KR20220049922A - Duckless ventilation apparatus having air bypass function - Google Patents

Abstract

The present invention relates to an exhaust-bypass ventilation apparatus without a duct comprising: a main body case having an outdoor air supply port and an outdoor exhaust port on one side plate; a heat transfer element mounted in the main body case to divide the inside of the main body case into a first division space communicating the outdoor air supply port, a second division space communicating with the outdoor exhaust port, a third division space adjacent to the second division space, and a fourth division space adjacent to the first and third division spaces, and exchanging heat between outside air flowing into indoor space and indoor air discharged to outdoor space; an air blower for air supply provided in the third division space of the main body case, and creating an air supply flow; an air blower for exhaust provided in the second division space of the main body case, and creating an exhaust flow; and an indoor air supply hole opening the main body case and communicating with the third division space and an indoor exhaust hole communicating with the fourth division space. According to the present invention, the exhaust-bypass ventilation apparatus without a duct is installed in each indoor space of a building to effectively ventilate indoor air and quickly discharge indoor air if smoke is created in the indoor space or the indoor air is quickly contaminated.

Description

DUCKLESS VENTILATION APPARATUS HAVING AIR BYPASS FUNCTION}

The present invention relates to an exhaust bypass ductless ventilation system.

If a person cooks or works for a long time indoors in a state where the interior of the building where people live is not well ventilated from the outside, it is difficult to maintain a comfortable state due to indoor air pollution and increased CO2, so the interior must be ventilated. . When the window is opened to ventilate, pollutants such as yellow dust and fine dust enter, and internal heat loss occurs. In order to solve this problem, a ventilation system provided with a total heat exchanger that filters outside air and supplies it to the room while exchanging heat between heated indoor air discharged to the outside and cold outdoor air flowing into the room is provided in a building.

In a ventilation system equipped with a total heat exchanger, an air inlet line is connected to the indoor air inlet of the total heat exchanger and an air outlet line is connected to the indoor exhaust port. A branch pipe is connected to the air inlet line and the air exhaust line, respectively, and the supply air diffuser and the exhaust diffuser located on the ceiling of the room are connected to the branch pipe. In such a ventilation system, by the operation of the total heat exchanger, outdoor air is supplied to each room through the total heat exchanger and the air inlet line, and at the same time, the air in each room is discharged to the outdoors through the air exhaust line and the total heat exchanger, and the total heat of the total heat exchanger Indoor air and indoor air exchange heat in the device to reduce indoor heat loss.

However, in a ventilation system equipped with such a total heat exchanger, the air of a plurality of rooms is discharged to the outside by the operation of one total heat exchanger and the outside air is supplied to each room, so ventilation of a plurality of rooms cannot be effectively performed. There is this. In particular, when smoke is generated indoors or the indoor air is polluted at a high speed, it is difficult to quickly exhaust the indoor air.

An object of the present invention is to provide an exhaust bypass ductless ventilation device that is installed in each room of a building to effectively ventilate the indoor air as well as quickly exhaust the indoor air when smoke is generated or the indoor air is rapidly polluted. will be.

In order to achieve the object of the present invention, the main body case is provided with an outdoor air supply port and an outdoor side exhaust port on one side plate, respectively; A first partition space that is mounted inside the main body case and communicates with the outdoor air supply port, a second partition space communicates with the outdoor side exhaust port, a third partition space adjacent to the second partition space, a heat transfer element partitioning into a fourth partition space adjacent to the first and third partition spaces and heat-exchanging external air flowing into the room and indoor air exhausted to the outside; a blower for supplying air provided in the third partition space of the main body case and generating a supply air flow; an exhaust blower provided in the second partition space of the main body case and generating an exhaust flow; There is provided an exhaust bypass ductless ventilation device covering the main body case and including a cover panel including an indoor air supply hole communicating with the third partition space and an indoor exhaust hole communicating with the fourth partition space. .

