KR102371835B1 - Ventilation with purge mode - Google Patents

Abstract

The present invention relates to a ventilation device capable of maintaining a constant indoor air temperature or purifying indoor air using a total heat exchange unit, and more particularly, a pre-heating device performed before heat exchange mode of the ventilation device or to prevent dew condensation. purge mode (pre-purge mode); After the outdoor air flowing in through the outdoor intake port exchanges heat with indoor air flowing in through the indoor intake port at the total heat exchange unit, the outdoor air is discharged into the room through the indoor exhaust port, and the indoor air is discharged to the outdoors through the outdoor exhaust port. mode; and a post-purge mode that is executed after the heat exchange mode of the ventilation device or to prevent dew condensation;
In the pre-purge mode, the first damper and the second damper are opened, and after indoor air flows into the first space through the indoor intake port, the total heat exchange is divided into the first surface and the third space, and the total heat exchange The indoor air moving to the first surface of the unit passes through the first and fourth surfaces of the total heat exchange unit, moves to the fourth space, then moves to the second space through the first damper, and then through the second damper to the third space. The indoor air moving into the space passes through the third and second surfaces of the total heat exchanger and moves to the second space, and the indoor air of the second space is discharged through the indoor exhaust port.

Description

Ventilation with purge mode

The present invention relates to a ventilation device capable of maintaining a constant air temperature inside a building or purifying indoor air, and in particular, a pre-purge mode and a post-purge mode are executed before and after the heat exchange mode of the ventilation device to prevent condensation of the ventilation device. It relates to a ventilation device having a purge mode that can prevent the occurrence.

The indoor air we live in is polluted by various factors, and ventilation that exhausts polluted indoor air to the outdoors and introduces outdoor air into the room is essential for a comfortable life.

In particular, in a place where many people stay in a narrow space, such as an office, it is necessary to ventilate the room frequently. At this time, there was a method of using a general ventilation by opening a window or using a fan.

However, when ventilation is performed by opening a window of a building, the efficiency of heating and cooling of the building decreases, and recently, a ventilation device or air conditioning system capable of forcibly ventilating the air of the building is being installed in the building due to extreme fine dust.

In addition, as our living spaces become higher and higher today, our living spaces are becoming more airtight or closed, such as restricting the opening of windows due to problems such as stability, energy saving, noise, and security.

According to these changes, almost all buildings today require a ventilation device or air conditioning system that supplies fresh air from the outside to the inside and exhausts the inside air to the outside. is mainly used.

The waste heat recovery ventilator with this structure introduces outdoor air into the ventilator through the outdoor intake port, purifies it with a filter, and supplies it to the room through the indoor exhaust port. After inlet, it is discharged to the outside through the outdoor exhaust port.

A total heat exchange unit is provided inside a general waste heat recovery type ventilation device, and before the indoor air introduced through the indoor intake port is discharged to the outside through the outdoor exhaust port, its heat energy (cold or warm) is transferred while passing through the total heat exchange unit, The outdoor air introduced through the outdoor intake port is also discharged through the indoor exhaust port after the indoor air receives heat energy transferred to the total heat exchange unit while passing through the total heat exchange unit. At this time, the outdoor air and the indoor air are discharged by a blowing fan, respectively, and operation control of the blowing fan is performed by a control box (control unit).

In general, when such a ventilation device is installed in a space with an insulated outer wall in an apartment or building, the occurrence of condensation inside the ventilation device can be minimized. The conditions are almost similar to those of this outdoor space, and dew condensation occurs inside the ventilation system.

That is, when the temperature of the outdoor air is low, such as in winter, there is a problem in that dew condensation occurs inside the ventilation device due to the temperature difference between indoors and outdoors, and mold is generated in the ventilation device due to the generated condensation.

As a measure to prevent dew condensation occurring in the ventilation device, conventionally, heating means such as a planar heating element or heater is installed inside the ventilation device, or an exhaust fan that sucks indoor air and exhausts it to the outside is operated to remove condensation.

