KR100675225B1 - Light weight wall system and its installation method for improving performance of sound insulating and thermal insulating - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a lightweight wall system and its installation method.

2. The technical problem to be solved by the invention

The present invention is applicable to a wall having a limited thickness, such as an internal wall of a building, and to provide a light wall system and a method of installing the same, which can effectively prevent the sound insulation and thermal insulation deterioration in a conventional light wall system.

3. Summary of Solution to Invention

자형의 단면으로 형성되어 벽체의 길이만큼 벽체의 천장 및 바닥면에 설치되며, 내부 양측 길이방향으로는 일정 간격마다 고정편이 엇갈려 돌출 형성된 상·하부 런너와; 상기 고정편의 전면에 상단 및 하단이 지그재그로 삽지되어 입설되는 단열·흡음재와; 상기 고정편의 배면에 소정 간격으로 입설되는 스터드; 및 상기 스터드의 외면에 조립되는 마감재를 구비하는 것을 특징으로 한다.In the light weight wall system,

An upper and lower runner formed in a cross section of a shape and installed on the ceiling and the bottom surface of the wall by the length of the wall, and the fixing pieces are alternately protruded at regular intervals in both longitudinal directions of the interior; Insulation / sound absorbing material which is inserted into the front and the bottom of the fixing piece in a zigzag inserted into the front; Studs are placed on the back of the fixing piece at predetermined intervals; And a finishing material assembled to the outer surface of the stud.

4. Important uses of the invention

It is mainly used as a light weight wall for partitioning the interior space in apartment houses, multi-purpose buildings and business buildings.

Light wall, runner, stud, insulation, sound insulation

Description

Light weight wall system and its installation method for improving performance of sound insulating and thermal insulating}             

Figures 1a to 1d is a construction of each step of the conventional lightweight wall system.

2 is a horizontal sectional view of a conventional lightweight wall system.

3 is an overall configuration diagram of a lightweight wall system according to the present invention.

Figures 4a to 4e is a construction of each step of the lightweight wall system according to the present invention.

5 is a horizontal sectional view of the lightweight wall system according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: runner 11: fixed piece

20: stud 30: heat insulation and sound absorption material

40: finish

The present invention relates to a light weight wall system that is mainly applied to partition the interior space of a building in a multi-unit house, a multi-purpose building and a commercial building, and more particularly, to a light wall system and a method of installing the same for improving sound insulation and insulation performance. will be.

In the conventional general lightweight wall system, an integrated runner 1 as shown in FIG. 1A is installed on the upper and lower sides, and a stud 2 having the same width as that of the runner 1 is installed at the center (see FIG. 1B). ), Between the stud (2) is installed insulated and sound-absorbing material (3) cut in the field to a predetermined length (see Fig. 1c), and on the both sides of the stud (2) gypsum board, cement board, etc. It was installed by the method of installing the finishing material 4 (see Fig. 1d).

However, the conventional lightweight wall system installed by the above-described method has a problem that sound insulation performance is deteriorated because a wall composed of one stud is integrated so that noise generated in an adjacent space is transmitted through a connection portion of the wall.

In addition, the insulation and sound absorbing material installed between the stud and the stud is usually cut by the operator in the field, the connection is not partly tightly buffered, it is inevitable to act as a major weak spot in the insulation and sound insulation It was a situation.

Under such a background, in order to improve the sound insulation and insulation performance in the conventional lightweight wall system, the core material is installed in the center, the sound absorbing material is attached to both sides of the core material, and then the finishing material is installed on the outer surface of the sound absorbing material. The triple wall system improved the wall system, and the system which double-installs the upper and lower runners and the inner stud with the air layer in the center has been developed and applied.

However, all of the above systems are applicable only to walls with a certain thickness of walls, and cannot be applied to walls with a limited thickness of about 100 mm, such as internal walls in apartment houses, multi-purpose buildings, and commercial buildings. There was a limit.

An object of the present invention for solving the above problems is applicable to a wall having a limited thickness, such as the inner wall of the building, a lightweight wall system that can effectively prevent the sound insulation and thermal insulation degradation in the conventional lightweight wall system And to provide a construction method thereof.

The present invention is installed in a zigzag state without cutting the insulation and sound absorbing material installed in the upper and lower runners to prevent the integration of the wall, and to install the weak insulation and sound-absorbing area by cutting the insulation and sound absorbing material without cutting. It relates to a lightweight wall system and a method of installing the same designed to prevent.

