KR20220055606A - Apparatus of heat-exchange - Google Patents

Abstract

The present invention relates to a total heat exchanger, which comprises: a heat exchange unit for exchanging heat between inside air and outside air; an outside air inlet into which the outside air is introduced; an inside air outlet through which the inside air heat-exchanged from the heat exchange unit is discharged to the outside; a case unit providing, in the center, a heat exchange unit coupling space to which the heat exchange unit is coupled, having the outside air inlet and the inside air outlet disposed on one side, and providing a flow path for heat exchange between the inside air and the outside air; and a lower cover disposed on a lower side of the case unit, and formed with an inside air suction unit through which the inside air is inducted to the heat exchange unit and an outside air supply unit through which the heat exchanged outside air is supplied to a room. The outside air introduced into the outside air inlet passes through the heat exchange unit in a direction horizontal to the ground, and the inside air inducted to the inside air suction unit passes through the heat exchange unit in a direction perpendicular to the ground to perform heat exchange. The present invention can increase the ventilation efficiency of a room.

Description

Total heat exchanger {APPARATUS OF HEAT-EXCHANGE}

The present invention relates to a total heat exchanger capable of efficiently ventilating indoor air through heat exchange between outdoor air flowing into a room and indoor air discharged to the outside.

As modern people spend more time indoors due to indoor activities or use of public facilities, they are directly or indirectly exposed to pollutants generated indoors or flowing into the room. A recent study by the American Lung Association found that indoor air has a greater risk of harm to health than outdoor air, and what makes the situation even worse is that 90% of modern people's total activities are done indoors. it was losing

The biggest reason that indoor air pollution is more serious than outdoor air pollution is the limitation of the space containing air. In other words, pollutants introduced into the room or generated inside the room are not smoothly discharged to the outside and the concentration increases as they stay. Therefore, it is necessary to prepare a system for improving indoor air quality and an appropriate treatment device for pollutants. In addition, measurement equipment that can accurately measure indoor pollutants and technology to improve the environment are required.

In particular, multi-use facilities such as restaurants, rest areas, cafes, shopping malls, convenience stores, hospitals, banks, childcare facilities, theaters, terminals, stations, and airports used by unspecified people are densely populated in limited spaces. Contaminants are generated in the air as many people use these multi-use facilities compared to the limited area of the indoor space. will hurt

, 부유세균 800

, 일산화탄소 10ppm, 이산화질소 0.05ppm, 라돈 148

, 휘발성유기화합물 500

등으로 설정하고 있다.Accordingly, in Korea, in order to recognize the seriousness of indoor air pollution and to raise the importance of indoor air quality management at the government level, the 'Indoor Air Quality Management Act for Multi-Use Facilities, etc.' It regulates indoor air quality. According to the Indoor Air Quality Management Act, the maintenance standards and recommendations for indoor pollutants are 1000 ppm carbon dioxide and 100 formaldehyde.

, airborne bacteria 800

, carbon monoxide 10ppm, nitrogen dioxide 0.05ppm, radon 148

, volatile organic compounds 500

are set, etc.

The domestic total heat exchanger market was expected to grow rapidly after the enactment of the 'Indoor Air Quality Management Act' in 1996, but it stalled until 2000 due to the foreign exchange crisis. It is growing rapidly at an average annual rate of over 20%.

The prior art documents related to the conventional total heat exchanger are as follows.

[Prior art literature]

Patent Application No. 10-2007-0107644 (Title of the invention: waste heat recovery type ventilation device)

Looking at the above-mentioned prior literature, outdoor air flowing in through the intake fan is passed through the dust collecting unit to decompose and remove harmful substances, and then supply it to the room, and the indoor air has a configuration in which it is discharged to the outside through the exhaust fan. In particular, in most total heat exchange devices including the prior literature, indoor air and outdoor air flow in a direction horizontal to the ground in a heat exchange unit, and heat exchange is performed.

