KR100920715B1 - Stud equipped with resilient channel - Google Patents

Abstract

The present invention relates to a stud provided with a resilient channel, and more particularly, in a stud mounted to install sound absorbing material between adjacent finishing panels, a base plate which is installed upright between adjacent finishing panels, and the base plate. A panel fixing part which is formed in both ends of the panel fixing part in the same direction, and a first bent part which is bent outwardly from an end of either side of the panel fixing part and which extends from an end of the first bent part and is inclined upwardly And a resilient channel having a first bent portion to be formed and a second bent portion formed of a horizontal portion extending from an end portion of the first slope portion and a second inclined portion extending from an end portion of the horizontal portion to be inclined downward. It relates to a stud with a resilient channel, characterized in that.

 According to the embodiment of the present invention, a wall is formed by using a stud equipped with a resilient channel to increase the sound insulation effect, and at the same time, significantly reduce the thickness of the wall.

Base Plate, Panel Fixed, Resilient Channel

Description

Stud equipped with resilient channel

The present invention relates to a stud with formed resilient channels for use in drywall.

In addition to the heat blocking function, the wall blocks or absorbs sound generated from inside and outside. Especially, the plate-like material used for the external finishing surface converts vibration energy generated in the whole plate by sound pressure to heat by friction inside the plate. It plays a role. In addition, when sound waves are incident on a porous material such as a heat insulating material or a sound absorbing material or a breathable material such as a fibrous material, it is converted into thermal energy by viscous friction generated by air vibrations inside the material. By the way, the above-mentioned sound absorption of the porous material has a great effect in the high frequency range, that is, the region of high frequency, but a considerable amount is transmitted as it is in the low frequency sound range.

On the other hand, the sound insulation performance of the wall is a transmittance indicating the degree of transmission energy to the incident energy of the sound is used, the greater the surface density of the plate or the higher the frequency of sound, the better the sound insulation performance. However, if the natural frequency of the plate coincides with the sound frequency, resonance oscillation occurs between the plate and the sound wave, and the sound is transmitted rapidly. That is, even at low frequencies, there was a limit to blocking low frequency sound.

In order to improve the sound insulation effect, an air layer was developed between the wall of the noise generating room and the wall of the sound receiving room, but there was a problem that the vibration transmitted in the process of fixing the finishing wall and the studs of the wall was not effectively controlled.

In order to solve the above problems, an object of the present invention is to construct a wall using a stud equipped with a resilient channel that reduces noise or vibration to increase the sound insulation effect and at the same time significantly reduce the thickness of the wall. .

In order to achieve the above object, the present invention is a stud mounted to install a sound absorbing material between adjacent finishing panels, the base plate is installed upright between the adjacent finishing panels, respectively extending in the same direction at both ends of the base plate And a panel fixing portion formed thereon, a first bent portion extending outwardly from an end of either side of the panel fixing portion, and a first inclined portion extending from an end portion of the first bending portion and inclined upwardly. And a resilient channel having a horizontal portion extending from an end portion of the first inclined portion and a second bent portion extending from an end portion of the horizontal portion and inclined downwardly.

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The distinctive and advantageous effects distinguished from the prior art generated by the above-described configuration are as follows.

According to the embodiment of the present invention, a wall is formed by using a stud equipped with a resilient channel to increase the sound insulation effect, and at the same time, significantly reduce the thickness of the wall.

Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the accompanying drawings. 1 is a perspective view of a first embodiment in which a resilient channel is formed on one side of a panel fixing part, FIG. 2 is a perspective view of a second embodiment in which a resilient channel is formed on one side of a panel fixing part, and FIG. 4 is a perspective view of a third embodiment in which a resilient channel is formed on one side of FIG. 4 is a perspective view of a fourth embodiment in which a portion of the base plate is indented to form a resilient channel, and FIG. 6 is a perspective view of a fifth embodiment in which a channel is formed; FIG. 6 is a perspective view of a sixth embodiment in which a part of the base plate is formed to form a resilient channel; FIG. 8 is a perspective view of an eighth embodiment in which a part of the base plate is formed to form a resilient channel, FIG. 9 is a plan view showing a specific use state of the embodiment of FIG. Exemplary embodiment of Figure 4 is a plan view showing a specific use.

In this embodiment, the inside of the stud is filled with the sound absorbing material is named the opening. And the inside of this opening was fixed inside, and the outside of the opening was fixed outside. In addition, although the present invention is used for drywall, since the structural features are present in the stud, the specific configuration of the drywall is omitted except where necessary. And one side direction of the base plate was determined in the direction toward the opening relative to the base plate.