자형의 단면으로 형성되어 벽체의 길이만큼 벽체의 천장 및 바닥면에 설치되며 내부 양측 길이방향으로는 일정 간격마다 고정편이 엇갈려 돌출 형성된 상·하부 런너와; 상기 고정편의 전면에 상단 및 하단이 지그재그로 삽지되어 입설되는 단열·흡음재와; 상기 고정편의 배면에 소정 간격으로 입설되는 스터드; 및 상기 스터드의 외면에 조립되는 마감재를 구비하는 것을 특징으로 한다.To this end, the lightweight wall system according to the present invention,

An upper and lower runner formed in a cross section of a shape and installed on the ceiling and the bottom surface of the wall by the length of the wall and protruding from the fixed pieces at regular intervals in both longitudinal directions of the interior; Insulation / sound absorbing material which is inserted into the front and the bottom of the fixing piece in a zigzag inserted into the front; Studs are placed on the back of the fixing piece at predetermined intervals; And a finishing material assembled to the outer surface of the stud.

자형의 단면으로 형성되어 내부 양측 길이방향으로는 일정 간격마다 고정편이 엇갈려 돌출 형성된 런너를 벽체가 시공될 위치의 천장 및 바닥면에 설치하는 제 1단계; 상기 런너의 내부 양측 고정편 중 일측의 고정편 배면에 일차적으로 스터드를 설치하는 제 2단계; 단열·흡음재를 절단하지 않은 상태로 펼쳐서 상기 양측의 고정편 전면에 지그재그로 삽지하여 위치 고정시키는 제 3단계; 상기 런너의 내부 양측 고정편 중 상기 제 2단계에서 설치하지 않은 타측의 고정편 배면에 스터드를 설치하는 제 4단계; 및 상기 스터드의 외면에 마감재를 조립하여 마감하는 제 5단계로 이루어지는 것을 특징으로 한다.In addition, the installation method of the lightweight wall system according to the present invention,

A first step of installing a runner formed in a cross section of a shape and protruding from each other at a predetermined interval in the longitudinal direction of the inner side on the ceiling and the bottom of the wall to be constructed; A second step of first installing studs on the back surface of one of the two inner fixing pieces of the runner; A third step of unfolding the thermal insulation and sound absorbing material without cutting and inserting the zigzag into the front surfaces of the fixing pieces on both sides to fix the position; A fourth step of installing a stud on the rear surface of the other fixing piece which is not installed in the second step among the both inner fixing pieces of the runner; And a fifth step of assembling and finishing the finishing material on the outer surface of the stud.

Hereinafter, with reference to Figure 3 attached to an embodiment of the present invention will be described in detail.

3 is an overall configuration diagram of a lightweight wall system according to the present invention, Figures 4a to 4e is a construction of each step of the lightweight wall system according to the present invention, Figure 5 is a horizontal cross-sectional view of the lightweight wall system according to the present invention. .

As shown in Figure 3, the lightweight wall system according to the present invention is largely the upper and lower runner (10, the upper runner is not shown), the stud 20, the heat insulating / sound absorbing material 30, and the finishing material ( 4) consists of.

자형의 단면으로 형성되어 벽체의 길이만큼 벽체의 천장 및 바닥면에 설치되는 부재로, 상기 런너(10)의 내부 양측 길이방향으로는 상기 단열·흡음재(30)를 지그재그로 삽지할 수 있도록 고정편(11)이 엇갈려 돌출 형성된다.The runner 10 is

Is formed in a cross section of the shape of the wall is installed on the ceiling and the bottom surface of the wall, the fixing piece so that the insulation and sound absorbing material 30 can be zigzag inserted in both longitudinal directions of the runner 10 in the longitudinal direction inside the runner 10; 11 alternately protrudes.

The stud 20 is a vertical structural material of the wall installed on the rear surface of the fixing piece 11, and firmly supports by bending vertically on both sides of the bent portion of the thermal insulation and sound absorbing material 30 installed in a zigzag inside the wall. Play a role.

The finishing material 40 is a wall finishing member that is assembled and fixed to the outer surface of the stud 20, a general gypsum board, cement board, etc. are used, may be installed in one or two or more layers.

Hereinafter, the construction method according to an embodiment of the present invention will be described in detail with reference to FIGS. 4A to 4E.

