KR102199435B1 - Heat Exchanger - Google Patents

Abstract

The present invention relates to a total heat exchange device for firefighting, and more specifically, an air supply fan unit and an exhaust fan unit having a sirocco fan having excellent air supply and exhaust efficiency are mounted on the main body to introduce external air into the room, and To increase the circulating efficiency of indoor air by exhausting it to the outside, in particular, in the event of a fire, both the air supply fan unit and the exhaust fan unit are configured to simultaneously discharge indoor air to the outside, so that the toxic gas in the event of a fire is quickly exhausted to ensure fire safety. It relates to a total heat exchange device for fire fighting.

Description

Total heat exchanger{Heat Exchanger}

The present invention relates to a total heat exchange device for firefighting, and more specifically, an air supply fan unit and an exhaust fan unit having a sirocco fan having excellent air supply and exhaust efficiency are mounted on the main body to introduce external air into the room, and To increase the circulating efficiency of indoor air by exhausting it to the outside, in particular, in the event of a fire, both the air supply fan unit and the exhaust fan unit are configured to simultaneously discharge indoor air to the outside, so that the toxic gas in the event of a fire is quickly exhausted to ensure fire safety. It relates to a total heat exchange device for fire fighting.

Today, as the use of energy increases, a type of building that can actively pursue energy saving is being designed.

In the energy-saving building as described above, moisture and contaminated air generated indoors cannot escape to the outdoors, and it is not easy for outdoor air to enter the room.Therefore, various dusts, bacteria, harmful gases, and odors exist in the indoor air. Can

The quality of indoor air can be about 2 to 10 times more harmful to the human body than outdoor air, and if the windows of the building are periodically opened and ventilated to improve the quality of indoor air, the indoor heat escapes to the outside. Energy loss inevitably occurs.

The total heat exchanger developed to solve this problem is sensible heat between indoor air and outdoor air in the process of discharging indoor air to the outside and supplying outdoor air to the room in order to prevent energy loss while improving the quality of indoor air. It is a device that exchanges total heat including heat) and latent heat.

Ventilating indoor air through such a total heat exchanger has the advantage of minimizing indoor heat loss, and recently, installation in each building is common.

In the event of a fire in an indoor space, a large amount of toxic gas is generated, and the golden time according to the evacuation is shortened by the generated toxic gas, causing a lot of personal injury.

BACKGROUND ART [0002] In a conventional total heat exchanger, a sirocco-type air supply fan unit and a sirocco-type exhaust fan unit are installed to promote air supply or exhaust by rotating a sirocco fan member in one direction. The sirocco type has an advantage of having a relatively large air supply capacity and less noise generation than a propeller fan.

However, the sirocco fan member, unlike a propeller fan, does not change the blowing direction if the rotation direction is simply changed in the forward and reverse direction, and the required blowing performance can be exhibited only when it is necessarily rotated in one direction.

In other words, since the sirocco fan member is structured to intake and supply air in only one direction, even if the sirocco fan member is rotated in the reverse direction by changing the rotation direction like the propeller fan member, the blowing direction does not change or It has a characteristic that it is difficult to meet the required airflow volume.

KR 10-1072145 B1 KR 10-1263656 B1 KR 20-2018-0002680 U

An object of the present invention, conceived to solve the above problems, is to introduce an air supply fan unit and an exhaust fan unit having a sirocco fan having excellent air supply and exhaust efficiency in the main body to introduce outdoor air into the room, To increase the efficiency of indoor air circulation by exhausting the air to the outside, and in particular, in the event of a fire, both the air supply fan unit and the exhaust fan unit simultaneously discharge indoor air to the outside to ensure fire safety by quickly exhausting toxic gases caused by a fire. It is to provide a total heat exchange device for fire fighting.

The above object is achieved by the following configuration provided in the present invention.

Fire fighting total heat exchange device according to the present invention,

A storage body having a storage space in which an air supply passage including an outdoor air inlet and an outdoor air supply port and an exhaust passage including an indoor air inlet and an indoor air exhaust port are formed;

An air supply fan unit formed in the storage space of the storage body to inhale outdoor air along a supply airway and supply the air intake to the indoor space through an indoor air supply pipe;

An exhaust fan unit housed in the storage space of the storage body, inhaling indoor air along an indoor exhaust pipe and exhausting the inhaled indoor air to the outside through an exhaust path;

A total heat exchange unit formed on an air supply path and an exhaust path formed in the storage space of the storage body to exchange heat between external air supplied to the interior along the supply path and indoor air exhausted to the outside along the exhaust path; And

Including a control unit for controlling the drive of the air supply fan unit and the exhaust fan unit,

The air supply fan unit selectively performs an air supply function of supplying outdoor air to the interior along the supply route by changing the supply/exhaust direction under the control of a control unit, and an exhaust operation of exhausting indoor air to the outdoors along the supply route. It characterized in that it is configured.

