KR102419205B1 - Heat recovering ventilation apparatus - Google Patents

Abstract

The present invention relates to a heat recovery ventilation device, and more particularly, when outdoor air quality higher than a standard value is introduced into the room, it is filtered using a HEPA filter to improve indoor air quality and to save energy by efficiently using eight operation modes It relates to a heat recovery ventilation system that can do this.
The present invention has a rectangular body (10), and has a first space portion (12), a second space portion (14), a third space portion (16) and a fourth space portion (18), and a fifth space portion on the inner side. The housing 102 is partitioned into the space 20, and the outdoor air is introduced into each space, and then introduced into each space according to the outdoor air quality to provide indoor air quality; the housing 102 by sucking in outdoor air. (102) an outdoor filter 104 for introducing into the interior; an indoor filter 106 for introducing indoor air circulated and circulated after outdoor air is introduced into the interior of the housing; a heat exchanger 108 installed on the inner side to exchange heat from outside air and supply it to the room; The air supply unit 112 having a fan 114 and the bypass unit having a bypass passage 28 installed to introduce the indoor air circulated by the indoor filter 106 into the housing and discharge it to the outside ( 116) and an exhaust fan 110 installed to exhaust the indoor air introduced through the bypass unit 116 to the outdoors, and the outdoor air quality supplied from the outside is PM2.5 and PM10, which is higher than the standard value. When it is high, the HEPA filter 122 is further provided to filter the outdoor air entering the room to improve the outdoor air quality, and the filtered air through the HEPA filter 122 is supplied to the room, and the outdoor air quality is set to a standard value of PM2. It is characterized in that the HEPA filter 122 is not used when it is less than the standard value of .5 , PM10.
As described above, the heat recovery ventilator of the present invention has the effect of greatly reducing the high energy consumption of the existing heat exchange type air purifying ventilator, and excellently improves indoor air quality by applying various modes according to outdoor air quality to circulate air has the effect of
In addition, the present invention maintains indoor air quality by using a HEPA filter when outdoor air is introduced, and when exhausting indoor air to the outside, exhausts it without heat recovery, thereby preventing cooling loss and saving energy.

Description

HEAT RECOVERING VENTILATION APPARATUS

The present invention relates to a heat recovery ventilation device, and more particularly, when outdoor air quality higher than a standard value is introduced into the room, it is filtered using a HEPA filter to improve indoor air quality and to efficiently use 8 operation modes to save energy It relates to a heat recovery ventilation system that can do this.

In general, a ventilation device for ventilating air is installed in a building.

These ventilation devices ventilate by forcibly exchanging indoor air and outdoor air by means of a blower fan. There was a disadvantage that the cooling and heating efficiency was lowered.

In addition, most of the modes applied to the heat exchange type air purifying ventilator used in the past were given a function to control the fan operation speed, that is, the intensity of the ventilation degree.

However, in the case of a ventilation device that adjusts the ventilation speed, there is a disadvantage in that the ventilation fan mode is manually set and operated according to the degree determined by the occupants, without considering the conditions of occupants, indoor air quality, and outdoor air quality.

If the fan is manually adjusted, the indoor air quality can be increased rather than considering the outdoor air quality, and there is a disadvantage in that the indoor carbon dioxide concentration is increased. There were disadvantages that adversely affected the

As described above, since the conventional fan is controlled and operated by the occupant's manual mode, it is very difficult to improve the indoor air quality. There was a problem in that the energy cost greatly increased due to the use.

Korean Patent Publication No. 10-1880631 Republic of Korea Patent Publication No. 10-1677052

The present invention has been devised to solve the above problems, and it is to measure indoor and outdoor air quality and to provide a heat recovery ventilation device that can be adjusted to optimally maintain indoor air quality (IAQ) in eight ways based on the measured data. for that purpose

The present invention aims to provide a heat recovery ventilator in which the indoor and outdoor air can be naturally ventilated and exchanged by operating the ventilation device to achieve a natural ventilation mode without using a filter when the outdoor fine dust concentration is lower than the indoor fine dust concentration. for that purpose

The present invention uses an indoor filter and an outdoor filter equipped with an automatic opening/closing control function to maintain the indoor fine dust concentration below the outdoor air quality standard (PM2.5) and operate the system alternately in relation to each other to prolong the lifespan of the HEPA filter. Its purpose is to provide a heat recovery ventilation device that can be extended.

An object of the present invention is to provide a heat recovery ventilator configured to check the state of indoor air quality (IAQ) and control eight modes according to the state.

An object of the present invention is to provide a web-linked heat recovery ventilator that can check the state of saving energy using eight indoor air quality control modes using the Internet web in real-time, daily and weekly units.