Accordingly, in the process of forming a flow path for heat exchange to purify the air inside the facility, the size of the total heat exchanger has to be increased, and there is a problem that a separate installation space is required to be provided in the area where people move. there was.

In addition, most total heat exchangers are installed on the ceiling, and as the flow direction of heat exchange between indoor air and outdoor air is horizontal to the ground, only the indoor air is circulated in the indoor ceiling space, that is, the upper part of the room is ventilated. There is a problem that a non-ventilated space that is not done is generated.

In addition, since the conventional total heat exchange device has both an outdoor air intake unit through which outdoor air is introduced and an indoor air discharge unit through which indoor air is discharged to the outside, it must be installed on one side of the wall in the ceiling of the indoor space as well as on the other side. In order to supply the formed heat-exchanged outdoor air to the room, there is a problem in that an additional configuration for separately forming a supply passage is required.

In order to solve the above problems, there is provided a total heat exchanger in which the heat exchange flow direction of indoor air is vertical to the ground and the heat exchange flow direction of outdoor air is designed in a horizontal direction to the ground. It is not limited to the technical problem as described above, and another technical problem may be derived from the following description.

A total heat exchange device according to an embodiment of the present invention includes: a heat exchange unit for exchanging heat with the outside air; an outdoor air inlet through which the outdoor air is introduced; a bet discharge unit for discharging the bet heat-exchanged from the heat exchange unit to the outdoors; a case unit which provides a heat exchange unit coupling space to which the heat exchange unit is coupled in the center, the outside air inlet and the outside air outlet are disposed on one side, and provides a flow path for heat exchange between the bet and the outside air; and a lower cover disposed on the lower side of the case unit, provided with a bet suction unit for sucking bet air into the heat exchange unit, and an outdoor air supply unit for supplying heat-exchanged outdoor air into the room, wherein the outdoor air introduced into the outdoor air inlet is horizontal to the ground. The bet passed through the heat exchange unit in the direction, and the bet sucked into the bet suction unit is characterized in that the heat exchange is made through the heat exchange unit in a direction perpendicular to the ground.

In addition, the flow path may include: a first flow path disposed between the outdoor air inlet and the front surface of the heat exchange unit coupling space to provide a flow path for flowing the outside air introduced from the outdoor air inlet to the front surface of the heat exchange unit; and a second flow path disposed between the bet discharge part and the upper surface of the heat exchange part coupling space to provide a flow path for flowing the bet sucked from the bet suction part to the upper surface of the heat exchange part, and the outdoor air introduced into the outdoor air inlet part The bet that passes from the front to the rear of the heat exchange unit through the first flow path, and is sucked into the bet suction unit, passes through the upper surface from the lower surface of the heat exchange unit and flows to the second flow path.

In addition, the flow path is disposed between the rear surface of the heat exchange unit coupling space and the lower cover and provides a flow path for flowing the outdoor air passing from the front side to the rear side of the heat exchange unit through the first flow path to the outside air supply unit. It is characterized in that it further comprises.

In addition, it is disposed between the case portion and the lower cover, further comprising a distribution cover for distributing the outside air flowing through the third flow path to the outside air supply unit, the distribution cover, the lower surface of the heat exchange unit is coupled to the center It is characterized in that it comprises a plurality of vanes spaced apart by a set interval at an arc interval based on the distribution plate and the center of the distribution plate is formed with a coupling hole.

In addition, the heat exchange unit may include: a main unit formed of a pulp material for heat exchange between the outside air introduced into the outside air inlet and the bet sucked into the outside air inlet; and an auxiliary filter unit disposed on the front and lower surfaces of the main unit, respectively, to filter foreign substances from outside air and inside air.

The total heat exchanger according to the embodiment of the present invention having the above configuration has the following effects.

First of all, in the process of indoor air being sucked in from the bottom center of the total heat exchanger, heat exchanged and exhausted, since the flow path of indoor air is designed in a direction perpendicular to the ground, the existing indoor air flow path is designed in a horizontal direction to the ground. There is an effect that the size of the product can be drastically reduced compared to the device.