However, if the exhaust fan is operated for more than a certain period of time, the indoor pressure becomes negative pressure, and the contaminated and cold outdoor air can be mixed into the room. There is a limit in space where condensation cannot be prevented. In addition, when the dew condensation is removed by the heating of the heater, there is a problem in that the consumption of electric energy is increased.

Republic of Korea Patent No. 0690987

The present invention is to solve the problems of the conventional ventilation system as described above, and there are a pre-purge mode and a post-purge mode that move indoor air to the entire area inside the ventilation system and circulate it before and after the heat exchange mode driven by the total heat exchanger. It is an object of the present invention to provide a ventilation device having a purge mode capable of discharging heat inside the ventilation device to the outside and preventing dew condensation in the ventilation device, and also making indoor air in a comfortable state.

However, the problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In the ventilation device of the present invention for achieving the above object, after outdoor air flowing in through an outdoor intake port exchanges heat with indoor air flowing in through an indoor intake port in a total heat exchange unit, the outdoor air flows into the room through the indoor exhaust port. and a heat exchange mode in which the indoor air is discharged and the indoor air is discharged to the outdoors through an outdoor exhaust port;

In front of the first to fourth surfaces of the total heat exchange unit, first to fourth spaces are formed that are separated so that air does not pass through each other,

A first damper is provided between the second space and the fourth space to communicate or block the second space and the fourth space by an opening/closing operation,

It is executed before the heat exchange mode of the ventilation device or to prevent dew condensation, the first damper is opened, and the indoor air flows into the first space through the indoor intake port and then passes through the total heat exchange unit and moves to the fourth space, , a pre-purge mode in which the indoor air that has moved to the fourth space moves to the second space through the first damper and then is discharged through the indoor exhaust port; includes.

In addition, in the ventilation device of the present invention, a second damper is provided between the first space and the third space to communicate or block the first space and the third space by an opening/closing operation,

In the pre-purge mode,

The second damper is opened, some of the indoor air flowing into the first space through the indoor intake port moves to the third space through the open second damper, and the indoor air that has moved into the third space is transferred to the total heat exchange unit. After passing through and moving to the second space, it is characterized in that it is discharged through the indoor exhaust port.

Further, in the ventilation device of the present invention, in the heat exchange mode, the first damper is blocked, the second damper is opened, and the indoor air flowing into the first space through the indoor intake is connected to the first surface of the total heat exchange unit and The external air that is divided and moved into the third space and flows into the third space through the outdoor intake is mixed with the indoor air that flows into the third space from the first space, and the indoor air that moves to the first surface of the total heat exchanger and outdoor air combined with indoor air in the third space unit exchanges heat in the total heat exchanger, the indoor air is discharged to the outdoors through the outdoor exhaust port, and the outdoor air combined with the indoor air is discharged to the room through the indoor exhaust port do it with

The ventilation device having a purge mode according to the present invention has the following effects.

First, there is an effect of preventing the occurrence of condensation in the ventilation device by circulating indoor air inside the ventilation device before and after the heat exchange mode in which the total heat exchange unit is driven to remove moisture from the ventilation device and the total heat exchange unit, and, thereby, the durability of the ventilation device There is a remarkable effect of this improvement.

In addition, in the present invention, in the heat exchange mode of the ventilation device, the outdoor air flowing into the ventilation device is combined with the indoor air flowing into the ventilation device to increase the temperature of the outdoor air, thereby increasing the temperature of the indoor air and the outdoor air in the total heat exchange unit. The heat exchange time is shortened, and there is a remarkable effect of reducing the driving time of the total heat exchange unit.

