KR101489436B1 - Noise reducing structure of wall and slab using the elastic stud - Google Patents

Abstract

The present invention relates to a noise reduction structure in which noises are reduced by installing studs having elasticity in existing walls or slabs, wherein the elastic members are formed on the web of the channel, and are spaced apart from each other along the width direction and the longitudinal direction of the wall or slab Elastic stud; Wherein the elastic portion of the elastic stud is formed such that a portion of the web surface is obliquely bent so as to be cut in a shape of a letter or a letter and a non-cut portion to be inwardly directed, And a sloped portion extending in an oblique direction and extending from the parallel portion to the both sides of the sloped portion. The elastic portion is formed so as to be divided into a parallelepiped portion and a sloped portion formed by the inclined portion The fixing pin is engaged with the parallel portion of the elastic portion to fix the elastic stud to the wall or the slab and the surface plate is fixed to the web surface of the non-bent portion of the elastic stud And a noise reduction structure for a wall and a slab using the elastic stud.
In the noise reduction structure of the present invention, the elastic portion of the elastic stud is bent at a portion of the surface of the web in the form of a triangle or an ellipse, and the non-cut portion is inclined inward A pair of resilient studs are formed so as to be separated from each other by a parallel portion that is flat on the central portion of the non-incision portion and an inclined portion that is bent and extended obliquely on both sides of the parallel portion, And the existing finishing panel and the surface plate are respectively butted against the webs of the joined pair of elastic studs.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a noise reducing structure for a wall and a slab using an elastic stud,

The present invention relates to a structure for reducing noise by providing an elastic stud on a wall or a slab of an existing building. More specifically, the present invention relates to a structure for reducing noise by simply cutting and bending a stud by a C- The present invention relates to a noise reduction structure for a wall and a slab capable of improving sound insulation performance.

Due to the rapid development of construction technology, there is a growing interest in high-performance structures that provide differentiated residential and office environments. In buildings, there is a growing tendency to reduce the weight of buildings and to reduce the thickness of walls as much as possible to ensure maximum space. However, as the wall becomes lighter and the thickness decreases, the lowering of the sound insulation performance is an inevitable problem. In order to solve this problem, an active noise barrier wall has been developed. However, in order to construct an active noise barrier wall, expensive equipment is required and a space for installing equipment is required.

In addition, in a place where a lot of noise is generated, an inorganic fiber-based panel such as a rock face or a glass face excellent in sound absorption property is coated on the surface with a glass fiber cloth or a general fabric and attached to a wall surface of a room to reduce or eliminate noise. However, such a soundproofing apparatus is not only difficult to construct, but also has a problem of pollution which is harmful to the human body and its use is inhibited. In addition, since a separate interior finishing material must be installed after the soundproofing work is completed, costs and construction period are increased.

In addition, the slabs of ceilings and floors are generally designed to reduce or intercept the interlayer noise through a vibration-proof and soundproof structure extending from the concrete slab layer to the finished mortar layer. However, in a noisy space such as a music room, separate sound absorption and soundproofing are necessary for the floor or ceiling. In order to solve this problem, the finishing plate is installed by separating the space from the ceiling or the floor, but the effect of blocking the noise transmitted from the space is insufficient, and there is a problem that the space used in the room becomes narrow due to the large space. In addition, households that are pursuing home theater equipment and rooms are increasing, as the popular population who enjoy music professionally in general households is increasing. In each home, the problem of diffuse reflection of sound waves is solved by styrofoam or the like, It is common to enjoy without great expectations. Of course, you can select a room in the building that is previously partitioned and use it as a soundproof room by making soundproofing on the wall and ceiling of the room. However, since the existing soundproofing room can not be used only in a soundproof room until the soundproofing room is demolished, the space inside the building made of the soundproofing room can not be used until the soundproofing room is once used, have.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. That is, the present invention has been developed to solve the sound insulation problem of existing wall or ceiling, and it has a technical problem to provide a noise reduction structure that can improve the sound insulation performance without increasing the thickness of the heat insulation and sound absorption material. Particularly, the present invention aims to provide a structure for deforming a stud formed by a C-channel into an elastic stud by simply cutting and bending, and reducing noise of a wall and a slab by its elastic force.

