KR100672087B1 - Closed Section Type Stud Member and Wall Pannel System using The Same - Google Patents

Abstract

Provided are a stud member which is a structural member constituting an outer wall such as a dry panel such as a non-bearing wall in a building (building), and an insulating wall system using the same.

The present invention is a fastening means consisting of a stud body consisting of a steel plate is bent, and a seaming section for the stud body to form a closed cross-section and projecting ends overlapping each other in the center step by step bending to implement the stud body as an integral closed cross section. And a clamping part for blocking separation and separation of the seaming part is provided in the seaming part which is the fastening means.

According to the present invention, to improve the thermal insulation performance by the perforations provided in the stud member, to improve the structural stability of the stud member and the wall system using the same as the closed cross section, while the crimping part of the closed section structure of the stud body It is possible to obtain an improved effect to make the construction more secure or to secure the safety of the building ultimately by the construction of the bending fastening.

Stud member, steel stud, fastening means, seaming part, drilling

Description

Closed Section Type Stud Member and Wall Pannel System using The Same}

1 is a perspective view showing an outer wall using a conventional steel stud

Figure 2 is a perspective view showing a wall system using a closed stud member according to the present invention

3 shows the closed stud member of the present invention,

(a) is a perspective view of a square stud member

(b) is a perspective view showing a rectangular stud member

Figure 4 (a)-(d) is a perspective view showing a stepwise processing state of the first fastening means for implementing a closed end surface of the closed stud member of the present invention

5 is a perspective view showing a modification of the first fastening means formed through the final step of FIG.

Figure 6 shows the second fastening means of the closed stud member of the present invention,

(a) is a perspective view showing the state of fastening both corners

(b) is a perspective view showing one corner fastening state

Explanation of symbols on the main parts of the drawings

1 .... stud member 10 .... stud body

12 .... Perforation 14 .... Protrusion

30,30 '.... fastening means 30a', 30b '.... bending fastening

100 .... wall system 110 .... board member

The present invention relates to a stud member which is a structural material for implementing an outer wall such as dry panels such as a non-bearing wall in a building, and a wall system using the same, and more particularly, to improve thermal insulation performance by drilling provided in the stud member, and implemented as a closed section. While improving the structural stability of the stud member and the wall system using the same, the rigidity of the closed section structure of the stud body due to the crimping part of the stud body or the excellent construction property due to the bent fastening part can ultimately ensure the safety of the building. A closed end stud member and an insulating wall system using the same.

Non-bearing walls installed between floors and ceilings of buildings (buildings) such as apartments or buildings, for example, exterior walls such as dry panels are not structural load-bearing structures that structurally bear the load of the building, but simply occupy space between the floor and the roof. It's a wall.

On the other hand, a stud member used as a structural material for facilitating the construction of such a non-bearing wall (outer wall), for example, a steel stud (Steel Stud) is known, a wall system using such a steel stud is also known. .

For example, as shown in FIG. 1, in the outer wall body using the conventional steel stud, the steel stud 100 which consists of a "C" type steel pipe is normally joined between the floor and ceiling which are not shown in figure.

At this time, although not shown in Figure 1, such a steel stud 100 serves as a vertical beam between the upper and lower track members connected to the bottom and ceiling by anchor bolts (installed during the floor and ceiling construction), etc. Steel studs are assembled.

In addition, the heat dissipation member 110 is constructed inside the steel stud 100, and the gypsum board 120 is bonded to the inside of the steel stud 100, and the structural plywood 130 and the outer insulation 140 are bonded to the outside of the steel stud 100. It is constructed to constitute one outer wall 150.

However, since the conventional steel stud 100 mainly uses a square steel pipe, for example, a 'C' type steel pipe, there is a weak surface in strength.

In other words, although used for non-bearing walls, conventional steel studs are very vulnerable to vertical and horizontal loads because they use 'C' type steel pipes with a simple open one side.

In particular, in the case of using such a steel stud 100 in the related art, it is difficult to use it as a support member such as a curtain wall or a structural member at an edge portion of an outer wall (outer wall panel).

Therefore, steel studs used in exterior wall bodies such as dry panels, which are conventional non-bearing walls, have various problems, such as structural limitations and limited use thereof.

The present invention is to improve the various problems as described above, improve the thermal insulation performance by the perforations provided in the stud member, and improve the structural stability of the stud member and wall system using the same, especially the seam The purpose of the present invention is to provide a closed stud member and a thermal insulation wall system using the same, which strengthen the closed end structure of the stud body due to the pressing part of the stud, or improve construction performance due to the bending joint. have.

