KR101246118B1 - Dry-wall system and dry-wall construction method for preventing thermal bridge - Google Patents

Abstract

PURPOSE: A system and a construction method for a dry-wall for reducing thermal bridges are provided to reduce thermal bridges through studs separated at both sides of an insulating material, and to easily fasten the studs through a connecting bar. CONSTITUTION: A system and a construction method for a dry-wall for reducing thermal bridges includes an upper runner, a lower runner, a first and second studs(30,60), a connecting bar(22), and an insulating material(50). The first and second studs are vertically installed in between the upper runner and the lower runner. The connecting bar installed in between the first and second studs connects the first stud with the second stud. The insulating material fills a space between the first and second studs along the length direction of the upper runner and the lower runner.

Description

DRY-WALL SYSTEM AND DRY-WALL CONSTRUCTION METHOD FOR PREVENTING THERMAL BRIDGE}

The present invention relates to a thermal bridge type drywall system and a drywall construction method, and more particularly, to a thermal bridge type drywall system and a drywall construction method having first and second studs disposed on both sides of a heat insulating material. will be.

In recent years, the construction of ramen-jo apartments is expected to increase in line with related legislation, such as easing the floor area ratio, and the use of drywall is expected to gradually increase in place of the existing wetwall due to social conditions such as rising labor costs. Accordingly, there is a demand for drywalls suitable for various parts such as exterior walls, interior walls, and inter-walls of buildings, but the development of drywalls for various uses is still somewhat sluggish.

Unlike the wet method of building blocks or bricks, drywall is lightweight and can be installed without burdening the building, and it is easy to construct and quick to work. The drywall system mainly uses drywall using concrete panels or steel studs, but drywall of concrete panels is heavy and difficult to transport, and it is not easy to carry out on-site processing. Drywall is used and the present invention relates to the latter.

Drywall using conventional steel studs are composed of upper and lower tracks installed horizontally and a plurality of studs installed vertically therebetween, and rock wool to enhance the thermal insulation effect of the drywall between the stud gaps. Primary and secondary insulation such as (glass fiber) shall be inserted respectively. However, in the case of the conventional steel stud drywall, a thermal bridge phenomenon occurs through the web portion of the 'c'-shaped studs not only increase the heating and cooling load, but also caused a mold problem due to condensation. In consideration of the thermal bridge phenomenon, when the insulation performance is added to the wall, there is a problem that the internal space is reduced due to the increase in the volume of the wall.

Korean Unexamined Patent Application Publication No. 2004-0083403 2006.4.24.

It is an object of the present invention to provide a thermal bridge type drywall system and a drywall construction method capable of reducing a thermal bridge phenomenon through a stud.

It is another object of the present invention to provide a thermal bridge type drywall system and a drywall construction method which can facilitate fastening between studs disposed on both sides of a heat insulating material.

Still other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

According to one embodiment of the present invention, a drywall system includes: an upper runner and a lower runner; First and second studs inserted vertically between the upper runner and the lower runner and disposed on one side and the other side of the upper runner and the lower runner, and spaced apart from each other; A plurality of connecting bars connected at both ends to the first and second studs and spaced apart along the longitudinal direction of the first and second studs; And a heat insulating material filled between the first stud and the second stud, wherein the first and second studs include: first and second webs facing one surface of the heat insulating material; And first and second flanges connected to both ends of the first and second webs and perpendicular to the first and second webs.

The connection bar may be integrally formed with the first stud.

The second stud has a connecting hole formed to penetrate the second web and a holder formed around the connecting hole and protruding from the inner surface of the second web, the holder having one end of the connecting bar. Inserted and fixed within, the drywall system may further comprise a caulking material inserted into the interior of the connection hole and the holder.

The caulking material may be a flowable material having a thermal insulation performance, for example, may be silicon.

The second stud has a connecting hole formed to penetrate the second web and a holder formed around the connecting hole and having a ring-shaped cross section protruding from an inner side surface of the second web, the holder having a stopper protruding from an inner circumferential surface. And one end of the connection bar is fixed and inserted into the holder, and a hook part formed at the one end to prevent the connection bar inserted into the holder from being separated from the holder.

The second stud protrudes from an inner side surface of the second web and has a bar-shaped holder having an insertion groove formed in a longitudinal direction and a direction perpendicular to the longitudinal direction and an outer side of the second web so as to correspond to the holder. It has a connection hole recessed from the side, the connection bar has a stopper protruding from the outer peripheral surface of one end, one end of the connection bar is fixed to the insertion groove, the drywall system is moved along the connection bar It may further include a caulking material inserted into the connection tube and the protection tube to surround the one end of the connection bar and the holder to prevent the connection bar is separated from the holder.