The present invention has a rectangular body (10), and has a first space portion (12), a second space portion (14), a third space portion (16) and a fourth space portion (18), and a fifth space portion on the inner side. The housing 102 is partitioned into the space 20, and the outdoor air is introduced into each space, and then introduced into each space according to the outdoor air quality to provide indoor air quality; the housing 102 by sucking in outdoor air. (102) an outdoor filter 104 for introducing into the interior; an indoor filter 106 for introducing indoor air circulated and circulated after outdoor air is introduced into the interior of the housing; a heat exchanger 108 installed on the inner side to exchange heat from outside air and supply it to the room; The air supply unit 112 having a fan 114 and the bypass unit having a bypass passage 28 installed to introduce the indoor air circulated by the indoor filter 106 into the housing and discharge it to the outside ( 116) and an exhaust fan 110 installed to exhaust the indoor air introduced through the bypass unit 116 to the outdoors, and the outdoor air quality supplied from the outside is PM2.5 and PM10, which is higher than the standard value. When it is high, the HEPA filter 122 is further provided to filter the outdoor air entering the room to improve the outdoor air quality, and the filtered air through the HEPA filter 122 is supplied to the room, and the outdoor air quality is set to a standard value of PM2. It is characterized in that the HEPA filter 122 is not used when it is less than the standard value of .5 , PM10.

The bypass unit 116 is

a bypass passage (28) installed on one side of the housing to discharge indoor air; a ventilation part bypass damper 30 installed on all one side of the bypass flow path 28 to introduce indoor air flowing from the room into the bypass flow path 28; and an exhaust-side bypass damper 32 installed on the second space 14 side to supply the indoor air passing through the bypass flow path 28 to the exhaust fan 110, and the indoor filter ( 106) to introduce indoor air into the housing 102 so that the indoor air flows into the bypass flow path 28 so that it is directly exhausted to the outside by the exhaust fan 110 without going through the heat exchanger 108. It is desirable to make it so as to prevent energy loss.

The present invention has a rectangular body (10), and has a first space (12), a second space (14), a third space (16) and a fourth space (18), and a fifth space on the inner side. The housing 102 is partitioned into the unit 20, and the outdoor air is introduced into the respective spaces, and then is introduced into each space according to the outdoor air quality to supply indoor air; the housing 102 by sucking the outdoor air. 102) an outdoor filter 104 for introducing into the interior; an indoor filter 106 for introducing indoor air circulated and circulated after outdoor air is introduced into the interior of the housing; the inner part of the housing 102 a heat exchanger 108 installed in the air conditioner to exchange heat from outside air and supply it to the room; The air supply unit 112 having a 114 and a bypass unit 116 having a bypass flow path 28 installed to introduce the indoor air circulated by the indoor filter 106 into the housing and discharge it to the outside. ) and an exhaust fan 110 installed to exhaust the indoor air introduced through the bypass unit 116 to the outdoors, and the outdoor air quality supplied from the outside is PM2.5 and PM10, which is higher than the standard value. In this case, the HEPA filter 122 for improving the outdoor air quality by filtering the outdoor air entering the room is further provided to supply the filtered air through the HEPA filter 122 to the room, and the outdoor air quality is set to a standard value of PM2. 5, PM10 is made not to use the HEPA filter 122 when it is below the standard value,

and a first ventilation damper 118 installed on one side of the heat exchanger 108 and for introducing indoor air filtered by the indoor filter 106 and supplying it to the heat exchanger,

When outdoor air is introduced, outdoor air that has passed through the outdoor filter 104 and undergoes heat exchange is filtered through the HEPA filter 122, and then the air supply fan 114 is operated to supply it to the room, and the outdoor air supplied to the room is introduced into the heat exchanger 108 through convection convects the room, passes through the indoor filter 106 and passes through the first ventilation damper 118, heat exchange is performed in the heat exchanger 108, and the second space 14 It is preferable that it is introduced into the and discharged to the outside by the exhaust fan 110 .

A vacuum damper 120 is further provided to introduce outdoor air that has undergone heat exchange in the heat exchanger 108 into the fourth space 18 and supply the introduced outdoor air to the air supply 112 to introduce it into the room. It is preferable to do

It is preferable to further include a heat exchanger damper 121 for introducing outdoor air that has undergone heat exchange in the heat exchanger 108 into the fourth space 18 and introduces it into the HEPA filter 122 .

The indoor air filter 106 introduces indoor air having convection in the room and introduces it into the first space 12 , and the indoor air introduced into the first space 12 is introduced and passes through the HEPA filter 122 . It is preferable to further include a second ventilation damper 119 for inflowing into the air supply unit 112.

It is preferable to further include a heat exchange damper 121 for introducing outside air into the housing 102 and performing heat exchange through the heat exchanger 108 and supplying the heat-exchanged outside air to the HEPA filter 122 . .

As described above, the heat recovery ventilator of the present invention has an effect of greatly reducing the high energy consumption of the existing heat exchange type air purifying ventilator, and excellently improves indoor air quality by applying various modes according to outdoor air quality to circulate air has the effect of

In addition, the present invention maintains indoor air quality by using a HEPA filter when outdoor air is introduced, and when exhausting indoor air to the outside, exhausts it without heat recovery, thereby preventing cooling loss and saving energy.