1 is a schematic diagram showing a pre-purge mode of a ventilation device according to the present invention and a movement path of air accordingly;
Figure 2 is a schematic view showing a heat exchange mode of the ventilation device according to the present invention and the movement path of the air accordingly;
3 and 4 are schematic views showing the post-purge mode of the ventilation device according to the present invention and the movement path of the air accordingly;
5 is a schematic diagram showing an air cleaning mode of the ventilation device according to the present invention and a movement path of the air accordingly;
6 is a schematic diagram showing a purge mode of the ventilation device according to the present invention and a movement path of air accordingly;

In describing a preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

Hereinafter, a preferred embodiment of the ventilation device according to the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 to 5 , the ventilation device 100 according to the present invention includes a total heat exchange unit ( In the ventilation device having a heat exchange mode (normal operation), in which the outdoor air is discharged into the room through the indoor exhaust port (12) and the indoor air is discharged to the outside through the outdoor exhaust port (14) after heat exchange in 20); In front of the first surface 21 to the fourth surface 24 of the total heat exchange unit 20, first spaces (A) to fourth spaces (D) separated so that air does not pass through each other are formed, A first damper 31 is provided between the second space B and the fourth space D to communicate or block the second space B and the fourth space D by an opening/closing operation. and a pre-purge mode that is executed before the heat exchange mode of the ventilation device 100 or to prevent condensation.

In addition, in the pre-purge mode, the first damper 31 is opened, and after the indoor air flows into the first space A through the indoor intake 11 , the total heat exchange After moving through the part 20 to the fourth space (D) and moving from the fourth space (D) to the second space (B) through the first damper 31 , the indoor exhaust port ( 12 ) It is characterized in that it includes; a pre-purge mode that is discharged into the room through the.

In addition, the ventilation device 100 is further provided with a second damper 32 between the first space portion A and the third space portion C, and in the pre-purge mode, the first damper 31 and The second damper 32 is opened, and some of the indoor air flowing into the first space A through the indoor intake 11 is part of the first surface 21 and the fourth surface of the total heat exchange unit 20 . Passes through (24) and moves to the fourth space (D), and the remaining indoor air moves to the third space (C) through the open second damper (32), and into the third space (C) The moved indoor air passes through the third surface 23 and the second surface 22 of the total heat exchange unit 20, moves to the second space B, and is discharged into the room through the indoor exhaust port 12. characterized in that

In addition, in another embodiment of the present invention, between the first space (A) and the third space (C) by opening and closing operation to communicate or block the first space (A) and the third space a second damper 32 is provided, the first damper 31 is blocked in the heat exchange mode of the ventilation device 100 The indoor air flowing into the first space (A) partially moves to the third space (C) through the second damper (32), and is introduced into the third space (C) through the outdoor intake port (13). The outdoor air is mixed with the indoor air flowing in from the first space (A), and after the outdoor air mixed with the indoor air of the first space (A) exchanges heat in the total heat exchange unit 20 , the indoor air is transferred to the outdoor The outdoor air mixed with the indoor air is discharged to the outdoors through the exhaust port 14 and is characterized in that it is discharged into the room through the indoor exhaust port 13 .

Further, in another embodiment of the present invention, after the heat exchange mode of the ventilation device 100 or to prevent dew condensation, the first damper 31 is opened, and indoor air flows through the indoor intake port 11 . After flowing into the first space (A) through the total heat exchange unit (20), it moves to the fourth space (D), and the indoor air in the fourth space (D) is moved to the first damper (31) After moving to the second space (B) through the post-purge mode (post-purge mode) discharged through the indoor exhaust port (12); includes.

The ventilation device 100 of the present invention is installed on a balcony or an exterior wall of a building interior for air communication with the outside of the building, and an outdoor intake port 13 and an outdoor exhaust port 14 communicating with the outside of the building are formed. and an indoor intake 11 and an indoor exhaust port 12 communicating with the interior of the building are formed, and a total heat exchange unit 20 is provided therein.

In addition, a bypass duct forming a bypass flow path may be formed at a lower portion of the total heat exchange unit 20 .

The indoor intake 11, indoor exhaust 12, outdoor intake 13 and outdoor exhaust 14 can be independently opened or blocked by a damper or an opening/closing plate, and the amount of air sucked or exhausted can be adjusted. can

The indoor exhaust port 12 may be connected to an air supply unit (not shown) installed in each room inside the building, and the indoor intake port 11 may be connected to an intake unit (not shown) installed in each room.

