KR101598342B1 - Floor structure for impact sound reduction - Google Patents

Abstract

The present invention relates to a floor finishing structure for reducing floor impact sound, and more specifically, to the floor finishing structure which can reduce light impact sound as well as heavy impact sound by installing a grid type panel in a space between a concrete slab layer and a ceiling finishing material. The floor finishing structure includes: the concrete slab layer; a buffering layer formed on an upper part of the concrete slab layer; a lightweight landfill concrete layer poured on an upper part of the buffering layer; a cement based mortar layer poured on an upper part of the lightweight landfill concrete layer; the ceiling finishing material installed on a lower part of the concrete slab layer as being separated at a fixed distance; and the grid type panel which is installed between the concrete slab layer and the ceiling finishing material.

Description

[0001] Floor structure for impact sound reduction [0002]

The present invention relates to a floor finishing structure for reducing floor impact sound, and more particularly, a lattice-like panel is provided in a space between a concrete slab layer and a ceiling finishing material, so that a heavy impact sound can be reduced Gt; a < / RTI > floor finish structure.

In recent years, domestic housing has changed from apartment houses and multi-family housing to multi-family houses, so that disputes or complaints due to the interlayer noise problem in multi-family houses are increasing rapidly. This is a very important issue.

Such floor noise is generally classified as a heavy impact sound, which is a 'floor impact sound due to relatively heavy and soft impact', such as a beeping sound of a child, and a light impact sound, which is a floor impact sound due to a relatively light and rigid shock, such as a chair- have.

In order to solve the above noise and impact noise problem, various studies have been carried out conventionally. Currently, the most commonly used floor structure for reducing the impact sound of the interlayer is a sound insulation between the slab structure and the upper mortar layer. Called floating floors in which impact energy applied from the upper portion can be absorbed by the interlayer cushioning material by laying a cushioning material having a good shock absorbing property and placing a lightweight foam concrete and an ondol floor mortar with a certain thickness thereon, .

However, in the case of the above-mentioned floating floor structure, it is confirmed that the floor impact structure does not show a significant reduction effect in the solution of the heavy impact sound which causes a problem in the real life although it has some effect on the light impact sound. .

In order to explain in more detail, FIG. 1 shows a floor structure of a common public building such as a public house.

As shown in Fig. 1, the bottom structure of a multi-storey building includes a concrete slab 1, a buffer layer 2, a lightweight foamed concrete layer 3, a heating pipe 4, a closed mortar layer 5, 6) are laminated step by step.

At this time, most of the apartment buildings are constructed of a concrete slab 1 and a ceiling finishing material 7 formed by a gypsum board spaced a certain distance from the lower side, and the ceiling finishing material 7 becomes a ceiling of a lower layer.

The slab 1 is mostly made of reinforced concrete. The cushioning material to be applied to the buffer layer 2 includes various materials such as a rubber-based mat and a glass mat as well as a waste tire chip. It is about -20mm.

The lightweight foamed concrete layer 3 formed on the buffer layer 2 is composed of a heat insulation layer and a heat storage layer as an ondol layer, and the ondol pipe 4 is buried thereon. In order to satisfy the heat insulation performance defined by the law, Lightweight foam concrete is used.

The thickness of the lightweight foamed concrete varies depending on the thickness of the buffer layer 2, but the total thickness is about 70 mm. In most cases, the mortar layer 5 is formed by applying a mortar of about 50 mm on the upper part thereof And finally a flooring board material such as a planking sheet is formed on the flooring to form the flooring plank layer 6, but the ondol pipe 4 and the flooring plank layer 6 may not be constructed depending on the use of the building.

The floor structure described above is generally improved by the floor structure improvement techniques using the cushioning material, and the lightweight impact sound is improved by 1-3 grades compared with the unfavorable floor structure. However, the impact sound in the high frequency band is mainly reduced to be.

However, in the case of the heavy impact sound, improvement in the low-frequency range is not achieved, and most of them are similar to the unfavorable floor structure or have a slight improvement of about 1 grade.

As a related technology, Korean Patent Registration No. 0368405 (registered on November 11, 2004, name: floor structure system with improved heavy impact sound reduction performance) has been disclosed. However, since the height of floor must be higher as the stiffener is added, There is a problem in that the loss is large.

In addition, since it is necessary to add a reinforcing material in the initial construction of the floor, it can not be applied to a previously completed apartment house.