In addition, since indoor air is sucked in from the center of the lower grill of the total heat exchanger and the heat-exchanged outdoor air is discharged from the edge surface of the lower grill to the room, it is possible to increase the ventilation efficiency of the room by convection of the entire indoor air.

In addition, since intake air for outdoor exhaust of indoor air and supply air for indoor supply of heat-exchanged outdoor air are simultaneously made through the lower grill formed in the lower part, there is no need to add a configuration for separately supplying heat-exchanged air. there is.

1 is an exploded perspective view of a total heat exchanger according to an embodiment of the present invention;
2 is a side cross-sectional view of a total heat exchanger according to an embodiment of the present invention.
3 is a side cross-sectional view showing a heat exchange flow path between indoor air and outdoor air of the total heat exchanger according to the embodiment of the present invention.
4 is a top plan view showing a heat exchange flow path between indoor air and outdoor air of the total heat exchanger according to the embodiment of the present invention.
5 is a bottom view showing a heat exchange flow path between indoor air and outdoor air of the total heat exchanger according to the embodiment of the present invention.
6 is a view showing air convection in an indoor space in which a total heat exchanger according to an embodiment of the present invention is installed.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in many different forms and is not limited to the structure or method described herein.

An embodiment of the present invention relates to a total heat exchanger capable of ventilating indoor air by generating convection in an indoor space through heat exchange between indoor air and an outdoor space, and will be briefly referred to as a "total heat exchanger" hereinafter.

In addition, with respect to the up, down, left and right directions of the total heat exchanger of this embodiment, the surface on which the outside air inlet 120 and the inside exhaust 130 are formed with respect to the front of the total heat exchanger shown in FIG. The opposite side is defined as 'rear direction', the ground direction is defined as 'downward', and the opposite direction is defined as 'upward', and 'left direction' and 'right direction' are defined based on this. An example will be described. This is for the purpose of explaining the present invention to the last so that it can be clearly understood, and it goes without saying that each direction may be defined differently depending on where the reference is placed.

The total heat exchanger according to an embodiment of the present invention may be installed in an indoor ceiling facility, but it is not limited thereto, and it is pointed out that it can be applied to various facilities.

1 is an exploded perspective view of a total heat exchange apparatus according to an embodiment of the present invention, FIG. 2 is a side cross-sectional view of a total heat exchange apparatus according to an embodiment of the present invention, and FIG. 3 is a total heat exchange apparatus according to an embodiment of the present invention It is a side cross-sectional view showing a heat exchange flow path between indoor air and outdoor air, and FIG. 4 is a top cross-sectional view showing a heat exchange flow path between indoor air and outdoor air of the total heat exchange device according to an embodiment of the present invention, and FIG. A bottom view showing a heat exchange flow path between indoor air and outdoor air of a total heat exchanger according to an embodiment of the present invention, and FIG. 6 is a view showing air convection in an indoor space in which a total heat exchanger according to an embodiment of the present invention is installed. am.

1 to 6, the total heat exchanger according to an embodiment of the present invention sucks indoor air from a lower center to an upper direction perpendicular to the ground, and also sucks outdoor air from one side in a horizontal direction to the ground. , a device capable of supplying indoor air and outdoor air heat-exchanged with indoor air through the heat exchange unit 140 in this process. Below, indoor air is defined as outside air and outdoor air is defined as outside air.

