KR102585527B1 - Box-type reinforcing stud - Google Patents

Abstract

In the present invention, the first and second studs of C-shaped cross-section, each composed of a web and a pair of flanges, are arranged so that the open sides face each other, and the fastening parts each bent at the end of the flange are simply assembled to form a closed cross-section reinforcement stud. This is about a box-type reinforcement stud with excellent constructability and safety.
The box-type reinforcement stud of the present invention is installed between the upper and lower runners for dry wall construction, and includes a first web, a pair of first flanges vertically bent to one side at both ends of the first web, and each end of the first flange. A first stud consisting of a first fastening portion that is bent and formed; and a second web, a pair of second flanges vertically bent to one side at both ends of the second web, and a second fastening portion each bent at an end of the second flange and fastened to the first fastening portion. 2 studs; It consists of a web on either side of the first web of the first stud or the second web of the second stud, which is cut in a U-shape and vertically bent inward to support the inside of the first fastening portion and the second fastening portion. It is characterized in that a support piece is provided.

Description

Box-type reinforcing stud}

In the present invention, the first and second studs of C-shaped cross-section, each composed of a web and a pair of flanges, are arranged so that the open sides face each other, and the fastening parts each bent at the end of the flange are simply assembled to form a closed cross-section reinforcement stud. This is about a box-type reinforcement stud with excellent constructability and safety.

Previously, walls were mainly constructed by wet construction, in which concrete was poured inside the formwork. However, wet construction has problems such as delays in construction during the winter, increased construction costs due to increased labor costs, and difficulties in ensuring uniform quality.

Accordingly, the application of dry wall as an alternative to wet construction has recently been increasing.

As shown in Figure 1, drywall is made by installing runners 10 on the upper floor and lower ceiling, constructing studs 20 between the upper and lower runners 10, and then attaching a lightweight wall panel 30. Construction.

At this time, the stud 20 is a C-shaped cross-sectional stud with one side open.

However, in order to install window frames around wall windows, studs with better cross-sectional performance must be used than general C-shaped cross-section studs with an open cross-section.

For this purpose, in the past, closed cross-section reinforcement studs were manufactured on site by butting the open sides of a pair of C-type studs (20) together and then fixing them to each other by welding (W), and used them in areas requiring reinforcement, such as around windows (see Figure 2).

However, the on-site welding process requires bringing in a welder, etc., and there is a risk of fire. In particular, because drywall is constructed with insulation, if a fire breaks out, it can lead to serious casualties.

In addition, when it is necessary to secure stud rigidity, a closed cross-section stud such as in Registration Patent No. 10-0672087 may be used.

However, when these closed-section studs are used in general sections, they are uneconomical because they consume a lot of material. In addition, when separate C-type studs are used in general sections, the C-type studs and closed-section studs must be manufactured separately, which reduces production efficiency and causes difficulties in material management.

KR 10-2019-0127039 A

In order to solve the above problems, the present invention aims to provide a box-type reinforcement stud with excellent constructability and safety as it can be simply assembled without a welding process in forming a closed cross-section stud using C-shaped studs in drywall, etc.

The present invention according to a preferred embodiment relates to a box-shaped reinforcement stud installed between the upper and lower runners for drywall construction, comprising a first web, a pair of first flanges vertically bent to one side at both ends of the first web, and the A first stud consisting of a first fastening portion each bent at an end of the first flange; and a second web, a pair of second flanges vertically bent to one side at both ends of the second web, and a second fastening portion each bent at an end of the second flange and fastened to the first fastening portion. 2 studs; It consists of a web on either side of the first web of the first stud or the second web of the second stud, which is cut in a U-shape and vertically bent inward to support the inside of the first fastening portion and the second fastening portion. A box-type reinforcement stud is provided, characterized in that it is provided with a support piece.

The present invention according to another preferred embodiment is that the first fastening part is composed of a first support piece vertically bent inward from the end of the first flange and a first locking piece vertically bent inward from the end of the first support piece, The second fastening portion includes a second support piece that is vertically bent inward from the end of the second flange and supported in close contact with the outside of the first support piece, and an end of the first locking piece that is bent outward from the end of the second support piece. A box-type reinforcement stud is provided, characterized in that it consists of a second locking piece in which a bending groove is formed.