Preferably, the air supply fan unit includes a blowing case having an intake port and an air supply port, respectively, a sirocco fan member disposed in a rotating structure in the blowing case to intake air through the intake port and discharge through the air supply port, and the sirocco Including an electric motor for rotating the fan member in one direction, and an air supply fan portion;

The air supply fan unit is rotated equiangularly in a forward and reverse direction, and the air supply port and the air supply port formed on the air blower case are replaced with a connection head formed on the air supply channel, and are connected to each other.

More preferably, an auxiliary exhaust pipe is added to the air supply channel in which the air supply fan unit is disposed, and the supply and exhaust directions of the supply air and the air supply fan unit of the auxiliary exhaust pipe are changed on the auxiliary exhaust pipe and the supply air. The damper unit and the second damper unit are arranged so that the direction of supply and exhaust by the air supply fan unit is changed by selective shielding action of the first damper unit and the second damper unit.

And, further comprising a fire detection sensor unit for detecting a fire in the indoor space,

When a fire in the indoor space is detected through the fire detection sensor unit, the control unit simultaneously drives the air supply fan unit and the exhaust fan unit, but changes the air supply direction of the air supply fan unit so that the air supply fan unit and the exhaust fan unit It is configured to perform an exhaust smoke function of inhaling and exhausting to the outside.

The total heat exchange device for fire fighting proposed as another embodiment in the present invention,

A storage body having a storage space in which an air supply passage including an outdoor air inlet and an outdoor air supply port and an exhaust passage including an indoor air inlet and an indoor air exhaust port are formed;

An air supply fan unit formed in the storage space of the storage body to inhale outdoor air along a supply airway and supply the air intake to the indoor space through an indoor air supply pipe;

An exhaust fan unit housed in the storage space of the storage body, inhaling indoor air along an exhaust path, and inhaling the inhaled indoor air along an indoor exhaust pipe to exhaust the air to the outside;

A total heat exchange unit formed on the supply air passage and the exhaust passage formed in the storage space of the storage body to exchange heat between external air supplied to the interior along the supply air passage and indoor air exhausted to the outside along the exhaust passage;

An auxiliary exhaust pipe for communicating by bypassing the indoor air supply pipe and the air supply air;

An auxiliary exhaust fan unit disposed in the auxiliary exhaust pipe to intake air through the auxiliary exhaust pipe to supply air along the supply path and discharge it to the outside;

A first damper unit disposed at an exhaust port of the air supply fan unit to open and close between the indoor air supply pipe and the air supply fan unit;

A second damper unit opening and closing between the indoor air supply pipe and the auxiliary exhaust pipe; And

And a control unit for controlling driving of the air supply fan unit, the exhaust fan unit, the auxiliary exhaust fan unit, and the first damper unit and the second damper unit.

As described above, in the present invention, by improving the total heat exchanger arranged in communication with each room, the ventilation function of inflowing outside air into the room and discharging the indoor air to the outside is achieved in normal times, and the indoor air is outside when a fire occurs. By promoting the exhaust smoke function, the fire is delayed while minimizing the residual amount of toxic gas remaining in the indoor space at the beginning of the fire, thereby ensuring sufficient evacuation time.

In addition, in the present invention, by implementing a total heat exchanger employing a sirocco fan-type air supply fan unit and an exhaust fan unit having stable air supply and exhaust efficiency, in particular, it is possible to secure stable flue gas efficiency. have.

Accordingly, the present invention adopts a sirocco fan-type air supply fan unit having excellent ventilation efficiency, but when a rapid exhaust of indoor air such as a fire is required, the air supply fan unit is switched in the blowing direction, and the indoor air through the exhaust fan unit and the air supply fan unit Simultaneous exhaust of air can be implemented.

In addition, in the present invention, it is possible to dehumidify the total heat exchange unit through the exhaust function of the exhaust fan unit and the auxiliary exhaust fan unit.

