdoor air divided into the right portion (3) flows into the right outdoor air inlet surface (3b) of the right portion (3) The multi-stage heat exchanger is configured to be discharged to the right outdoor air outlet surface (3a) located on the opposite side of the right outdoor air inlet surface (3b) and to be discharged to the indoor side while being heat-exchanged with the indoor air introduced into the right indoor air inlet (3c) will be.

This is to provide a multi-stage heat exchanger that distributes the heat exchanger to a plurality of regions, and allows indoor air and outdoor air to flow through the heat exchanger twice, and outflows to improve heat exchange efficiency.

Description

Multi-Stage Heat Exchanger

The present invention relates to a heat exchanger, and more particularly, the present invention distributes the heat exchanger to a plurality of regions, the indoor air and the outdoor air is introduced through the two heat exchange, respectively, and flows out, multi-stage heat exchanger to improve the heat exchange efficiency It is to provide.

The air in an enclosed space increases the carbon dioxide content over time due to the breathing of living things, which interferes with the breathing of living things.

Therefore, when a large number of people, such as an office or a vehicle, stay in a confined space, the indoor polluted air should be replaced with fresh air from the outside at any time, and a heat exchanger of a ventilation device is commonly used at this time.

The air conditioner introduces outside air for ventilation and exhausts indoor air. In this process, through the heat exchange between the introduced outdoor air and the exhaust, the temperature and humidity of the introduced outdoor air can be as close as possible to the temperature and humidity of the indoor air, and energy saving can be achieved. For this purpose, a total heat exchanger for exchanging heat (temperature and humidity) in the air or a sensible heat exchanger for exchanging sensible heat (temperature) is a known technology.

1 is a schematic view showing a heat exchanger according to the prior art, the indoor air of the indoor side flows into the indoor air inflow surface (10c) in contact with the indoor side, the indoor air outflow surface (10d) located on the opposite side of the indoor air inflow surface ), And the outdoor air on the outdoor side flows into the outdoor air inflow surface 10a facing the outdoor side, and the outdoor air flows on the opposite side while exchanging heat with the indoor air entering the indoor air inflow surface 10a. Outflow to the surface (10b).

In this process, it is cold due to air conditioner operation in summer, polluted indoor air is hot and provides fresh and cool outdoor air to indoors through mutual heat exchange with fresh outdoor air, and it is hot due to operation of boiler in winter. In other words, the polluted indoor air is cold and provides fresh and warm outdoor air to the room through mutual heat exchange with fresh outdoor air.

The heat exchanger used in the conventional ventilator of FIG. 1 has a problem that indoor heat and outdoor air exchange heat or temperature and humidity by one mutual heat exchange to deteriorate heat exchange efficiency.

The present invention has been made in order to improve such a problem, by distributing the heat exchanger mounted on the ventilator to a plurality of regions over the length, the indoor air and outdoor air is introduced through the two heat exchange, respectively, the heat exchange efficiency It is to provide a double ventilation heat exchanger to improve the.

As described above, the present invention will be described with reference to the accompanying drawings, Figure 2 is a schematic diagram showing a three-stage multi-stage heat exchanger according to the present invention, when it is described in detail, the heat exchanger in the central portion (1) over the longitudinal direction, It is divided into three parts, the left part 2, the right part 3,

Indoor air flows from the left indoor air inflow surface 2c in contact with the left side 2 and the right indoor air inflow surface 3c in contact with the right side 3, respectively. Flows into the left indoor air outlet surface 2d located on the opposite side of the left indoor air inflow surface 2c, and the right indoor air outlet surface 3d located on the opposite side of the right indoor air inflow surface 3c;

The air flowing out from the left indoor air outlet surface 2d and the right indoor air outlet surface 3d is mixed with each other and flows into the central indoor air inflow surface 1d which is in contact with the central portion 1, and the central indoor air outlet is the opposite side. Flows to the surface 1c and flows to the outdoor side,

The outdoor air of the outdoor side flows into the central outdoor air inflow surface 1a that is in contact with the central portion 1, and heat exchanges with the indoor air that flows into the central indoor air inflow surface 1d, thereby providing the central outdoor air inflow surface 1a. Is flowed to the central outdoor air outlet surface (1b) located on the opposite side of the) and divided into the left side (2) and the right side (3), respectively,

