KR102170829B1 - Air circulation system for building - Google Patents

Abstract

Disclosed is an air circulation system for a building, which includes a supply and exhaust duct installed inside the building to guide air flow inside and outside the building.

Description

Air circulation system of building {AIR CIRCULATION SYSTEM FOR BUILDING}

The present invention relates to an air circulation system of a building, and more particularly, to an air circulation system of a building that ventilates indoor air by supplying and exhausting air to the room.

As the living environment improves along with the industrial development, apartment houses such as apartments where multiple people can live at the same time on a narrow site are increasing, and the existing apartment houses also maximize resource recycling and reduce economic losses. Remodeling to improve equipment is increasing.

In recent years, in response to the demands of comfortable living of apartment dwellers, air supply and exhaust facilities have been introduced to ventilate indoor air by supplying and exhausting the room without opening the window even on days when there is a lot of dust such as cold or hot weather or yellow dust. Has become.

However, since the air supply and exhaust facilities of the conventional apartment houses are installed on the ceiling, which is the upper area of the room, the height between each floor becomes larger than that of the existing apartment houses, thereby increasing the overall construction cost. have.

On the other hand, in most cases, the air conditioning duct is installed under the ceiling or floor by connecting a plurality of duct units to a required length. The air conditioning duct is rectangular or circular. The rectangular duct is generally referred to as a rectangular duct, and mainly has button-punch snap locks or Pittsburgh in two or more places. For the connection of square ducts, either the angle connection method or the stencil method (TDC) is used. In the angle connection method, a flange is formed with steel angle members, the flange is riveted to the duct body, and the entire periphery of the flange is connected with bolts and nuts. In the stencil process, sheet metal is molded to form a stencil flange, and when assembling, corner pieces are attached to the stencil flange, and bolts and nuts and flange retaining metal fittings are retained at four corners. ) (Clamp, etc.) to connect the stencil flange.

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Publication Patent Publication No. 10-2019-0050879 (20190514) Unexamined Patent Publication No. 10-2005-0008665 (20050121) Unexamined Patent Publication No. 10-2004-0052996 (20040623)

One aspect of the present invention provides an air circulation system for a building including a supply and exhaust duct that communicates with a diffuser through which air passes, and guides the flow of air inside and outside the building to achieve air circulation inside the building.

Another aspect of the present invention provides an air circulation system for a building including a duct unit to which a connection structure for facilitating interconnection between a plurality of duct units is added.

Another aspect of the present invention provides an air circulation system of a building including a spring rotating inside the supply and exhaust duct.

The technical problem of the present invention is not limited to the technical problem mentioned above, and other technical problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

An air circulation system for a building according to an aspect of the present invention includes a supply and exhaust duct installed inside the building to guide air flow inside and outside the building.

Meanwhile, a supply fan for supplying outdoor air to the room and an exhaust fan for discharging indoor air to the outside are provided, and a supply pipe for a heat exchanger and an exhaust pipe for a heat exchanger are respectively connected to the supply fan and the exhaust fan through a pipe connection, A heat exchange module for mutually exchanging heat exchange between air introduced from the outside by the operation of the supply fan and the air discharged to the outside by the operation of the exhaust fan;

When the supply and exhaust duct is in communication with the supply pipe for the heat exchanger, it is provided in a lower area of the interior of the building, and supplies outdoor air that moves through the supply pipe for the heat exchanger through a diffuser through which air passes into the room, When communicating with the exhaust pipe for the heat exchanger, the indoor air is provided in the upper area of the interior of the building and guides indoor air toward the exhaust pipe for the heat exchanger so that indoor air can be exhausted to the outside through a diffuser through which air passes,

The supply and exhaust duct is formed by connecting a rectangular duct unit to a predetermined length,

The duct unit may include a main body formed of upper and lower wall portions and left and right wall portions formed of sheet metal to form a rectangular shape with open front and rear surfaces; Including; a first connection flange portion and a second connection flange portion extending from the front and rear edge of the body portion,

The first connection flange portion is formed to be bent outwardly at a right angle to a front edge of the body portion, and forms a plurality of first bolt holes for inserting a fastening bolt,

The second connection flange portion is formed to be bent outwardly at a right angle to the rear edge of the body portion, and forms a plurality of second bolt holes for insertion of the fastening bolt,