The present invention relates to a stud 10 having a resilient channel formed to install a sound absorbing material between adjacent finishing panels 20. The resilient channels 300 and 301 are formed on the studs themselves. It is configured to attenuate it by converting vibrations transmitted from the outside into elastic energy.

First, the present invention, as shown in Figures 1 to 3 attached, the panel fixing part which is formed extending in one direction from both sides of the base plate 100 and the base plate is installed upright between the adjacent finishing panel 20, respectively. 200; And, the end of any one side of the panel fixing portion 200 is formed to extend, and comprises a resilient channel 300 to reduce the noise and vibration is a basic feature in the configuration.

The base plate 100 is in contact with the upper runner and the lower end is in contact with the lower runner in configuring the drywall. The upper runner and the lower runner are generally used to form a drywall, and the detailed description thereof will be omitted.

And the present invention is provided with a panel fixing part 200 which is formed to extend in the same direction in each direction at both ends of the bait plate 100. In this case, the end of one side of the panel fixing part 200 may be extended to form the resilient channel 300.

More specifically, as shown in FIGS. 1 to 3, the first bent portion 310 is bent outwardly opposite to the direction in which the opening 400 is located at one end of the panel fixing part 200. To form an extension. The second bent portion 320 may extend from the end of the first bent portion 310 in a direction parallel to the panel fixing portion 200. In this case, as shown in FIGS. 1 to 3, the shape of the second bent part 320 may be freely formed. That is, the second bent portion 320 of the present invention may be formed in an arc shape. And preferably, the end of the second bent portion 320 may be bent to extend inward. Thus, by forming the first bent part 310 and the second bent part 320 on one side of the panel fixing part 200, the elasticity is generated by the bending and attenuates when noise or vibration is transmitted from the outside of the wall. To do.

In addition, as shown in Figure 4 to 8 attached as another embodiment of the present invention, a portion of the base plate 100 is formed to be indented in one direction of the opening direction to reduce the noise and vibration Channel 301 can be configured.

In other words, the formed resilient channel 301 is indented in one direction of the base plate to extend the first indentation 340 and the second indentation formed at the end of the first indentation 340 It was configured to 345 to reduce the vibration and noise by the second indentation 345. In this case, the shape of the second indentation part 345 may be implemented by freely forming any one of a straight line, a circle, a triangle, and a rhombus, as shown in FIGS. 4 to 8.

4 to 8, the end of the panel fixing part 200 may be extended by bending inward. The resilient channel 301 serves to attenuate vibration or noise by converting vibration or noise into elastic energy by elasticity.

1 is a perspective view of a first embodiment in which a resilient channel is formed on one side of a panel fixing part.

That is, in the present exemplary embodiment, the first bent part 310 and the second bent part 320 are formed at one end of the panel fixing part 200. At this time, the first bent portion 310 extends in a straight line in the outward direction of the opening 400, and the second bent portion 320 in a direction parallel to the panel fixing part 200 at the end of the first bent portion 310. Formed, but as shown in Figure 1, the second bent portion 320 is configured in such a way that three short bent portions are continuous. In detail, the second bent part 320 extends from an end of the first bent part 310 and is horizontally formed to extend from an end of the first bevel part 321 and the first bevel part 321. A portion 322 and a second inclined portion 323 extending from the end of the horizontal portion 322 is formed to be inclined downward. In this case, the elastic support force is improved compared to the same height, and as shown in FIG. 9, there is an advantage in that installation work such as insertion is easy when installed between the finishing panels 20.

In this configuration, when vibration is transmitted from the outside of the wall, the second bent part 320 is vibrated to receive the vibration, thereby converting the vibration into elastic energy to attenuate the vibration transmitted from the outside. Here, the other end of the panel fixing portion is provided with an extended end bent inward, but both the first bent portion and the second bent portion are formed at both ends of the panel fixing portion may further enhance vibration attenuation.

2 is a perspective view of a second embodiment in which a resilient channel is formed on one side of a panel fixing part.

In the present embodiment, unlike the embodiment of FIG. 1, the second bent part 320 is extended in a straight line, and is configured to extend substantially in parallel with the panel fixing part 200, and the end of the second bent part 320 again. The bending was extended inward to form a third bent portion 330 was performed.