1 is a front sectional view showing the structure of a heat recovery ventilation device of the present invention;
Figure 2 is a schematic cross-sectional view showing the structure of the heat recovery ventilation device of the present invention
3 is a view showing the circulation system of the outdoor air intake cooling mode through the indoor air quality (IAQ) HEPA filter of the heat recovery ventilation device of the present invention;
4 is a view showing the circulation system of the air intake cooling mode through the air damper of the heat recovery ventilation device of the present invention;
5 is a view showing the circulation system of the HEPA filter of the heat recovery ventilation device of the present invention in a currency circulation mode;
6 is a view showing the circulation system of the outdoor air intake cooling mode of the heat recovery ventilation device of the present invention;
7 is a view showing a state in which the operation of the heat recovery ventilation device of the present invention is stopped;
8 is a view showing the circulation system of the outdoor air intake cooling mode of the heat recovery ventilation device of the present invention;
9 is a view showing the circulation system of the indoor air quality (IAQ) heat recovery mode through the hepatilter of the heat recovery ventilation device of the present invention;
10 is a view showing the circulation system of the indoor air quality (IAQ) heat recovery mode of the heat recovery ventilation device of the present invention;

The present invention has a rectangular body (10), and has a first space portion (12), a second space portion (14), a third space portion (16) and a fourth space portion (18), and a fifth space portion on the inner side. The housing 102 is partitioned into the space 20, and the outdoor air is introduced into each space, and then introduced into each space according to the outdoor air quality to provide indoor air quality; the housing 102 by sucking in outdoor air. (102) an outdoor filter 104 for introducing into the interior; an indoor filter 106 for introducing indoor air circulated and circulated after outdoor air is introduced into the interior of the housing; a heat exchanger 108 installed on the inner side to exchange heat from outside air and supply it to the room; The air supply unit 112 having a fan 114 and the bypass unit having a bypass passage 28 installed to introduce the indoor air circulated by the indoor filter 106 into the housing and discharge it to the outside ( 116) and an exhaust fan 110 installed to exhaust the indoor air introduced through the bypass unit 116 to the outdoors, and the outdoor air quality supplied from the outside is PM2.5 and PM10, which is higher than the standard value. When it is high, the HEPA filter 122 is further provided to filter the outdoor air entering the room to improve the outdoor air quality, and the filtered air through the HEPA filter 122 is supplied to the room, and the outdoor air quality is set to a standard value of PM2. .5 , PM10, set the mode not to use the HEPA filter 122 when it is below the standard value and proceed.

The bypass unit 116 includes: a bypass passage 28 installed on one side of the housing to discharge indoor air; a ventilation part bypass damper 30 installed on all one side of the bypass flow path 28 to introduce indoor air flowing from the room into the bypass flow path 28; and an exhaust-side bypass damper 32 installed on the second space 14 side to supply the indoor air passing through the bypass flow path 28 to the exhaust fan 110, and the indoor filter ( 106) to introduce indoor air into the housing 102 so that the indoor air flows into the bypass flow path 28 so that it is directly exhausted to the outside by the exhaust fan 110 without going through the heat exchanger 108. Energy can be saved by preventing cooling loss.

The present invention has a rectangular body (10), and has a first space (12), a second space (14), a third space (16) and a fourth space (18), and a fifth space on the inner side. The housing 102 is partitioned into the unit 20, and the outdoor air is introduced into the respective spaces, and then is introduced into each space according to the outdoor air quality to supply indoor air; the housing 102 by sucking the outdoor air. 102) an outdoor filter 104 for introducing into the interior; an indoor filter 106 for introducing indoor air circulated and circulated after outdoor air is introduced into the interior of the housing; the inner part of the housing 102 a heat exchanger 108 installed in the air conditioner to exchange heat from outside air and supply it to the room; The air supply unit 112 having a 114 and a bypass unit 116 having a bypass flow path 28 installed to introduce the indoor air circulated by the indoor filter 106 into the housing and discharge it to the outside. ) and an exhaust fan 110 installed to exhaust the indoor air introduced through the bypass unit 116 to the outdoors, and the outdoor air quality supplied from the outside is PM2.5 and PM10, which is higher than the standard value. In this case, the HEPA filter 122 for improving the outdoor air quality by filtering the outdoor air entering the room is further provided to supply the filtered air through the HEPA filter 122 to the room, and the outdoor air quality is set to a standard value of PM2. 5, PM10 is made not to use the HEPA filter 122 when it is below the standard value,

and a first ventilation damper 118 installed on one side of the heat exchanger 108 and for introducing indoor air filtered by the indoor filter 106 and supplying it to the heat exchanger,

When outdoor air is introduced, outdoor air that has passed through the outdoor filter 104 and undergoes heat exchange is filtered through the HEPA filter 122, and then the air supply fan 114 is operated to supply it to the room, and the outdoor air supplied to the room is introduced into the heat exchanger 108 through convection convects the room, passes through the indoor filter 106 and passes through the first ventilation damper 118, heat exchange is performed in the heat exchanger 108, and the second space 14 It is preferable that it is introduced into the ventilator and discharged to the outside by the exhaust fan 110 .