The outdoor air divided into the left part 2 flows into the left outdoor air inflow surface 2b of the left part 2 and heat exchanges with the indoor air flowing into the left indoor air inflow surface 2c while the left outdoor air inflow surface 2b Outflow to the right side outdoor air outlet surface (2a) located on the opposite side of

The outdoor air divided into the right part 3 flows into the right outdoor air inflow surface 3b of the right part 3 and heat exchanges with the indoor air introduced into the right indoor air inflow surface 3c while the right outdoor air inflow surface It relates to a multi-stage heat exchanger configured to flow to the right outdoor air outlet surface (3a) located on the opposite side of (3b) to flow out to the indoor side.

3 is a schematic view showing a plurality of multi-stage heat exchangers according to the present invention. When this is described in detail, the multi-stage heat exchanger will be described with reference to FIG.

Heat exchanger is divided into N in the length direction, the N is at least two or more, the indoor air inflow heat exchanger 20, the indoor air flows from the indoor side and the outdoor air inflow heat exchanger, the outdoor air flows into the outdoor side The flags 30 are made of each other alternately,

Indoor air from the indoor side flows into the plurality of indoor air inflow surfaces 20c formed in the indoor air inflow heat exchanger 20, and flows out into the indoor air outlet surface 20d located on the opposite side thereof.

The outdoor air on the outdoor side flows into the plurality of outdoor air inflow surfaces 30a formed in the outdoor air inflow heat exchanger 30, and flows out to the outdoor air outlet surface 30b located on the opposite side thereof.

The air discharged from the indoor air outlet surface 20d is mixed with each other and then distributed to be mutually exchanged with the outdoor air introduced into the outdoor air inlet surface 30a of the outdoor air inlet heat exchanger 30,

The air flowing out from the outdoor air outlet surface (30b) is mixed with each other after being distributed to the multi-stage heat exchanger made to mutual heat exchange with the indoor air introduced into the indoor air inlet surface (20c) of the indoor air inlet heat exchanger (20) will be.

Referring to the operation principle, the multi-stage heat exchanger according to the present invention divides the heat exchanger into N in the longitudinal direction, so that the indoor air inflow heat exchanger 20 and the outdoor air are formed to be in contact with the indoor side so that indoor air flows in. The outdoor air inflow heat exchanger 30 is formed to be in contact with the outdoor side alternately.

The indoor air of the indoor side flows into the plurality of indoor air inflow surfaces 20c and flows out to the indoor air outlet surface 20d located on the opposite side thereof.

At the same time, the outdoor air on the outdoor side flows into the plurality of outdoor air inflow surfaces 30a and flows out to the outdoor air outlet surfaces 30b located on the opposite side.

In this process, the air discharged from the indoor air outlet surface 20d is mixed with each other and then distributed in a large amount to mutually interact with the outdoor air introduced into the outdoor air inlet surface 30a of the outdoor air inlet heat exchanger 30. Heat exchange.

In addition, the air flowing out from the outdoor air outlet surface (30b) is mixed with each other after being mixed again in large quantities and mutual heat exchange with the indoor air introduced into the indoor air inlet surface (20c) of the indoor air inlet heat exchanger (20) Will be.

In the present invention as described above, while the indoor air and the outdoor air are heat exchanged only once in a mutual process, the indoor air is discharged to the outdoor side, and the outdoor air is heat exchanged once more by mutually exchanging the composition introduced into the room. To fully utilize the heat exchange capacity of the indoor and outdoor air, including.

As shown in the multi-stage heat exchanger of the present invention of Figures 2 and 3, after a plurality of indoor air and a plurality of outdoor air heat exchange with each other once, the heat exchange capacity is to be maximized by one more heat exchange.

In general, in order to convert indoor air contaminated by ventilation equipment into fresh air, the heat exchangers are divided into a plurality of lengthwise directions, and in heat exchange between indoor air and outdoor air, heat exchange efficiency is achieved by two heat exchange processes. It is to provide a multi-stage heat exchanger to increase.

1 is a schematic view showing a heat exchanger according to the prior art.