The present invention according to another preferred embodiment provides a box-type reinforcement stud, characterized in that a guide piece bent inwardly is provided at an end of the second locking piece of the second fastening portion.

delete

The present invention according to another preferred embodiment provides a box-type reinforcement stud, wherein a plurality of cut holes are formed at a bend line of the bent support piece and spaced apart along the bend line.

According to the present invention, the first and second studs of C-shaped cross section, each composed of a web and a pair of flanges, are arranged in a dry wall, etc., with the open sides facing each other, and the fastening portions formed by bending each of the ends of the flanges are fastened to simply connect them. Box-type reinforcement studs that can be assembled can be provided.

Accordingly, areas that require reinforcement, such as around windows, can be easily reinforced with reinforcing studs of closed sections, improving constructability.

In addition, it is convenient because there is no need to separately produce closed cross-section reinforcement studs, and since a pair of studs are fixed by a fastener, on-site welding can be omitted, thereby reducing the risk of fire.

1 is a perspective view showing a conventional dry wall structure.
Figure 2 is a cross-sectional view showing a conventional reinforcement stud.
Figure 3 is a perspective view showing the box-shaped reinforcement stud of the present invention.
Figure 4 is a cross-sectional view showing the joining process of the first stud and the second stud.
Figure 5 is a cross-sectional view showing a coupled state of a first stud and a second stud.
Figure 6 is a diagram showing the joining process of the first fastening part and the second fastening part.
Figure 7 is a perspective view showing a box-shaped reinforcement stud provided with a bending support piece.
Figure 8 is a perspective view showing a box-shaped reinforcement stud before bending the bent support piece.
Figure 9 is a perspective view showing a box-shaped reinforcement stud with a bent support piece bent.
Figure 10 is a cross-sectional view showing the state of support of the first and second fastening portions by the bent support piece.
Figure 11 is a cross-sectional view showing a box-shaped reinforcement stud provided with a bending support piece on the first stud.

Hereinafter, the present invention will be described in detail according to the accompanying drawings and preferred embodiments.

Figure 3 is a perspective view showing the box-shaped reinforcement stud of the present invention. And Figure 4 is a cross-sectional view showing the coupling process of the first stud and the second stud, and Figure 5 is a cross-sectional diagram showing the coupling state of the first stud and the second stud.

As shown in Figures 3 to 5, the box-shaped reinforcement stud of the present invention is installed between the upper and lower runners for dry wall construction, and is vertical to the first web 31 and one side at both ends of the first web 31. A first stud (3) consisting of a pair of bent first flanges (32) and first fastening portions (33) each bent and formed at the ends of the first flanges (32); and a second web 41 and a pair of second flanges 42 vertically bent to one side at both ends of the second web 41 and each bent at an end of the second flange 42 to form the first A second stud (4) consisting of a second fastening part (43) fastened to the fastening part (33); It is characterized by being composed of.

The present invention is intended to provide a box-type reinforcement stud that can be simply assembled without a separate welding process and secures excellent cross-sectional performance when forming a closed cross-section stud using C-shaped studs in drywall, etc.

The box-type reinforcement stud of the present invention is installed between the upper and lower runners for construction of drywall, etc.

The runners are installed at the top of the slab and at the bottom of the ceiling, and after installing studs between the upper and lower runners, lightweight panels (5) can be installed on both sides of the studs.

In particular, the box-type reinforcement studs (2) of the present invention with increased rigidity are installed around the window.

The reinforcement stud (2) consists of a first stud (3) and a second stud (4).

Each stud (3, 4) is composed of webs (31, 41) and a pair of flanges (32, 42), forming an overall C-shaped cross section.

Each stud (3, 4) has fastening portions (33, 43) bent at the ends of the flanges (32, 42), respectively.

The first stud 3 and the second stud 4 are arranged so that the open sides of the C-shaped cross section face each other, and the first fastening portion 33 and the first fastening portion 33 are bent at the end of the first flange 32. 2 The second flange 42 is coupled to each other by fastening the second fastening portion 43 bent at the end thereof.

The first fastening portion 33 and the second fastening portion 43 extend from the ends of the first flange 32 and the second flange 42, respectively, and are bent to form one fastening portion on the other side due to the elasticity of the metal plate. It can be inserted into the fastening part and elastically coupled.

When constructing drywall, open-section C-type studs are used in general sections, and closed-section reinforcement studs are simply joined on site by simply fastening a pair of C-type studs (3, 4) only in areas that require reinforcement, such as the side of the door. (2) can be used.