In particular, the air required for dehumidification of the total heat exchange unit is inhaled from the installation space even without using the indoor air supply pipe, which is a path for supplying external air to the indoor space, thus dehumidifying the total heat exchange part. Pollution is prevented.

1 shows the overall configuration of a total heat exchange device proposed as a preferred embodiment in the present invention,
2 is a diagram showing a detailed configuration of an air supply fan unit and an isometric rotation state in the total heat exchange device proposed as a preferred embodiment in the present invention,
3 and 4 are operational states of the total heat exchanger proposed as a preferred embodiment in the present invention (FIG. 3 shows exhaust through the exhaust fan unit and air supply through the air supply fan unit, and FIG. 4 is the exhaust fan unit It shows the simultaneous exhaust condition through the supercharger fan unit),
5 to 7 are operational state diagrams of the total heat exchanger proposed as a preferred embodiment in the present invention (FIG. 5 shows exhaust through the exhaust fan unit and air supply through the air supply fan unit, and FIG. 6 is an exhaust fan It shows the state of simultaneous exhaust through the unit and the auxiliary exhaust fan unit, and FIG. 7 shows the dehumidification state of the total heat exchange unit through the exhaust fan unit and the auxiliary exhaust fan unit).

Hereinafter, a total heat exchange apparatus proposed as a preferred embodiment in the present invention will be described in detail with reference to the accompanying drawings.

1 shows the overall configuration of the total heat exchange device proposed as a preferred embodiment in the present invention, and FIG. 2 is a detailed configuration of the air supply fan unit in the total heat exchange device proposed as a preferred embodiment in the present invention, isometric 3 and 4 show the operating state of the total heat exchanger proposed as a preferred embodiment in the present invention (FIG. 3 shows the exhaust through the exhaust fan unit and the air supply through the air supply fan unit, Figure 4 shows the simultaneous exhaust state through the exhaust fan unit and the air supply fan unit), Figures 5 to 7 are operational state diagrams of the total heat exchange device proposed as a preferred embodiment in the present invention (Figure 5 is It shows the exhaust through the exhaust fan unit and the air supply through the air supply fan unit, FIG. 6 shows the simultaneous exhaust through the exhaust fan unit and the auxiliary exhaust fan unit, and FIG. 7 shows the exhaust fan unit and the auxiliary exhaust fan unit. This is to show the dehumidification status of the total heat exchanger.

The total heat exchange device 1 proposed as a preferred embodiment of the present invention is a supply channel including an outdoor air inlet 11a and an outdoor air supply port 11b as shown in FIGS. 1 and 3 to 6. 11) and a storage body 10 having a storage space in which an exhaust path 12 including an indoor air inlet 12a and an indoor air exhaust 12b is formed; An air supply fan unit (20) formed in the storage space of the storage body (10) to inhale outdoor air along a supply airway (11) and supply the air intake to the indoor space through an indoor air supply pipe (P1) and; An exhaust fan unit 30 that is accommodated in the storage space of the storage body 10 and inhales indoor air through the indoor exhaust pipe P2 and exhausts the inhaled indoor air to the outdoors along the exhaust path 12, and ; It is formed on the air supply passage 11 and the exhaust passage 12 formed in the storage space of the storage body 10, and the external air supplied to the interior along the air supply passage 11 and along the exhaust passage 12 A total heat exchange unit 40 for heat exchange of indoor air exhausted to the outside; And a control unit 50 for controlling driving of the air supply fan unit 20 and the exhaust fan unit 30.

The total heat exchanger 1 configured as described above aims to ventilate each indoor space through each outdoor air supply member communicating with the supply passage 11 and each outdoor air intake member communicating with the exhaust passage 12. .

In this process, the total heat exchanger (1) exchanges heat with the external air supplied to the indoor space through the supply airway (11) and the indoor air discharged to the outside through the exhaust passage (12), and flows into the indoor space. It suppresses the phenomenon that the temperature deviation between the external air that is formed and the air remaining in the room becomes deeper.

Since the main configuration and operation of the total heat exchange device 1 are well known in the art, detailed descriptions thereof are omitted in the present specification.

However, in the present invention, when a fire occurs, the air supply fan unit 20 does not supply external air through the supply airway 11, but is configured to promote an exhaust function of exhausting indoor air to the outside. It is possible to evacuate the fire early by promoting the rapid discharge of the poisoned gas.

