KR102482963B1 - Joint Device for Steel Stud Composite Panel And Method for Constructing the Same - Google Patents

Abstract

The present invention relates to a transverse reinforcement joint device for steel stud composite panels, which joins an end portion of a transverse steel stud of a steel house and an end portion of a longitudinal steel stud to increase the transverse load resistance at the joint region, thereby preventing dislocation, deformation, or damage at the joint region of the steel studs even when repetitive transverse loads are applied. The transverse reinforcement joint device for steel stud composite panels according to the present invention comprises: an internal connection member which includes an inner transverse connection part inserted into an inner space of a transverse steel stud installed horizontally with respect to the ground, and an inner longitudinal connection part which is formed perpendicular to the inner transverse connection part and is inserted into the inner space of a longitudinal steel stud installed vertically with respect to the ground; an external connection member which includes an outer transverse connection part which abuts the outer surface of the transverse steel stud and is coupled to the inner transverse connection part, and an outer longitudinal connection part which is formed perpendicular to the outer transverse connection part and abuts the outer surface of the longitudinal steel stud and is coupled to the inner longitudinal connection part; and a fastening member which couples the internal connection member and the external connection member with each other.

Description

Joint Device for Steel Stud Composite Panel And Method for Constructing the Same}

The present invention relates to a transverse reinforcing type joining device for a steel stud composite panel of a steel house, and more particularly, to a steel stud composite panel capable of significantly improving lateral load resistance while being coupled to a junction between a transverse steel stud and a longitudinal steel stud. It relates to a transverse reinforcement type joining device and a construction method thereof.

Steel house refers to a method of constructing a structure that becomes the frame of a house with cold-formed section steel materials called steel studs. In addition, steel houses are built using a dry construction method using steel studs and prefabricated joints, unlike the existing wet method of building a house with bricks or reinforced concrete as structural materials.

Referring to FIG. 1, the steel stud composite panel used in a typical steel house has two transverse steel studs (1) arranged side by side on the upper and lower sides, and the upper and lower transverse steel studs (1) ) And at least two or more longitudinal steel studs (2) coupled to the lower transverse steel stud (1), and closing the space partitioned by the longitudinal steel stud (2) and the transverse steel stud (1) It includes a wall panel (3) to.

The transverse steel studs (1), longitudinal steel studs (2), and wall panels (3) are assembled using screw bolts or the like. Interlayer assembly is also combined using bolts and nuts.

However, when a repetitive lateral load is applied to such a conventional steel stud composite panel, a gap is generated at the junction of the transverse steel stud 1 and the longitudinal steel stud 2, as shown in FIG. It was confirmed that (3) was separated and the ability to resist lateral load was remarkably reduced.

Republic of Korea Patent No. 10-0752960 Japanese Patent Registration No. 5042796 Japanese Unexamined Patent Publication No. 10-18420

The present invention is to solve the above problems, and an object of the present invention is to increase the lateral load resistance at the junction of steel studs with a simple configuration, so that even if repeated lateral loads are applied, separation or deformation does not occur at the junction of steel studs To provide a transverse reinforcement type bonding device for steel stud composite panels.

In order to achieve the above object, the transverse reinforcing bonding device for steel stud composite panels according to the present invention includes an inner transverse connection portion inserted into the inner space of a transverse steel stud installed horizontally with respect to the ground, and the inner transverse An internal connecting member including an inner longitudinal connection portion formed at right angles to the connection portion and inserted into an internal space of a longitudinal steel stud installed vertically with respect to the ground; An outer transverse connection portion connected to the outer surface of the transverse steel stud and coupled to the inner transverse connection portion, and an outer longitudinal connection portion formed at right angles to the outer transverse connection portion and connected to the outer surface of the longitudinal steel stud and coupled to the inner longitudinal connection portion External connectors including connectors; and a fastening member for mutually coupling the internal connection member and the external connection member.

The internal connection member may be composed of a first internal connection member and a second internal connection member divided on the basis of a central axis.