In the present invention, a closed cross-section reinforcement stud (2) is formed by combining a pair of C-shaped studs (3, 4), so there is no need to separately manufacture a closed cross-section reinforcement stud. In addition, since a pair of studs 3 and 4 are fixed to each other by the fastening portions 33 and 43, on-site welding can be omitted, making construction easy and reducing the risk of fire.

Figure 6 is a diagram showing the joining process of the first fastening part and the second fastening part.

As shown in FIGS. 4 and 6, the first fastening portion 33 includes a first support piece 331 vertically bent inward from the end of the first flange 32 and the first support piece 331. It consists of a first locking piece 332 bent vertically inward at the end of the second fastening portion 43, and the second fastening portion 43 is vertically bent inward at the end of the second flange 42 to form the first support piece 331. A second support piece 431 that is closely supported on the outside of the second support piece 431 and a bending groove 433 that is bent outward at the end of the second support piece 431 and catches the end of the first locking piece 332. It may be composed of two locking pieces (432).

The first fastening portion 33 includes a first support piece 331 bent vertically inward from the end of the first flange 32 and a first locking piece bent vertically inward from the end of the first support piece 331. It is composed of pieces 332 and is formed in an L-shape in cross-section.

The second fastening portion 43 includes a second support piece 431 vertically bent inward from the end of the second flange 42 and a second support piece 431 bent outward at an obtuse angle from the end of the second support piece 431. It is composed of a locking piece 432 and is formed in a hook shape in cross section.

The second support piece 431 and the second locking piece 432 form an acute angle with each other.

At this time, the second support piece 431 has a V-shaped bending groove 433 formed in the middle.

When combining the first stud 3 and the second stud 4, the second fastening part 43 is inserted into the first fastening part 33 as shown in (a) of FIG. 6. At this time, the second fastening part 43 is inserted while the guide piece 434 of the second fastening part 43, which will be described later, is in contact with the first fastening part 33.

Then, as shown in (b) of Figure 6, the second locking piece 432 of the second fastening part 43 is retracted inward due to elasticity, and the first fastening part 33 as shown in (c) of Figure 6. is inserted into the space between the second support piece 431 and the second locking piece 432 of the second fastening portion 43. That is, the second fastening part 43 enters the inside of the first fastening part 33 and is fastened to surround the outside of the first fastening part 33.

When the insertion of the second fastening part 43 is completed, the second support piece 431 of the second fastening part 43 is supported in close contact with the outside of the first support piece 331 of the first fastening part 33. . And the second locking piece 432 is elastically restored so that the end of the first locking piece 332 of the first fastening part 33 is caught in the bent groove 433 of the second locking piece 432, thereby maintaining the fastening firmly. do.

Accordingly, the first stud 3 and the second stud 4 can be quickly and easily coupled without a separate fastening means.

As shown in Figures 4 to 6, a guide piece 434 bent inward may be provided at the end of the second locking piece 432 of the second fastening portion 43.

When inserting the second fastening part 43 between the first fastening parts 33 on both sides to couple the first stud 3 and the second stud 4, the first support piece 331 is connected to the second fastening part 331. In order to prevent the end of the locking piece 432 from interfering with insertion, the end of the second locking piece 432 may be bent inward to form a guide piece 434.

The guide piece 434 may be formed to be inclined toward the inner front in cross-section. Accordingly, when the bent portion of the first fastening portion 33, that is, the joint portion of the first support piece 331 and the first locking piece 332, presses the inclined surface of the guide piece 434, the guide piece 434 As the second locking piece 432 or the second supporting piece 431 is elastically deformed inward due to the inclination, the second fastening portion 43 is retracted inward and easily enters the space between the first fastening portions 33 on both sides. You can enter.

Figure 7 is a perspective view showing a box-shaped reinforcement stud equipped with a bending support piece, Figure 8 is a perspective view showing a box-shaped reinforcement stud before bending the bending support piece, and Figure 9 is a perspective view showing a box-shaped reinforcement stud with a bent support piece bent. . And Figure 10 is a cross-sectional view showing the state of support of the first and second fastening parts by the bent support piece, and Figure 11 is a cross-sectional view showing a box-shaped reinforcement stud with a bending support piece provided on the first stud.