Figure 2 is a schematic diagram showing a three-stage multi-stage heat exchanger according to the present invention.

Figure 3 is a schematic view showing a plurality of multistage heat exchangers according to the present invention.

<Brief description of symbols for the main parts of the drawings>

1: center part 2: left part

3: Right side 1a: Center part outdoor air inflow surface

1b: Central outdoor air outlet 1c: Central indoor air outlet

1d: Indoor air inflow surface in the middle 2a: Outdoor air outlet surface on the right

2b: Left outdoor air inflow plane 2c: Left indoor air inflow plane

2d: Left indoor air outlet 3a: Right outdoor air outlet

3b: Right side outdoor air inflow side 3c: Right side indoor air inflow side

3d: Right side indoor air outlet 10a: Outdoor air inlet

10b: outdoor air inflow surface 10c: indoor air inflow surface

10d: Indoor air outlet surface 20: Indoor air inflow heat exchanger

20c: Indoor air inflow surface 20d: Indoor air outflow surface

30: outdoor air inlet heat exchanger 30a: outdoor air inlet

30b: outdoor air outlet

Claims (2)

In the heat exchanger mounted to the ventilator, The heat exchanger is divided into three parts, the center part 1, the left part 2, and the right part 3 along the longitudinal direction, Indoor air flows from the left indoor air inflow surface 2c in contact with the left side 2 and the right indoor air inflow surface 3c in contact with the right side 3, respectively. Flows into the left indoor air outlet surface 2d located on the opposite side of the left indoor air inflow surface 2c, and the right indoor air outlet surface 3d located on the opposite side of the right indoor air inflow surface 3c; The air flowing out from the left indoor air outlet surface 2d and the right indoor air outlet surface 3d is mixed with each other and flows into the central indoor air inflow surface 1d which is in contact with the central portion 1, and the central indoor air outlet is the opposite side. Flows to the surface 1c and flows to the outdoor side, The outdoor air of the outdoor side flows into the central outdoor air inflow surface 1a that is in contact with the central portion 1, and heat exchanges with the indoor air that flows into the central indoor air inflow surface 1d, thereby providing the central outdoor air inflow surface 1a. Is flowed to the central outdoor air outlet surface (1b) located on the opposite side of the) and divided into the left side (2) and the right side (3), respectively, The outdoor air divided into the left part 2 flows into the left outdoor air inflow surface 2b of the left part 2 and heat exchanges with the indoor air flowing into the left indoor air inflow surface 2c while the left outdoor air inflow surface 2b Outflow to the right side outdoor air outlet surface (2a) located on the opposite side of The outdoor air divided into the right part 3 flows into the right outdoor air inflow surface 3b of the right part 3 and heat exchanges with the indoor air introduced into the right indoor air inflow surface 3c while the right outdoor air inflow surface A multi-stage heat exchanger, characterized in that it is discharged to the right outdoor air outlet surface (3a) located on the opposite side of the (3b) to flow to the indoor side. In the heat exchanger mounted to the ventilator, Heat exchanger is divided into N in the length direction, the N is at least two or more, the indoor air inflow heat exchanger 20, the indoor air flows from the indoor side and the outdoor air inflow heat exchanger, the outdoor air flows into the outdoor side The flags 30 are made of each other alternately, Indoor air from the indoor side flows into the plurality of indoor air inflow surfaces 20c formed in the indoor air inflow heat exchanger 20, and flows out into the indoor air outlet surface 20d located on the opposite side thereof. The outdoor air on the outdoor side flows into the plurality of outdoor air inflow surfaces 30a formed in the outdoor air inflow heat exchanger 30, and flows out to the outdoor air outlet surface 30b located on the opposite side thereof. The air discharged from the indoor air outlet surface 20d is mixed with each other and then distributed to be mutually exchanged with the outdoor air introduced into the outdoor air inlet surface 30a of the outdoor air inlet heat exchanger 30, The air flowing out from the outdoor air outlet surface 30b is mixed with each other and then distributed to be mutually exchanged with the indoor air introduced into the indoor air inlet surface 20c of the indoor air inlet heat exchanger 20. Multi-stage heat exchanger.