A plurality of fastening holes through which the fastening members pass through the first internal connecting member are formed to penetrate laterally, and a fastening boss to which the fastening members passing through the fastening holes are fastened to the second internal connecting member is formed to extend laterally. can

The external connecting member is composed of a first external connecting member and a second external connecting member divided on the basis of a central axis, the first external connecting member is connected to one outer surface of the transverse steel stud and the longitudinal steel stud, and the second external connecting member is It is disposed in contact with the other outer surface of the transverse steel stud and the longitudinal steel stud on the opposite side of the first external connecting member, and the fastening member is the first external connecting member, the internal connecting member, the transverse steel stud or the longitudinal steel stud, and It can be combined by sequentially penetrating the second external connector.

A brace connection plate, to which one end of a brace is connected, may be integrally formed between the outer transverse connection portion and the outer longitudinal connection portion of the external connector.

The fastening member may simultaneously couple the external connection member to the internal connection member and the transverse steel stud, or simultaneously couple the internal connection member and the longitudinal steel stud.

The method of constructing the horizontal reinforcement type bonding device for the steel stud composite panel according to the present invention as described above,

A first step of inserting the inner transverse connection part of the internal connecting member into the inner space through one end of the transverse steel stud and inserting the inner longitudinal connection part into the inner space through one end of the longitudinal steel stud;

a second step of arranging an outer transverse connector of an external connecting member to be connected to an outer surface of one end of the transverse steel stud and an outer longitudinal connector of an external connecting member to be connected to an outer surface of one end of the longitudinal steel stud; and,

A third step of coupling the external connecting member and the internal connecting member to each other by fastening a fastening member outside the external connecting member;

can include

The construction method according to another aspect of the present invention may further include a fourth step of connecting a brace between the outer transverse connection portion and the outer longitudinal connection portion of the external connector after the third step.

In the transverse reinforcement type joining device of the present invention, the internal connecting member is inserted into the inside of one end of the transverse steel stud and the longitudinal steel stud and connected to each other, and the external connecting member surrounds the outside of one end of the transverse steel stud and the longitudinal steel stud. It is coupled to the internal connecting member and the transverse steel stud or the longitudinal steel stud to join the ends of the transverse steel stud and the longitudinal steel stud.

Therefore, the joint of the transverse steel stud and the longitudinal steel stud is reinforced by the double joint structure of the internal and external connectors, so even if strong lateral loads are repeated, gaps may occur at the joint of the transverse steel stud and longitudinal steel stud. Deformation or separation can be prevented from occurring.

In addition, since the transverse steel studs and the longitudinal steel studs can be joined by assembling the internal connecting member and the external connecting member, there is also an effect of facilitating construction.

1 is a photograph showing a state in which distortion occurs in a steel stud composite panel during a lateral load test on a conventional steel stud composite panel.
Figure 2 is a perspective view of a horizontal reinforcement type bonding device for steel stud composite panel according to an embodiment of the present invention.
Figure 3 is a longitudinal cross-sectional view of the horizontally reinforced bonding device shown in Figure 2;
Figure 4 is a perspective view shown by removing some components of the transverse reinforcement-type bonding device shown in Figure 2;
Figure 5 is an exploded perspective view showing an embodiment of the internal connection member of the transverse reinforcement type bonding device according to the present invention.
Figure 6 is an exploded perspective view showing another embodiment of the internal connecting member of the horizontally reinforced bonding device according to the present invention.
Figure 7 is an exploded perspective view showing another embodiment of the internal connecting member of the horizontally reinforced bonding device according to the present invention.
Figure 8 is an exploded perspective view showing another embodiment of the internal connecting member of the horizontally reinforced bonding device according to the present invention.
Figure 9 is a perspective view showing another embodiment of the transverse reinforcement type bonding device according to the present invention.
Figure 10 is a perspective view showing another embodiment of the horizontal reinforcement type bonding device according to the present invention.
11 is a perspective view showing a steel stud assembly constructed using the transverse reinforcement-type joining device shown in FIG. 10;

The embodiments described in this specification and the configurations shown in the drawings are only one preferred example of the disclosed invention, and there may be various modifications that can replace the embodiments and drawings in this specification at the time of filing of the present application.

Hereinafter, with reference to the accompanying drawings, a transverse reinforcement type bonding device for a steel stud composite panel and a construction method thereof will be described in detail according to the following embodiments. Like symbols in the drawings indicate like components.