In addition, the ventilation device 100 of the present invention includes a first space portion (A) that is divided so that air does not pass through each other in front of the first surface 21 to the fourth surface 24 of the total heat exchange unit 20, A second space (B), a third space (C), and a fourth space (D) are formed.

The first space portion (A) communicates with the indoor intake port (11), the second space portion (B) communicates with the indoor exhaust port (12), and the third space portion (C) communicates with the outdoor intake port (13) And, the fourth space (D) communicates with the outdoor exhaust port (14).

And a first blower 41 and a second blower 42 for forcibly discharging air to the outside of the ventilation device 100 are provided in the second space portion B and the fourth space portion D, respectively. .

In addition, a filter 50 for filtering air is provided on the first surface 21 and/or the third surface 23 of the total heat exchange unit 20 .

And between the second space (B) and the fourth space (D) by the opening and closing operation, the second space (B) and the fourth space (D) communicate with each other so that air passes or air is moved A first damper 31 is provided to block it so that it does not, and the first space A and the third space C are also provided between the first space A and the third space C by an opening and closing operation. ) is provided with a second damper 32 to communicate or block.

Accordingly, when the first damper 31 is opened, the air in the second space B and the fourth space D communicate with each other so that they can come and go, and when the second damper 32 is opened, the first space ( A) and the air in the third space (C) communicate to move.

In addition, a bypass duct (not shown) may be provided at the lower portion of the total heat exchange unit 20 , and the total heat exchange unit 20 is formed on the first surface 21 of the total heat exchange unit 20 by rotation of the opening/closing plate. A third damper (not shown) that opens the bypass duct while blocking the first surface 21 or opens the first surface 21 of the total heat exchanger 20 while blocking the bypass duct may be provided.

The third damper may also be provided on the third surface 23 of the total heat exchange unit 20 .

The third damper guides indoor air or outdoor air to the total heat exchange unit 20 or a bypass duct, and may be formed in front of the first surface 21 of the total heat exchange unit 20, and includes an indoor intake port ( 11) Or, the air introduced into the ventilation device 100 through the outdoor intake port 13 is guided to be introduced into either the total heat exchange unit 20 or the bypass duct.

In addition, the ventilation device 100 of the present invention may be provided with a sensor (not shown) for detecting the temperature, humidity, or amount of dust of the indoor air at the indoor intake port, and the information of the sensor is the ventilation device 100 of the present invention. It is transmitted to a control unit (not shown) that controls the driving mode and driving time.

On the other hand, in the ventilation device 100 of the present invention configured as described above, outdoor air flowing in through the outdoor intake port 13 exchanges heat with indoor air flowing in through the indoor intake port 11 in the total heat exchange unit 20 . a heat exchange mode (normal operation) in which the outdoor air is discharged into the room through the indoor exhaust port 12 and the indoor air is discharged to the outside through the outdoor exhaust port 14 afterward; a pre-purge mode for circulating air inside the ventilation device 100 before the heat exchange mode or to prevent condensation of the ventilation device 100; a post-purge mode for circulating air into the ventilation device 100 after the heat exchange mode or to prevent condensation of the ventilation device 100; and an air-purifier mode for purifying indoor air. In addition, the heat exchange mode, the pre-purge mode, the post-purge mode, and the air cleaning mode are operated according to a control signal from the controller.

1 is a view showing a movement path of air according to a pre-purge mode of the ventilation device according to the present invention, wherein the pre-purge mode is before the heat exchange mode of the ventilation device 100 or condensation prevention of the ventilation device , preheating, etc. are executed according to a user's selection, the first damper 31 and the second damper 32 are opened, and the first blower 41 of the second space part B operates. In addition, the indoor intake 11 and the indoor exhaust 12 are opened, and the outdoor intake 13 and the outdoor exhaust 14 are blocked.