The total heat exchanger is disposed on one side of the case unit 110 and the case unit 110 to provide a flow path through which the bet and the outside air can flow therein, and the outside air inlet 120 into which the outside air to be supplied to the room is introduced. ), the bet discharge unit 130 disposed on one side of the case unit 110 and the heat-exchanged bet is discharged to the outside, the case unit 110 disposed at the center side and the introduced outside air flows in a horizontal direction to the ground The heat exchange unit 140 for exchanging heat while the suctioned bet is introduced in the upward direction perpendicular to the ground, the bet suction unit 151 through which the bet is sucked into the heat exchange unit 140, and the outdoor air supply unit 152 through which the heat-exchanged outdoor air is supplied to the room. ) may include a control unit for operating the lower cover 150 and the outdoor air inlet 120 and the outside air outlet 130 for the operation of the total heat exchange device is formed. Hereinafter, each configuration will be described in detail.

The case unit 110 is formed in the shape of a rectangular box, and the outside air inlet 120 may be disposed on the lower left side of the front side of the case unit 110 based on the drawings, and the bet discharge unit 130 is located at the upper right side of the front side. can be placed.

In addition, a plurality of flow passages for the inside of the case unit 110 to flow bet and outside air may be formed. In detail, the case part 110 corresponds to the shape of the heat exchange part 140 on the central side, and the heat exchange part coupling space 111 to which the heat exchange part 140 can be coupled, the inside of the side surface of the case part 110, in detail The first flow path 112 disposed between the outside air inlet 120 and the front surface of the heat exchange unit coupling space 111 to guide the incoming outside air to the heat exchange unit 140, the inside of the upper surface of the case unit 110, in detail The second flow path 113 disposed between the upper surface of the heat exchange unit coupling space 111 and the bet discharge unit 130 to guide the heat exchanged bet from the heat exchange unit 140 to the outside and the rear surface of the heat exchange unit coupling space 111 . A third flow path 114 that communicates with and guides the heat-exchanged outdoor air to the outdoor air supply unit 152 of the lower cover 150 may be formed.

The heat exchange unit coupling space 111 may be formed in a shape corresponding to the shape of the heat exchange unit 140 on the central side of the case unit 110 . In addition, the heat exchange unit coupling space 111 has a front surface that communicates with a first flow path 112 and a rear surface with a third flow passage 114 , and a lower surface of the inner suction part 151 of the lower cover 150, and the upper surface of the second It may communicate with the flow path 113 .

The first flow path 112 extends to the front surface of the heat exchange unit coupling space 111 of the outdoor air inlet 120 and the case unit 110, and the outdoor air introduced from the outdoor air inlet 120 is a heat exchange unit coupling space 111. It is a flow path that can be guided to the front surface of the heat exchange unit 140 through the front surface. When the heat exchange unit 140 is coupled to the heat exchange unit coupling space 111 , the first flow path 112 may exist as a closed space between the outdoor air inlet 120 and the heat exchange unit 140 .

The second flow path 113 extends to the upper surface of the heat exchange unit coupling space 111 of the case unit 110 and the bet discharge unit 130 and heat exchanged through the upper surface of the heat exchange unit 140 to the bet discharge unit 130 . It is a flow that can be led to The second flow path 113 may be maintained in a closed state except for the upper surface of the heat exchange unit coupling space 111 and the inside discharge unit 130 in the heat exchange unit coupling space 111 .

The third flow path 114 communicates with the rear surface of the heat exchange unit coupling space 111 of the case unit 110 and is a flow path through which the heat exchanged outside air flows through the rear surface of the heat exchange unit 140 . In detail, the third flow path 114 is a heat exchange unit coupling space 111 such that, when the lower cover 150 is coupled to the case unit 110 , the heat-exchanged outside air is guided to the outside air supply unit 152 disposed on the lower cover 150 . ) may be disposed between the rear surface and the outdoor air supply unit 152 . In addition, in this case, the remaining space except for the rear surface of the heat exchange unit coupling space 111 and the outdoor air supply unit 152 may be maintained in a closed state.

That is, the case unit 110 divides the flow path for the flow of the outside air and the bet therein, so that the flow of the outside air and the flow of the bet can be distinguished. The size of the unit 110 may be reduced.