Domestic Registration Practice No. 0368405 (Registered on November 11, 2004, Name: Floor structure system with improved heavy impact sound reduction performance)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the conventional art as described above, and it is an object of the present invention to provide a floor heating system and a floor heating system, Thereby providing an effective floor finish structure.

A floor finishing structure according to the present invention is a floor finishing structure of a multi-story multi-story building including a multi-story house, comprising: a concrete slab layer; A cushioning material layer formed on the concrete slab layer; A lightweight foamed concrete layer laid over the buffer material layer; A cement mortar layer laid on the lightweight foamed concrete layer; A ceiling finish material installed at a predetermined distance below the concrete slab layer; And a grid-like panel installed in the space between the concrete slab layer and the ceiling finishing material; And a control unit.

The lattice-like panel may be a flat plate-shaped plate; And a grid forming part protruding from one side of the plate and having a plurality of unit cells in a lattice form; . ≪ / RTI >

In addition, the lattice-shaped panel may be installed such that the space between the concrete slab layer and the ceiling finishing material is divided into two spaces in the height direction.

The lattice-like panel may also be made of wood, plastic or polymer.

The floor finishing structure may further include a support rod vertically connected between the concrete slab layer and the grid-shaped panel.

Accordingly, the floor finishing structure according to the present invention is advantageous in that a heavy impact sound of 150 to 200 Hz or less can be reduced as well as a light weight impact sound through a simple construction.

More specifically, the present invention provides a grid-like panel in the space between the concrete slab layer and the ceiling finishing material, so that it can be installed not only in a newly built apartment house but also in a previously completed apartment house, It is possible to reduce a heavy impact sound that is uncomfortable to a neighbor.

From May 7, 2014, the Ministry of Land, Transport and Maritime Affairs proposed that the concrete slab thickness should be more than 210mm in order to reduce the floor impact noise. However, the heavy impact sound reduction effect is insignificant, .

However, when the floor structure of the present invention is applied, the weight impact sound can be reduced by a simple construction in which a grid-like panel is added to a space existing between the existing concrete slab layer and ceiling finishing material, It is also possible to apply it to the apartment which is completed and is suffering inconvenience.

Accordingly, the present invention can effectively reduce the floor impact sound that causes inconvenience between the neighbors, thereby effectively preventing the dispute and damage due to the inter-floor noise in the apartment house or the like.

1 is a sectional view showing a conventional bottom finishing structure;
2 is a sectional view showing a floor finishing structure according to the present invention.
3 is a perspective view schematically showing a lattice type panel of a floor finishing structure according to the present invention.
4 is a cross-sectional view illustrating another floor finishing structure according to the present invention. (Heating piping)
5 is an enlarged perspective view of a unit cell in a grid-type panel having a floor finishing structure according to the present invention;
FIG. 6 is a graph simulating the degree of noise reduction of a lattice-like panel used in a floor finishing structure according to the present invention. FIG.
7 is a cross-sectional view of another floor finish structure according to the present invention.
8 is a cross-sectional view illustrating another floor finishing structure according to the present invention.
9 is a schematic illustration of a chamber used to verify the effectiveness of a floor finishing structure in accordance with the present invention;
10 is a graph illustrating noise reduction effect of the floor finishing structure according to the present invention.

Hereinafter, a floor finishing structure for reducing a floor impact sound according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view of a bottom finishing structure 10 according to the present invention. As shown in FIG. 2, the present invention is a bottom finishing structure 10 for a multi-story multi- A slab layer 100, a buffer material layer 200, a lightweight foamed concrete layer 300, a cement mortar layer 400, a ceiling finishing material 500, and a lattice type panel 600.

According to the interlayer noise standard, the concrete slab should be at least 210 mm in the case of the wall structure, and the slab thickness should be at least 150 mm and the cushioning material at least 20 mm in the case of the laminated structure.

The buffer material layer 200 is formed on the concrete slab layer 100 and the lightweight foamed concrete layer 300 is installed on the buffer material layer 200.

At this time, the lightweight foamed concrete layer 300 is composed of a heat insulation layer and a heat storage layer as the ondol layer, and the heating pipe 310 is buried thereon. Generally, the thickness of the heating pipe 310 varies depending on the thickness of the buffer material layer 200 .

That is, as shown in FIG. 4, the bottom finishing structure 10 of the present invention can be applied to a bottom structure having a heating pipe.