In addition, a public air damper 120 for introducing outdoor air that has been heat-exchanged in the heat exchanger 108 into the fourth space 18 and supplying the introduced outdoor air to the air supply unit 112 to be introduced into the room. have more

A heat exchanger damper 121 is further provided to introduce outdoor air that has undergone heat exchange in the heat exchanger 108 into the fourth space 18 and to introduce it into the HEPA filter 122 .

In addition, the indoor filter 106 introduces indoor air having convection in the room, and introduces the indoor air into the first space 12, and introduces the indoor air into the first space 12, so that the HEPA filter 122. A second ventilation damper 119 for passing through and introducing into the air supply unit 112 is further provided, and the outside air is introduced into the housing 102 to perform heat exchange through the heat exchanger 108, and the heat exchanged outside air is provided. It is preferable to further include a heat exchange unit damper 121 for supplying the HEPA filter 122 .

Hereinafter, a specific embodiment according to the heat recovery ventilation device of the present invention will be described.

1 is a front sectional view showing the structure of the heat recovery ventilation device of the present invention, and Figure 2 is a schematic cross-sectional view showing the structure of the heat recovery ventilation device of the present invention.

And, FIG. 3 is a view showing the circulation system of the outdoor air intake cooling mode through the indoor air quality (IAQ) HEPA filter of the heat recovery ventilation device of the present invention, and FIG. 4 is the outdoor air intake cooling mode through the air conditioning damper of the heat recovery ventilation device of the present invention. 5 is a diagram showing the circulation system of the HEPA filter of the heat recovery ventilation device of the present invention in a currency circulation mode, and FIG. , Figure 7 is a view showing a state in which the operation of the heat recovery ventilation device of the present invention is stopped.

In addition, FIG. 8 is a view showing the circulation system of the outdoor air inlet cooling mode of the heat recovery ventilation device of the present invention, and FIG. 9 is a view showing the circulation system of the indoor air quality (IAQ) heat recovery mode through the hepatilter of the heat recovery ventilation device of the present invention. , FIG. 10 is a view showing the circulation system of the indoor air quality (IAQ) heat recovery mode of the heat recovery ventilation device of the present invention.

1 and 2, the heat recovery ventilation device of the present invention will be described with reference to FIGS. 1 and 2 . First, the heat recovery ventilation device 100 of the present invention includes a housing 102 and an outdoor filter 104. ), an indoor filter 106 , a heat exchanger 108 , an exhaust fan 110 and an air supply fan 114 , and a bypass unit 116 .

In addition, a plurality of first to fifth space portions are formed in the inner portion of the housing 102 , and the air supply portion 112 is formed in the upper inner portion.

The housing 102 is further provided with first and second ventilation dampers 118 and 119 , an air damper 120 , a HEPA filter 122 , and a heat exchange damper 121 .

The first and second ventilation dampers 118 and 119 are dampers having a function of supplying ventilated air from inside the room, and the air damper 120 is a damper for purifying the air by filtering the outside air flowing in from the outside. The HEPA filter 122 uses a high-performance air purification filter to remove particles of 0.3 micron or larger in size, such as fine dust or viruses.

1 , the housing 102 is formed of a rectangular body 10 , and a lower vertical frame 13 is provided at the center of the heat exchanger 108 installed inside the body 10 . ) and the upper vertical frame 15 are formed, and the upper horizontal frame 23 in which the lower horizontal frame 21 and the air supply fan 114 are fixedly installed is formed at the inner upper end.

In addition, a diagonal frame 25 is installed so as to be connected to the upper middle part of the heat exchanger 108 installed inside the housing 108 and the left end part of the lower horizontal frame 21 .

The frames connected and installed as described above are each made to partition a space inside the housing and sealed to maintain airtightness. That is, the lower vertical frame 13 and the upper vertical frame 15 are respectively fixed to the upper and lower portions of the heat exchanger 108 installed in the center of the housing, and are installed to divide the space inside the housing into left and right sides.

1 and 2, the housing 102 of the heat recovery ventilation device 10 is made of a rectangular body 10, and the inner central portion of the body 10 is A heat exchanger 108 is provided.

The heat exchanger 108 is formed in a rectangular shape and is sealed and fixed so that each corner is positioned in the upper, lower, left, and right sides. That is, the left and right side edge portions of the quadrangle are fixed to both sides of the inner side of the housing 102 , and are connected to the lower vertical frame 13 and the upper vertical frame 15 , respectively, at the upper and lower corner edge portions.

A space is partitioned so that air can circulate inside the housing 102 by the heat exchanger 108 installed in this way.

A first space portion 12 is formed in the upper right portion through which ventilation of the heat exchanger 108 flows, and a second space portion 14 is formed in the lower left portion of the heat exchanger 108, and the heat exchanger ( A third space 16 is formed in the lower right portion of the 108 .

In addition, a fourth space 18 is formed in an upper left portion of the heat exchanger 108 , and a fifth space 20 is formed in an upper portion of the fourth space 18 .