First, in the first embodiment of the present invention, as shown in FIGS. 1 to 4, the supply and exhaust direction of the air supply fan unit 20 is switched, and during normal times, the air supply function of supplying external air to the indoor space is performed, When it occurs, it performs an exhaust function, that is, a flue gas function, which discharges indoor air to the outside.

And, in the second embodiment of the present invention, an auxiliary exhaust fan unit, a damper unit, and an auxiliary exhaust pipe are organically added to perform a supply air function of supplying external air to the indoor space in normal times, and then discharge indoor air to the outside when a fire occurs. The exhaust function, that is, the flue gas function is performed.

In particular, in the present embodiment, a propeller fan member whose supply direction is changed simply through forward and reverse rotation is not adopted, but a large amount of air can be inhaled through one direction rotation and a sirocco fan member having low noise is mounted. ) Is adopted.

That is, the air supply fan unit 20 according to the present embodiment includes a ventilation case 21 in which an air intake port 21a and an air supply port 21b are formed respectively, and the air intake port 21 is arranged in a rotating structure in the air supply case 21. It includes a sirocco fan 22 that inhales air through (21a) and discharges it through the air supply port (21b), and an electric motor 23 that rotates the sirocco fan member 22 in one direction.

However, the sirocco fan member 22 has a rotational direction unlike a propeller fan member due to its characteristics.

That is, when the sirocco fan member 22 disposed in the blowing case 21 is rotated in one direction, strong blowing performance is exhibited, but when the sirocco fan member 22 is rotated in the reverse direction, the blowing performance is significantly deteriorated or unpredictable. It has ventilation performance.

Therefore, in the art, the sirocco-type air supply fan unit 20 and the exhaust fan unit 30 to which the sirocco fan member 22 is applied, unlike the propeller-type air supply fan unit and the exhaust fan unit, are adopted for intake only or exhaust only. Actually.

To add to this, the sirocco fan member 22 is structurally configured to intake and supply air in only one direction, so the rotation direction of the electric motor 23 is changed like a propeller fan to change the rotation direction of the sirocco fan member 22. Even if it rotates in the reverse direction, the blowing direction does not change or it is difficult to meet the required blowing amount.

Accordingly, in the present invention, a sirocco fan-type air supply fan unit 20 having an excellent air supply capacity by mounting a sirocco fan member 22 is adopted, but the connection direction between the air supply fan unit 20 and the air supply passage 11 is In this way, the air supply fan unit 20 performs an air supply function of supplying outdoor air to the room in normal times, and when a fire occurs, it performs an exhaust, that is, a flue gas function, which discharges the remaining indoor air with toxic gas to the outside.

To this end, in this embodiment, a connection head 11c for selectively connecting the intake port 21a and the air supply port 21b of the sirocco fan type air supply fan unit 20 is formed on the air supply passage 11, The air supply fan unit 20 is rotated equiangularly in a forward and reverse direction to replace the air intake port 21a and the air supply port 21b to the air supply passage 11 and connect the air supply fan unit 20 to each other.

Here, the conformal rotation part 24 may have various shapes such as an electric motor, a conformal cylinder, and a solenoid.

Referring to FIG. 2 showing a preferred embodiment, the blowing case 21 is formed in a spherical shape, and is connected to the connecting head 11c formed on the air supply passage 11 by the forward and reverse rotation by the drive of the conformal rotation unit 24. The intake port 21a and the intake port 21b are selectively replaced and connected.

At this time, a sealing ring (11d) made of an elastic material is disposed on the connection head (11c) formed on the air supply passage (11), and the air intake port (21a) and the air supply port (21b) formed in the blowing case (21) The sealing ring (11d) is to be sealed by elastic contact with the connection head (11c) formed in the supply air (11).

Accordingly, the air supply fan unit 20 has an air supply function of supplying outside air to the interior along the air supply passage 11 by changing the air supply direction under the control of the controller 50, and the indoor air along the supply air passage 11. It can perform the exhaust function of exhausting to the outside.

In addition, when a fire occurs, the control unit 50 rotates the sirocco fan-type air supply fan unit 20 at an equal angle through the conformal rotation unit 24 as shown in FIGS. 2B and 4 to change the supply and exhaust direction of the air supply fan unit 20. , The air supply fan unit 20, together with the exhaust fan unit 30, inhales indoor air and exhausts the air to the outside.