In order to solve the above-described problems, the present invention provides a noise reduction structure in which noises are reduced by installing studs having elasticity in existing walls or slabs, wherein elastic members are formed on webs of the channel, Elastic studs spaced apart from each other along the longitudinal direction; Wherein the elastic portion of the elastic stud is formed such that a portion of the web surface is obliquely bent so as to be cut in a shape of a letter or a letter and a non-cut portion inward, And a sloped portion extending in an oblique direction and extending from the parallel portion to the both sides of the sloped portion. The elastic portion is formed so as to be divided into a parallelepiped portion and a sloped portion formed by the inclined portion The fixing pin is engaged with the parallel portion of the elastic portion to fix the elastic stud to the wall or the slab and the surface plate is fixed to the web surface of the non-bent portion of the elastic stud The present invention provides a noise reduction structure for a wall and a slab using an elastic stud.

In the noise reduction structure of the present invention, the elastic portion of the elastic stud is formed by cutting a portion of the web surface in the form of a triangle or an elliptical shape, And a pair of resilient studs are formed so as to be separated from each other by a pair of resilient studs such that the respective parallel portions are in contact with each other And the existing finishing panel and the surface plate are disposed to face each other on the web of the coupled pair of elastic studs, thereby providing a noise reduction structure for a wall and a slab using the elastic stud.

According to the present invention, it is possible to reduce the noise simply by fixing the elastic stud by the C-channel to the existing wall or ceiling. In particular, it is only required to cut and bend the c-channel stud, so that it is possible to improve the sound insulation performance without increasing the thickness of the wall or the ceiling, thereby improving space usability.

FIGS. 1A to 1D show a first embodiment in which elastic studs are horizontally installed in a noise reduction structure of a wall and a slab by the elastic stud according to the present invention.
FIGS. 2A to 2C show a second embodiment in which elastic studs are vertically installed in a noise reduction structure of a wall and a slab by the elastic stud according to the present invention.
3A to 3C illustrate various forms of the elastic part in the structure for reducing noise of the wall and the slab by the elastic stud according to the present invention.
4 is a cross-sectional view showing the structure in which the elastic stud and the surface plate are installed on the wall and the slab in the noise reduction structure of the wall and the slab by the elastic stud according to the present invention.
5A is a perspective view showing a state in which a pair of resilient studs according to the present invention are coupled to each other, FIG. 5B is a cross-sectional view showing a state in which a pair of coupled elastic studs are installed on a slab Detailed view.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is a member in which a resilient portion 140 is formed on a web 120 of a channel in a structure in which noise is reduced by providing a stud having an elasticity in a conventional wall W or a slab S, ) Or an elastic stud (100) spaced apart from each other along a width direction and a length direction of the slab (S); The elastic part 140 of the elastic stud 100 is formed by a part of the surface of the web 120 in the shape of a letter or a triangle, And parallel to the wall W and the slab S, which are flatly formed at the central portion of the non-incision portion, and parallel to the wall portion W and the slab S, The elastic portion 140 is formed such that the height of the inside of the cross section formed by the parallel portion 144 and the inclined portion 142 is smaller than that of the both side flange 142. [ And the fixing pin 300 is coupled to the parallel portion 144 of the elastic portion 140 so that the elastic stud 100 is fixed to the wall W or the slab S And the surface plate (200) is mounted against the surface of the web (120) of the non-bent portion of the elastic stud (100) All. That is, according to the present invention, a c-channel stud is simply cut and bent into a wall or a ceiling of a building to be deformed into an elastic stud 100 so as to exhibit an elastic force and then the surface plate 200 is fixed to the elastic stud 100 Thereby improving sound insulation performance.