The outdoor air inlet 120 is disposed to communicate with the first flow path 112 from one side of the case unit 110 , in detail, from the front surface of the case unit 110 , and is a means through which outdoor air can be introduced. In detail, the outdoor air inlet 120 is disposed inside the outdoor air inlet passage 121 and the outdoor air inlet passage 121 providing a passage through which the outdoor air is introduced from the outdoors to the first flow passage 112 to provide power for the outdoor air to flow. It may include an outdoor fan 122 to provide. The outdoor air may be introduced into the outdoor air inlet passage 121 by the rotational power of the outdoor air fan 122 and be supplied into the room through the first passage 112 and the third passage 114 . In this case, the outdoor air fan 122 may be disposed in the third flow path 114 to induce the inflow of outdoor air, but it is to be noted that the present invention is not limited thereto.

The bet discharge unit 130 is disposed so as to communicate with the third flow path 114 from one side of the case unit 110 , in detail, from the front side of the case unit 110 , and is a means through which the heat-exchanged bet can be discharged to the outside. In detail, the bet discharge unit 130 is disposed inside the bet discharge passage 131 and the bet discharge passage 131 to provide a passage for the bet to be discharged from the third flow path 114 to the outside, the power for the bet to flow It may include a betting fan 132 that provides. By the rotational power of the bet fan 132, the bet may be discharged from the bet suction part 151 to the outside through the second flow path 113 and the bet discharge passage 131.

Although the above-described outdoor fan and bet fan are shown as general fans in the drawings, it is noted that a sirocco fan can be mainly used.

The heat exchanging unit 140 is coupled to the heat exchanging unit coupling space 111 formed in the case unit 110 , and is a means for heat exchange by introducing outside air and bet air. In addition, it is a means capable of communicating with the first flow path 112 , the second flow path 113 , and the third flow path 114 formed in the case unit 110 , and has a shape corresponding to the heat exchange unit coupling space 111 , one For example, it may have a rectangular shape.

In addition, the heat exchange unit 140, the outside air introduced into the outdoor air inlet 120 flows from the front to the rear surface of the heat exchange unit 140 in the process of flowing into the third flow path 114 through the first flow path (112) can be introduced in a horizontal direction, and in the process in which the bet sucked from the bet suction unit 151 of the lower cover 150 flows to the second flow path 113, from the lower surface of the heat exchange unit 140 to the upper surface to the ground. It may flow in a vertical upward direction. That is, there is an effect that the size of the case unit 110 can be reduced as the outside air flows in a direction horizontal to the ground and the bet air flows in a direction perpendicular to the ground and heat exchange is performed.

Also, the heat exchange unit 140 may include a main unit 141 and an auxiliary filter unit 142 . The main part 141 is a means for heat exchange by betting and outside air, and may be made of, for example, a pulp material. This is to prevent moisture or condensation from forming in the process of heat exchange between the outside air and the inside. In addition, the auxiliary filter unit 142 is disposed on the front and lower surfaces of the heat exchange unit 140, respectively, and is a means for filtering foreign substances such as outside air flowing in from the outside and dust contained in the betting air sucked from the inside.

The lower cover 150 is disposed on the lower side of the case unit 110 and is a means for sucking the bet and supplying the outside air to the room. In detail, the lower cover 150 is disposed in the center so as to be spaced apart from the bet suction part 151 for sucking the bet to the lower surface of the heat exchange unit 140 and the edge part at regular intervals to flow through the third flow path 114 . It may include an outdoor air supply unit 152 for supplying the heat-exchanged outdoor air to the room.

The bet suction unit 151 has a shape corresponding to the lower surface of the heat exchange unit 140, for example, a rectangular opening is formed, and a suction grill for sucking the bet may be disposed in the opening. In this case, the suction grill of the bet suction unit 151 may have a shape in which a plurality of grills are spaced apart to facilitate air flow, and may have a crossed shape in a straight or cross shape.