At this time, it further includes a fire detection sensor unit 60 for detecting a fire in the indoor space, and the control unit 50 when a fire in the indoor space is detected through the fire detection sensor unit 60, the air supply fan unit 20 And the exhaust fan unit 30, respectively, but by rotating the air supply fan unit 20 at an equal angle as shown in FIGS. 2B and 4 to change the supply and exhaust direction of the air supply fan unit 20, the air supply fan unit 20 Together with the exhaust fan unit 30, indoor air is sucked and exhausted to the outside.

And, by adding a humidity measurement sensor unit 70 that detects the residual humidity of the total heat exchange unit 40, when the humidity of the total heat exchange unit 40 measured through the humidity measurement sensor unit 70 is higher than the set humidity , As in the case of a fire, indoor air can be exhausted to the outside through the air supply fan unit 20 and the exhaust fan unit 30 to promote dehumidification of the total heat exchange unit 40, which is also within the scope of the present invention. Scheduled.

On the other hand, in another embodiment of the present invention, as shown in FIGS. 5 to 7, the auxiliary exhaust pipe 80 communicating between the indoor air supply pipe P1 communicating with the air supply fan unit 20 and the air supply passage 11 In addition, an auxiliary exhaust fan unit 90 is further disposed on the auxiliary exhaust pipe 80.

In addition, a first damper unit 81 is disposed at the exhaust port 21b of the air supply fan unit 20, and a second damper unit 82 is provided between the indoor air supply pipe P1 and the auxiliary exhaust pipe 80. To place.

Therefore, in normal times, as shown in FIG. 5, the controller 50 discharges the indoor air remaining in the indoor space through the exhaust fan unit 30 through the indoor exhaust pipe P2 to the outside along the exhaust path 12. At the same time, the first damper unit 81 is opened, the second damper unit 82 is closed, and then the air supply fan unit 20 is driven, so that the air supply 11 is opened by the air supply action of the air supply fan unit 20. Accordingly, the inhaled external air is supplied to each indoor space through the indoor air supply pipe (P1).

And, in the event of a fire, as shown in FIG. 6, the control unit 50 transfers the indoor air remaining in the indoor space through the exhaust fan unit 30 to the outside through the indoor exhaust pipe P2. Simultaneously with discharge, the first damper unit 81 is closed, the second damper unit 82 is opened, and then the auxiliary exhaust fan unit 90 is driven, and thus the interior of the room by the exhaust action of the auxiliary exhaust fan unit 90 Indoor air inhaled from each indoor space through the side air supply pipe (P1) is discharged to the outside through the air supply (11).

Thus, the total heat exchange device 1 ′ according to the present embodiment has an air supply function of supplying external air to the indoor space through the supply fan unit 20 in normal times, and the indoor air through the exhaust fan unit 30 to the outside. By performing an air circulation action including an exhausting action to exhaust, the total heat between the indoor air and the outside air is exchanged.

And, in the event of a fire, it remains in each indoor space through the exhaust fan unit 30 and the auxiliary exhaust fan unit 90 through the indoor air supply pipe (P1) and the indoor exhaust pipe (P2) communicating with each indoor space. By discharging the indoor air to the outside, the toxic gases remaining in the indoor space by fire are discharged more quickly.

Accordingly, the total heat exchange device 1 ′ according to the present embodiment can perform a more stable flue gas operation through the exhaust fan unit 30 and the auxiliary exhaust fan unit 90 when a fire occurs.

In addition, in the present embodiment, when the total heat exchange unit 40 detects a humidity higher than the set value, air is circulated and discharged to the total heat exchange unit 40 through the exhaust fan unit 30 and the auxiliary exhaust fan unit 90. Thus, dehumidification of the total heat exchange unit 40 is achieved by the circulating and exhausted air.

To this end, in the present embodiment, a humidity measurement sensor unit 70 for sensing the humidity of the total heat exchange unit 40 is added.

In particular, the auxiliary exhaust fan unit 90 does not inhale indoor air in the indoor space through the indoor air supply pipe (P1) during the dehumidification process of the total heat exchange unit 40, and a total heat exchange device (1') is installed. By inhaling the air in the space S and discharging it along the total heat exchange unit 40, the humidity remaining in the total heat exchange unit 40 is dehumidified by the air inhaled from the installation space.

With this configuration, contamination of the indoor air supply pipe P1 due to inhalation of the indoor air remaining in the indoor space for dehumidification through the air supply 11 can be prevented.