According to one embodiment of the invention, the dry wall construction method, the step of installing the upper runner and the lower runner to correspond to the length of the wall; Insert first and second studs perpendicularly between the upper runner and the lower runner, wherein the first stud is installed at one side of the upper runner and the lower runner, and the second stud is installed at the upper runner and the lower stud. It is installed on the other side of the lower runner, and connecting the first and second studs using a plurality of connecting bars spaced apart along the longitudinal direction of the first and second studs.

According to one embodiment of the present invention, by separating the stud on both sides of the heat insulating material, it is possible to reduce the thermal bridge phenomenon through the stud. In addition, it is possible to facilitate the connection between the studs through the connecting bar without a separate piece or nut. In addition, since the heat insulating material is disposed continuously, the thermal bridge phenomenon through the wall can be reduced. In addition, after fixing the pre-fabricated insulation through the stud, it is installed between the upper runner and the lower runner, it can reduce the time required to construct the insulation in the field, and the insulation is fixed through the connecting bar, There is no need to install rock wool pins.

1 is a view schematically showing a drywall system according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of the drywall system shown in FIG. 1.
FIG. 3 is a perspective view illustrating the first and second studs and the connection bar illustrated in FIG. 2.
4 is a cross-sectional view of FIG. 3.
5 is a view showing an embodiment of fastening the connecting bar shown in FIG. 4 to the second stud.
6 is a view showing another embodiment of fastening the connecting bar shown in FIG. 4 to the second stud.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description.

1 is a view schematically showing a drywall system according to an embodiment of the present invention, Figure 2 is a view showing a cross-sectional view of the drywall system shown in FIG. The drywall system includes an upper runner 10 and a lower runner 20, and first and second studs 30 and 60. The upper runner 10 is fixed to the ceiling surface through shot pins, etc., and similarly, the lower runner 20 is fixed to the bottom surface through shot pins and the like. The upper runner 10 and the lower runner 20 are installed in parallel with each other.

The first and second studs 30 and 60 are inserted between the upper runner 10 and the lower runner 20 and are installed substantially perpendicular to the upper runner 10 and the lower runner 20. As shown in FIG. 1, the upper runner 10 has an upper cutout portion 11 formed in a flange portion perpendicular to the ceiling surface, and the lower runner 20 has a lower cutout portion formed in a flange portion perpendicular to the bottom surface. Has 21. The first and second studs 30 and 60 are inserted onto the upper runner 10 and the lower runner 20 through the upper cutout 11 and the lower cutout 21, and the inserted first and second studs 30 and 60 are inserted. The studs 30 and 60 may be pushed along the upper runner 10 and the lower runner 20 to be fixed at a desired position. Arrows shown in FIG. 1 indicate the moving directions of the first and second studs 30 and 60.

Upper portions of the first and second studs 30 are fastened and fastened to the upper runner 10 by screws, and the lower portions of the first and second studs 60 are fastened to the lower runner 10 through screws and the like. do. The first and second studs 30 and 60 installed on the upper cutout portion 11 and the lower cutout portion 21 are fixed by welding to separate accessory materials (not shown), and the accessory materials are fixed through the piece. After being directly fixed to the ceiling surface and the bottom surface, the first and second studs 30 and 60 are fastened and fastened to the upper runner 10 and the lower runner 20, respectively. In this case, the first stud 30 is installed on the inner flange of the upper runner 10 and the lower runner 20, and the second stud 60 is installed on the outer flange of the upper runner 10 and the lower runner 20. do. That is, the upper runner 10 and the lower runner 20 have a '-' shaped cross section, and the inner flange and the outer flange are spaced apart from each other. The first studs 30 and the second studs 60 are spaced apart from each other to reduce thermal bridge phenomena through the first and second studs 30 and 60.

As shown in FIG. 1, the insulation 50 is filled between the first stud 30 and the second stud 60 to increase the thermal insulation effect of the drywall system. The heat insulating material 50 may be a heat insulating material such as glass wool or rock wool. The heat insulating material 50 has a width corresponding to the upper cutout 11 and the lower cutout 21, and the first and second studs are protruded to both sides of the first and second studs 30 and 60. 30,60). The heat insulating material 50 is inserted between the upper runner 10 and the lower runner 20 through the upper cutout 11 and the lower cutout 21 together with the first and second studs 30 and 60. In a state in which construction is completed, the heat insulating material 50 is continuously disposed along the upper runner 10 and the lower runner 20. The joint between the heat insulating materials 50 is finished using an airtight tape or the like.

As shown in FIG. 2, the first and second studs 30 and 60 are spaced apart along the longitudinal direction of the upper runner 10 and the lower runner 20, and the first and second studs 30 and 60 are spaced apart from each other. 60 pairs. The number of first and second studs 30 and 60 may be determined according to the separation distance between the walls.

