KR200341121Y1 - A duct for a building - Google Patents

Abstract

The present invention relates to an exhaust duct for a building that is easy to transport, store and install, while reducing manufacturing costs.

According to the present invention, in a building exhaust duct configured by connecting a plurality of wall panels 20 to form an air passage therein, one side end of the wall panel 20 is bent at a right angle in the connecting portion 30 It is provided, the other end of the wall panel 20 is bent and formed relatively concave than the outer surface of the wall panel 20 is characterized in that the seating portion 40 is provided so that the connection is seated when assembling the duct A building exhaust duct is provided.

Description

A duct for a building

The present invention relates to a building exhaust duct, and more particularly to a building exhaust duct that is easy to transport, storage and installation work while reducing the manufacturing cost.

In general, an exhaust duct is installed in a multi-story building such as an apartment or a large building such as a factory to allow natural air to be exhausted or forcedly blown out of the building for the purpose of air conditioning in an indoor space.

Tubular exhaust ducts made of materials such as tin and synthetic resins, which are mainly used as the exhaust ducts for buildings, are difficult to transport and store due to their structural weight and volume, and particularly, the installation place is located on a high place such as a roof of a building. Since it is located, there was a problem that the inconvenience caused by such a heavy weight and large structure is aggravated. In addition, since the entire duct must be molded at the same time during the production of the integrated large-size structure, a mold, a molding equipment, a production line, and the like for forming are also enlarged, thereby increasing the manufacturing cost.

On the other hand, the building exhaust duct is installed outside, such as the roof of the building, the air discharged from the inside of the building flows inside the exhaust duct, the temperature difference occurs inside and outside the duct. Therefore, when the outside temperature of the duct is significantly lower than the inside, such as in winter, water vapor contained in the discharged air is condensed and condensation occurs on the inner wall of the duct, causing the condensed water to enter the room through the inner wall of the duct. There was a problem. In addition, there is a problem in that water flows down the inner wall of the duct when it snows or rains and flows into the room.

The present invention is to solve the problems as described above, the purpose of the present invention is easy to transport and storage, but also easy to install in a high position, such as the roof of the building, and the molding equipment or production line for molding is reduced It is an object of the present invention to provide a new configuration of building exhaust duct that has advantages such as reduced manufacturing cost.

1 is a perspective view of an embodiment of a building exhaust duct according to the present invention

FIG. 2 is a longitudinal sectional view of a state in which the exhaust ducts of FIG. 1 are stacked;

3 is a perspective view of another embodiment of the exhaust duct of FIG.

<Explanation of symbols for main parts of the drawings>

20. Wall panel 30. Connections

40. Seating part 45. Coupling jaw

55. Water Cutting Groove

According to the present invention, in a building exhaust duct configured by connecting a plurality of wall panels 20 to form an air passage therein, one side end of the wall panel 20 is bent at a right angle in the connecting portion 30 It is provided, the other end of the wall panel 20 is bent and formed relatively concave than the outer surface of the wall panel 20 is characterized in that the seating portion 40 is provided so that the connection is seated when assembling the duct A building exhaust duct is provided.

According to another feature of the present invention, the lower end of the wall panel 20 is provided with a coupling jaw 45 further protruding to the outer side relatively, when the wall panel 20 is laminated in the vertical direction when assembling the duct The exhaust duct for a building is provided, characterized in that the coupling jaw 45 of the upper wall panel 20 is mounted on the upper end of the lower wall panel 20 to be coupled.

According to another feature of the present invention, the wall panel 20 is formed by forming a concave water cutting groove 55 extending in the vertical direction on the inner surface of the connection portion 30 or the outer surface of the seating portion 40. A building exhaust duct is provided.

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

Figure 2 is a perspective view showing an embodiment configuration of the building exhaust duct according to the present invention, Figure 3 is a plan sectional view thereof. As shown, the subject innovation consists of a hollow quadrangular tube form in which four wall panels 20 are coupled, and a lower end thereof is buried in the slab 1 of the building. At this time, one end portion of the wall panel 20 is provided with a connection portion 30 bent at right angles to one side, and the other end portion of the wall panel 20 is a recess portion that is relatively concave than the outer surface of the wall panel 20 ( 40) is provided.

The seating portion 40 is bent in the right angled direction of the other end of the wall panel 20 and then bent in a direction parallel to the outer surface of the wall panel 20, the duct relatively than the outer surface of the wall panel 20 It is formed concave in the inward direction. When assembling the duct by connecting a plurality of the wall panel 20 configured as described above, the connection portion 30 of any one wall panel 20 is seated on the seating portion 40 of the other wall panel 20 neighboring Therefore, the protruding step portion is not formed on the outer surface of the assembled duct.