In addition, the damper frame 21 is fixedly installed on the upper part of the fifth space 20 so as to be sealed in the horizontal direction, and the upper horizontal frame 23 is fixedly installed on the upper part of the damper frame 21 .

At this time, the air supply fan 114 is fixedly installed on the upper part of the upper horizontal frame 23 so as to supply and send outdoor air into the room.

On the other hand, an outdoor filter 104 is installed at the lower end of the housing 102 , and the outdoor filter 104 filters outside air and passes it through the third space 16 to the heat exchanger 108 . It is installed to supply, and at this time, an outdoor air damper 24 is provided on the N side of the outdoor filter 104 .

After receiving the outdoor air, the outdoor air damper 24 is installed in the air passage when filtering the outdoor air with the outdoor filter 104 and sending it to the heat exchanger 108 to control the flow of air. It can be installed to prevent freezing in response to the low temperature of the outside air. That is, in winter, the outside air has a very low sub-zero temperature, so when it is directly introduced, freezing of the heat exchanger 108 occurs. and control the inside temperature of the housing by adjusting the opening and closing of the outside air damper in response to the outside temperature.

On the other hand, an indoor filter 106 is installed at the middle portion of the body 10 of the housing 102, and the indoor filter 106 introduces and filters indoor air, and then removes the bypass unit 116. It is installed so that it can be exhausted to the outside by passing it through.

In addition, a heat exchanger 108 is installed inside the body 10 of the housing 102 , and an exhaust fan 110 is installed at the lower left side of the body 10 of the housing 102 , and the exhaust fan At 110 , an exhaust damper 110 is provided.

Next, an air supply unit 112 is formed inside the upper end of the body 10 , and an air supply fan 114 is installed in the air supply unit 112 .

A bypass unit 116 is installed in the inner portion of the housing 102 so that the ventilation that has passed through the indoor filter 106 is introduced and discharged to the outside through the exhaust fan 110 .

The bypass unit 116 includes a bypass flow path 28 , a ventilation unit bypass damper 30 , and an exhaust unit bypass damper 32 .

The ventilation part bypass damper 30 is installed to control the flow of air before the air passing through the first space part 12 flows into the bypass flow path, and the exhaust part bypass damper 32 bypasses It is installed so that the air that has passed through the flow path 28 can be exhausted by controlling the flow of air before it is discharged to the outside after passing through the second space 14 .

An upper portion of one side of the heat exchanger 108 installed as described above, preferably referring to FIG. 2 , a first ventilation damper 118 is installed in the upper left portion of the heat exchanger 108, and the heat exchanger ( A diagonal frame 25 is fixedly installed to connect 108) and the left end of the damper frame 21 , and a second ventilation damper 119 is installed in the diagonal frame 25 .

In addition, the air-cleaning damper 120 for purifying air is fixedly installed on the right side of the damper frame 21 , and the HEPA filter 122 is fixedly installed on the left side of the damper frame 21 .

Referring to FIG. 2, in the heat recovery ventilation device 100 of the present invention installed as described above, first, outside air, which is external air, is filtered through the outdoor filter 104 installed at the bottom of the housing 102, and the outside air damper 24 ), the flow, quantity, and speed of air are controlled and supplied to the heat exchanger 108 while passing through the third space 16 .

The outdoor air supplied to the heat exchanger 108 is heat-exchanged, then passes through the fourth space 18 and passes through the heat exchange damper 121 , the flow of air is controlled and introduced into the fifth space 20 . .

The heat exchanged air introduced into the fifth space 20 passes through the HEPA filter 122 and flows into the air supply space 22 of the air supply unit 112, and the air introduced into the air supply space 22 is It is introduced by the above-described air supply fan 114 to transport air into the room.

As described above, the air heat-exchanged from the outside of the housing 102 through the internal heat exchanger 108 is supplied to the room, and the air supplied in the heat exchange state to the room is circulated in the room by natural convection.

Then, the air circulated in the room is filtered through the indoor filter 106, ventilated into the body 10 of the housing 102 and introduced into the first space 12, and the first space ( The inlet air ventilated to 120 passes through the ventilation unit bypass damper 30 of the bypass unit 116 and the air flow, air quantity, speed, temperature, etc. are adjusted, and then enters the bypass flow path 28 and , the ventilation passing through the bypass flow path 28 is again introduced into the second space 14 by controlling the air flow, air amount, speed, temperature, etc. by the exhaust bypass damper 32, and the second The air introduced into the space 14 is regulated by the exhaust damper 26 and then discharged to the outside by the exhaust fan 110 .

The heat recovery ventilation device 100 of the present invention configured as described above has eight control modes for improving indoor air quality.

As described with reference to FIG. 2 , when external air, that is, outdoor air quality, flows into the room, as shown in FIG. 2 , it passes through the HEPA filter 122 and is used when the outdoor air quality is higher than the standard value.

And, when the outdoor air quality is below the reference value, the use of the HEPA filter 122 is stopped to improve the durability of the HEPA filter 122 .