1A to 1D show a first embodiment in which the elastic stud 100 is horizontally installed in the noise reduction structure of the wall W and the slab S by the elastic stud 100 according to the present invention, 2c is a second embodiment showing that the elastic stud 100 is vertically installed in the noise reduction structure of the wall W and the slab S by the elastic stud 100 according to the present invention. The noise reduction structure according to the present invention is roughly divided into two embodiments according to the installation state of the elastic stud 100. That is, as shown in FIG. 1A, the elastic stud 100 is installed horizontally, and the elastic stud 100 is installed vertically, as shown in FIG. 2A. Each embodiment may be applied to correspond to the situation of the wall or ceiling or the state of the surface plate 200.

The resilient portion 140 is formed by cutting a certain portion of the channel web portion into ∥ or Ø shape and the uncut portion of the certain portion of the elastic portion 140 being bent obliquely in the flange direction of the č channel. The elastic stud 100 having the elastic portion 140 may be used as a C-channel or a loop C-type channel instead of the C-channel. The resilient portion 140 is bent obliquely with the non-incision portion being inwardly inclined. The elastic portion 140 has a flat portion with a central portion formed to be parallel to the wall W or the slab S, And an inclined portion 142 that extends from the end to the parallel portion 144 by being bent obliquely. The fixing pin 300 is coupled to the surface of the parallel portion 144 to be fixed to the wall W or the slab S. 3A and 3C, the elastic portion 140 may have a rectangular or trapezoidal cross-sectional shape, and may be configured to be bent twice or more as shown in FIG. 3B. In addition, the elastic portion 140 may be formed with a cutout space 150 at a portion of the surface of the slanted portion 142. The elasticity effect of the elastic portion 140 and the cutting effect of the cutout portion 160 and the cutout space 150 To increase the vibration noise exhaustion effect. Thus, the elastic portion 140 enters the surface of the web 120 of the elastic stud 100 in a swirling manner. As a result, when the elastic stud 100 is fixed to the wall W or the slab S and the surface plate 200 is installed, the noise reduction structure of the wall W and the slab S is completed. Even though noise vibration is transmitted through the plate 200, noise and vibration are reduced because the elastic part 140 elastically corresponds through the cut-off part 160 and the cut-out space 150.

4 is a perspective view showing a structure in which the elastic stud 100 and the surface plate 200 in the noise absorbing structure of the wall W and the slab S by the elastic stud 100 according to the present invention are attached to the wall W and the slab S And Fig.

4, the noise reduction structure of the present invention is characterized in that the elastic stud 100 is first fixed to the wall W or the ceiling slab S and then the surface plate 200 ). ≪ / RTI > In order to fix the elastic stud 100 to the wall W or the ceiling, the fixing pin 300 may be coupled to the parallel portion 144 of the elastic portion 140. A screw, which is a conventional fixing method, may be used. The surface plate 200 is suitably made of a gypsum board, a cement board, or the like, and the surface plate 200 may be formed by stacking two layers. The surface plate 200 may be fixed to the elastic stud 100 with screws or the like, and the surface of the screw is finished with a joint tape or the like. The space between the wall W and the slab S and the surface plate 200 is formed by the elastic stud 100. Although not shown in the drawings, a heat insulating material or a sound absorbing material may be provided for each application. At this time, it is preferable to select a material having a sound insulation performance as well as a sound insulation performance such as a glass wool. As a result, according to the present invention, the elastic stud 100 can be easily fixed to the wall W or the slab S, and the surface plate 200 can be joined and closed simply by replacing the thick sound- And the construction period is shortened.

