KR100471607B1 - Floating floor structure for reducing floor shock sound and floor materials for building - Google Patents

Abstract

The present invention relates to a floor structure of a joint building for sound insulation of floor impact, and forms a rigid reinforcement structure having a predetermined height in which the floor concrete slab top surface is divided on the floor concrete slab, and lightweight lightweight concrete is laid between the rigid reinforcement structures. In addition, the sound insulation material is installed on the upper part, and a mortar layer is laminated on the upper part to make it possible to effectively block the transmission of light and heavy impact sound generated to the lower layer through the interlayer slab layer. will be.

Description

Floating floor structure for reducing floor shock sound and floor materials for building}

The present invention relates to a joint building floor structure for sound insulation of floor impact, forming a rigid reinforcement structure of a predetermined height to the surface of the concrete floor slab, the upper surface of the concrete slab, and filling the lightweight foam concrete between the rigid reinforcement structure And, it is laminated to the sound insulation material and mortar layer on the top of the cavity structure for the sound insulation of the floor to block the impact of heavy impact sound through the rigid reinforcement to the lower floor.

In general, the floor of the building mainly uses concrete slab. The floor structure using the concrete slab is a good sound insulation material because it blocks the air transmission well. Sound is generated and this noise is not greatly attenuated, but radiates through the slab structure to the lower floor and the adjacent room. Therefore, in the case of a common building, a method of maximizing sound absorption in the floor structure has been studied to minimize the radiation area of the noise transmitted to the lower layer in order to effectively block the radiation sound.

As shown in Figure 1 the floor structure of a common apartment building, such as a multi-family building, the floor structure of the multi-family building is a concrete slab (1), buffer layer (2), lightweight foam concrete layer (3), piping (4), finishing The mortar layer 5 and the floor covering layer 6 are constructed to be laminated in stages.

The slab (1) is mostly made of reinforced concrete, and currently, the construction is generally applied to the thickness of 125-135mm to be applied to the multi-family housing in Korea. In addition The buffer material to be constructed in the buffer layer 2 includes various materials such as waste tire chips, rubber-based mats, glass-based mats, and usually have a thickness of about 10-20 mm.

Lightweight foam concrete layer (3) to be constructed on the buffer layer (2) is an ondol layer consisting of a heat insulating layer and a heat storage layer, the ondol pipe (4) is embedded thereon, in order to satisfy the heat insulating performance prescribed by law Lightweight foam concrete is used. And the thickness of the lightweight foam concrete depends on the thickness of the buffer layer (2), but the total thickness is around 70mm, the mortar layer (5) by forming a mortar (mortar) of about 50mm in most cases as a finishing material on top Finally, a floorboard material such as floorboard is finally installed on the floorboard layer 6 to form the floorboard layer 6, but the underfloor pipe 4 and the floorboard layer 6 may not be constructed depending on the use of the building.

In general, the floor structure described above shows improvement of 1-3 grades compared to the unapplied floor structure in the case of light impact sound by using the floor structure improvement technology applied with the cushioning material, but the impact sound is mainly reduced in the high frequency band rather than in the low frequency band. to be. On the other hand, in the case of the heavy impact sound, the improvement in the low range is not made, and most of them are similar to the unapplied floor structure or show a slight improvement effect of the first grade.

The grade of the floor impact sound described above is defined in Japanese Industrial Standard (JIS 1419), and is determined by the level of the floor impact sound expressed by frequency band using the frequency reference curve for the impact sound. Heavy impact sound is hardly felt when the L index is less than 50 Is a rank 5 grade, and if the L index is 65 or higher, it is a rank 1 grade that causes unbearable severe complaints (JIS A 1419).

In addition, the floor shock sound reducing material used to reduce the floor shock sound is generally a soft cushion material of elastic material absorbing the floor impact, waste tire grinding, rubber chips, EVA chip (Ethyline Vinyl Acetate Chip), foamed styrene foam, EPS ( Expended Poly Styrene) is used, but when the material is installed on the slab, the elastic modulus is increased because the thickness of the cushioning material is not sufficient, and thus the effect of the cushioning material due to the floating bottom structure is not shown at all.

In other words, in the case of light impact sound whose sound insulation class is determined in the middle and high frequency bands, the impact sound level is lowered by using a buffer material of about 10-20 mm in the existing floor structure, but in the case of the heavy impact sound whose sound insulation class is determined in the low frequency band Because it is difficult to control low frequency noise only by cushioning, there is a problem that the improvement effect by the buffer material is not so large.

The present invention has been made to solve the above problems, an object of the present invention is to provide a floor impact sound insulation structure to improve the soundproofing, dustproof, dustproof, dustproof and heat insulation performance by forming a floating bottom layer structure.

Another object of the present invention is to provide a floor slab rigid reinforcement structure to achieve a structure that suppresses the plate vibration through the rigid reinforcement of the slab to effectively block the impact sound To provide.