The outdoor air supply unit 152 is formed in an opening spaced apart from the edge of the lower cover 150 at regular intervals, so that the outdoor air induced through the third flow path 114 can be supplied to the room through the outdoor air supply unit 152 . . In this case, the outdoor air supply unit 152 may be formed to be inclined in an outward direction from the upper side of the lower cover 150 to the lower side. Accordingly, the outdoor air supplied to the room is supplied to the outside of the rim of the total heat exchanger, so that it is widely used indoors. There is an effect that can be supplied.

In addition, the total heat exchange device according to the embodiment of the present invention is disposed between the case part 110 and the lower cover 150 to determine the movement direction of the external air heat-exchanged from the case part 110 to the external air supply part ( 152) may further include a distribution cover 160 that can be distributed in the direction.

In detail, the distribution cover 160 has a smaller size than the lower cover 150 and includes a distribution plate 161 having a coupling hole for coupling the heat exchange unit to the central portion, and a circular arc direction from the upper portion of the distribution plate 161 based on the center. It may include a plurality of vanes 162 arranged to be spaced apart by a set interval. As the distribution cover 160 is disposed between the lower cover 150 and the case unit 110 , the outside air induced through the third flow path 114 of the case unit 110 is formed in the distribution cover 160 . While flowing along the vane 162 of the lower cover 150, there is an effect that can be evenly distributed to the plurality of outside air supply unit 152 formed on the edge. Here, it is pointed out that the set interval spaced apart between the plurality of vanes 162 may have an interval corresponding to the interval of the outdoor air supply unit 152 formed on the lower cover 150 .

Hereinafter, the operation of the total heat exchanger according to the embodiment of the present invention will be described in detail with reference to FIGS. 3 to 5 .

First, the flow (a, b) of the outside air will be described. When the outdoor air fan 122 of the outdoor air inlet 120 operates, the outdoor air may be introduced (a) into the first flow path 112 through the outdoor air inlet 120, and from the first flow path 112, the heat exchange unit ( 140) may flow (b) from the front side to the third flow path 114 through the rear side. At this time, the flow direction of the outside air passing through the rear surface from the front surface of the heat exchange unit 140 may be a rearward direction horizontal to the ground.

In addition, in the process of passing the introduced outside air from the front to the rear of the heat exchange unit 140 , heat exchange may be performed with the bet passing through the upper surface from the lower surface of the heat exchange unit 140 . The heat-exchanged outdoor air may be introduced into the third flow path 114 , and the introduced heat-exchanged outdoor air is distributed along the vanes 162 of the distribution cover 160 to the outdoor air supply unit 152 formed in the lower cover 150 . can be supplied with

Next, the flow of bets (a', b') will be described. When the bet fan 132 of the bet discharge unit 130 operates, the bet may be sucked (a') through the bet suction unit 151 of the lower cover 150 . The bet sucked through the bet suction part 151 of the lower cover 150 may flow (b') from the lower surface of the heat exchange unit 140 to the second flow path 113 through the upper surface. At this time, the flow direction of the bet passing through the upper surface from the lower surface of the heat exchange unit 140 may be an upper direction perpendicular to the ground.

In addition, in the process of passing the sucked bet from the lower surface to the upper surface of the heat exchange unit 140 , heat exchange with the outside air passing through the rear surface from the front surface of the heat exchange unit 140 may be made. The heat exchange bet may be introduced into the second flow path 113 , and the introduced heat exchange bet may be discharged to the outside through the bet discharge unit 130 .

Here, heat exchange may be performed in the process of moving the outside air from the front surface of the heat exchange unit 140 to the rear surface, and the bet air from the lower surface of the heat exchange unit 140 to the upper surface. That is, there is an effect that heat exchange is made with each other in a vertical direction based on a plane perpendicular to the ground.

The total heat exchanger according to the embodiment of the present invention having the above configuration has the following effects.

First of all, in the process of indoor air being sucked in from the bottom center of the total heat exchanger, heat exchanged and exhausted, since the flow path of indoor air is designed in a direction perpendicular to the ground, the existing indoor air flow path is designed in a horizontal direction to the ground. There is an effect that the size of the product can be drastically reduced compared to the device.