The first connection flange portion includes; a plurality of guide balls arranged in a radial shape with a predetermined angular interval centered on the first bolt hole and formed in a spherical shape protruding forward of the first connection flange portion; and ,

The second connection flange portion is disposed to correspond to the positions of the plurality of guide balls centering on the second bolt hole to form a radial shape, and is formed to protrude to the rear of the second connection flange portion, and is formed at a predetermined angular interval. Including; a plurality of guide plates which are inserted into the seating groove by forming a'V'-shaped seating groove to be formed,

When the plurality of guide plates are in contact with the first connection flange of another duct unit, guide the plurality of guide balls to be seated in the seating groove to connect the second bolt hole and the first connection of the other duct unit So that the origin of the first bolt hole included in the flange portion coincide,

The duct unit, when the first connection flange portion of the duct unit is fastened by a second connection flange portion of another duct unit and the fastening bolt to be connected to the other duct unit, the first connection flange portion of the duct unit and A gap is generated by the plurality of guide balls and the plurality of guide plates each protruding from the second connection flange portion of the other duct unit, and a predetermined airtight means corresponding to the gap; may be further included.

On the other hand, the supply and exhaust duct is installed to be rotatable in at least a portion of the inner passage through which air outside the room moves, and a fan including a rotating rod extending to one side while rotating by the operation of the supply fan or the exhaust fan ; It is inserted into the rotating rod and rotates according to the rotation of the fan, has a circular cross section, and forms a first bearing to be inserted into the rotating rod at its center, and radially around the first bearing. A first through ring forming a plurality of through holes; Following the first through ring, it is inserted into the rotating rod and rotates according to the rotation of the fan, has a circular cross section, and forms a second bearing at its center to be inserted into the rotating rod, and the second A second through ring radially forming a plurality of through holes around the bearing; And extending from the second through ring and rotating according to the rotation of the second through ring, formed in a spiral coil shape, and foreign matter contained in the air moving in the inner passage of the supply and exhaust duct is inside the It may include; a spring that prevents being attached or fixed to the passage.

According to the present invention described above, it is possible to ensure a comfortable environment for an indoor space including the supply and exhaust ducts, and further, air circulation efficiency can be increased by dividing the supply and exhaust ducts in the upper and lower portions of the indoor space.

According to another aspect of the present invention, by adding a connection structure to a duct unit constituting an air supply and exhaust duct, the interconnection between a plurality of duct units can be made easier and more stable, thereby increasing work efficiency.

According to another aspect of the present invention, it is possible to increase the air circulation efficiency of the building by preventing clogging of the internal space of the supply and exhaust duct by foreign substances, and to reduce labor and cost required for maintenance.

1 is a view showing a supply and exhaust duct of a building according to an embodiment of the present invention.
2 is a conceptual diagram of an air circulation system of a building according to an embodiment of the present invention.
3 is a view showing a duct unit according to an embodiment of the present invention.
4 is a view showing a connection state between the duct units shown in FIG. 3.
5 is a view showing a portion of the first connection flange shown in FIG. 3.
6 is a view showing a portion of the second connection flange shown in FIG. 3.
7 is a view showing the interior of the air supply and exhaust duct shown in FIG.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms different from each other, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention belongs. It is provided to completely inform the scope of the invention to those who have it, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

The terms used in the present specification are for describing exemplary embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used herein, “comprises” and/or “comprising” do not exclude the presence or addition of one or more other elements, steps, and actions to the mentioned elements, steps, and actions.

1 is a view showing a supply and exhaust duct of a building according to an embodiment of the present invention.

Referring to FIG. 1, the air supply and exhaust duct 100 of a building according to an embodiment of the present invention is a pipe through which air outside the building flows, and by connecting a plurality of duct units to a required length, the ceiling of the building 10 Or it can be installed under the floor.

The supply/exhaust duct 100 of a building according to an embodiment of the present invention communicates with a diffuser that passes air, and guides the flow of air inside and outside the building 10, thereby achieving air circulation in the building 10. have.

2 is a conceptual diagram of an air circulation system of a building according to an embodiment of the present invention.

Referring to FIG. 2, the air circulation system 1000 of a building according to an embodiment of the present invention may include a heat exchange module 200 and a supply and exhaust duct 100.

The heat exchange module 200 may exchange heat between the air introduced from the outdoors and the air discharged to the outdoors, and a conventional fixed plate heat exchanger may be applied.