Referring to Figures 2 to 5, the transverse reinforcing bonding device for the steel stud composite panel according to an embodiment of the present invention is inserted into the inner space through one end of the transverse steel stud 1 and the longitudinal steel stud 2 while connecting the internal connecting member 100 connecting the ends of the transverse steel stud 1 and the longitudinal steel stud 2, and the outer surface of one end of the transverse steel stud 1 and the longitudinal steel stud 2 and an external connection member 200 simultaneously coupled to the internal connection member 100 and the transverse steel stud 1 or the internal connection member 100 and the longitudinal steel stud 2 through a fastening member 300. In this embodiment, the fastening member 300 may be made of a bolt.

The transverse steel stud (1) and the longitudinal steel stud (2) are support members having an approximately 'c'-shaped cross section, and the transverse steel stud (1) is installed to extend in a horizontal direction with respect to the ground, , Longitudinal steel stud 2 means a steel stud installed to extend in a direction perpendicular to the ground. A plurality of the transverse steel studs 1 and the longitudinal steel studs 2 are connected to each other by the transverse reinforcing bonding device of the present invention to form a rectangular frame of the steel house. At the ends of the transverse steel stud (1) and the longitudinal steel stud (2), a plurality of fastening holes through which the fastening member 300 for coupling the internal connecting member 100 and the external connecting member 200 of the transverse reinforcement type joint device pass through (2a) may be formed to penetrate.

The internal connecting member 100 is formed at right angles to the inner transverse connecting portion 101 inserted into the inner space through one end of the transverse steel stud 1 and the inner transverse connecting portion 101, so that the longitudinal steel stud 2 It includes an inner longitudinal connection 102 that is inserted into the interior space through one end.

The internal connecting member 100 has a polygonal cylindrical shape having a size slightly smaller than the size of the inner space of the transverse steel stud 1 and the longitudinal steel stud 2. As such, since the internal connecting member 100 has a polygonal tubular shape, the ability to resist lateral load and torsional load can be further increased compared to a case in which a simple flat plate is formed.

The internal connection member 100 may be composed of a first internal connection member 110 and a second internal connection member 120 divided in a lateral direction based on a central axis.

A plurality of fastening holes 111 through which the fastening member 300 penetrates are formed in the first internal connecting member 110 to penetrate sideways, and the fastening holes 111 are formed on the inner surface of the second internal connecting member 120. The fastening boss 121 to which the fastening member 300 passing through is fastened is formed to extend in the lateral direction. The fastening boss 121 may be formed in a cylindrical shape in which a screw thread is formed on an inner circumferential surface. Of course, contrary to this, the fastening boss 112 may be formed on the first internal connecting member 110, and the fastening hole 122 may be formed on the second internal connecting member 120 (see FIG. 7).

As shown in FIG. 5 , the first internal connection member 110 and the second internal connection member 120 may have symmetrical shapes. The first internal connecting member 110 and the second internal connecting member 120 of this embodiment have upper and lower portions respectively inclined and a middle portion formed vertically, so that when combined with each other, they may be formed in a cylindrical shape having a hexagonal cross section as a whole. there is.

However, as shown in FIGS. 6 and 7, the second internal connecting member 120 is angled in a 'c' shape so as to be in close contact with the closed side parts of the transverse steel stud 1 and the longitudinal steel stud 2 , and the first internal connecting member 110 may have a shape in which an upper portion and a lower portion are formed with an inclination, respectively, and a middle portion is formed vertically so as to further increase resistance performance due to lateral load.

In addition, in the above-described embodiments, in the internal connecting member 100, the two inner transverse connecting parts 101 are arranged in a straight line so that the two transverse steel studs 1 can be connected at the same time, so that the internal connecting member 100 as a whole is 'T' ' form or inverted 'T' form.

However, as shown in FIG. 8, only one inner transverse connection portion 101 and one inner longitudinal connection portion 102 may be configured to have an 'L' shape as a whole.