In addition, since indoor air is exhausted using the bypass flow path 28, it is installed so that it is discharged to the outside by the exhaust fan 110 without passing through the heat exchanger 108, thereby preventing a loss of free cooling and saving energy. can save

The heat recovery ventilation device 100 of the present invention configured as described above is controlled in eight modes. As shown in FIG. 2 , first, a HEPA filter indoor air quality outside cooling mode configured to pass through the HEPA filter, and secondly, air-cleaning mode. The indoor air quality outdoor cooling mode configured to pass through the damper; thirdly, the HEPA filter circulation mode in which the ventilated air passes through the second ventilation damper and passes through the HEPA filter to be supplied to the room; and fourthly, the air ventilated from the indoor The HEPA filter outdoor air intake cooling mode, in which the outdoor air discharged from And, sixth, the outdoor air intake cooling mode in which outside air is introduced and heat-exchanged outside air is introduced into the fourth space 18 by passing through the heat exchanger, and then passed through the air conditioning damper to supply air into the room, and seventh, the outside air introduced from the outside The outdoor air passes through the heat exchanger, passes through the HEPA filter, and is supplied into the room, while the air circulated in the room passes through the indoor filter and flows into the first ventilation damper, and then passes through the heat exchanger to pass the heat exchanged air into the second space. HEPA filter indoor air quality heat recovery mode that flows into the unit 14 and discharges it to the outside, and eighth, heat exchange with the outside air flowing in from the outside using a heat exchanger, and after introducing the heat-exchanged air into the fourth space, the air-cleaning damper After improving the air quality by using the air supply fan 114, it includes an indoor air quality heat recovery mode for supplying to the room.

The circulation system of the heat recovery ventilation device 100 for improving indoor air quality (IAQ) as described above will be described with reference to FIGS. 3 to 10 .

First, Figure 3 is a view showing the circulation system of the outdoor air intake cooling mode through the indoor air quality (IAQ) HEPA filter of the heat recovery ventilation device of the present invention,

First, outdoor air containing fine dust (hereinafter, referred to as "PM") is filtered while passing through the outdoor filter 104 from the outside, and the heat exchanger 108 installed inside the housing 102 ), heat exchange for cooling or heating is made, and after passing through the heat exchanger damper 121, the heat-exchanged outdoor air passes through the HEPA filter 122 and is filtered, and the filtered outdoor air is supplied by the supply fan. (114) is introduced into the room.

At this time, the air mixed with outdoor air in the room (hereinafter referred to as "ventilation") is filtered by the indoor filter 106 and introduced into the housing, and the bypass flow path 28 of the bypass unit 116 is It passes through and flows into the first space 12 , and the exhaust fan 110 operates in the first space 12 to discharge it to the outside.

The outdoor air containing the fine dust (PM) is mixed with the indoor air existing in the room as it flows into the room to reduce the fine dust and carbon dioxide (CO ₂ ) in the room. (enthalpy) is reduced.

As described above, several methods of filtering outdoor air containing fine dust (PM) while passing through the outdoor filter 104 and introducing it into the room can be applied in several ways. It reduces indoor carbon dioxide (CO ₂ ) and reduces internal energy by introducing filtered outdoor air through IAQ) mode, or reduces internal energy (enthalpy) by introducing filtered outdoor air through convection mode and reduces carbon dioxide (CO 2 ) ₂ ) is also reduced.

Then, by introducing outdoor air filtered in the convection mode into the room, the internal energy (enthalpy) of the room is lowered and the fine dust (PM) concentration is reduced, or by introducing outdoor air filtered in the indoor air quality mode (IAQ), the internal energy ( enthalpy) can be reduced.

As such, the indoor air quality and carbon dioxide (CO ₂ ) are reduced through the introduction of the outdoor air filtered through the HEPA filter 122, and the internal energy of the room is reduced due to the filtered outdoor air.

4 is a view showing the circulation system of the air intake cooling mode through the air damper of the heat recovery ventilation device of the present invention;

Outdoor air containing fine dust is filtered while passing through the outdoor filter 104 from the outside, and heat exchange is performed for cooling or heating through the heat exchanger 108 installed inside the housing 102, and a public air damper After passing through ( 120 ), the heat-exchanged outdoor air passes through the air supply unit ( 112 ) and is supplied into the room by the air supply fan ( 114 ) installed in the air supply unit ( 112 ).

At this time, the outdoor air that has passed through the air damper 120 is mixed with the indoor air, and the mixed ventilation is filtered by the indoor filter 106 and introduced into the housing 102. It flows into the second space 14 through the bypass flow path 28 of the pass part 116 , and the exhaust fan 110 operates in the second space 14 to discharge it to the outside.

When the outdoor air quality is good, both indoor carbon dioxide (CO ₂ ), fine dust (PM), and internal energy (enthalpy) can be reduced, and the modes are various as an embodiment when the outdoor air quality is good.

As an example, it uses indoor air quality (IAQ) mode to introduce outdoor air, reduces indoor carbon dioxide (CO ₂ ), and consequently also reduces internal energy (enthalpy), and introduces outdoor air through convection mode to reduce internal energy ( enthalpy) and consequently carbon dioxide (CO ₂ ) is also reduced.