In addition, the impact sound reduction effect of the low-frequency band, especially among the floor impact sound is to be improved.

The present invention for achieving the above object is a floor structure formed by laminating lightweight foamed concrete and mortar, etc. on the floor concrete slab of the building, a predetermined surface-divided top surface of the floor concrete slab on the floor concrete slab It is characterized in that the structure is formed by forming a rigid reinforcement structure of the height, between the rigid reinforcement structure to form a lightweight foam concrete, a sound insulation material on the upper portion, and a mortar layer laminated on the upper portion.

The rigid reinforcement structure is formed so as to be integrally connected with the floor concrete slab to be made of a reinforced concrete molded body or iron structure, characterized in that the floor surface of the slab concrete slab is divided into a grid.

In addition, the rigid reinforcement structure is characterized in that the construction of the frame member between the rigid reinforcement structure and the wall of the building to be separated from the wall of the building.

The present invention made as described above is to minimize the increase in weight while maintaining the thickness of the floor slab layer, it is to effectively minimize the vibration of the plate of the floor layer to reduce the transmission of the impact sound.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. Also This embodiment does not limit the scope of the invention.

Figure 2 is a schematic diagram for explaining a joint floor structure for the floor impact sound insulation according to an embodiment of the present invention, Figure 3 is a cross-sectional view of the joint building floor structure for floor impact sound insulation according to an embodiment of the present invention.

In the floor structure formed by laminating lightweight foamed concrete and mortar on the floor concrete slab 11 of the building of the present invention as described in the drawings, the floor concrete slab top surface is formed on the floor concrete slab 11. A rigid reinforcement structure 12 having a predetermined height to be divided into faces is formed, a lightweight foamed concrete 13 is disposed between the rigid reinforcement structures 12, a sound insulation material 14 is formed on the upper portion thereof, and a mortar layer is formed on the upper portion thereof. It is a structure formed by laminating 15).

At this time, the rigid reinforcement structure 12 is formed to be integrally connected with the bottom concrete slab (11).

That is, when the reinforcement for the rigid reinforcement structure 12 during the reinforcement installation work before the concrete is laid for the floor concrete slab 11 when the rigid reinforcement structure (12) as a reinforced concrete molded body at the same time with the bottom concrete slab (11) Can be formed while pouring.

Meanwhile, the rigid reinforcement structure 12 is formed of an iron structure so as to be integrated with the bottom concrete slab 11 by connecting at the time of installing the reinforcing bar before the concrete is laid for the floor concrete slab 11.

In addition, this rigid reinforcement structure 12 has a mechanical stability capable of supporting the upper structure. The upper surface of the bottom concrete slab 11 is formed to be face-divided into a predetermined shape at appropriate intervals within the secured range. At this time, it is preferable to perform surface division into a lattice form. In the embodiment of the present invention, but easy to construct a lattice form as an embodiment, it is also possible to divide the surface into a honeycomb form, and if it is divided into a face-shape so that the unit of the same size, such as a lattice or honeycomb arranged in up, down, left and right It is also possible.

Therefore, the four sides of the unitary lattice do not need to be perpendicular to the same length, and may be in the form of a rectangle or a parallelogram.

This rigid reinforcement structure 12 is formed to a height of 6-9cm. Preferably, it is desirable to form at a height of 7-8 cm. This height becomes the thickness to which the lightweight foamed concrete 13 is laid. In other words, it is sufficient that the rigid reinforcing structure 12 is formed at the height of the thickness of the lightweight foamed concrete 13 that is generally laid.

 In addition, the frame member 16 is constructed between the rigid reinforcement structure 12 and the wall of the building so that the rigid reinforcement structure 12 is separated from the wall of the building.

The edge member 16 is formed of a waste tire pulverized product, a rubber chip, an EVA chip (Ethyline Vinyl Acetate Chip), a foamed styrene foam, an EPS (Expanded Poly Styrene), which is a group of reducing materials made of an elastic soft cushioning material.

The sound insulating material 14 is formed of waste tire chips, foam rubber, polyurethane foam, rock wool, glass wool, EPS (Expended Poly Styrene).

Referring to the operation of the embodiment according to the present invention described above are as follows.

Cavity gun for floor impact sound insulation according to the present invention as shown in the drawings First, the water bottom structure is a 7-8cm stiffened reinforcement structure 12 that is divided into a lattice shape in which the top surface of the concrete slab 11 is topped on the bottom concrete slab so as to secure mechanical stability to support the upper structure. It is formed to a height, between the lightweight foam concrete 13 is installed between the lightweight foam concrete 13 is installed to the same thickness as the rigid reinforcement structure 12, without increasing the thickness of the existing floor concrete slab (11) Stiffness can be reinforced.

That is, since the effective weight at the impact point increases by increasing the rigidity of the floor, it is possible to obtain the effect of reducing the transmission of the weight shock sound.