The heat insulating material 50 is fixed through the first and second studs 30 and 60 and the connecting bar 22. The first stud 30 and the second stud 60 may be symmetrical with respect to the insulation 50. The first stud 30 has a first web 32 generally parallel with the insulation 50 and first flanges 34 connected to both ends of the first web 32 and perpendicular to the first web 32. do. Similarly, the second stud 60 is connected to both ends of the first web 32 and the first web 32 generally parallel with the insulation 50, and the first flanges 34 perpendicular to the first web 32. It is provided. Both sides of the first and second studs 30 and 60 are installed with a finishing material 40 such as gypsum board, and the finishing material 40 is fixed to the first and second studs 30 and 60 through a screw or the like. Thereafter, construction of the drywall is completed by performing a final finishing treatment using wallpaper, paint, or the like on the surface of the finishing material 40.

3 is a perspective view illustrating the first and second studs and the connecting bar illustrated in FIG. 2, and FIG. 4 is a cross-sectional view of FIG. 3. The connection bar 22 is installed between the first stud 30 and the second stud 60 and connects the first stud 30 and the second stud 60. The connection bars 22 are spaced apart along the lengthwise direction of the first and second studs 30, 60. The connection bar 22 safely supports the first and second studs 30 and 60, while reducing the thermal bridge phenomenon between the first and second studs 30 and 60. The connection bar 22 may be integrally formed with the first stud 30, and the connection bar 22 may be connected to the inner side surface of the first web 32. In the process of constructing the drywall, the connection bar 22 may be connected to the second stud 60 and may be fixed to the second web 62. On the other hand, unlike the present embodiment, a part of the connection bar 22 may be integrally formed with the first stud 30, and the other part of the connection bar 22 may be integrally formed with the second stud 60. The first and second studs 30 and 60 may be connected to each other through a connection between the two. At this time, the caulking material (not shown) may be interposed between the two, the caulking material may be a flowable material (for example, silicon) having a heat insulating performance.

5 is a view showing an embodiment of fastening the connecting bar shown in FIG. 4 to the second stud. As shown in FIG. 5, the second web 62 has a connection hole 61 formed therethrough. The holder 66 has a ring-shaped cross section and is installed on an inner side surface of the second web 62 so that the inside thereof communicates with the connection hole 61. The holder 66 has a stopper 67 protruding from the inner side, and the connecting bar 22 has a hook portion 24 formed at one end thereof. The connecting bar 22 is inserted into the holder 66 and fixed, and the hook portion 24 is restricted by the stopper 67. Thus, the connecting bar 22 cannot be easily separated from the holder 66 by the hook portion 24 and the stopper 67. The caulking material (for example, silicon) 70 is filled in the connection hole 61 and the holder 66 to form a thermal bridge through the connection bar 22 and the second stud 60. Reduce.

6 is a view showing another embodiment of fastening the connecting bar shown in FIG. 4 to the second stud. As shown in FIG. 6, the holder 66 is installed on the inner side of the second web 62 and has an insertion groove 67 recessed from the side. The insertion groove 67 is formed along the longitudinal direction of the holder 66 and the direction perpendicular to the longitudinal direction. The connecting bar 22 has a stopper 24 formed at one end thereof, and the stopper 24 protrudes from the outer circumferential surface of the connecting bar 22.

The insertion groove 67 has a shape corresponding to one end of the connection bar 22 and the stopper 24, and one end of the connection bar 22 and the stopper 24 are inserted into the insertion groove 67 to provide a second shape. Is connected to the stud 60. The connection bar 22 is inserted into the insertion groove 67 is limited to move in the left and right direction, the stopper 24 is inserted into the insertion groove 67 to limit the movement of the connection bar 22 in the front and rear direction. The connecting bar 22 is inserted into the insertion groove 67 from the top of the holder 66, the protective tube 72 is moved along the connecting bar 22 to one end of the connecting bar 22 and the holder 66 Wraps. Accordingly, the protective tube 72 prevents the connecting bar 22 from being drawn out from the insertion groove 67.

The second web 62 has a connection hole 61 formed through the center portion, and the position of the connection hole 61 corresponds to the position of the holder 66. The caulking material (eg, silicon) 70 is filled in the connection hole 61 and reduces the thermal bridge phenomenon through the connection bar 22 and the second stud 60.

Although the present invention has been described in detail by way of preferred embodiments thereof, other forms of embodiment are possible. Therefore, the technical idea and scope of the claims set forth below are not limited to the preferred embodiments.