The heat exchange module 200 may be provided with a supply fan for supplying outdoor air to the room and an exhaust fan for discharging indoor air to the outside. In the heat exchange module 200, a supply pipe for a heat exchanger and an exhaust pipe for a heat exchanger may be respectively connected through a pipe connection, and the supply pipe for the heat exchanger and the exhaust pipe for the heat exchanger may be connected to the suction and discharge sides of the supply fan and the exhaust fan, respectively.

For example, the heat exchange module 200 recovers waste heat from the air discharged to the outside and heats the air supplied to the room, thereby supplying the outdoor air heated indoors in winter and exhausting the indoor air cooled outside. I can.

The supply and exhaust duct 100 may be applied to the supply and exhaust duct 100 according to an embodiment of the present invention shown in FIG. 1.

The supply and exhaust duct 100 can be divided into a supply and exhaust duct 100 communicating with a supply pipe for a heat exchanger and a supply and exhaust duct 100 communicating with an exhaust pipe for a heat exchanger, each communicating with a diffuser and moving through the supply pipe for a heat exchanger. Outdoor air to be supplied may be supplied indoors, or indoor air may be exhausted toward an exhaust pipe for a heat exchanger.

In this embodiment, the supply and exhaust duct 100 connected to the supply pipe for a heat exchanger may be provided in the lower area of the building interior, and the supply and exhaust duct 100 connected to the exhaust pipe for the heat exchanger may be provided at the upper area of the building interior. I can. In this case, since air is supplied from the lower area of the building interior and exhausted from the upper area, the indoor air circulation will be smooth.

The air circulation system 1000 of a building according to an embodiment of the present invention achieves circulation of air inside the building by the heat exchange module 200, but divides the supply and exhaust ducts 100 into upper and lower regions of the interior of the building, respectively. By installing it, it makes air circulation more smoothly.

3 is a view showing a duct unit according to an embodiment of the present invention.

3, a duct unit 101 according to an embodiment of the present invention is a unit unit constituting the supply and exhaust duct 100 according to an embodiment of the present invention shown in FIG. 1, and is formed of sheet metal. As a rectangular duct unit consisting of a wall portion and left and right walls, it is connected to the other duct unit 101 by bolts and nuts to form the supply and exhaust duct 100 as shown in FIG. 1.

The duct unit 101 according to an embodiment of the present invention may include a body portion 110, a first connection flange portion 111, and a second connection flange portion 112.

The main body 110 may be formed of upper and lower wall portions and left and right wall portions formed of sheet metal to form a rectangular shape with open front and rear surfaces.

The first connection flange portion 111 and the second connection flange portion 112 are formed extending from the edge of the body portion 110, and may be coupled by bolts and nuts in contact with other duct units 101. .

The first connection flange portion 111 may be formed by bending outwardly at a right angle to the front edge of the body portion 110. The first connection flange 111 may form a plurality of first bolt holes 1113 for inserting bolts.

The second connection flange portion 112 may be formed by bending outwardly at a right angle to the rear edge of the body portion 110. The second connection flange part 112 may form a plurality of second bolt holes 1123 for insertion of bolts.

The first connection flange portion 111 is in contact with the second connection flange portion 112 of the other duct unit 101 located in the front, the first bolt hole 1113 formed in the first connection flange portion 111 and other Bolts and nuts sequentially inserted into the second bolt hole 1123 formed in the second connection flange portion 112 of the duct unit 101 are fastened, thereby being connected to the other duct unit 101.

Likewise, the second connection flange part 112 is a second bolt hole 1123 formed in the second connection flange part 112 in a state in contact with the first connection flange part 111 of the other duct unit 101 located at the rear. And by fastening the bolts and nuts sequentially inserted into the first bolt hole 1113 formed in the first connection flange 111 of the other duct unit 101, it can be connected to the other duct unit 101.

According to this embodiment, the first connection flange portion 111 and the second connection flange portion 112 are each a first bolt hole to secure the airtightness of the supply and exhaust duct 100 by making interconnection easier and more stable. A connection structure may be added around the 1113 and the second bolt hole 1123. This will be described with reference to FIGS. 4 to 6.

4 is a view showing a connection state between the duct units shown in FIG. 3.