And when the first blower 41 is driven, the indoor air flows into the first space A through the indoor intake 11, and then the first surface 21 of the total heat exchange unit 20 and the second After moving to the fourth space (D) through the four surfaces (24) and moving to the second space (B) through the first damper (31) opened in the fourth space (D), the indoor exhaust port (12) is discharged through. In addition, as the second damper 32 is opened, the indoor air introduced into the first space A through the indoor intake 11 is partially transferred to the third space C through the second damper 32 . After moving and moving to the third space (C), the indoor air passes through the third surface (23) and the second surface (22) of the total heat exchange unit (20) and moves to the second space (B) It is discharged into the room through the indoor exhaust port (12).

That is, in the pre-purge mode, after the indoor air flows into the first space (A) through the indoor intake (11), a part passes through the total heat exchange unit (20) and passes through the fourth space (D) to the second space (D). Moving to the space (B), the remaining indoor air passes through the third space (C) and the total heat exchange unit (20) and moves to the second space (B), so that the indoor air is moved inside the ventilator (100) By moving and circulating the entire area of the ventilator 100, dew condensation that may occur in the ventilation system 100 is prevented.

In addition, in the pre-purge mode, as the first damper 31 and the second damper 32 are opened, the indoor air of the first space A is transferred to the first surface 21 of the total heat exchange unit 20 and the second damper 32 . It is divided into 3 space parts (C) and has the effect of being able to move quickly.

The following FIG. 2 shows the movement path of air according to the heat exchange mode and the heat exchange mode of the ventilation device 100 according to the present invention. In the heat exchange mode of the ventilation device 100, the first damper 31 is blocked and the second damper 32 is opened, and the first blower 41 of the second space B and the second blower 42 of the fourth space D are driven.

Then, the indoor air flowing into the first space (A) through the indoor intake port (11) is divided into the first surface (21) and the third space (C) of the total heat exchange unit (20) and moves, and the outdoor air intake port Outdoor air flowing into (13) is mixed with indoor air moving from the first space (A) to the third space (C) through the second damper (32).

That is, after the indoor air flows into the first space portion A through the indoor intake port 11 , a part of the indoor air flows into the first surface 21 of the total heat exchange unit 20 , and the remaining indoor air flows through the second damper. It moves to the third space (C) through (32) and merges with the outdoor air.

The indoor air flowing into the first space (A) through the indoor intake port (11) flows to the first surface (21) and the third space (C) of the total heat exchange unit (20) in a ratio of about 1:1 In this case, the outdoor intake port 13 adjusts the open area so that outdoor air having half the content of the indoor air flowing into the indoor intake port 11 is introduced, so that the third space (C) It is preferable to reduce the content of the outdoor air introduced into the first space portion A by half to the content of the total indoor air introduced into the first space (A). That is, if the indoor intake 11 is fully opened, the outdoor intake 13 reduces the open area by half to be equal to or equal to the content of indoor air flowing from the first space A to the third space C A similar amount of air is introduced, and the indoor air of the first space (A) may be smoothly moved to the third space (C) through the open second damper (32).

The ratio in which the indoor air flowing into the first space (A) through the indoor intake port (11) is divided into the total heat exchange unit (20) and the third space (C) is limited to the aforementioned 1:1 ratio. it's not going to be

Part of the indoor air flowing into the first space A flows into the first surface 21 of the total heat exchange unit 20 , and the remaining indoor air passes through the open second damper 32 to the third After moving to the space (C), it is combined with the outdoor air flowing into the third space (C) through the outdoor intake port (13).

If the amount of indoor air flowing into the first space A through the indoor intake 11 is 100, about 50 of the indoor air moves to the first surface 21 of the total heat exchange unit 20 . and 50 of the remaining indoor air moves from the first space part A to the third space part C through the second damper 32 .