In addition, referring to FIG. 6 , indoor air is sucked in from the center of the lower grill of the total heat exchanger, and the heat-exchanged outdoor air is discharged from the edge surface of the lower grill to the room. there is an effect In detail, since the total heat exchanger according to the embodiment of the present invention sucks in the bet through the central part of the lower surface and at the same time supplies the outside air to the room through the lower edge part, there is an effect that the convection of the indoor space (In) can be made efficiently. there is.

In addition, since intake air for outdoor exhaust of indoor air and supply air for indoor supply of heat-exchanged outdoor air are simultaneously made through the lower grill formed in the lower part, there is no need to add a configuration for separately supplying heat-exchanged air. there is.

Of course, various modifications are possible by those of ordinary skill in the art within the scope of the basic technical spirit of the present invention, and therefore the scope of the present invention should be interpreted within the claims written to include various modifications. will be.

100: total heat exchanger
110: case unit 111: heat exchange unit coupling space
112: first euro 113: second euro
114: 3rd Euro
120: outside air inlet
130: bet inlet
140: heat exchange unit
150: lower cover 151: bet suction part
152: outdoor air supply unit
160: distribution cover 161: distribution plate
162: vane
170: control unit

Claims (5)

a heat exchange unit for exchanging heat with the outside air;
an outdoor air inlet through which the outdoor air is introduced;
a bet discharge unit through which the bet heat-exchanged from the heat exchange unit is discharged to the outdoors;
a case unit which provides a heat exchange unit coupling space to which the heat exchange unit is coupled in the center, the outside air inlet and the outside air outlet are disposed on one side, and provides a flow path for heat exchange between the bet and the outside air; and
It is disposed on the lower side of the case portion, and includes a lower cover formed with a bet suction unit for sucking the bet to the heat exchange unit and an outdoor air supply unit for supplying heat exchanged outdoor air to the room,
The outdoor air introduced into the outdoor air inlet passes through the heat exchange unit in a horizontal direction to the ground, and the bet sucked into the bet suction unit passes through the heat exchange unit in a direction perpendicular to the ground to exchange heat.
The method of claim 1,
The flow path is
a first flow path disposed between the outdoor air inlet and the front surface of the heat exchange unit coupling space to provide a flow path for flowing the outside air introduced from the outdoor air inlet to the front surface of the heat exchange unit; and
and a second flow path disposed between the bet discharge part and the upper surface of the heat exchange part coupling space to provide a flow path for flowing the bet sucked from the bet suction part to the upper surface of the heat exchange part,
The outdoor air introduced into the outdoor air inlet passes from the front side to the rear side of the heat exchange unit through a first flow path,
The total heat exchange device, characterized in that the bet sucked into the bet suction part passes through the upper surface from the lower surface of the heat exchange part to the second flow path.
3. The method of claim 2,
The flow path is
and a third flow path disposed between the rear surface of the heat exchange unit coupling space and the lower cover and providing a flow path for flowing the outside air passing from the front side to the rear side of the heat exchange unit through the first flow path to the outside air supply unit. total heat exchanger with
4. The method of claim 3,
It is disposed between the case portion and the lower cover, further comprising a distribution cover for distributing the outdoor air flowing through the third flow path to the outdoor air supply unit,
The distribution cover includes a distribution plate having a coupling hole to which the lower surface of the heat exchange unit is coupled in the center, and a plurality of vanes spaced apart by a set interval at a circular arc interval based on the center of the distribution plate. Device.
The method of claim 1,
The heat exchange unit,
a main part formed of a pulp material for heat exchange between the outdoor air introduced into the outdoor air inlet and the bet sucked into the indoor air inlet; and
and an auxiliary filter unit disposed on the front and lower surfaces of the main unit, respectively, to filter foreign substances from outside air and inside air.

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