KR20050013353A - Impact Noise Isolation Method of Floating Floor - Google Patents

Abstract

PURPOSE: A vibroisolating and soundproof material for preventing floor impact noise of a building is provided to improve the construction efficiency by coating the upper part and the lower part of a Styrofoam board embedding plural damping bodies with vinyl and integrally forming the single damping and soundproof board. CONSTITUTION: A damping and soundproof material for preventing floor impact noise of a building is constructed in a floor slab of the building to shut off vibration and impact noise, and composed of a Styrofoam board(22) constructed in the floor slab and plural damping bodies(21) arranged and embedded in the Styrofoam board. The upper part and the lower part of the Styrofoam board including the damping bodies are coated by vinyl(23). Impact noise between stories of the building is decreased by integrally manufacturing the damping and soundproof board, and the construction cost is reduced by transporting and mounting the board easily.

Description

Impact Noise Isolation Method of Floating Floor

The present invention relates to a floor shock soundproof soundproofing material of a building, and more specifically, to increase the workability by manufacturing the soundproofing soundproofing material of a building by using a vinyl coating on the upper and lower surfaces of a styrofoam board in which a plurality of dustproof bodies are purchased at regular intervals. The present invention relates to a floor shockproof dustproof soundproof material for a building.

In general, the floor of the building mainly uses concrete slabs. The floor structure using the concrete slabs is a good sound insulation material because it blocks air transmission sound well, but it transmits solid transmission sound including shock waves well. There is a problem that radiates to the lower floor and the adjacent room without attenuating the noise caused by footsteps or other impacts.

In order to solve the above problems, conventionally, a device was proposed to install a dustproof body having grooves or irregularities formed on one or both surfaces for insulation and dustproofing between the concrete slab layer and the lightweight foam concrete layer. When pouring the concrete into the grooves or the concave-convex parts of the dustproof body, there was a problem in that the effect of insulation and dustproofing was greatly reduced, and in order to prevent this problem, the difficulty in construction and the construction cost were doubled due to the installation of a separate sealing barrier. There was this.

In addition, in order to reduce the noise caused by the impact, a dustproof body made of styrofoam is installed between the concrete slab layer and the lightweight foamed concrete layer. However, this conventional technology is easy to be crushed due to the weak styrofoam, styrofoam is a surface waterproof layer is not formed, the slurry of lightweight foam concrete, which is poured on the upper surface of the styrene foam penetrates to the styrofoam connection portion, the original elasticity is desired There was a problem that the dustproof effect is lowered and the insulation performance is weakened.

The present invention is devised to solve the conventional problems as described above, by coating the upper and lower surfaces of the styrofoam board with a plurality of vibration-resistant body at a predetermined interval to produce a soundproof vibration-proof material of the building as a single board of ordinary styrofoam The board is easily damaged and permanently deformed according to the local load, and the impact is directly applied to the dustproof body, which minimizes deformation and greatly reduces the impact sound. It is an object of the present invention to provide a soundproof soundproofing material for the floor impact sound of buildings that allow construction.

1 is a side cross-sectional view showing a floor structure between the floor insulation and noise prevention of the building according to the invention,

2 is a detailed view of the floor impact soundproof soundproofing material according to the present invention;

3 is a detailed view of the interlayer insulation and noise prevention floor structure of the building according to the invention,

4 is an insertion state diagram of the additional dustproof body according to the present invention,

5 is an exemplary view showing an example of a floor structure between the insulation and noise prevention of the building according to the invention.

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

(1): floor slab layer (2): floor shock soundproof soundproof material

(3): foam concrete (4): finishing mortar

21: dustproof body 22: styrofoam board

23: vinyl coating 24: additional dustproof body

(25): connecting pin (26): ring

27: insertion groove 28: gap

Referring to the configuration of the present invention in conjunction with the accompanying drawings as follows.

Figure 1 is a side cross-sectional view showing the floor insulation and floor noise prevention floor structure of the building according to the invention, Figure 2 is a detailed view of the floor impact soundproof soundproofing material according to the invention, Figure 3 is an interlayer of the building according to the invention Figure 4 is a detailed view of the insulation and noise-floating floor structure, Figure 4 is an insertion state of the additional dustproof body according to the present invention, Figure 5 is an illustration showing an example of the interlayer insulation and noise-proof knitted floor structure of the building according to the invention As shown in the figure, the construction is constructed on the floor slab layer 1 to prevent the interlayer impact sound and vibration, and thus the styrofoam board 22 constructed on the floor slab layer 1 in the floor impact soundproof soundproof material of the building. And a plurality of dustproof bodies 21 are embedded in the styrofoam board 22 at predetermined intervals, and the upper and lower surfaces of the styrofoam boards 22 in which the dustproof bodies 21 are embedded are coated with vinyl 23. .

In addition, when the thickness of the styrofoam board 22 is insufficient, an additional dustproof body 24 having a ring 26 around the upper surface of the dustproof body 21 is mounted, but the dustproof body 21 Insertion grooves 27 are formed in the center of the insertion part, and the connecting pin 25 is coupled to the insertion grooves 27 so that one end portion protrudes from the central portion of the additional dustproof body 24.

The length of the connecting pin 25 protruding from the center of the lower surface of the additional dustproof body 24 is formed to be shorter than the length of the insertion groove 27, so that the upper surface of the bottom slab layer 1 and the connecting pin 25 are lower. A gap 28 is formed between the faces to prevent the impact from being transmitted directly to the bottom slab layer 1.

In addition, when a large load is applied to the upper surface of the additional dustproof body 24, the additional dustproof body 24 is formed in an inverted trapezoidal shape having a broad upper section and a narrow lower section.