As an embodiment of the technical aspect for achieving the above object, the present invention, the steel plate is bent body configured; And,
Fastening means consisting of a seaming portion to implement the stud body as an integral closed cross-section of the stud body forming a closed cross-section and the projecting ends overlapping each other in the center step by step bending;
Including
The fastening means seaming portion is provided with a closed end stud member further formed by a crimping portion for blocking separation separation of the seaming portion.
In addition, as another embodiment of the technical aspect of the present invention, the steel plate is bent and configured stud body; And,
A fastening means including a bending fastening part which is bent and compressed when at least one point edge of the stud body is separated;
It provides a closed stud member configured to include.
Preferably, each stud body of one embodiment and another embodiment of the one side is further provided with a plurality of perforations formed integrally to block the thermal bridge to increase the thermal insulation.
More preferably, the perforations are perforated in the stud body with a width of 3-5 mm and the spacing between the perforations is 5-10 mm.
And, as another technical aspect of the present invention, the closed stud member of one embodiment and another embodiment of the one side; And,
A board member joined to the stud member;
It provides a thermal insulation wall system using a stud member configured to include.

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Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing a heat insulation wall system using a closed stud member according to the present invention, Figure 3 is a view showing a closed stud member of the present invention, Figure 4 (a)-(d) is the present inventor 5 is a perspective view showing a stepwise processing state of the first fastening means for implementing a closed end surface of the closed stud member, and FIG. 5 is a plan view showing a modification of the first fastening means formed through the final step of FIG. 6 is a view showing a second fastening means of the closed stud member of the present invention.

First, FIG. 2 shows a heat insulation wall system 100 using the closed stud member 1 of the present invention.

That is, the wall system 100 of the present invention is composed of a stud body 10 of a steel sheet bent in a square or a rectangle (see FIG. 3) and a fastening means 30 for structural improvement of the stud body 10 in a closed end. It is composed of a board member 110, for example, plywood or gypsum board, such as the stud member 1 and the board member 110 to be connected to the stud member 1 by a connecting iron (not shown).

In addition, a heat insulating material 120 such as glass surface, rock surface, styrofoam, etc. may be provided between the stud members 1 to the inside of the board member 110.

Therefore, since the heat insulation wall system 100 implemented in the present invention uses the closed-end stud member 1 instead of using the existing 'C' type steel pipe, the structural performance of the stud member is further improved to be vertical or Since the strength against the horizontal load is improved, and thus the construction strength of the wall system 100 is improved, it can be used without limitation for curtain walls or edges.

In addition, since the closed stud member 1 includes a stud body 10 having a perforation 12 to be described in detail below, the wall system 100 of the present invention serves as a thermal insulation wall system. The perforation 12 will be described later in detail.

3 to 6 show the stud member 1 of the present invention in detail.

First, FIG. 3 shows the stud member 1 of the present invention, which is square or rectangular in plan view.

That is, the stud member 1 of the present invention may be largely divided into a stud body 10 constituting the end face and a fastening means 30 for fastening the stud body 10 to form a closed end face.

At this time, the stud body 10 is a steel plate, for example, a galvanized steel sheet is bent by bending to implement a square or rectangular closed cross section.

On the other hand, the steel plate constituting the stud body (10) maintains a thickness of about 1-1.4t, the thickness of such steel sheet in consideration of the increase in weight, ease of handling, precision of bending, if too thin, the strength is lowered If it is too thick, it will be difficult to handle, such as bending and processing.

Further, the steel sheet constituting the stud body 10 is more preferably used galvanized steel sheet which is a normal plated steel sheet having high corrosion resistance without corrosion.

3, heat is transferred from the inner wall to the outer wall through the stud member to the stud body 10, and thus, a plurality of perforations for blocking heat bridges that generate heat loss to increase thermal insulation. 12) is integrally formed.

At this time, as shown in Figure 3a, the perforation 12 is integrally formed by punching (pressing) the steel plate of the stud body 10 with a length (D) of 95-105mm and a width (d) of 3-5mm The gap S between the perforations 12 may be about 5-10 mm.

For example, if the length (D) of the perforation is out of the range, there is a difficulty in processing, and if the width (d) of the perforation 12 is less than 3 mm, the mold manufacturing cost for the perforation increases and the wear of the mold is increased. Is easily generated to increase the processing cost.

On the contrary, when the width d of the perforation 12 is larger than 5 mm, the thermal insulation is not appropriate and a problem of weakening the strength occurs.

In addition, if the spacing (S) of the perforations 12 is less than 5mm, due to the dense perforation, rather causing the problem that the steel plate of the stud body 10 is broken, if larger than 10mm causes a problem of less thermal insulation effect Let's do it.

4 shows the fastening means 30 of the first embodiment which makes it possible to implement the stud member 1 of the present invention in a substantially closed end.

That is, as shown in Figure 4, the first fastening means 30 to implement the stud member 1 in the closed end in the present invention is the stud body 10 is a projecting overlapping each other in the center while forming a closed cross-section End 14 is bent and crimped step by step is composed of a seaming portion to implement the stud body as an integral closed section.

On the other hand, when looking at the first fastening means 30 of the seaming portion in more detail, as shown in Figure 4a, a steel sheet, for example, bent about 1-1.4t aluminum steel plate or square or rectangular stud body ( At the time of constructing 10), the protruding ends 14 for seaming are overlapped with each other at the center side.

Next, as shown in FIG. 4B, the overlapped protrusion end 14 is bent and pressed using a seaming roll in the longitudinal direction to form a primary seaming portion 30a.

Next, as shown in FIG. 4C, the primary seaming portion 30a is bent and pressed in a lateral direction to form a secondary seaming portion 30b.