Referring to FIG. 4, the first connection flange portion 111 and the second connection flange portion 112 are fastening bolts 113 inserted through the first connection flange portion 111 and the second connection flange portion 112. ) Can be coupled to each other. Although omitted in FIG. 4, the fastening bolt 113 may be fastened to the nut while fastened to the first connection flange part 111 and the second connection flange part 112. In addition, in FIG. 4, it is shown that the first connection flange portion 111 and the second connection flange portion 112 are spaced apart by a predetermined distance, but by providing a predetermined airtight means corresponding to the interval between the two duct units It will be closely connected.

The first connection flange part 111 may form a guide ball 1111 protruding forward, and the second connection flange part 112 may form a guide plate 1121 protruding backward. When the first connection flange part 111 and the second connection flange part 112 abut, the guide ball 1111 will be seated on the guide plate 1121. This will be described with reference to FIGS. 5 and 6.

FIG. 5 is a view showing a part of the first connection flange shown in FIG. 3, and FIG. 6 is a view showing a part of the second connection flange shown in FIG. 3.

Referring to FIG. 5, the first connection flange 111 may include a first bolt hole 1113 and a plurality of guide balls 1111.

The first bolt hole 1113 has a configuration in which the fastening bolt 113 is fastened, and a bolt surface corresponding to the fastening bolt 113 may be formed.

The guide balls 1111 may be arranged radially around the first bolt hole 1113 to be provided in plural, and preferably three guide balls 1111 are disposed at a predetermined angular interval around the first bolt hole 1113. Can be provided.

The guide ball 1111 may be formed to protrude forward of the first connection flange 111 in a spherical shape.

Referring to FIG. 6, the second connection flange part 112 may include a second bolt hole 1123 and a plurality of guide plates 1121.

The second bolt hole 1123 has a configuration in which the fastening bolt 113 is fastened, and a bolt surface corresponding to the fastening bolt 113 may be formed.

The guide plate 1121 may be arranged in a radial manner with the second bolt hole 1123 as the center and a plurality of guide plates 1123 may be provided, and preferably, the positions of the three guide balls 1111 with the first bolt hole 1113 as the center Three can be provided corresponding to. Accordingly, when the first connection flange portion 111 and the second connection flange portion 112 abut, a plurality of guide balls 1111 will be seated on the plurality of guide plates 1121, respectively. In other words, when the operator connects the first connection flange portion 111 and the second connection flange portion 112 to extend the duct unit 101, a plurality of guide balls 1111 may be provided with a plurality of guide plates 1121 By arranging so as to be seated in the first bolt hole 1113 and the second bolt hole 1123, the origins of the first bolt hole 1123 are more easily matched, and as a result, the extension work of the duct unit 101 is facilitated.

The guide plate 1121 is formed to protrude to the rear of the second connection flange 112, and may form a'V'-shaped seating groove 1121a at regular intervals. Here, the height and width of the seating groove 1121a may correspond to the diameter of the guide ball 1111.

Therefore, the guide ball 1111 may guide the origin of the first bolt hole 1113 and the second bolt hole 1123 by being inserted into the mounting groove 1121a along the inclined surface of the mounting groove 1121a. Furthermore, both sides of the guide ball 1111 are supported by the seating groove 1121a, thereby making the connection between the first connection flange 111 and the second connection flange 112 firm.

Meanwhile, FIG. 7 is a view showing the interior of the supply and exhaust duct shown in FIG. 1.

Referring to FIG. 7, the supply and exhaust duct 100 may include a fan 3261, a first through ring 3262, a second through ring 3263, and a spring 3264 in at least a portion of the inner passage.

The fan 3261 may be installed to be rotatable in the inner space of the supply and exhaust duct 100. For example, the fan 3261 may rotate by the operation of an air supply fan and an exhaust fan provided in the heat exchange module 200.

The fan 3261 may include a rotating rod 3261a extending to one side.

The first through ring 3262 may be inserted into the rotating rod 3261a to rotate according to the rotation of the fan 3261.

The first through ring 3262 has a circular cross section, and a first bearing 3262a to be inserted into the rotating rod 3261a may be formed at the center thereof. In addition, the first through ring 3262 may radially form a plurality of through holes with the first bearing 3262a as the center.

The second through ring 3263 may be inserted into the rotating rod 3261a following the first through ring 3162 to rotate according to the rotation of the fan 3261.

The second through ring 3263 has a circular cross section, and a second bearing 3263a for being inserted into the rotating rod 3261a may be formed at the center thereof. Also, the second through-ring 3263 may radially form a plurality of through-holes 3263b with the second bearing 3263a as the center, like the first through-ring 3162.