5 (a) is a perspective view showing a state where a pair of elastic studs 100 according to the present invention are combined, and FIG. 5 (b) is a perspective view showing a state where a pair of elastic studs 100, Fig. 3 is a cross-sectional detail view showing a state in which the slab S is installed. The present invention is a member in which a resilient portion 140 is formed on a web 120 of a channel in a structure in which a stud having an elastic force is installed on a slab S on which a finishing panel P is installed to reduce noise. (100) spaced from each other along a width direction and a length direction of the elastic body (S); The elastic part 140 of the elastic stud 100 is formed by a part of the surface of the web 120 in the shape of a letter or a triangle, And the non-incision portion is inclined and bent inwardly. The parallel portion 144 is formed to be flat on the central portion of the non-incision portion. A pair of elastic studs 100 are formed so as to be divided into a pair of elastic studs 100 and a pair of elastic studs 100, The conventional finishing panel P and the surface plate 200 are disposed to face each other. As shown in FIG. 5 (b), the existing finishing panel P is installed by being coupled to the embossment provided at the lower part of the slab S by the fixing pin 300. In order to fix the elastic stud 100 of the present invention to the conventional finishing panel P, the parallel portion 144 of the elastic stud 100 must be aligned with the emblem line. In this case, considerable time and effort are required. However, when a pair of elastic studs 100 are brought into contact with the respective parallel portions 144 so that the pair of elastic studs 120 are positioned on the outer surface of each of the elastic studs 100, There is no need to line up. This is because when the web 120 of the elastic stud 100 which is in contact with the emblem installed at the lower part of the slab S and the existing finishing panel P is coupled with the fixing pin 300 or the like, a pair of the elastic studs 100 are fixed Because. Thereafter, the surface plate 200 is fixed to the web 120 of the elastic stud 100 located on the opposite side of the surface facing the existing finishing panel P, thereby completing the noise reduction structure of the slab S.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

W: Wall
S: Slab
P: Existing finish panel
100: Elastic stud
120: web
140:
142:
144: parallel portion
150: Cutting space
160: incision portion
180: bent portion
200: surface plate
300: Fixing pin

Claims (5)

In the structure in which the existing wall W or the slab S is provided with a spring having elasticity to reduce noise,
Elastic studs 100 spaced from each other in the width direction and the longitudinal direction of the wall W or the slab S with the elastic portion 140 formed on the web 120 of the channel;
And a surface plate 200 fixedly installed to abut against the web 120 of the elastic stud 100,
The resilient portion 140 of the elastic stud 100 is formed such that a portion of the surface of the web 120 is incised in a shape of a letter or a letter and is bent obliquely so that the non-incised portion is directed inward. A parallel portion 144 formed to be flat and an inclined portion 142 extending obliquely to both sides of the parallel portion 144,
The elastic portion 140 has a height in a cross section formed by the parallel portion 144 and the inclined portion 142 is equal to or longer than the width of both flanges,
The fixing pin 300 is coupled to the parallel portion 144 of the elastic portion 140 so that the elastic stud 100 is fixed to the wall W or the slab S, And is installed to abut the surface of the web (120) of the unfolded portion of the stud (100). In the structure in which the studs having elasticity are installed in the slab S on which the finishing panel P is installed to reduce the noise,
Elastic studs 100 spaced from each other along the width direction and the longitudinal direction of the slab S with the elastic part 140 formed on the web 120 of the channel;
And a surface plate 200 fixedly installed to abut against the web 120 of the elastic stud 100,
The resilient portion 140 of the elastic stud 100 is formed such that a portion of the surface of the web 120 is incised in a shape of a letter or a letter and is bent obliquely so that the non-incised portion is directed inward. A parallel portion 144 formed to be flat and an inclined portion 142 extending obliquely to both sides of the parallel portion 144,
The elastic portion 140 has a height in a cross section formed by the parallel portion 144 and the inclined portion 142 is equal to or longer than the width of both flanges,
A pair of elastic studs 100 are coupled to each other in such a manner that the parallel portions 144 of the elastic studs 100 are engaged with each other and the web 120 of the pair of elastic studs 100, (200) are provided to face each other. The noise reduction structure of the wall and the slab using the elastic stud. 3. The method according to claim 1 or 2,
Wherein the elastic part (140) of the elastic stud (100) has a rectangular cross section or a trapezoidal cross section, and a noise reduction structure of the wall and the slab using the elastic stud. 3. The method according to claim 1 or 2,
Wherein the elastic portion (140) of the elastic stud (100) is configured to be bent at least two times. The structure for reducing noises of a wall and a slab using the elastic stud. 3. The method according to claim 1 or 2,
Characterized in that the elastic portion (140) of the elastic stud (100) has a cutout space (150) formed in a part of the inclined portion (142).

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