In addition, the main body case is provided with an outdoor air supply port and an outdoor side exhaust port on one side plate, respectively; A first partition space that is mounted inside the main body case and communicates with the outdoor air supply port, a second partition space communicates with the outdoor side exhaust port, a third partition space adjacent to the second partition space, a heat transfer element partitioning into a fourth partition space adjacent to the first and third partition spaces and heat-exchanging external air flowing into the room and indoor air exhausted to the outside; a blower for supplying air provided in the third partition space of the main body case and generating a supply air flow; an exhaust blower provided in the second partition space of the main body case and generating an exhaust flow; A cover panel covering the main body case and including an indoor air supply hole communicating with the third partition space, an indoor exhaust hole communicating with the fourth partition space, and an exhaust bypass hole communicating with the second partition space ; An air supply passage covering the cover panel and communicating with the indoor air supply hole and supplying external air through the indoor air supply hole to the room, communicating with the indoor exhaust hole and exhausting the indoor air through the indoor exhaust hole a cover grill including an exhaust passage, a bypass passage communicating with the exhaust bypass hole to exhaust indoor air through the exhaust bypass hole; a first opening/closing unit allowing or blocking indoor air from flowing into the heating element through the fourth compartment; There is provided an exhaust bypass ductless ventilation device including a second opening/closing unit for opening and closing the exhaust bypass hole.

The first opening/closing unit is an electric damper, and the first opening/closing unit is located in the exhaust passage of the cover grill to open and close the indoor exhaust hole or is located in the fourth compartment to open and close the air inlet side of the heating element it is preferable

Preferably, the second opening/closing unit is an electric damper, and the second opening/closing unit is located in the bypass flow path of the cover grill to open and close the exhaust bypass hole.

The cover panel is provided with an indoor circulation hole communicating with the first partition space, the cover grill is provided with an indoor circulation passage communicating with the indoor circulation hole, and a third third opening and closing of the indoor circulation hole in the indoor circulation passage An opening/closing unit is provided, and a fourth opening/closing unit for opening and closing the air supply port on the outdoor side of the main body case may be provided.

In the case of the first embodiment, the present invention is provided with an indoor air supply hole and an indoor exhaust hole in the cover panel covering the lower end of the main body case, and the heat transfer element, the air supply blower, and the exhaust blower are mounted inside the main body case. Since it is installed on the indoor ceiling, the outdoor air is supplied through the indoor air supply hole and the indoor air is exhausted through the indoor exhaust hole, thereby effectively ventilating the indoor air.

In addition, in the case of the second embodiment, since the function of allowing the indoor air to be discharged to the outdoors without passing through the heating element in the first embodiment is further added, not only can the indoor air be effectively ventilated, but also smoke is generated in the room or the indoor air If the air is rapidly contaminated, it is possible to quickly exhaust the indoor air to the outside, and also to prevent the contamination of the heating element.

In addition, the present invention further adds a function of purifying indoor air by circulating and flowing indoor air to the second embodiment, so that the indoor air is effectively ventilated. It is possible to keep indoor air pleasant by discharging indoor air to the outside and also purifying indoor air.

1 is a front view showing a first embodiment of an exhaust bypass ductless ventilation device according to the present invention;
2 is a bottom view showing a first embodiment of an exhaust bypass ductless ventilation device according to the present invention;
3 is a planar cross-sectional view showing a first embodiment of an exhaust bypass ductless ventilation device according to the present invention;
4 is a front view showing a second embodiment of the exhaust bypass ductless ventilation device according to the present invention;
5 is a bottom view showing a second embodiment of the exhaust bypass ductless ventilation device according to the present invention;
6 is a bottom view showing that the indoor air purification function is further provided in the second embodiment of the exhaust bypass ductless ventilation device according to the present invention.

Hereinafter, an embodiment of an exhaust bypass ductless ventilation device according to the present invention will be described with reference to the accompanying drawings.

1 is a front view showing a first embodiment of an exhaust bypass ductless ventilation device according to the present invention. 2 is a bottom view showing a first embodiment of the exhaust bypass ductless ventilation device according to the present invention. 3 is a plan sectional view showing a first embodiment of the exhaust bypass ductless ventilation device according to the present invention.

1, 2 and 3, the first embodiment of the exhaust bypass ductless ventilation device according to the present invention is a body case 100, a heat transfer element 200, a blower 300 for supplying air, and the exhaust It includes a blower 400, a cover panel 500.

The main body case 100 is provided with an outdoor air supply port 10 and an outdoor side exhaust port 20 on one side plate, respectively. As an example of the main body case 100, the main body case 100 is connected to each other to form a quadrangle with front, rear, left, and right plates 110, 120, 130, 140, and front, rear, left, It includes an upper plate 150 that covers the upper end of the right plate to form an internal space. That is, the main body case 100 is formed in the shape of a square cylinder with one open side. An outdoor air supply port 10 and an outdoor exhaust port 20 are provided on the right side plate 130 . The left plate 130 facing the right plate 140 is not provided with an air supply or exhaust port. The front, rear, left, and right positions of the body case 100 are set with reference to FIGS. 1 and 2 for convenience of description. Connection ducts D1 and D2 are respectively connected to the outdoor air supply port 10 and the outdoor exhaust port 20 of the right side plate 130, which is one side plate.