10: upper runner 20: lower runner
22: connecting bar 30: first stud
32: first web 34: first flange
40: finishing material 50: insulation
60: second stud 61: connecting hole
62: second web 64: second flange
66: holder 70: caulking material
72: protective tube

Claims (8)

Upper and lower runners;
First and second studs inserted vertically between the upper runner and the lower runner and disposed on one side and the other side of the upper runner and the lower runner, and spaced apart from each other;
A plurality of connecting bars connected at both ends to the first and second studs and spaced apart along the longitudinal direction of the first and second studs; And
Insulating material continuously filled between the first stud and the second stud in the longitudinal direction of the upper runner and the lower runner,
The first and second studs,
First and second webs facing one surface of the heat insulating material; And
And first and second flanges connected to both ends of the first and second webs and perpendicular to the first and second webs. The method of claim 1,
And the connection bar is integrally formed with the first stud. Upper and lower runners;
First and second studs inserted vertically between the upper runner and the lower runner and disposed on one side and the other side of the upper runner and the lower runner, and spaced apart from each other;
A plurality of connecting bars connected at both ends to the first and second studs to be integrally formed with the first stud, and spaced apart along the longitudinal direction of the first and second studs; And
Insulating material continuously filled between the first stud and the second stud in the longitudinal direction of the upper runner and the lower runner,
The first and second studs,
First and second webs facing one surface of the heat insulating material; And
First and second flanges connected to both ends of the first and second webs and perpendicular to the first and second webs,
The second stud has a connection hole formed to penetrate the second web and a holder having a ring-shaped cross section formed around the connection hole and protruding from an inner surface of the second web,
One end of the connecting bar is fixed in the holder,
The drywall system further comprises a caulking material inserted into the interior of the connection hole and the holder. Upper and lower runners;
First and second studs inserted vertically between the upper runner and the lower runner and disposed on one side and the other side of the upper runner and the lower runner, and spaced apart from each other;
A plurality of connecting bars connected at both ends to the first and second studs to be integrally formed with the first stud, and spaced apart along the longitudinal direction of the first and second studs; And
Insulating material continuously filled between the first stud and the second stud in the longitudinal direction of the upper runner and the lower runner,
The first and second studs,
First and second webs facing one surface of the heat insulating material; And
First and second flanges connected to both ends of the first and second webs and perpendicular to the first and second webs,
The second stud has a connecting hole formed to penetrate the second web and a holder formed around the connecting hole and having a ring-shaped cross section protruding from an inner side surface of the second web, the holder having a stopper protruding from an inner circumferential surface. Equipped with
One end of the connecting bar is fixed to the holder and has a hook portion formed at the one end to prevent the connecting bar inserted into the holder from being separated from the holder. Upper and lower runners;
First and second studs inserted vertically between the upper runner and the lower runner and disposed on one side and the other side of the upper runner and the lower runner, and spaced apart from each other;
A plurality of connecting bars connected at both ends to the first and second studs to be integrally formed with the first stud, and spaced apart along the longitudinal direction of the first and second studs; And
Insulating material continuously filled between the first stud and the second stud in the longitudinal direction of the upper runner and the lower runner,
The first and second studs,
First and second webs facing one surface of the heat insulating material; And
First and second flanges connected to both ends of the first and second webs and perpendicular to the first and second webs,
The second stud protrudes from an inner side surface of the second web and has a bar-shaped holder having an insertion groove formed in a longitudinal direction and a direction perpendicular to the longitudinal direction and an outer side of the second web so as to correspond to the holder. It has a connection hole recessed from the side,
The connecting bar has a stopper protruding from an outer circumferential surface of one end, and one end of the connecting bar is inserted into and fixed to the insertion groove.
The dry wall system further includes a protective tube and a caulking material inserted into the connecting hole to move along the connecting bar to surround one end of the connecting bar and the holder and to prevent the connecting bar from being separated from the holder. Wall system. Installing an upper runner and a lower runner to correspond to the length of the wall;
Insert first and second studs perpendicularly between the upper runner and the lower runner, wherein the first stud is installed at one side of the upper runner and the lower runner, and the second stud is installed at the upper runner and the lower stud. It is installed on the other side of the lower runner, and connecting the first and second studs using a plurality of connecting bars spaced apart along the longitudinal direction of the first and second studs,
The drywall construction method,
Before installing the first and second studs between the upper runner and the lower runner, the first stud and the second stud between the first stud and the second stud along the longitudinal direction of the upper runner and the lower runner. And continuously filling the insulation to protrude to both sides of the stud and the second stud. The method according to claim 6,
The drywall construction method,
And forming an upper cutout and a lower cutout, respectively, in the flange portion of the upper runner and the flange portion of the lower runner.
The first and second studs are inserted between the upper runner and the lower runner through the upper cutout and the lower cutout, and then move along the longitudinal direction of the upper runner and the lower runner to be installed at predetermined positions. Dry wall construction method characterized in that. The method of claim 7, wherein
The drywall construction method,
And installing a plurality of the first and second studs and the heat insulating material between the upper runner and the lower runner, and then closing the joint between the heat insulating material by using an airtight material.

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