And after the indoor air flowing into the first surface 21 of the total heat exchange unit 20 in the first space (A) and the indoor air in the third space (C) are combined with the first of the total heat exchange unit (20) The outdoor air flowing into the three sides 23 exchanges heat inside the total heat exchange unit 20, and the indoor air moves to the fourth space D and is discharged to the outside through the outdoor exhaust port 24, The outdoor air combined with the indoor air moves to the second space B and is then supplied to the room through the indoor exhaust port 12 .

Therefore, on a cold winter day, the cold outdoor air flowing into the third space (C) through the indoor intake port 13 is combined with the warm indoor air in the third space (C) to increase the temperature of the outdoor air, which results in total heat exchange There is a remarkable effect in that the heat exchange time between the indoor air and the outdoor air and/or the driving time of the total heat exchange unit 20 inside the unit 20 is shortened.

Next, FIG. 3 is a post-purge mode of the ventilation device according to the present invention showing the movement path of the air according to the post-purge mode, the post-purge mode is after the heat exchange mode of the ventilation device 100 or cold In winter, it is executed according to the user's selection to cool the heat according to the driving of the ventilation device 100 or to prevent dew condensation, and the first damper 31 is opened, the second damper 32 is blocked, and the second damper The first blower 41 of the second space B operates, the indoor intake 11 and the indoor exhaust 12 are opened, and the outdoor intake 13 and the outdoor exhaust 14 are blocked.

And when the first blower 41 is driven, indoor air flows into the first space A through the indoor intake 11 and then passes through the total heat exchange unit 20 to the fourth space D ), and after moving to the second space (B) through the first damper (31) opened in the fourth space (D) is discharged through the indoor exhaust port (12).

In addition, as shown in FIG. 4 , in the post-purge mode, in the hot summer when the outdoor temperature is higher than the indoor temperature, the first damper 31 is opened and the second damper 32 is blocked. and the second blower 41 of the fourth space D operates. And the indoor intake 11 and the indoor exhaust port 12 are blocked, and the outdoor intake port 13 and the outdoor exhaust port 14 are opened.

And when the second blower 42 is driven, outdoor air flows into the third space C through the outdoor intake 13 and then passes through the total heat exchange unit 20 to the second space B ) and is discharged through the outdoor exhaust port 14 after moving to the fourth space D through the first damper 31 opened in the second space B.

That is, the hot air from the outdoors does not flow into the room, but circulates inside the ventilation device 100 to remove moisture and then is discharged back to the outside.

Therefore, in the ventilation apparatus of the present invention, a pre-purge mode is executed before the heat exchange mode is executed, and a post-purge mode is executed after the heat exchange mode is executed, and the pre-purge mode is performed. And/or through the post-purge mode, it is possible to completely remove the moisture inside the ventilation device to prevent the occurrence of dew condensation.

Next, FIG. 5 shows an air-purifier mode of the ventilation device according to the present invention and the flow of air accordingly, the first surface 21 and/or the second of the total heat exchanger 20 A filter 50 for filtering air is provided on three surfaces 23 , the first damper 31 is shut off, the second damper 32 is opened, the first blower 41 operates, and the indoor intake port (11) and the indoor exhaust port 12 are open, and the outdoor intake port 13 and the outdoor exhaust port 14 are blocked.

And according to the operation of the first blower 41 , the polluted indoor air is introduced into the first space A through the indoor intake 11 and the third space through the open second damper 32 . It moves to (C), and after being filtered by the filter 50 provided on the third surface 23 of the total heat exchange unit 20, it passes through the total heat exchange unit 20 and moves to the second space (B). and the indoor air purified by the filter 50 is supplied to the room through the indoor exhaust port 12 in the second space part B.

In addition, in the ventilation device 100 of the present invention, when the filter 50 is provided on the first surface 21 of the total heat exchange unit 20 and the first damper 31 is opened in the air cleaning mode, the The indoor air flowing into the first space (A) through the indoor intake port (11) is divided into the first surface (21) and the third space (C) of the total heat exchange part (20) and moves, and the total heat exchange part The indoor air moving to the first surface 21 of (20) is filtered by the filter 50 provided on the first surface 21 of the total heat exchange unit 20, and then passes through the total heat exchange unit 20. It moves to the fourth space (D), and after moving to the second space (B) through the first damper (31) opened in the fourth space (D), it is supplied into the room through the indoor outlet (12). do.