The cement mortar layer 400 is laid on the lightweight foamed concrete layer 300, and is constructed with a mortar.

The ceiling finishing material 500 is installed at a predetermined distance below the concrete slab layer 100, and most of the gypsum board is used.

Particularly, the bottom finishing structure 10 of the present invention is provided with a grid-like panel 600 in the space between the concrete slab layer 100 and the ceiling finishing material 500, This has a great effect on improvement of heavy impact sound during floor impact sound.

3 is a perspective view schematically illustrating a lattice-shaped panel 600 of a floor finishing structure 10 according to the present invention. As shown in Fig. 3, the lattice-like panel 600 includes a plate 610 in the form of a flat plate And a grid forming part 620 protruding from one side of the plate 610 and having a plurality of unit cells in a lattice form.

2, the lattice-like panel 600 may be installed between the concrete slab layer 100 and the ceiling finishing material 500 such that the spaces therebetween are separated into two spaces in the height direction have.

In other words, in the floor finishing structure 10 according to the present invention, the lattice-like panel 600 is installed between the concrete slab layer 100 and the ceiling finishing material 500 to divide the space into two spaces in the height direction, The grid-shaped panel 600 may be spaced apart from the wall or may not be formed with a through-hole in the grid-shaped panel 600 so that a connection path is not formed between the two spaces.

In addition, the lattice-like panel 600 may be made of plastic or polymer in addition to wood such as plywood or wood.

When the grid-shaped panel 600 is made of plastic or polymer, it can be manufactured at low cost as well as being lightweight, thereby contributing to cost reduction.

In addition, the floor finishing structure 10 according to the present invention is preferably provided such that the grid panel 600 is spaced apart from the concrete slab layer 100 or the ceiling finishing material 500 by 50 to 100 mm in height direction .

At this time, in the floor finishing structure 10 according to the present invention, the double panel (the concrete slab layer 100 to the lattice-type panel 600) has a larger vibration than the global vibration, , Or the lattice-like panel 600 (ceiling finish material 500)) does not occur.

5 is an enlarged perspective view of a unit cell in the grid-type panel 600 of the floor finishing structure 10 according to the present invention. The width Lp and the thickness tp of the plate 610, 620 may vary depending on the dimensions such as the thickness (Wf) and the height (tf), so that the size can be appropriately changed through various experiments and verification.

6 is a graph simulating the degree of noise reduction of the lattice-like panel 600 used in the floor finishing structure 10 according to the present invention. The lattice-like panel 600 has a structure in which noises less than 100 Hz It is designed to have a natural frequency f_11 of 150 Hz to include, and the sound transmission performance (STL: sound transmission loss) reaches up to 40 dB.

As described above, according to the floor finishing structure 10 of the present invention, the natural frequency of the lattice-shaped panel 600 varies depending on how the unit cells of the lattice-shaped panel 600 are designed, It can be different.

이라 할 때,

은 아래와 같다.In the grid-like panel 600 in which the periphery is rigidly supported, the lowest natural frequency of the unit cell is

In other words,

Is as follows.

=판의 밀도,

=포아송의 비)(L = lattice spacing, h = plate thickness, E = elastic modulus,

= Plate density,

= Poisson's ratio)

를 150 Hz ~ 250Hz로 설계하여 가장 큰 중량 충격음 주파수 영역인 100Hz 이하를 충분히 포함하도록 하는 것이 바람직하다.At this time, in the floor finishing structure 10 of the present invention,

Is designed to be 150 Hz to 250 Hz so as to sufficiently include 100 Hz or less which is the largest heavy impact sound frequency region.

가 170Hz라면,For example, when the lattice-like panel 600 is manufactured using a plywood having a thickness of 3 mm,

Is 170 Hz,

260 mm,

mm,

,

Gpa가 된다.

260 mm,

mm,

,

Gpa.

)이 100배 이상 되도록 설계하여 단위 셀의 진동거동이 나타나게 하는 것이 중요하며, 도 7과 같이 4×4, 또는 5×5 격자 간격으로 상기 콘크리트 슬래브층(100)과 연결되는 지지봉(700)이 설치되어 중력에 의해 하측으로 쳐지는 것이 방지되도록 하는 것이 좋다.The lattice-forming portion 620 of the lattice-like panel 600 has a structure stiffness

Is designed to be 100 times or more, so that the vibration behavior of the unit cell is displayed. As shown in FIG. 7, the supporting rod 700 connected to the concrete slab layer 100 at 4 × 4 or 5 × 5 grid intervals So that it is prevented from being stuck downward by gravity.