The external connecting member 200 has a shape corresponding to the internal connecting member 100 and is coupled to the internal connecting member 100 while simultaneously wrapping one end of the transverse steel stud 1 and one end of the longitudinal steel stud 2 . The external connecting member 200 is connected to the outer surface of the transverse steel stud 1 and the outer transverse connecting portion 201 coupled to the inner transverse connecting portion 101 of the internal connecting member 100, and the outer transverse connecting portion 201 It includes an outer longitudinal connection portion 202 formed at a right angle and connected to the outer surface of the longitudinal steel stud 2 and coupled to the inner longitudinal connection portion 102 of the internal connection member 100.

In order to easily connect the external connecting member 200 to the ends of the transverse steel stud 1 and the longitudinal steel stud 2, the external connecting member 200, like the internal connecting member 100, has a central axis It may be composed of a first external connecting member 210 and a second external connecting member 220 divided in the lateral direction based on the reference.

The first external connecting member 210 and the second external connecting member 220 have a 'c' shaped cross section to correspond to the outer surface shapes of the transverse steel stud 1 and the longitudinal steel stud 2, and the fastening member ( A plurality of fastening holes 211 and 221 through which 300 is fastened are arranged vertically.

The first external connecting member 210 is connected to the outer surfaces of one side of the transverse steel stud 1 and the longitudinal steel stud 2, and the second external connecting member 220 is transverse on the opposite side of the first external connecting member 210. It is disposed in contact with the outer surface of the other side of the directional steel stud (1) and the longitudinal steel stud (2), and fastening through the internal connecting member 100 and the transverse steel stud (1) or the longitudinal steel stud (2) It is coupled to each other by the member 300 to act as a lateral load reinforcing structure that increases resistance to lateral load.

In this way, in the transverse reinforcement type joining device of the present invention, the internal connecting member 100 is inserted into the inside of one end of the transverse steel stud 1 and the longitudinal steel stud 2 and connected to each other, and the external connecting member 200 is transverse Wrapping the outside of one end of the steel stud (1) and the longitudinal steel stud (2), it is coupled to the internal connector (100) and the transverse steel stud (1) or the longitudinal steel stud (2) to form a transverse steel stud (1 ) and the ends of the longitudinal steel studs (2) are joined.

Therefore, even if strong lateral loads are repeated, the transverse steel studs ( 1) and the longitudinal steel stud 2, it is possible to prevent gaps from occurring or deformation or detachment from occurring at the joints.

On the other hand, when connecting a brace to the steel stud, as shown in FIGS. 9 to 11, the brace 400 The bracing connection plate 230 to which one end is connected can be integrally formed and used.

A detailed description of the method of constructing the transverse reinforcement-type bonding device having the above-described configuration is as follows.

First, with the first internal connecting member 110 and the second internal connecting member 120 in contact with each other, the inner transverse connector 101 is inserted into the inner space through one end of the transverse steel stud 1, and the inner longitudinal connector (102) is inserted into the inner space through one end of the longitudinal steel stud (2).

Then, the outer transverse connecting portion 201 of the first outer connecting member 210 is placed in contact with the outer surface of one end of the transverse steel stud 1, and the second outer connecting portion 201 is connected to the outer surface of one end of the longitudinal steel stud 2. The outer longitudinal connectors 202 of the connectors 220 are placed in contact with each other.

In addition, the bolts of the fastening member 300 from the outside of the first external connecting member 210 are connected to the fastening hole 211 of the first external connecting member 210, the fastening hole 111 of the first internal connecting member 110, the first 2 The fastening boss 121 of the internal connecting member 120, the fastening hole 2a formed at one end of the transverse steel stud 1 or one end of the longitudinal steel stud 2, and the second external connecting member 220 After passing through the fastening holes 221 in order and then fastening the nut of the fastening member 300 to the bolt, the external connecting member 200 and the internal connecting member 100, one end of the transverse steel stud 1 or the longitudinal direction One end of the steel stud (2) is coupled to each other.

Accordingly, one end of the transverse steel stud 1 and the longitudinal steel stud 2 are firmly bonded to each other, so that a large lateral reinforcing force can be exerted.

As described above, when connecting one end of the transverse steel stud 1 and the longitudinal steel stud 2 to the internal connecting member 100 and the external connecting member 200, and then connecting a brace, see FIG. Steel Studs can be reinforced.