That is, the filter 50 is provided on the first surface 21 and the third surface 23 of the total heat exchange unit 20, respectively, and the indoor air is transferred to the first surface 21 and the second surface of the total heat exchange unit 20. By simultaneously filtering by the two filters 50 provided on the three sides 23 , a large amount of indoor air can be quickly filtered and purified indoor air can be supplied to the room.

In the air cleaning mode, the first surface 21 and the third surface 23 of the total heat exchange unit 20 are blocked with a third damper, and the bypass duct provided at the lower part of the total heat exchange unit 20 is opened, It may be possible to quickly supply purified indoor air to the room through a bypass duct without using a total heat exchanger.

In addition, FIG. 6 shows another embodiment of the ventilation device according to the present invention, in which outdoor air introduced through the outdoor intake 11 is introduced through the indoor intake 12 and the total heat exchange unit 20 ) in a heat exchange mode in which the outdoor air is discharged into the room through the indoor exhaust port 13 and the indoor air is discharged to the outside through the outdoor exhaust port 14 after heat exchange in the In front of the first surface 21 to the fourth surface 24, first space portions (A) to fourth space portions (D) separated so that air does not pass through each other are formed, and the third space portion (C) and A first damper 31 is provided between the fourth space D, which allows or blocks the third space C and the fourth space D to communicate with each other by an opening/closing operation, and a second damper 32 ) is not provided. And a purge mode that not only prevents dew condensation of the ventilation device 100 but also exhausts indoor air to the outside to ventilate; includes.

In the purge mode, as shown in FIG. 6 , in a state in which the first space portion A to the fourth space portion D are separated so that air does not pass through each other, the first damper 31 is opened, The first blower 41 operates, the indoor intake 11 and the indoor exhaust 12 are open, and the outdoor intake 13 and the outdoor exhaust 14 are blocked.

Looking at the flow of indoor air according to the operation of the first blower 41 , after indoor air is introduced into the first space A through the indoor intake 11 , the first It moves through the surface 21 and the fourth surface 24 to the fourth space D, and moves from the fourth space D to the third space C through the first damper 31 . And, after moving to the second space (B) through the third surface (23) and the second surface (22) of the total heat exchange unit (20) in the third space (C), the indoor exhaust port (12) is emitted through

Therefore, the indoor air moves the entire inside of the ventilation device 100 by the first blower 41, thereby preventing the occurrence of condensation in the ventilation device 100, and exhausting the indoor air to the outside to ventilate the room. will become

The purge mode can be operated regardless of before or after the heat exchange mode of the ventilation device 100 , and can be operated for indoor ventilation, and can be operated to prevent condensation of the ventilation device 100 . .

The configurations shown in the embodiments and drawings described in the present specification as described above are only the most preferred embodiment of the present invention and do not represent all of the technical spirit of the present invention, so various equivalents and modifications that can be substituted for them It should be understood that there may be examples.

A: 1st space part B: 2nd space part
C: 3rd space part D: 4th space part
11: indoor intake port 12: indoor exhaust port
13: outdoor intake port 14: outdoor exhaust port
20: total heat exchange unit 31: first damper
32: second damper 41: first blower
42: second blower 50: filter member
100: ventilation device

Claims (6)