In the bottom finishing structure 10 of the present invention, the lattice-forming portion 620 of the lattice-like panel 600 may protrude toward the concrete slab layer 100 as shown in FIG. 2. However, And may be protruded toward the ceiling finishing material 500 side.

9 is a schematic view of a mini-chamber used for verifying the effect of the floor finishing structure 10 according to the present invention. In order to evaluate the sound insulation performance of the unit cell assembly, (IL) according to the presence or absence of the lattice-like panel 600 is measured by arranging the noise measurement means on one side and the noise source on the other side.

FIG. 10 is a graph of insertion loss measured using the mini-chamber of FIG. 9, wherein the sound pressure (SPL) generated when 1 Newton is applied is measured, and the effect of the sound insulating material made of the grid panel 600 is evaluated as insertion loss.

In this case, the insertion loss is such that the sound pressure when the impact sound is applied in the state where only the basic panel is installed on the boundary surface where the lattice-like panel 600 is to be installed, and the impact sound is applied while the basic panel and the lattice- Min.

보다 작은 주파수에서 차음효과가 큰 것을 확인할 수 있다.10 is an experimental result for confirming the low-frequency sound insulation effect on various lattice sizes. When the basic panel and the lattice-type panel 600 are installed together,

It can be seen that the sound insulation effect is large at a smaller frequency.

Referring to FIG. 7, when the impact sound is applied in the bottom finishing structure of the present invention, when a heavy impact sound of 100 Hz or less is applied from the upper side and vibration occurs in the concrete slab layer, The impact sound is transmitted to the ceiling finishing material as it is, so that the degree of noise sensation in the lower layer is increased.

However, when the grid-like panel is installed between the concrete slab layer and the ceiling finishing material as shown in FIG. 7, the rigidity of the lattice-like part of the grid-like panel is larger than the plate, The noise in the low frequency band transmitted to the lower layer is partially blocked.

Accordingly, the floor finishing structure 10 according to the present invention can reduce the heavy impact sound through the simple construction in which the lattice-like panel 600 is installed between the concrete slab layer 100 and the ceiling finishing material 500 have.

More specifically, the present invention provides a grid-like panel 600 in the space between the concrete slab layer 100 and the ceiling finishing material, so that it can be installed not only in a newly built apartment house but also in a previously- It is possible to reduce the heavy impact sound which is uncomfortable to the neighbors even in the floor impact sound without changing the height.

In addition, since the present invention can reduce weight impact noise by simple construction in which a grid-like panel 600 is added to a space existing between the existing concrete slab layer 100 and ceiling finishing material, cost reduction is possible, It is also possible to apply it to the apartment which is experiencing inconvenience.

In addition, the noise of 100 Hz to 200 Hz, which is a noise in the low frequency band to be particularly reduced in the present invention, corresponds to the noise of a wind power generator noise, a transformer noise, and a ventilation system such as a duct in addition to a heavy impact sound of a dense apartment house, The grid-like panel 600 may also be used as a method for blocking the same noise

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

10: Floor finish structure
100: Concrete slab layer
200: buffer material layer
300: Lightweight foamed concrete layer
310: Heating piping
400: Cement mortar layer
500: ceiling finish
600: grid panel
610: Plate 620: Grating portion
700:

Claims (5)

A floor finishing structure for a multi-storey common building including a multi-
Concrete slab layer;
A cushioning material layer formed on the concrete slab layer;
A lightweight foamed concrete layer laid over the buffer material layer;
A cement mortar layer laid on the lightweight foamed concrete layer;
A ceiling finish material installed at a predetermined distance below the concrete slab layer; And
And a plurality of unit cells arranged on one side of the plate and having a plurality of unit cells arranged in a lattice form, wherein the structural rigidity of the lattice forming portion A grid-shaped panel formed to be larger than the plate and designed to exhibit vibration behavior of the unit cell ; And a bottom surface finishing structure.
delete The method according to claim 1,
The grid-
Wherein the space between the concrete slab layer and the ceiling finishing material is divided into two spaces in the height direction.
The method of claim 3,
The grid-
Wood, plastic or polymer. ≪ RTI ID = 0.0 > 11. < / RTI >
The method of claim 3,
The bottom finishing structure
Further comprising: a support rod connected in a height direction between the concrete slab layer and the grid-shaped panel.

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