The heat transfer element 200 is mounted inside the main body case 100 to divide the inner space of the main body case 100 into four compartments, and exchanges heat between the outdoor air flowing into the room and the indoor air discharged to the outdoors. . As an example of the heating element 200, the heating element 200 has a hexahedral shape, and the four corners of the heating element 200 are front, rear, left, and right plates 110 and 120 of the body case 100, respectively. It is located inside the main body case 100 so as to be located approximately in the middle of the 130 and 140 . The front, rear, left, and right plates 110 , 120 , 130 and 140 are provided with barrier ribs W at each middle portion, so that each corner of the heat transfer element 200 is supported by the barrier ribs W . The heating element 200 is a known technology and a detailed description thereof will be omitted. As the heating element 200 is positioned inside the body case 100 , the inner space of the body case 100 is divided into four compartments. That is, the four compartments are a first compartment (S1) communicating with the outdoor air supply port (10), a second compartment space (S2) communicating with the outdoor exhaust port (20), and a second compartment space (S2) It is divided into a third partition space (S3) adjacent to and the fourth partition space (S4) adjacent to the first and third partition spaces (S1) (S3).

A filter assembly (F) is provided on an air inlet side and an outlet side through which external air of the heat transfer element 200 is introduced. The filter assembly F preferably includes a HEPA filter.

The blower 300 for supplying air is provided in the third partition space S3 of the main body case 100, and generates an air supply flow.

The exhaust blower 400 is provided in the second partition space S2 of the main body case 100, and generates an exhaust flow.

The cover panel 500 covers the main body case 100, an indoor air supply hole 510 communicating with the third compartment S3, and an indoor exhaust hole 520 communicating with the fourth compartment S4. includes When the main body case 100 is a rectangular cylinder shape, the shape of the cover panel 500 is formed as a rectangular plate to cover the body case 100 . A device attachment hole is provided in the cover panel 500 so that the heating element 200 can be taken out or inserted, and the device attachment hole is removably covered by the cover plate 530 .

Hereinafter, the operation of the first embodiment of the exhaust bypass ductless ventilation device according to the present invention will be described.

The exhaust bypass ductless ventilation device of the present invention is installed so that the connecting ducts D1 and D2 are exposed to the outside and the cover panel 500 is exposed to the inside. In this state, when the air supply blower 300 and the exhaust blower 400 operate, respectively, the external air is introduced through the outdoor air supply port 10 by the suction force of the supply air blower 300 to the first section. Space (S1) - Filter assembly (F) - Heating element 200 - Third compartment space (S3) - Through the air blower 300 for air supply, into the room through the indoor air supply hole 510 of the cover panel 500 is brought in At the same time, by the suction force of the exhaust blower 400, indoor air is discharged from the indoor exhaust hole 520 of the cover panel 500 - the fourth partition space S4 - the heat transfer element 200 - the second partition space S2 ) - It is discharged to the outside through the connection duct (D2) through the blower 400 for exhaust. In the heat transfer element 200 , heat exchange between the outside air flowing into the room and the indoor air discharged to the outside is performed. The external air flowing in through the outdoor air inlet 10 by the suction power of the air supply blower 300 goes through the filter assembly (F) to remove fine dust and foreign substances mixed with the outside air, so that clean outdoor air is brought into the room. It flows in and ventilates the indoor air.

4 is a front view showing a second embodiment of the exhaust bypass ductless ventilation device according to the present invention. 5 is a bottom view showing a second embodiment of the exhaust bypass ductless ventilation device according to the present invention.

4 and 5, the second embodiment of the exhaust bypass ductless ventilation device according to the present invention is a body case 100, a heating element 200, a blower 300 for supplying air, and a blower for exhaust. 400 , a cover panel 500 , a cover grill 600 , a first opening/closing unit 710 , and a second opening/closing unit 720 .

The configuration of the main body case 100, the heat element 200, the blower 300 for supply air, and the blower 400 for exhaust are the main body case 100, the heating element 200, and the air supply blower 300 of the first embodiment, respectively. ), the same as the configuration of the blower 400 for exhaust. Therefore, a detailed description will be omitted.

The cover panel 500 covers the main body case 100, an indoor air supply hole 510 communicating with the third compartment S3, and an indoor exhaust hole 520 communicating with the fourth compartment S4. , and an exhaust bypass hole 540 communicating with the second partition space S2. That is, the cover panel 500 is further provided with an exhaust bypass hole 540 in the cover panel 500 of the first embodiment. When the main body case 100 is a rectangular cylinder shape, the shape of the cover panel 500 is formed as a rectangular plate to cover the body case 100 . A device attachment hole is provided in the cover panel 500 so that the heating element 200 can be taken out or inserted, and the device attachment hole is removably covered by the cover plate 530 .