In addition, the bottom of the wall panel 20 is provided with a coupling jaw 45 having a cross-sectional tracer shape so as to protrude relatively than the outer surface of the wall panel 20, as shown in Figure 2, a plurality of ducts are stacked When assembling the coupling chin 45 of the upper duct can be fitted into the outer surface of the upper end of the lower duct.

On the other hand, the outer surface of the seating portion 40 is formed in the inner concave water cutting groove 55 is extended in the vertical direction, the upper and lower wall panels when the duct is assembled by connecting the wall panel 20 Water cutting groove 55 of 20 extends from the top of the duct to the bottom end. As a result, the temperature outside the duct is significantly lower than the inside, so that water vapor condenses and condenses on the inner wall of the duct, or water generated by rain or snow flows down the lower portion of the duct along the water cutting groove 55. This prevents water from entering the room.

In addition, when assembling the duct by connecting the plurality of wall panels 20, the inner side of the connecting portion 30 of the wall panel 20 is cut in the longitudinal direction to remove the connecting portion 30, and then another wall panel 20 Seated on the seating portion 40 of the), by connecting the wall panel 20 in the front and rear left and right direction can be assembled a larger capacity duct.

Accordingly, the building exhaust duct can be assembled and installed at the installation site after each wall panel 20 is transported in a divided state, and thus, unlike conventional integrated ducts that are heavy and bulky and inconvenient to transport, they are easy to transport. And, it can be stored by stacking or close each wall 210 in one direction, there is an advantage that the space required for storage is reduced. In addition, since the building exhaust duct is manufactured by assembling the divided wall panel 20, it is not necessary to mold the entire duct at the same time during its manufacture, so that a mold, a molding equipment, a production line, and the like for molding are miniaturized and manufactured. The cost is lowered.

In addition, a water cutting groove 55 extending in the vertical direction is formed inside the connection portion 30 of the wall panel 20 so that water generated by condensation, rain, or snow of water vapor may be formed in the water cutting groove 55. ), There is an advantage that the risk of flowing into the lower side of the duct flow into the room is prevented.

On the other hand, the subject innovation is formed through the bolt holes (2a, 2b) through the connecting portion 30 and the seating portion 40 overlapping each other through the bolt member through the bolt holes (2a, 2b) the plurality of wall panels ( 20), the housing (not shown) formed with a hole (not shown) corresponding to the bolt holes (2a, 2b) is installed on the surface facing the interior side of the seating portion 40, The nut member (not shown) is inserted into the hole of the housing in advance, and then the bolt is penetrated through the bolt holes 2a and 2b of the connecting portion 30 and the seating portion 40 at the outdoor side of the wall panel 20. By fastening the members, the plurality of wall panels 20 can be connected. At this time, the housing is made of SMC which is a kind of FRP, when the bolt member is turned, it supports the nut member to prevent the nut member from screwing. Accordingly, in order to connect the plurality of wall panels 20, when the bolt member is fastened, the operator does not need to enter the duct to hold the nut member, so the work is very easy and quick. There is an advantage.

As described above, according to the present invention, it is easy to transport and store, and it is easy to install even at a high position such as a roof of a building, and the building equipment has advantages such as reducing the manufacturing cost by miniaturizing the molding equipment or production line for molding. Exhaust ducts may be provided.

Claims (3)

In the building exhaust duct formed by connecting a plurality of wall panels 20 to form an air passage therein, one side end of the wall panel 20 is provided with a connection portion 30 bent in a right direction, the wall The other end of the panel 20 is bent and formed relatively concave than the outer surface of the wall panel 20 for the building, characterized in that the seating portion 40 is provided so that the connection portion 30 is seated when assembling the duct Exhaust duct. According to claim 1, wherein the lower end of the wall panel 20 is provided with a coupling jaw 45 further protrudes to the outer side relatively, when the wall panel 20 is laminated in the vertical direction to assemble the duct, the upper side Exhaust duct for buildings, characterized in that the coupling jaw 45 of the wall panel 20 is configured to be coupled to the upper end of the lower wall panel (20). According to claim 1 or claim 2, The wall panel 20 is formed in the inner surface of the connecting portion 30 or the outer surface of the seating portion 40 concave water cutting groove 55 is formed to extend in the vertical direction long Exhaust duct for buildings, characterized in that.