The spring 3264 is formed extending from the second through ring 3263 and may rotate according to the rotation of the second through ring 3263.

The spring 3264 has a spiral coil shape, and by rotating in the inner space of the supply and exhaust duct 100, foreign substances contained in the air moving the supply and exhaust duct 100 are transferred to the internal moving space of the supply and exhaust duct 100. It can prevent sticking or sticking.

In this way, the air supply and exhaust duct 100 can prevent clogging by foreign substances in the internal space, thereby increasing the air circulation efficiency of the building, and can reduce labor and cost required for maintenance.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features. You can understand. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not limiting.

10: Interior space of the building
100: supply and exhaust duct

Claims (2)

Including; a supply and exhaust duct installed inside the building to guide air flow inside and outside the building,
A supply fan for supplying outdoor air to the room and an exhaust fan for discharging indoor air to the outside are provided, and a supply pipe for a heat exchanger and an exhaust pipe for a heat exchanger are respectively connected to the supply fan and the exhaust fan through a pipe connection part. A heat exchange module for mutually exchanging heat exchange between air introduced from the outside by the operation of the fan and air discharged to the outside by the operation of the exhaust fan; further comprising,
The supply and exhaust duct,
When communicating with the supply pipe for the heat exchanger, the outdoor air provided in the lower area of the building interior and moving through the supply pipe for the heat exchanger is supplied indoors through a diffuser through which air passes, and communicates with the exhaust pipe for the heat exchanger. In this case, the indoor air is provided in the upper area of the interior of the building and guides the indoor air toward the exhaust pipe for the heat exchanger so that the indoor air can be exhausted to the outside through a diffuser through which air passes,
The supply and exhaust duct,
It is formed by connecting a rectangular duct unit to a predetermined length,
The duct unit,
A main body comprising upper and lower wall portions and left and right wall portions formed of sheet metal to form a rectangular shape with open front and rear surfaces;
Including; a first connection flange portion and a second connection flange portion extending from the front and rear edge of the body portion,
The first connection flange portion,
It is formed by bending outwardly at a right angle to the front edge of the main body, and forming a plurality of first bolt holes for insertion of the fastening bolt,
The second connection flange portion,
It is formed by bending outwardly at a right angle to the rear edge of the main body, and forming a plurality of second bolt holes for insertion of the fastening bolt,
The first connection flange portion,
Including; a plurality of guide balls arranged in a radial shape with respect to the first bolt hole at a predetermined angular interval, and formed in a spherical shape protruding forward of the first connection flange portion, and
The second connection flange portion is disposed to correspond to the positions of the plurality of guide balls centering on the second bolt hole to form a radial shape, and is formed to protrude to the rear of the second connection flange portion, and is formed at a predetermined angular interval. Including; a plurality of guide plates which are inserted into the seating groove by forming a'V'-shaped seating groove to be formed,
When the plurality of guide plates are in contact with the first connection flange of another duct unit, guide the plurality of guide balls to be seated in the seating groove to connect the second bolt hole and the first connection of the other duct unit The origin of the first bolt hole included in the flange portion is matched,
The duct unit, when the first connection flange portion of the duct unit is fastened by a second connection flange portion of another duct unit and the fastening bolt to be connected to the other duct unit, the first connection flange portion of the duct unit and A gap is created by the plurality of guide balls and the plurality of guide plates each protruding from the second connection flange portion of the other duct unit, and a predetermined airtight means corresponding to the gap; further comprising,
The supply and exhaust duct,
A fan installed to be rotatable in at least a portion of an inner passage through which air outside the room moves, and including a rotating rod extending to one side while rotating by the operation of the air supply fan or the exhaust fan;
It is inserted into the rotating rod and rotates according to the rotation of the fan, has a circular cross section, and forms a first bearing to be inserted into the rotating rod at its center, and radially around the first bearing. A first through ring forming a plurality of through holes;
Following the first through ring, it is inserted into the rotating rod and rotates according to the rotation of the fan, has a circular cross section, and forms a second bearing at its center to be inserted into the rotating rod, and the second A second through-ring radially forming a plurality of through-holes around the bearing; And
It is formed extending from the second through ring and rotates according to the rotation of the second through ring, is formed in a spiral coil shape, and foreign matter contained in the air moving in the inner passage of the supply and exhaust duct is the inner passage Including, the air circulation system of the building;
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