The cover grill 600 covers the cover panel 500, is in communication with the indoor air supply hole 510, and external air through the indoor air supply hole 510 is supplied to the room. The exhaust passage 620 communicates with the hole 520 and the indoor air is exhausted through the indoor exhaust hole 520 , and the indoor air communicates with the exhaust bypass hole 540 to be exhausted through the exhaust bypass hole 540 . and a bypass flow path 630 that is

The first opening/closing unit 710 permits or blocks the inflow of indoor air into the heating element 200 through the fourth partition space S4. As an example of the first opening/closing unit 710, the first opening/closing unit 710 is an electric damper, and the first opening/closing unit 710 is located in the exhaust passage 620 of the cover grill 600, and the indoor exhaust hole ( 520) or located in the fourth partition space S4 to open and close the external air inlet side of the heating element 200.

The second opening/closing unit 720 opens and closes the exhaust bypass hole 540 . As an example of the second opening/closing unit 720 , the second opening/closing unit 720 is an electric damper, and the second opening/closing unit 720 is located in the bypass flow path 630 of the cover grill 600 and has an exhaust bypass hole (540) to open and close.

Hereinafter, the operation of the second embodiment of the exhaust bypass ductless ventilation device according to the present invention will be described.

The exhaust bypass ductless ventilation device of the present invention is installed so that the connecting ducts D1 and D2 are exposed to the outside and the cover grill 600 is exposed to the inside. In this state, when the second opening/closing unit 720 is closed, the first opening/closing unit 710 is opened, and the supply air blower 300 and the exhaust blower 400 are operated, respectively, the suction power of the supply air blower 300 is External air is introduced through the outdoor air supply port 10 by the The indoor air supply hole 510 of the cover panel 500 is introduced into the room through the air supply passage 610 of the cover grill 600 . At the same time, by the suction force of the exhaust blower 400, the indoor air is discharged from the exhaust passage 620 of the cover grill 600 - the indoor exhaust hole 520 of the cover panel 500 - the fourth compartment space (S4) - The heat transfer element 200 - the second partition space (S2) - is discharged to the outside through the connection duct (D2) through the blower 400 for exhaust. In the heat transfer element 200 , heat exchange between the outside air flowing into the room and the indoor air discharged to the outside is performed. The external air flowing in through the outdoor air inlet 10 by the suction power of the air supply blower 300 goes through the filter assembly (F) to remove fine dust and foreign substances mixed with the outside air, so that clean outdoor air is brought into the room. It flows in and ventilates the indoor air.

On the other hand, when smoke is generated indoors or indoor air is rapidly polluted and the indoor air is quickly discharged to the outdoors, close the first opening/closing unit 710 and leaving the second opening/closing unit 720 open. ), only the blower 400 for exhaust operation is not operated. Only the exhaust blower 400 is operated so that the indoor air passes through the bypass passage 630 of the cover grill 600 - the exhaust bypass hole 540 of the cover panel 500 - the second compartment space (S3) - for exhaust Blower 400 - is discharged to the outdoors through the connection duct (D2). That is, the indoor air does not pass through the heat transfer element 200 to the outside through the bypass flow path 630 of the cover grill 600 and the exhaust bypass hole 540 and the second partition space S2 of the cover panel 500 . Since it is discharged to the outside, indoor air and smoke are quickly discharged to the outside, and also, it does not pass through the heating element 200 , thereby preventing contamination of the heating element 200 .

Meanwhile, as shown in FIG. 6 , in the second embodiment of the exhaust bypass ductless ventilation device, the cover panel 500 is provided with an indoor circulation hole 550 communicating with the first partition space S1, The cover grill 600 is provided with an indoor circulation passage 640 in communication with the indoor circulation hole 550, and a third opening/closing unit 730 for opening and closing the indoor circulation hole 550 in the indoor circulation passage 640 is provided. and a fourth opening/closing unit 740 for opening and closing the outdoor air supply port 10 of the main body case 100 may be further provided.