In addition, the lightweight foamed concrete layer 13 forms a floating bottom layer structure, so that the soundproofing, dustproofing, dustproofing, dustproofing, and heat insulating performance are improved. In particular, the impact sound reduction effect of the low-frequency band is particularly improved.

At this time, since the rigid reinforcement structure 12 is integrally connected with the floor concrete slab 11, the rigidity of the floor concrete slab 11 is more effectively increased, so that the plate vibration of the floor concrete slab 11 is suppressed, thereby the floor concrete slab 11 ), The weight impact sound caused by

When the sound insulation material 14 is constructed of a material selected from waste tire chips, foamed rubber, polyurethane foam, rock wool, glass wool, and expanded polystyrene (EPS) on top of the rigid reinforcement structure 12 and the lightweight foamed concrete 13, Due to the sound insulating material 14 layer, the light impact sound is reduced, and the heat insulation performance can be improved, and the mortar layer 15 is laminated on top of it.

Waste tires, rubber chips, EVA chips (Ethyline Vinyl Acetate Chip), foamed styrene foam, EPS (Expended Poly Styrene), which is a group of reducing materials consisting of soft buffer material of elastic material between the rigid reinforcement structure 12 and the wall of the building When the selected frame member 16 is constructed, the rigid reinforcement structure 12 is separated from the wall 20 of the building to prevent the impact sound from being transmitted from the rigid reinforcement structure 12 to the wall 20.

What has been described above is just one embodiment for implementing a common building floor structure for floor impact sound insulation according to the present invention, the present invention is not limited to the above-described embodiment, as claimed in the following claims As such, any person having ordinary skill in the art to which the present invention pertains will be included in the technical idea of the present invention to the extent that various modifications can be made without departing from the gist of the present invention.

As described above, the present invention has an advantage of effectively blocking noise and vibration generated in the interior of a multi-story building such as a multi-family building such as an apartment, a high-rise building, and the like from being transmitted to a lower floor through an interlayer slab layer.

In particular, it is possible to increase the rigidity of the floor slab while minimizing the increase of the slab weight while maintaining the thickness of the floor slab, so that plate vibration is suppressed, thereby reducing the transmission of the heavy impact sound.

In addition, the rigid reinforcement structure and the wall is formed by separating the reducing material between the By forming the solid delivery sound and vibration is not transmitted through the wall there is an advantage that can also reduce the transmission of light impact sound.

1 is a cross-sectional view showing a floor structure of a common multi-family building.

Figure 2 is a schematic diagram for explaining the floor structure of the joint building for the sound insulation of the floor impact according to an embodiment of the present invention.

Figure 3 is a cross-sectional view of the floor structure of the joint building for sound insulation of the floor impact according to an embodiment of the present invention.

   -Explanation of symbols for the main parts of the drawings-

11: floor concrete slab 12: rigid reinforced structure

13: lightweight foam concrete 14: sound insulation

15: mortar layer 16: frame member

20: wall

Claims (8)

In the floor structure formed by laminating lightweight foam concrete and mortar on the floor concrete slab of a building, A rigid reinforcement structure having a predetermined height is formed on the bottom of the concrete slab, and the lightweight foam concrete is laid between the rigid reinforcement structures, the soundproofing material is formed on the upper part, and the mortar layer is formed on the upper part of the concrete slab. Joint building floor structure for floor impact sound insulation, characterized in that the structure made by laminated construction. According to claim 1, wherein the rigid reinforcement structure is a joint building floor structure for the floor impact sound insulation, characterized in that formed to be integrally connected with the floor concrete slab. The method according to claim 1 or 2, The rigid reinforcement structure is a hollow concrete floor structure for floor impact sound insulation, characterized in that the reinforced concrete molded body or steel structure. The method according to claim 1 or 2, The rigid reinforcing structure is to divide the top surface of the concrete slab surface into a grid Joint building floor structure for soundproofing floor impact. The method according to claim 1 or 2, The rigid reinforcement structure is a joint building floor structure for floor impact sound insulation, characterized in that the construction of the rim between the rigid reinforcement structure and the wall of the building to be separated from the wall of the building. According to claim 1 or claim 2, The rigid reinforcement structure is a joint building floor structure for floor impact sound insulation, characterized in that formed to a height of 6-9cm. The method of claim 1, wherein the edge member is a group consisting of waste tire pulverized products, rubber chips, EVA chips (Ethyline Vinyl Acetate Chip), foamed styrene foam, EPS (Expended Poly Styrene), which are reducing materials made of an elastic soft cushioning material. The joint building floor structure for floor impact sound insulation, characterized in that the one selected from. According to claim 1, wherein the sound insulation material is a waste tire chip, foamed rubber, polyurethane foam, rock wool, glass surface, EPS (Expended Poly Styrene) is a joint building floor structure for the floor impact sound insulation, characterized in that one selected from the group consisting of .