The runner 10 according to the present invention shown in FIG. 4A is installed on the floor and the ceiling surface at the position where the wall is to be constructed. At this time, before installing the upper and lower runners 10 on the floor and the ceiling surface, it is confirmed in advance whether the positions of the fixing pieces 11a and 11b, which are formed on both sides of the upper and lower runners 10, are alternately arranged on the same axis. After installation.

When the upper and lower runners 10 are installed, as shown in FIG. 4B, the studs 20a of about 40 mm are primarily interposed between the upper and lower runners 10, among the fixing pieces 11a and 11b of both sides. It is installed only on the back side of the fixed piece 11a of one side.

Thereafter, the roll-shaped insulating and sound absorbing material 30 is unfolded without being cut, and is fixed to the front surfaces of the fixing pieces 11a and 11b on both sides by zigzag as shown in FIG. 4C.

When the heat insulation and sound absorption material 30 is installed by the above, the stud 20b is also installed in the back surface of the other fixing piece 11b which was not installed in the said FIG. 4B step. Such a structure allows the studs 20a and 20b on both sides to vertically support the bent portion of the heat insulation / absorption material provided in a zigzag, so that the heat insulation / absorption material 30 can be firmly supported in the vertical direction.

When the internal structure of the wall is completed, the finishing material (one or two or more layers of general finishing materials such as 40 gypsum board and cement board) is finally assembled to the outer surfaces of the studs 20a and 20b on both sides to complete the wall.

The lightweight wall system according to the present invention constructed in the above manner can fundamentally improve the weak insulation and sound insulation areas by cutting the conventional heat insulation and sound absorbing material, and can block the transmission sound generated by the integration of the wall.

This effect was confirmed in the sound insulation performance evaluation results and the thermal performance simulation results of the existing wall system and the wall system invented in the field.

Table 1 below shows the transmission loss values according to the frequencies of the existing wall and the invention wall. As shown in the table, the wall system applied by the present invention is about 4.86 dB (based on the overall value in sound insulation performance than the existing wall system). The sound insulation performance of A) was found to be effective.

In addition, in the simulation results by the heat transfer analysis program, it was analyzed that the existing wall system caused a significant temperature drop phenomenon around the stud due to the heat transfer phenomenon due to the integrated stud and the partial missing of the insulation.

[Table 1] Sound Insulation Performance

                                                     (Unit: transmission loss, dB (A))

 frequency  125 Hz  250 Hz  500 Hz  1KHz  2KHz  4KHz  Overall  Existing Wall  22.00  36.25  47.77  54.77  62.38  57.07  36.22  Invention  30.50  38.92  47.32  57.28  64.37  56.85  41.08

* The transmission loss means the difference between the sound pressure level in the sound source room and the sound pressure level in the sound receiving room. The higher the value, the better the sound insulation performance.

On the other hand, the present invention described above has been described with respect to specific embodiments, of course, various modifications are possible without departing from the scope of the invention. That is, the present invention is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

As described above, the present invention fundamentally improves the insulation weak and sound-absorbing portions generated by cutting and installing insulation and sound absorbing materials as in the conventional lightweight wall system, and can install the insulation and sound insulation materials installed in the wall with a zigzag wall. It is possible to effectively block the transmission sound generated by the integration.

Claims (3)

In a lightweight wall system,

An upper and lower runner formed in a cross section of a shape and installed on the ceiling and the bottom surface of the wall by the length of the wall, and the fixing pieces are alternately protruded at regular intervals in both longitudinal directions of the interior; Insulation / sound absorbing material which is inserted into the front and the bottom of the fixing piece in the zigzag inserted into the zigzag; Studs are placed on the back of the fixing piece at predetermined intervals; And Lightweight wall system, characterized in that it comprises a finishing material assembled to the outer surface of the stud. In the installation method of the lightweight wall system,

A first step of installing runners formed in a cross section of the shape and protruding with fixed pieces staggered at regular intervals in both longitudinal directions of the inner side on the ceiling and the bottom of the wall to be constructed; A second step of first installing studs on the back surface of one of the two inner fixing pieces of the runner; A third step of unfolding the thermal insulation and sound absorbing material without cutting and inserting the zigzag into the front surfaces of the fixing pieces on both sides to fix the position; A fourth step of installing a stud on the rear surface of the other fixing piece which is not installed in the second step among the both inner fixing pieces of the runner; And And a fifth step of assembling and finishing the finishing material on the outer surface of the stud. delete

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