KR101155997B1 - Stud for supporting dry wall - Google Patents

Abstract

The present invention relates to a thermal insulation stud, and the inner and outer walls of the dry assembly wall and the first stud body and the second stud body on which the outer panel is supported is fixed to each other by being fastened to be connected to each other by an insulating fastener. It is possible to reinforce the support strength of the, and also has the effect of preventing heat loss caused by blocking the heat entering and exiting the outside through the first stud body and the second stud body.

Description

Insulation studs {STUD FOR SUPPORTING DRY WALL}

The present invention relates to an insulation stud, and more particularly, to an insulation stud for reinforcing the support strength of the inner and outer wall of the stud supporting the inner panel and the heat loss generated through the stud. It is about.

As is well known, drywall is constructed with upper runners and lower runners constructed to cast concrete to perform track functions on the ceiling and floor of the building, and studs installed vertically at regular intervals along the track direction between them. And an inner panel and an outer panel (finish panel) installed so as to be supported by the stud with the heat insulating material interposed therebetween.

The conventional dry assembly wall supporting studs mainly maintain a gap between the inner panel and the outer panel and are installed to be orthogonal between the inner panel and the outer panel, and side plates are provided at both ends of the fixing plate to fasten the inner panel and the outer panel. Is formed vertically bent in the cross-sectional shape is made of a "c" shape with one side open.

As such, the conventional dry assembly wall support stud has a disadvantage that the strength of the support decreases as the open side ends of both side plates move away from the fixed plate because one side is formed of an open "c" shape.

In addition, the conventional dry assembly wall support stud has the disadvantage that the heat is conducted while conducting heat through the fixing plate connecting the inner panel and the outer panel.

An object of the present invention for solving the above problems is to reinforce the support strength of the inner panel and the stud for supporting the outer panel and the inner wall forming the inner and outer wall of the dry assembly wall to reduce the heat loss generated through the stud It is to provide a thermal insulation stud.

Insulating studs of the present invention for achieving the above object, the studs are fixedly installed vertically at regular intervals between the upper runner and the lower runner, the stud for supporting and fixing the inner panel and the outer panel of the dry assembly wall, The first stud body is fixed to the inner panel; A second stud body having the same cross-sectional shape as the first stud body and symmetrically disposed, and the outer panel being fastened and fixed; And a thermal insulation inserted between the first stud body and the second stud body to connect between the first stud body and the second stud body, and to block heat transferred through the first stud body and the second stud body. Characterized in that it comprises a fastener.

The first stud body and the second stud body may each include a fixing plate extending in a first direction parallel to the inner panel or the outer panel in cross section; And side plates bent in a second direction perpendicular to the first direction at both ends of the first direction in the first direction. The thermal insulation fastener is formed with a first fastening groove in which the side plate end of the first stud body is fitted and fixed at one end in the second direction, and faces the side plate end of the first stud body at the other end. A second fastening groove may be formed to which the end of the side plate of the second stud body is inserted and fixed.

In addition, the first fastening hole is formed at a predetermined interval in the vertical direction to end portions of the side plates of the first stud body and the second stud body, and the first fastening of the thermal insulation fasteners corresponds to the first fastening hole. A second fastening hole is formed to penetrate the groove and the wall of both sides of the second fastening groove, the second fastening hole penetrates the first fastening hole and the second fastening hole, and fastens the insulation fastener, the first stud body and the second stud body. It may further include a fastening member.

In addition, the first fastening hole is formed at a predetermined interval in the vertical direction to the end of the side plate of the first stud body and the second stud body through the first fastening hole, the insulating fastener corresponding to the first fastening hole A groove and one wall surface of the second fastening groove may protrude to be configured to fasten the heat insulating fastener, the first stud body, and the second stud body.

In addition, the heat insulating fastener is preferably made of a urethane material having heat insulation and durability.

In addition, the first stud body and the second stud body are formed so that a plurality of rows of insulating slots are spaced apart from each other and penetrate along the vertical direction, and the two rows of adjacent insulating slots are formed to alternate with each other in height. desirable.

According to the thermal insulation stud of the present invention, as the first and second stud bodies on which the inner panel and the outer panel forming the inner and outer wall surfaces of the dry assembly wall are fixed and connected are connected to each other by an insulating fastening fixture. It is possible to reinforce each other's support strength, and also to block heat entering and exiting through the first stud body and the second stud body to prevent heat loss generated through the heat.

In addition, according to the thermal insulation stud of the present invention, it is possible to fasten the thermal insulation fastener, the first stud body and the second stud body to each other without using an additional fastening member, and the thermal insulation fastener and the first stud body and the first and more easily and quickly. The two stud bodies can be fastened to each other to increase productivity and work efficiency.