Meanwhile, in the above-described embodiment, the external connecting member 200, the internal connecting member 100, the transverse steel stud 1 and the longitudinal steel stud 2 are all integrally coupled by the fastening member 300, but the external connecting member ( 200), only the first external connecting member 210 is connected to the internal connecting member 100, and the second external connecting member 220 is combined with the first external connecting member 210 by a separate fastening means to form a transverse steel stud (1). ) and one end of the longitudinal steel stud (2).

In the above, the technical idea of the present invention has been described with the accompanying drawings, but this is an illustrative example of a preferred embodiment of the present invention, but does not limit the present invention. In addition, it is obvious that various modifications and imitations can be made by anyone having ordinary knowledge in the technical field to which the present invention belongs without departing from the scope of the technical idea of the present invention.

1: transverse steel stud 2: longitudinal steel stud
3: wall panel 100: internal connector
101: inner transverse connection portion 102: inner longitudinal connection portion
110: first internal connecting material 111: fastening hole
112: fastening boss 120: second internal connecting member
121: fastening boss 122: fastening hole
200: external connector 201: external transverse connector
202: outer longitudinal connector 210: first external connector
211: fastening hole 220: second external connector
221: fastening hole 230: brace connecting plate
300: fastening member 400: brace

Claims (8)

An inner transverse connection portion inserted into the inner space of a transverse steel stud installed horizontally with respect to the ground, and an interior of a longitudinal steel stud formed at right angles to the inner transverse connection portion and installed vertically with respect to the ground an internal connector including an inner longitudinal connector inserted into the space;
An outer transverse connection portion connected to the outer surface of the transverse steel stud and coupled to the inner transverse connection portion, and an outer longitudinal connection portion formed at right angles to the outer transverse connection portion and connected to the outer surface of the longitudinal steel stud and coupled to the inner longitudinal connection portion External connecting material including a connecting portion; and,
a fastening member mutually coupling the internal connection member and the external connection member;
including,
The internal connecting member is composed of a first internal connecting member and a second internal connecting member divided on the basis of a central axis,
A plurality of fastening holes through which the fastening member passes through the first internal connecting member are formed to penetrate laterally, and a fastening boss to which the fastening member passing through the fastening hole is fastened to the second internal connecting member is formed to extend in the lateral direction, ,
The external connecting member is composed of a first external connecting member and a second external connecting member divided on the basis of a central axis, the first external connecting member is connected to one outer surface of the transverse steel stud and the longitudinal steel stud, and the second external connecting member is It is disposed in contact with the other outer surface of the transverse steel stud and the longitudinal steel stud on the opposite side of the first external connector,
Transverse reinforcement type joining device for steel stud composite panel in which the fastening member passes through the first external connecting member, the first internal connecting member and the second internal connecting member, the transverse steel stud or the longitudinal steel stud, and the second external connecting member in order. . The method of claim 1, wherein the second internal connecting member has an angled shape in 'c' by bending the upper and lower portions at right angles so as to be in close contact with the closed one side portion of the transverse steel stud and the longitudinal steel stud, The internal connecting member is a horizontal reinforcement type joining device for a steel stud composite panel having a shape in which the upper and lower portions are inclined and the middle portion is formed vertically. [Claim 2] The transverse reinforcement-type jointing device for a steel stud composite panel according to claim 1, wherein a brace connection plate to which one end of a brace is connected between the outer transverse connection portion and the outer longitudinal connection portion of the external connector is integrally formed. delete delete delete A construction method of a transverse reinforcement type bonding device for a steel stud composite panel according to any one of claims 1 to 3,
A first step of inserting the inner transverse connection part of the internal connecting member into the inner space through one end of the transverse steel stud and inserting the inner longitudinal connection part into the inner space through one end of the longitudinal steel stud;
a second step of arranging an outer transverse connector of an external connecting member to be connected to an outer surface of one end of the transverse steel stud and an outer longitudinal connector of an external connecting member to be connected to an outer surface of one end of the longitudinal steel stud; and,
A third step of coupling the external connecting member and the internal connecting member to each other by fastening a fastening member outside the external connecting member;
Construction method of a transverse reinforcement type joining device for a steel stud composite panel comprising a. The method of claim 7, further comprising a fourth step of connecting a brace between the outer transverse connection portion and the outer longitudinal connection portion of the external connector after the third step.

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