And, by introducing outdoor air through the convection mode to reduce internal energy (enthalpy), as a result, fine dust (PM) is also reduced, and outdoor air is introduced through the indoor air quality (IAQ) mode to reduce indoor fine dust (PM). , and consequently the internal energy (enthalpy) is also reduced.

When the outdoor air quality supplied through the air conditioning damper 120 is good, the indoor air quality and carbon dioxide are lowered through the air conditioner to reduce internal energy.

5 is a view showing the circulation system of the HEPA filter of the heat recovery ventilation device of the present invention in a currency circulation mode,

In the circulation mode, indoor air passes through the indoor filter 106 and flows into the first space 12 , and the air introduced into the first space 12 flows into the fifth space 20 . Then, it passes through the HEPA filter 122 and flows into the air supply space 22 of the air supply unit 112 .

Thereafter, the indoor air introduced into the air supply space 22 is supplied back into the room by the air supply fan 114 .

It can be used as a mode for reducing indoor fine dust (PM) by such an operation. That is, indoor air filtered through the HEPA filter 122 is recirculated and filtered using the indoor filter 106 to reduce indoor PM2.5 and PM10.

6 is a view showing the circulation system of the outdoor air intake cooling mode of the heat recovery ventilation device of the present invention,

First, outdoor air containing fine dust is filtered by the outdoor filter 104 from the outside and introduced into the third space 16 , and the outdoor air introduced into the third space 16 is the Heat exchange is performed for cooling or heating through the heat exchanger 108 , and the heat-exchanged outdoor air flows into the fourth space 18 , and flows through the heat exchanger damper 121 into the fifth space 20 . The heat-exchanged outdoor air in the fifth space 20 passes through the HEPA filter 122 to be filtered, and the outdoor air filtered by the HEPA filter 122 is introduced into the air supply unit 112 , The air is introduced into the room by the air supply fan (114).

At this time, the indoor air is filtered by the indoor filter 106 and flows into the first space 12 of the housing 102 , and then passes through the bypass flow path 28 of the bypass unit 116 . The air flows into the second space 14 and the indoor air in the second space 14 is discharged to the outside by the exhaust fan 110 .

It can be used as a mode to reduce the internal energy (enthalpy) of the room through the introduction of filtered outdoor air.

In this way, indoor enthalpy is reduced by introducing outdoor air filtered through the HEPA filter 122 .

7 is a view showing a state in which the operation of the heat recovery ventilation device of the present invention is stopped;

The operation of the heat recovery ventilation device 100 is stopped.

When ventilation of the room is not required, the operation of the heat recovery ventilation system is stopped to save energy.

8 is a view showing the circulation system of the outdoor air intake cooling mode of the heat recovery ventilation device of the present invention,

First, outdoor air containing fine dust is filtered while passing through the outdoor filter 104 from the outside, introduced into the third space 16, and the heat exchanger 108 installed inside the housing 102 is removed. After passing through, heat exchange for cooling or heating is performed, and after being melted into the fourth space unit 18 , the outdoor air that has undergone heat exchange through the air-cleaning damper 120 passes through the air supply unit 112 , and the air supply unit 112 . ) is supplied to the room by the air supply fan 114 installed in the room.

At this time, the indoor air is filtered by the indoor filter 106 and introduced into the first space 12 inside the housing 102 , and is bypassed by the bypass unit 116 installed inside the housing 102 . It flows into the second space 14 through the flow path 28 and is discharged to the outside of the housing 102 as the exhaust fan 110 operates in the second space 14 .

The indoor enthalpy is reduced by introducing outdoor air through the air damper.

9 is a view showing the circulation system of the indoor air quality (IAQ) heat recovery mode through the hepatilter of the heat recovery ventilation device of the present invention;

Outdoor air containing fine dust is introduced from the outside, filtered while passing through the outdoor filter 104, and heat exchange is performed for cooling or heating through a heat exchanger 108 installed inside the housing 102. After flowing into the fourth space 18 and passing through the heat exchange damper 121, the outdoor air that has undergone heat exchange passes through the HEPA filter 122 to be filtered, and the filtered outdoor air is transferred to the supply air space ( 22), it is introduced into the room by the air supply fan 114.

At this time, the air mixed with outdoor air in the room (hereinafter referred to as "ventilation") is filtered by the indoor filter 106 and introduced into the first space 12 of the housing 102, and the first ventilation After passing through the damper 118 and being introduced into the heat exchanger 108 to perform heat exchange, it is discharged and flows into the second space 14 , and is affected by the operation of the exhaust fan 110 in the second space 14 . discharged to the outside by

The outdoor air supplied after being filtered through the outdoor filter passes through the heat exchanger to reduce indoor carbon dioxide (CO ₂ ) and fine dust (PM) concentrations and can be used as a mode to lower internal energy.

Indoor carbon dioxide is reduced by introducing outdoor air filtered through the HEPA filter 122 .