3 is a perspective view of a third embodiment in which a resilient channel is formed on one side of a panel fixing part. In the present embodiment, unlike the embodiment of FIG. 2, the second bent part 320 is not parallel to the panel fixing part 200, and the end of the second bent part 320 is directed toward the adjacent panel fixing part 200. It was.

1 to 3 are only embodiments, the embodiment of the present invention can be implemented by freely modifying the shape of the first bent portion 310 and the second bent portion 320 different from the accompanying drawings. will be.

4 is a perspective view of a fourth embodiment in which a part of the base plate is indented to form a resilient channel as another embodiment of the present invention.

That is, unlike the embodiment of FIGS. 1 to 3 described above, in the present embodiment, the resilient channel 301 is configured by indenting an intermediate portion of the base plate 100 toward the opening 400. In this case, the first indentation part 340 is configured to extend in a straight line side by side in the direction of the opening 400, the second indentation part 345 is configured in the shape of a circle.

5 is a perspective view of a fifth embodiment in which a portion of the base plate is indented to form a resilient channel. In the present exemplary embodiment, the first indentation part 340 extends in a straight line side by side in the direction of the opening 400, and the second indentation part 345 has a triangular shape.

6 is a perspective view of a sixth embodiment in which a portion of the base plate is indented to form a resilient channel. In this embodiment, the first indentation part 340 extends in a straight line side by side in the opening 400 direction, and the second indentation part 345 is configured in the shape of a rhombus.

7 is a perspective view of a seventh embodiment in which a portion of the base plate is indented to form a resilient channel. In the present embodiment, the first indentation part 340 extends adjacent to the third bent part 330 as shown in FIG. 7, and the second indentation part 345 has a straight shape. When viewed from the base plate 100 side, the shape of the resilient channel 301 is configured to be similar to the shape of the inverted trapezoid.

8 is a perspective view of an eighth embodiment in which a portion of the base plate is indented to form a resilient channel; In the present embodiment, unlike the embodiment of Figure 7, when viewed from the base plate 100 side was configured to be similar to the trapezoidal shape.

4 to 8 are only embodiments. In the actual implementation of the present invention, unlike the accompanying drawings it may be carried out by modifying the shape of the first indentation 340 and the second indentation 345.

9 is a plan view showing a specific use state of Figure 1, Figure 10 is a plan view showing a specific use state of FIG. Since the present embodiment is a plan view, the upper loader and the lower loader are not shown. This configuration is the basic configuration for constructing drywall. That is, the present invention can be implemented as a configuration in which the studs 10 having the resilient channels are formed between the finishing panels 20 at regular intervals, and the sound absorbing material 30 is filled therebetween.

1 is a perspective view of a first embodiment in which a resilient channel is formed on one side of a panel fixing part;

2 is a perspective view of a second embodiment in which a resilient channel is formed on one side of a panel fixing part;

3 is a perspective view of a third embodiment in which a resilient channel is formed on one side of a panel fixing part;

4 is a perspective view of a fourth embodiment in which a portion of the base plate is indented to form a resilient channel;

5 is a perspective view of a fifth embodiment in which a portion of the base plate is indented to form a resilient channel;

6 is a perspective view of a sixth embodiment in which a portion of the base plate is indented to form a resilient channel;

7 is a perspective view of a seventh embodiment in which a portion of the base plate is indented to form a resilient channel;

8 is a perspective view of an eighth embodiment in which a portion of the base plate is indented to form a resilient channel;

9 is a plan view showing a specific use state of the embodiment of FIG.

10 is a plan view showing a specific use state of the embodiment of FIG.

<Description of the symbols for the main parts of the drawings>

10; Studs 20 with resilient channels formed; Finishing panel

30; Sound absorbing material

100; Base plate

200; Panel fixing 220; Panel Government Extension

300, 301; Resilient channel 310; 1st bending part

320; Second bending portion 330; 3rd bending section

340; First indentation 345; 2nd entry

400; Opening

Claims (7)

In the stud mounted to install a sound absorbing material between adjacent finishing panels, A base plate installed upright between adjacent finishing panels; Panel fixing parts formed at both ends of the base plate in the same direction; And,  A first bent portion extending outwardly from an end of any one of the panel fixing portions, a first inclined portion extending from an end portion of the first bent portion and formed to be inclined upwardly and extending from an end portion of the first inclined portion; And a resilient channel having a second bent portion comprising a horizontal portion extending from an end portion of the horizontal portion and a second inclined portion formed to be inclined downwardly. delete delete delete delete delete delete

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