As shown in FIGS. 7 to 11, a U-shaped cut is made on either the first web 31 of the first stud 3 or the second web 41 of the second stud 4. Bending support pieces 311 and 411 that support the inside of the first fastening portion 33 and the second fastening portion 43 may be provided by being vertically bent inward.

When an external force acts in the direction in which the first stud (3) and the second stud (4) are spaced apart from each other, the second fastening portion (43) causes elastic deformation inward and the first locking piece (332) The coupling between the first stud 3 and the second stud 4 may be released by exiting the bending groove 433 of the locking piece 432.

Therefore, the first web 31 or the second web 41 is cut in a U-shape to form bent support pieces 311, 411, and the bent support pieces 311, 411 are inside the reinforcement stud 2. It can be bent to be positioned between the second fastening portions 43 on both sides (FIGS. 10 and 11).

Accordingly, the inner end of the second fastening portion 43, that is, the joint portion of the second support piece 431 and the second locking piece 432, and the end of the guide piece 434 are of the bent support pieces 311 and 411. Since it is not deformed by being caught on the side end, the fastening of the first fastening part 33 and the second fastening part 43 is not released even if an external force is applied and the fastening state can be maintained firmly.

For this purpose, it is preferable that the width of the bent support pieces 311 and 411 be the same as the gap between the second fastening portions 43 on both sides.

In addition, the bending support pieces 311 and 411 serve as stiffeners within the box-shaped reinforcement stud 2 to reinforce the box-shaped reinforcement stud 2 and prevent deformation.

As shown in FIGS. 8 and 9, a plurality of cut holes 312 and 412 spaced apart along the bend lines may be formed on the bend lines of the bent support pieces 311 and 411.

When the bending support pieces 311 and 411 are bent in advance, the elastic deformation of the second fastening portion 43 is limited due to interference with the bending support pieces 311 and 411, so that the first stud 3 and the second Attaching the studs (4) may be difficult.

Therefore, it is preferable to perform the construction in the order of combining the first fastening portion 33 and the second fastening portion 43 and later bending the bending support pieces 311 and 411 inward.

To this end, if a plurality of cut holes 312, 412 are formed in advance at the bend line where the bending support pieces 311, 411 are to be bent, the worker can easily bend the bending support pieces 311, 411 even in the field. .

2: Reinforcement stud 3: 1st stud
31: first web 311: bending support piece
312: Cutting hole 32: First flange
33: first fastening part 331: first support piece
332: 1st locking piece 4: 2nd stud
41: second web 411: bending support piece
412: Cutting hole 42: Second flange
43: second fastening part 431: second support piece
432: Second locking piece 433: Bending groove
434: Guide 5: Lightweight panel

Claims (5)

It relates to a box-type reinforcement stud (2) installed between the upper and lower runners for drywall construction,
A first web 31, a pair of first flanges 32 vertically bent to one side at both ends of the first web 31, and a first fastening portion each bent and formed at an end of the first flange 32. A first stud (3) consisting of (33); and
A second web 41 and a pair of second flanges 42 vertically bent to one side at both ends of the second web 41 and each bent at an end of the second flange 42 are formed to secure the first fastening. A second stud (4) consisting of a second fastening part (43) fastened to the part (33); It consists of,
The web on either side of the first web 31 of the first stud 3 or the second web 41 of the second stud 4 is cut in a U-shape and vertically bent inward to form a first fastening portion 33. ) and a box-type reinforcement stud, characterized in that it is provided with bending support pieces (311, 411) supporting the inside of the second fastening portion (43).
In paragraph 1:
The first fastening portion 33 includes a first support piece 331 bent vertically inward from the end of the first flange 32 and a first locking piece bent vertically inward from the end of the first support piece 331. It consists of sections (332),
The second fastening portion 43 includes a second support piece 431 that is vertically bent inward from the end of the second flange 42 and is closely supported on the outside of the first support piece 331. A box-shaped reinforcement stud, characterized in that it is composed of a second locking piece (432) that is bent outward at the end of the first locking piece (431) and has a bent groove (433) in which the end of the first locking piece (332) is caught.
In paragraph 2,
A box-shaped reinforcement stud, characterized in that a guide piece 434 bent inwardly is provided at an end of the second locking piece 432 of the second fastening portion 43.
delete In paragraph 1:
A box-type reinforcement stud, characterized in that a plurality of cut holes (312, 412) are formed on the bend lines of the bent support pieces (311, 411) and spaced apart along the bend lines.

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