10 is a view showing the circulation system of the indoor air quality (IAQ) heat recovery mode of the heat recovery ventilation device of the present invention,

Outdoor air containing fine dust is filtered while passing through the outdoor filter 104 from the outside, and heat exchange is performed for cooling or heating through the heat exchanger 108 installed inside the housing 102, and a public air damper After passing through ( 120 ), the heat-exchanged outdoor air passes through the air supply unit ( 112 ) and is supplied into the room by the air supply fan ( 114 ) installed in the air supply unit ( 112 ).

At this time, the air mixed with outdoor air in the room (hereinafter referred to as "ventilation") is filtered by the indoor filter 106 and introduced into the first space 12 of the housing 102, and the first ventilation After passing through the damper 118 and being introduced into the heat exchanger 108 to perform heat exchange, it is discharged and flows into the second space 14 , and is affected by the operation of the exhaust fan 110 in the second space 14 . discharged to the outside by

The outdoor air passes through the heat exchanger to reduce the concentration of indoor carbon dioxide (CO ₂ ) and fine dust (PM) and is used in a mode to lower the internal energy (enthalpy), or let the outdoor air pass through the heat exchanger and already cooled indoor air quality (IAQ) It can be used as a mode to lower the internal energy (enthalpy) of the outdoor air quality.

The indoor carbon dioxide (CO ₂ ) is reduced by introducing outdoor air filtered through the air conditioning damper 120 .

The present invention described as described above is not limited to the preferred embodiment as described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims of the present invention. It will be said that those skilled in the art can modify implementation in various materials and shapes, of course, and such modifications are within the scope of the claims described as key elements of the present invention.

10: body 12: first space part
14: second space 16: third space
18: fourth space 20: fifth space
22: air supply space 24: outside air damper
26: exhaust damper 28: bypass flow path
30: ventilation part bypass damper 32: exhaust part bypass damper
100: heat recovery ventilation device 102: housing
104: outdoor filter 106: indoor filter
108: heat exchanger 110: exhaust fan
112: air supply 114: air supply fan
116: bypass unit 118: ventilation damper
120: air damper 122: HEPA filter

Claims (7)

It has a rectangular body (10), and has a first space (12), a second space (14), a third space (16), a fourth space (18), and a fifth space (20) on the inner side. ), the housing 102 is installed to introduce outdoor air into each space, and then introduce it into each space according to the outdoor air quality to supply air into the room;
an outdoor filter 104 for sucking in outdoor air and introducing it into the housing 102;
an indoor filter 106 for introducing circulated indoor air into the housing after outdoor air is introduced into the room;
a heat exchanger 108 installed inside the housing 102 to exchange heat from outside air and supply it to the room;
an air supply unit 112 having an air supply fan 114 installed to supply outdoor air introduced from the outside through the heat exchanger 108 and heat exchanged outside air into the room;
a bypass unit 116 having a bypass flow path 28 installed to introduce indoor air circulated by the indoor filter 106 into the housing and discharge it to the outside;
and an exhaust fan 110 installed to discharge indoor air introduced through the bypass unit 116 to the outdoors, and when the outdoor air quality supplied from the outside is higher than the standard value of PM2.5 and PM10 A HEPA filter 122 for improving outdoor air quality by filtering the outdoor air entering the If it is less than the reference value, the HEPA filter 122 is not used.
The indoor air filter 106 introduces indoor air having convection in the room and introduces it into the first space 12 , and the indoor air introduced into the first space 12 is introduced and passes through the HEPA filter 122 . Heat recovery ventilation device, characterized in that it further comprises a second ventilation damper (119) for introducing into the air supply unit (112).

The method of claim 1,
The bypass unit 116 is
a bypass passage (28) installed on one side of the housing to discharge indoor air;
a ventilation part bypass damper 30 installed on all one side of the bypass flow path 28 to introduce indoor air flowing from the room into the bypass flow path 28;
and an exhaust part-side bypass damper 32 installed on the second space part 14 side to supply the indoor air passing through the bypass flow passage 28 to the exhaust fan 110,
The indoor air is introduced into the housing 102 through the indoor filter 106 so that the indoor air flows into the bypass flow path 28, so that the indoor air does not go through the heat exchanger 108 and is discharged to the outside by the exhaust fan 110. Heat recovery ventilation device, characterized in that it is made to directly exhaust to prevent energy loss.
delete The method of claim 1,
A vacuum damper 120 is further provided to introduce outdoor air that has undergone heat exchange in the heat exchanger 108 into the fourth space 18 and supply the introduced outdoor air to the air supply 112 to introduce it into the room. Heat recovery ventilation system, characterized in that.
The method of claim 1,
Heat recovery ventilation device, characterized in that it further comprises a heat exchanger damper (121) for introducing the outdoor air that has been heat-exchanged in the heat exchanger (108) into the fourth space (18) and introduces it into the HEPA filter (122). .
delete The method of claim 1,
The external air is introduced into the housing 102 and heat exchange is performed through the heat exchanger 108, and a heat exchanger damper 121 for supplying the heat-exchanged outdoor air to the HEPA filter 122 is further provided. heat recovery ventilation system.

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