In this case, it is possible to purify the indoor air. That is, when the fourth opening/closing unit 740 is closed, the third opening/closing unit 730 is opened, and only the supply air blower 300 is operated without operating the exhaust blower 400, the supply air blower 300 controls the supply air flow. By generating the indoor air, the indoor circulation passage 640 of the cover grill 600 - the indoor circulation hole 550 of the cover panel 500 - the first compartment space (S1) - the filter assembly (F) - the heating element ( 200) - Air supply blower 300 - Indoor air supply hole 510 of cover panel 500 - Indoor air is filtered while continuing the circulation process introduced into the room through the air supply path 610 of the cover grill 600 It is purified by assembly (F).

As described above, in the case of the first embodiment of the present invention, the heat transfer element 200, the air supply blower 300, the exhaust blower 400 are mounted inside the body case 100, and the body case 100. An indoor air supply hole 510 and an indoor exhaust hole 520 are provided in the cover panel 500 covering the lower end of the Since the air is supplied through the air and the indoor air is exhausted through the indoor exhaust hole 520, the indoor air is effectively ventilated.

In addition, in the case of the second embodiment, in the first embodiment, the function of allowing the indoor air to be discharged to the outdoors without passing through the heating element 200 is further added, so that not only can the indoor air be effectively ventilated, but also smoke is generated in the room When the indoor air is rapidly polluted, the indoor air can be quickly discharged to the outside, and the contamination of the heating element 200 is prevented.

In addition, the present invention further adds a function of purifying indoor air by circulating and flowing indoor air to the second embodiment, so that the indoor air is effectively ventilated. It is possible to keep indoor air pleasant by discharging indoor air to the outside and also purifying indoor air.

100; body case 200; electric heating element
300; blower 400 for supply air; exhaust blower
500; cover panel 600; cover grill
710; a first opening/closing unit 720; 2nd opening/closing unit

Claims (5)

a body case each having an outdoor air supply port and an outdoor exhaust port on one side plate;
A first partition space that is mounted inside the main body case and communicates with the outdoor air supply port, a second partition space communicates with the outdoor exhaust port, a third partition space adjacent to the second partition space, a heat transfer element partitioning into a fourth partition space adjacent to the first and third partition spaces, and exchanging heat between the outdoor air flowing into the room and the indoor air discharged to the outside;
a blower for supplying air provided in the third partition space of the main body case and generating a supply air flow;
an exhaust blower provided in the second partition space of the main body case and generating an exhaust flow;
and a cover panel covering the main body case and including an indoor air supply hole communicating with the third partition space and an indoor exhaust hole communicating with the fourth partition space. a body case each having an outdoor air supply port and an outdoor exhaust port on one side plate;
A first partition space that is mounted inside the main body case and communicates with the outdoor air supply port, a second partition space communicates with the outdoor exhaust port, a third partition space adjacent to the second partition space, a heat transfer element partitioning into a fourth partition space adjacent to the first and third partition spaces, and exchanging heat between the outdoor air flowing into the room and the indoor air discharged to the outside;
a blower for supplying air provided in the third partition space of the main body case and generating a supply air flow;
an exhaust blower provided in the second partition space of the main body case and generating an exhaust flow;
A cover panel covering the main body case and including an indoor air supply hole communicating with the third partition space, an indoor exhaust hole communicating with the fourth partition space, and an exhaust bypass hole communicating with the second partition space ;
An air supply passage covering the cover panel and communicating with the indoor air supply hole and supplying external air through the indoor air supply hole to the room, communicating with the indoor exhaust hole to exhaust the indoor air through the indoor exhaust hole a cover grill including an exhaust passage, a bypass passage communicating with the exhaust bypass hole and exhausting indoor air through the exhaust bypass hole;
a first opening/closing unit allowing or blocking indoor air from flowing into the heating element through the fourth compartment;
An exhaust bypass ductless ventilation device including a second opening/closing unit for opening and closing the exhaust bypass hole. The method according to claim 2, wherein the first opening/closing unit is an electric damper, and the first opening/closing unit is located in the exhaust passage of the cover grill to open and close the indoor exhaust hole or located in the fourth compartment to protect the heat transfer element Exhaust bypass ductless ventilation device, characterized in that opening and closing the air inlet side. The exhaust bypass ductless ventilation device according to claim 2, wherein the second opening/closing unit is an electric damper, and the second opening/closing unit is located in the bypass flow path of the cover grill to open and close the exhaust bypass hole. According to claim 2, wherein the cover panel is provided with an indoor circulation hole communicating with the first partition space, the cover grill is provided with an indoor circulation passage communicating with the indoor circulation hole, and the indoor circulation in the indoor circulation passage A third opening/closing unit for opening and closing a hole is provided, and a fourth opening/closing unit for opening and closing an outdoor air supply port of the main body case is provided.

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