Referring to the configuration as described above the operation of the present invention.

The floor shock soundproof soundproofing material 2 of the building according to the present invention is installed on the floor slab layer 1 as shown in FIG. 1, and the foamed concrete 3 is poured on the top surface of the floor impact soundproofing soundproofing material 2. Finishing mortar (4) is constructed. In this case, the floor slab layer 1 is formed by mixing aggregates having a specific gravity of about 2.65, such as steel sand and steel gravel, as the upper and lower floor structures of the multi-family house, and in particular, the floor slab layer 1 has a span span. It is about 140-150mm from this 4-5m ordinary structure.

On the other hand, the floor shock soundproof soundproof material (2) as shown in Figures 2 to 3, by purchasing a plurality of dustproof bodies 21 at a predetermined interval on the styrofoam board 22 to produce a natural frequency of 8Hz ~ 20Hz, Upper and lower surfaces of the styrofoam board 22 are vinyl-coated 23 to integrate the styrofoam board 22 and the dustproof body 21.

That is, the floor shock soundproof soundproofing material 2 is a constant interval to have a natural frequency of 8Hz ~ 20Hz on the styrofoam board 22 of various sizes of 1000 (W) × 1000 (L) or 900 (W) × 1800 (L). (100 ~ 400mm) to make a hole and the dust-proof body 21 is embedded in the hole and the vinyl coating (23) to produce.

At this time, the floor shock soundproof soundproofing material (2) is formed to a thickness of about 20mm so that vibration or heat resistance is not transmitted to the upper and lower layers through the wall surface, the height of the floor slab layer (1) at least when attached to the wall concrete frame From to the finishing mortar (4).

When the vinyl coating 23 is applied to the styrofoam board 22 and the lower surface, not only the vinyl coating 23 is applied to the entire upper and lower surfaces of the styrofoam board 22, but in some cases, manufacturing and construction costs. For the sake of saving, only the upper and lower surfaces of the styrofoam board 22 in which the dustproof body 21 is embedded are partially coated with vinyl 23.

In addition, as shown in FIG. 5, when the space is insufficient and the thickness of the styrofoam board 22 is 10 mm or less, and the thickness cannot be sufficient, the additional dustproof body 24 is attached to the upper surface of the dustproof body 21 to double the pad. Make a structure to achieve the dust-proof effect of 20mm ~ 50mm thickness.

That is, when the additional dustproof body 24 is mounted as shown in FIG. 4, the additional dustproof body 24 is mounted on the upper surface of the dustproof body 21, and inserted into the center of the dustproof body 21. A groove 27 is formed, and the connecting pin 25 coupled to the one end portion of the central portion of the additional dustproof body 24 is inserted into the insertion groove 27.

In addition, the length of the connecting pin 25 protruding from the center of the lower surface of the additional dustproof body 24 is formed to be shorter than the length of the insertion groove 27, so that the upper surface of the bottom slab layer 1 and the connecting pin 25 A gap 28 is formed between the bottom surfaces to prevent the impact from being transmitted directly to the bottom slab layer 1.

In addition, as shown in FIGS. 4 and 5, the ring 26 is mounted around the additional dustproof body 24 so that the additional dustproof body 24 and the concrete do not adhere when the foamed concrete 3 is poured.

In addition, as shown in FIG. 4C, when a large load is applied to the upper surface of the additional dustproof body 24, the cross-sectional shape of the additional dustproof body 24 has an inverted trapezoidal shape with a wide upper portion and a narrower lower portion. It is formed so as to prevent the shock transmitted to the additional dustproof body 24 is not directly transmitted to the styrofoam board 22 to minimize the impact sound as well as to prevent damage to the styrofoam board 22.

The connecting pin 25 is made of the same or similar material as that of the dustproof body 24 or the additional dustproof body 24.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

The present invention is excellent by having a natural frequency suitable for the living environment by producing a soundproofing vibrationproof material of the building as a single board by vinyl coating the upper and lower surfaces of the styrofoam board with a large number of dustproof materials having excellent insulation and soundproof dustproof effect at regular intervals. It is a very useful invention to reduce the impact of the floor impact sound, and to reduce the construction cost by easy transportation and construction, as well as to maximize the rigidity of the styrofoam by vinyl coating the styrofoam board in which the dustproof body is embedded.

Claims (4)

In the floor impact soundproof soundproof material of the building to be installed on the floor slab layer (1) to prevent the interlayer impact sound and vibration, Styrofoam board 22 is constructed on the floor slab layer (1), Floor shock soundproof soundproofing material of the building, characterized in that consisting of a plurality of dustproof bodies (21) embedded in the styrofoam board (22) at a predetermined interval. The method of claim 1, The floor shock soundproof soundproofing material of the building, characterized in that the dustproof body 21 is formed by coating the upper and lower surfaces of the styrofoam board 22 with a vinyl coating (23). The method of claim 1, When the thickness of the styrofoam board 22 is insufficient, an additional dustproof body 24 having a ring 26 mounted around the upper surface of the dustproof body 21 is mounted, but in the center of the dustproof body 21. It is provided with an insertion groove 27, and is inserted into the central portion of the additional dustproof body 24 so that one end is formed to protrude to a length shorter than the length of the insertion groove 27 in the central portion of the lower surface of the additional dustproof body 24. By inserting the connecting pin 21 into the insertion groove 27, the floor impact sound vibration of the building, characterized in that the gap 28 is mounted between the bottom slab layer 1 and the lower surface of the connecting pin 25 is formed. Soundproofing. The method of claim 3, wherein The additional dustproof body 24 is a floor shock soundproofing soundproofing material, characterized in that the cross section is formed in a trapezoidal shape with a wide upper section and a narrow lower section.