After the outdoor air flowing in through the outdoor intake port 13 exchanges heat with the indoor air flowing in through the indoor intake port 11 in the total heat exchange unit 20, the outdoor air is discharged into the room through the indoor exhaust port 12, and the In the ventilation device comprising; a heat exchange mode in which indoor air is discharged to the outdoors through the outdoor exhaust port 14,
In front of the first surface 21 to the fourth surface 24 of the total heat exchange unit 20, first spaces (A) to fourth spaces (D) separated so that air does not pass through each other are formed,
A first damper 31 is provided between the second space part B and the fourth space part D to communicate or block the second space part B and the fourth space part D by an opening/closing operation. becomes,
A second damper 32 is provided between the first space part A and the third space part C to communicate or block the first space part A and the third space part C by an opening/closing operation. become,
After the first damper 31 and the second damper 32 are opened, and the indoor air flows into the first space A through the indoor intake 11, the first surface ( 21) and the third space (C), and moves, and the indoor air moving to the first surface (21) of the total heat exchange part (20) is the first surface (21) of the total heat exchange part (20) and After moving through the fourth surface 24 to the fourth space D, it moves to the second space B through the first damper 31, and in the first space A 2 Indoor air moving through the damper 32 to the third space C passes through the third surface 23 and the second surface 22 of the total heat exchange unit 20 to the second space B ), and the indoor air of the second space (B) is discharged through the indoor exhaust port (12) in a pre-purge mode (pre-purge mode);
In the heat exchange mode, the first damper 31 is blocked, the second damper 32 is opened, and the indoor air flowing into the first space A through the indoor intake 11 is transferred to the total heat exchange unit. The first surface 21 and the third space C of 20 are divided and moved, and the external air flowing into the third space C through the outdoor intake 13 is the first space A ), mixed with the indoor air flowing into the third space (C), and mixed with the indoor air flowing in through the first surface 21 of the total heat exchange unit 20 and the indoor air in the third space (C) After the outdoor air introduced through the third surface 23 of the total heat exchange unit 20 exchanges heat in the total heat exchange unit 20, the indoor air is discharged to the outdoors through the outdoor exhaust port 14, and is mixed with the indoor air. The ventilator having a purge mode, characterized in that the mixed outdoor air is discharged into the room through the indoor exhaust port (13).
The method of claim 1,
It is executed after the heat exchange mode of the ventilation device 100 or to prevent dew condensation, the first damper 31 is opened, the second damper 32 is shut off, and indoor air is discharged through the indoor intake port 11 After flowing into the first space (A), it passes through the first surface 21 and the fourth surface 24 of the total heat exchange unit 20 and moves to the fourth space (D), and the fourth space ( The indoor air moving to D) moves to the second space B through the first damper 31 and then in a post-purge mode discharged through the indoor exhaust port 12; Ventilation device having a purge mode, characterized in that.
3. The method of claim 1 or 2,
The first damper 31 is blocked, the second damper 32 is opened, and after the indoor air flows into the first space A through the indoor intake 11, the second damper 32 is closed. After the indoor air moving to the third space (C) and moving to the third space (C) through the It passes through the total heat exchange unit 20 and moves to the second space (B), and the filtered indoor air is supplied from the second space (B) to the room through the indoor exhaust port (12). purifier mode); a ventilation device having a purge mode, characterized in that it includes.
4. The method of claim 3,
In the air cleaning mode,
The first damper 31 and the second damper 32 are opened, and the indoor air flowing into the first space A through the indoor intake 11 is transferred to the first surface ( 21) and the third space (C), the filter ( 50) and then moves to the fourth space (D), and after the filtered indoor air moves from the fourth space (D) to the second space (B) through the first damper (31) A ventilation device having a purge mode, characterized in that it is supplied to the room through the indoor outlet (12).
The method of claim 1,
Containing; and a purge mode that is executed for indoor ventilation by preventing condensation of the ventilation device 100 or discharging indoor air to the outside;
The purge mode is
The first space portion (A) to the fourth space portion (D) are separated so that air does not pass through each other, and the first damper 31 is provided between the third space portion (C) and the fourth space portion (D), , the second damper 32 is not provided, the first damper 31 is opened, and the total heat exchange unit ( 20), passing through the first surface 21 and the fourth surface 24, and moving to the fourth space (D), the indoor air moving into the fourth space (D) passes through the first damper (31). The indoor air moving to the third space C through the A ventilation device having a purge mode, characterized in that after moving to the space (B), it is discharged through the indoor exhaust port (12). delete

Images