In addition, according to the insulating stud of the present invention, a plurality of rows of insulating slots are spaced apart from each other and penetrated along the vertical direction of the fixing plate and the side plate, and the two adjacent rows of insulating slots have a height difference and are alternately formed with each other. In addition, the path through which heat passes through the studs connecting the inner panel and the outer panel has an effect of minimizing heat loss through the stud.

1 is a perspective view showing a dry assembly wall according to a first embodiment of the present invention.
FIG. 2 is an enlarged cross-sectional view of part II of FIG. 1.
3 is a perspective view of the thermal insulation stud of FIG. 1.
4 is a plan sectional view showing a fastening state of the heat insulating fastener of FIG.
Figure 5 is a cross-sectional view showing a heat insulating fastener coupling state of the heat insulating stud according to the second embodiment of the present invention.
6 is a perspective view showing a heat insulation stud according to a third embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a perspective view showing a dry assembled wall according to a first embodiment of the present invention, Figure 2 is an enlarged cross-sectional view showing a portion II of FIG.

1 and 2, the thermal insulation studs 100 (hereinafter referred to as “studs”) of the present embodiment are vertically installed at regular intervals between the upper runner 10 and the lower runner 20, The inner panel 30 and the outer panel 40 are supported and fixed. The heat insulating material 50 is sandwiched between the studs 100 and fixed between the inner panel 30 and the outer panel 40.

The stud 100 is configured to include a first stud body 110, a second stud body 120, and the thermal insulation fastener 130.

The first stud body 110 is installed inside and fastened and fixed to support the inner panel 30, and the second stud body 120 has the same cross-sectional shape as the first stud body 110 and is disposed symmetrically. The outer panel 40 is fastened and fixed to be supported.

In the present embodiment, the first stud body 110 and the second stud body 120 are fixed plates 111 and 121 and two side plates 115 bent through press working at both ends of the fixed plates 111 and 121. , To be formed to have 125).

That is, the fixing plates 111 and 121 extend in a first direction (Y-axis direction) parallel to the inner panel 30 or the outer panel 40 on the cross section (ie, XY flat cross section), and the side plates 115 and 125. ) Is bent in the second direction (X-axis direction) perpendicular to the first direction at both ends of the first direction of the fixing plate (111, 121), and eventually, the first stud body (110) and the second stud body ( 120 is formed to have a cross-sectional shape of the letter "c".

In addition, the insulating fastener 130 is inserted between the first stud body 110 and the second stud body 120 to connect between the first stud body 110 and the second stud body 120, and the first stud body 120. It is configured to block heat transmitted through the stud body 110 and the second stud body 120.

In the present embodiment, the heat insulating fastener 130 has a first fastening groove 131 formed at one end of the side plate 115 of the first stud body 110 at one side end in the second direction, and is fixed at the other end thereof. A second fastening groove 132 is formed in which the end of the side plate 125 of the second stud body 120 facing the end of the side plate 115 of the first stud body 110 is fitted into and fixed. "Is formed to have a shape.

3 is a perspective view of the thermal insulation stud of FIG. 1. 4 is a plan sectional view showing a fastening state of the heat insulating fastener of FIG.

Referring to FIGS. 3 and 4, end portions of the side plates 115 and 125 of the first stud body 110 and the second stud body 120 may be spaced in a vertical direction with a first fastening hole 117. 127 is formed to penetrate through.

The heat insulating fastener 130 penetrates through both side walls of the first fastening groove 131 and the second fastening groove 132 so as to correspond to the first fastening holes 117 and 127. ) Is formed.

In addition, the fastening member 130 is inserted through the first fastening holes 117 and 127 and the second fastening hole 135 between the heat insulating fastener 130, the first stud body 110, and the second stud body 120. That is, it is fastened to each other by a fixing pin.

Here, the thermal insulation fastener 130 has a certain strength to fasten and fix the first stud body 110 and the second stud body 120, and the first stud body 110 and the second stud body 120. It is preferably made of a urethane material that can block the heat entering and exiting through the outside.

Therefore, the thermal insulation stud 100 of the present embodiment is a hollow cross-sectional shape of the first stud body 110 and the second stud body 120 having a "c" shaped cross-sectional shape using the thermal insulation fastener 130. Fastened to have a support strength to reinforce, and also to block the heat entering and exiting through the first stud body 110 and the second stud body 120 to prevent the heat loss generated through them. do.

Hereinafter, a thermal insulation stud according to another embodiment of the present invention will be described with reference to the accompanying drawings, and the same reference numerals are used for the same and similar components as those of the first embodiment, and repeated description thereof will be omitted. .