To this end, in this embodiment, as shown in FIG. 7, an installation space intake port 80a communicating with the installation space S in which the total heat exchange device 1'is installed is added to the auxiliary exhaust pipe 80 to be formed. And, a third damper unit 83 is disposed in the installation space intake port 80a.

Therefore, when the humidity measurement sensor unit 70 detects the humidity above the set value in the total heat exchange unit 40, the control unit 50 drives the exhaust fan unit 30 to follow the indoor exhaust pipe P2. Indoor air inhaled from the indoor space is discharged through the total heat exchange unit 40.

At the same time, the control unit 50 closes the first damper unit 81 and the second damper unit 82, opens the third damper unit 83, and drives the auxiliary exhaust fan unit 90.

Accordingly, the air in the installation space (S) is supplied into the total heat exchange unit 40 through the installation space intake port (80a) formed in the auxiliary exhaust pipe (80) to be exhausted, and as a result, the installation space intake port (80a) is opened. Since dehumidification of the total heat exchange unit 40 is achieved by the air inhaled from the installation space S by the auxiliary exhaust fan unit 90, the total heat exchange device 1'according to the present embodiment is an exhaust fan unit ( The dehumidification of the total heat exchange unit 40 is possible through the exhaust action of 30) and the auxiliary exhaust fan unit 90.

In particular, during the dehumidification process of the total heat exchange unit 40, the total heat exchange unit 40 by inhaling air from the installation space (S) without using the indoor air supply pipe (P1), which is a path for supplying external air to the indoor space. By dehumidifying, contamination of the indoor air supply pipe P1 due to dehumidification is prevented.

1, 1'. Total heat exchange device
10. Storage body 11. Air supply
11a. Outdoor air inlet 11b. Outdoor air supply
11c. Connection head 11d. Sealing ring
12. Exhaust furnace 12a. Indoor air inlet
12b. Indoor air exhaust port
20. Air supply fan unit (Sirocco fan type) 21. Ventilation case
21a. Intake port 21b. Air supply port
22. Sirocco fan member 23. Electric motor
24. Isometric rotating section
30. Exhaust fan unit (Sirocco fan type) 40. Total heat exchanger
50. Control unit 60. Fire detection sensor unit
70. Humidity measurement sensor unit
80. Auxiliary exhaust pipe 80a. Installation space intake port
81. The first damper unit
82. The second damper unit 83. The third damper unit
90. Auxiliary exhaust fan unit
P1. Indoor air supply piping P2. Indoor exhaust piping
S. Installation space

Claims (3)

A storage body having a storage space in which an air supply passage including an outdoor air inlet and an outdoor air supply port, and an exhaust passage including an indoor air inlet and an indoor air exhaust port are formed;
An air supply fan unit formed in the storage space of the storage body to inhale outdoor air along a supply airway and supply the air intake to the indoor space along an indoor air supply pipe;
An exhaust fan unit housed in the storage space of the storage body, inhaling indoor air along an indoor exhaust pipe, and exhausting the inhaled indoor air to the outside through an exhaust path;
A total heat exchange unit formed on a supply airway and an exhaust path formed in the storage space of the storage body to exchange heat between external air supplied to the interior along the supply airway and indoor air exhausted to the outside along the exhaust path; And
Including a control unit for controlling the drive of the air supply fan unit and the exhaust fan unit,
The air supply fan unit includes a ventilation case having an air intake port and an air supply port, respectively, a sirocco fan member disposed in the ventilation case in a rotating structure to intake air through the air intake port and discharge it through the air supply port, and the sirocco fan member. Including an electric motor that rotates in one direction, and an equiangular rotation part that selectively replaces and connects the air intake port and the air supply port formed in the air blow case to the connection head formed on the air supply air by rotating the air supply fan unit in an equiangular direction,
The supply fan unit has a supply function of supplying outdoor air to the room along the supply path by changing the supply/exhaust direction through the conformal rotating part under the control of the control unit, and exhausting indoor air to the outside along the supply path. The total heat exchange device, characterized in that configured to selectively perform an exhausting action. delete The method of claim 1, further comprising a fire detection sensor unit for detecting a fire in the indoor space,
When a fire in the indoor space is detected through the fire detection sensor unit, the control unit simultaneously drives the air supply fan unit and the exhaust fan unit,
The total heat exchange device, characterized in that, by changing the supply direction of the air supply fan unit, the air supply fan unit breathes indoor air together with the exhaust fan unit and exhausts the air to the outside.

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