Next, as shown in FIG. 4D, the protrusion 14 of FIG. 4A is firmly secured through the third bending compression while compressing the secondary seaming unit 30b to implement the stud body 10 as a closed cross section. Seaming process is performed, and this seaming part is the first fastening means 30 which comprises the stud body 10 as a closed cross section.

Therefore, the stud body 10 is configured as a closed cross-section through the seaming portion, which is the first fastening means 30, through the seaming process in steps shown in FIGS. 4A-4D, and thus the stud body 10 of the closed cross-section is conventional. Compared to the use of 'C' type steel pipe, structural performance is improved, for example, strength against vertical and horizontal loads.

Next, in FIG. 5, the first fastening means 30 of the seaming portion is finally pressed in the stud body 10 of the present invention constituting the closed section to form a seaming portion. The upper surface was further formed by crimping | compression-bonding part 32 which made it concave.

Therefore, in the case where the crimping portion 32 is additionally formed in the seaming portion, which is the first fastening means 30, the separation and separation of the stud body 10 is more strongly blocked from the seaming portion, and thus, the closed end of the stud body. It will make the cotton structure more solid.

Next, Figure 6 shows the fastening means of the second embodiment in the stud member 1 of the present invention.

That is, as shown in Figure 6a, the stud body (10) is divided into two divided to form a letter-shaped, and then each corner portion is bent to form a bending fastening portion (30a ') (30b') After forming each of them, the second fastening means 30 'of the bent fastening portions which are fastened and fixed to each other by pressing the parts while being forcibly pressed are arranged in a diagonal direction.

Therefore, in the case of using the bending fastening parts 30a 'and 30b' which are the second fastening means 30 'shown in FIG. 6A, when the closed end surface of the stud body 10 is implemented, it is possible to simply press fit without seaming. The stud body 10 can be tightened while implementing a closed cross section.

Next, FIG. 6B shows another type of stud body 10 using the second fastening means 30 ′.

That is, as shown in Figure 6b, the stud body 10 is bent to form a closed cross-section, at one corner portion to form a bending fastening portion (30a ') (30b') to be crimped to each other, while fitting them It is to provide a stud body (10) of the closed end by pressing and fastening.

On the other hand, when using the second fastening means 30 ′ of the bending fastening portion shown in FIG. 6, the bending fastening portion 30a ′ 30b is first compared with FIG. 4 in which the first fastening means 30 of the seaming portion is formed. After forming the '), the construction is performed as a stud member (1) that implements the stud body (10) of the closed end by pressing and tightening in the factory, the compressive strength is slightly lower than the first fastening means of the seaming portion, but the workability side Provides an advantage.

However, considering that the stud member 1 is used for the non-bearing wall, there is no problem in using the second fastening means 30 'of the bent fastening portion shown in FIG.

Accordingly, the stud member 1 of the present invention described so far provides the stud member 1 of the closed end surface by using the first and second fastening means 30, 30 ', and thus the As structural performance is further improved, the provided perforations 12 provide a more practical advantage of maintaining the thermal insulation effect.

As described above, according to the present invention, the stud member and the insulation wall system using the same provide an excellent effect of improving the structure of the stud member in a closed end structure so that performance of vertical and horizontal loads is improved.

In addition, the structural performance is improved through the structural improvement of the cross section, and other excellent effects of forming a perforation to improve the thermal insulation of the wall.

In addition, it is possible to manufacture the stud member in a pedestal type through seaming instead of separate welding, thereby providing another excellent effect such as improving the overall workability of the stud member and the wall using the same while facilitating manufacture.
In particular, due to the crimping portion provided in the seaming portion provides a more solid effect of the stud body structure of the stud body, or due to the bent fastening portion to further excellent workability.
While the invention has been shown and described with respect to specific embodiments thereof, those skilled in the art can variously modify the invention without departing from the spirit and scope of the invention as set forth in the claims below. And that it can be changed. Nevertheless, it will be clearly understood that all such modifications and variations are included within the scope of the present invention.

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Claims (7)

A stud body formed by bending a steel plate; And, Fastening means consisting of a seaming portion to implement the stud body as an integral closed cross-section of the stud body forming a closed cross-section and the projecting ends overlapping each other in the center step by step bending; A closed end stud member comprising a crimping portion for blocking separation and separation of the seaming portion, wherein the seaming portion is a fastening means. A stud body formed by bending a steel plate; And, A fastening means including a bending fastening part which is bent and compressed when at least one point edge of the stud body is separated; Closed stud member configured to include. The stud member of claim 1, further comprising a plurality of perforations integrally formed in the stud body to block thermal bridges to increase thermal insulation. The stud member of claim 2, further comprising a plurality of perforations integrally formed in the stud body to block thermal bridges to increase thermal insulation. The stud member according to claim 3 or 4, wherein the perforations are perforated in the stud body with a width of 3-5 mm, and the spacing between the perforations is 5-10 mm. A closed stud member according to any one of claims 1 to 4; And, A board member joined to the stud member; Insulation wall system using a stud member configured to include a. delete

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