Figure 5 is a cross-sectional view showing a heat insulating fastener coupling state of the heat insulating stud according to the second embodiment of the present invention.

Referring to FIG. 5, the thermal insulation stud 200 according to the present embodiment has a first stud body 110 and a second stud body 120 as compared with the first embodiment. Fastening protrusions 237 on one side wall of the first fastening groove 131 and the second fastening groove 132 to correspond to the first fastening holes 117 and 127 formed at end portions of the side plates 115 and 125. ) Has a difference in configuration that protrudes.

As such, the fastening protrusions 237 protruding from the first fastening groove 131 and the second fastening groove 132 of the thermal insulation fastener 230 have a first stud body 110 and a second stud body 120. The first fastening hole (117, 127) of the fitting, and the fastening protrusion 237 to be fastened to each other by the thermal insulation fastener 230, the first stud body 110 and the second stud body 120.

Therefore, in the present embodiment, the dry assembly wall support stud 200 may fasten the insulation fastener 230, the first stud body 110, and the second stud body 120 to each other without using an additional fastening member. To more easily and quickly, the heat insulating fastener 230 and the first stud body 110 and the second stud body 120 may be fastened to each other to increase productivity and work efficiency.

6 is a perspective view showing a heat insulation stud according to a third embodiment of the present invention.

Referring to FIG. 6, the heat insulation studs 300 of the present embodiment have side plates 115 and 125 of the first stud body 110 and the second stud body 120 as compared with the first embodiment described above. ), A plurality of rows of thermally insulating slots 310 along the vertical direction are spaced apart from each other and have a configuration of penetrating through.

Here, it is more preferable that the heat insulating slots 310 of two rows adjacent to each other have a height difference and are alternately formed with each other.

As such, the first studs of the studs 300 connecting the inner panel 30 and the outer panel 40 are formed as the insulating slots 310 forming two rows adjacent to each other have a height difference with each other and are alternately formed with each other. By extending the heat transfer path of the heat entering and exiting through the side plate (115, 125) of the body 110 and the second stud body 120 to further minimize the heat loss generated through the stud (300).

In addition, the insulating slots 310 may be formed on the side plates 115 and 125 of the first stud body 110 and the second stud body 120, as well as the fixing plates 111 and 121, and the fixing plate ( The heat insulation slots 310 formed in the 111 and 121 may reduce the heat loss by reducing the contact area between the inner panel 30 and the outer panel 40.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications or changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. In addition, it is natural that it belongs to the scope of the present invention.

1: dry assembled wall 10: upper runner
20: lower runner 30: inner panel
40: outer panel 50: insulation
100, 200, 300: stud 110: first stud body
120: second stud body 111, 121: fixed plate
115, 125: side plates 117, 127: first fastening holes
130, 230: insulation fastener 131: first fastening groove
132: second fastening groove 135: second fastening hole
137: fastening member 237: fastening projection
310: thermal insulation slot

Claims (8)

In the stud that is fixedly installed vertically at regular intervals between the upper runner and the lower runner, and supporting and fixing the inner panel and the outer panel of the dry assembly wall,

The stud,
A first stud body to which the inner panel is fastened and fixed;
A second stud body having the same cross-sectional shape as the first stud body and symmetrically disposed, and the outer panel being fastened and fixed; And
It is inserted between the first stud body and the second stud body to connect between the first stud body and the second stud body,
Insulation fasteners made of a urethane material to block heat transferred through the first stud body and the second stud body;

The first stud body and the second stud body,
A fixing plate extending in a first direction parallel to the inner panel or the outer panel in cross section; And
And a side plate bent in a second direction perpendicular to the first direction at both ends of the first direction in the first direction.

The thermal insulation fastener,
A first fastening groove is formed in which the side plate end of the first stud body is fitted and fixed at one end in the second direction.
A second fastening groove is formed at the other end portion to which the side plate end portion of the second stud body facing the side plate end portion of the first stud body is fitted and fixed.

The first stud body and the second stud body,
The first fastening hole is formed to pass through at a predetermined interval in the vertical direction from the side plate end,

The thermal insulation fastener,
Insulating studs having a fastening protrusion protruding from one side of the first fastening groove and the second fastening groove to correspond to the first fastening hole.
delete delete delete delete delete In claim 1,
The first stud body and the second stud body insulated studs are formed so that a plurality of rows of insulating slots are spaced apart from each other in a vertical direction.
In claim 7,
An insulating stud having two rows of adjacent insulating slots having a height difference and formed alternately with each other.

Images