KR20180052041A - Plate for sound insulation - Google Patents

Abstract

The present invention relates to a material for blocking noise between layers. The disclosed material for blocking noise between layers comprises: a bottom sound blocking portion provided between a concrete slab and a bottom material and reducing a vertical impact wave; and a side surface sound blocking portion provided between the bottom sound blocking portion and a side surface of the bottom material and reducing a horizontal impact wave.

Description

{PLATE FOR SOUND INSULATION}

The present invention relates to an interlayer noise insulating material, and more particularly, to an interlayer noise insulating material capable of alleviating and absorbing horizontal shock waves transmitted through a wall to a vertical shock wave as well as vertical shock waves transmitted through a ceiling of a lower layer.

Currently constructed buildings such as apartment houses are laid with foamed foam or foamed plastic on concrete, and waterproof mortar and ondol stone copper pipes are laid on them as a bubble layer, and finished with finishing materials such as plaster mortar and wood.

However, this structure is transmitted to the lower floor through floor slabs, ceilings or walls when a shock is applied due to human walking or dropping of objects from the upper floors of apartment houses such as apartments, villas and the like.

Such floor impact sounds are largely classified into light weight impact sounds including high frequency components such as dropping sounds of bowls, golf balls, and moving sounds of chairs and desks, weighted impact sounds having high energy of low frequencies such as adult walking, .

The concrete slab, which separates the lower and upper layers, can be said to be primarily responsible for the sound insulation function by blocking the air flow in the upper and lower layers. However, when impact or vibration is applied to the concrete structure with high density, the sound waves are not canceled It has the property of being transmitted to another generation adjacent to the floor or wall.

Recently, as the problem of floor noise has become serious in apartment houses, regulations on housing construction standards have been further strengthened and revised.

In this way, conventional interlayer floor structures are disclosed for minimizing and minimizing the interlayer noise which is seriously raised. This conventional conventional interlayer floor structure has a structure in which a foamed concrete layer is formed on the basis of a concrete slab, A heating pipe and a mortar layer for finishing, and a finish layer made of a decorative material such as monolith, wood, or tile.

A related prior art is Korean Patent Laid-Open Publication No. 2005-0045164 (published on May 17, 2005, entitled " Reducing Material for Preventing Noise between Apartment Halls).

It is an object of the present invention to provide an interlayer noise insulating material capable of alleviating and absorbing horizontal shock waves transmitted to the lower portion through a wall as well as a normal shock wave transmitted to a lower layer ceiling.

Another object of the present invention is to provide an interlayer noise insulating material which can improve a damping performance of a horizontal shock wave by forming a corrugated portion in which a side sound insulating portion is formed as a vertical wave,

The floor noise suppressor according to the present invention comprises: a bottom sound absorber disposed between a concrete slab and a floor material to attenuate vertical shock waves; and a bottom sound absorber and a side sound absorber provided on a side surface of the bottom material to attenuate a horizontal shock wave .

Further, the bottom sound insulating portion is formed of a plurality of layers made of different materials.

Also, the side sound insulating part is formed with a corrugated part so that the horizontal shock waves transmitted from the bottom sound part and the floor material are canceled.

Further, the corrugated part is formed in a vertical waveform.

And a damping material for damping vibration energy transmitted to the side sound insulating part by a horizontal shock wave.

In addition, a return plate formed on at least one of an upper end and a lower end of the bottom shield and the floor shock absorber to return the horizontal shock wave transmitted from the bottom shield and the bottom shield part to the bottom shield and the bottom shield part is formed in the side shield part.

Further, a sound absorbing plate is provided between the side sound absorbing part and the bottom sound absorbing part.

The present invention provides an interlayer noise insulating material capable of alleviating and absorbing horizontal shock waves transmitted through a wall to a vertical shock wave as well as vertical shock waves transmitted to a ceiling of a lower layer.

Another object of the present invention is to provide an interlayer noise insulating material which can improve a damping performance of a horizontal shock wave by forming a corrugated portion in which a side sound insulating portion is formed as a vertical wave,

1 is a construction cross-sectional view of an interlayer noise insulating material according to an embodiment of the present invention.
2 is a perspective view showing a side sound insulating portion of the interlayer noise insulating sound insulating material according to an embodiment of the present invention.
FIG. 3 is a perspective view showing a laminated structure of a side acoustic portion of an interlayer noise insulating material according to an embodiment of the present invention.
4 is a plan sectional view of an interlayer noise insulating material according to an embodiment of the present invention.
5 is a view showing a sound insulating effect of an interlayer noise insulating material according to an embodiment of the present invention.
6 is a construction sectional view showing a modified example of the interlayer noise insulating material according to an embodiment of the present invention.

Hereinafter, an embodiment of an interlayer noise insulating material according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

2 is a perspective view illustrating a side sound insulating portion of an interlayer noise insulating material according to an embodiment of the present invention. FIG. 3 is a cross-sectional view of an embodiment of the present invention 4 is a plan view of the interlayer noise insulating material according to an embodiment of the present invention. FIG. 5 is a cross-sectional view of the interlayer noise insulating material according to an embodiment of the present invention. FIG. 6 is a construction cross-sectional view illustrating a modified example of the interlayer noise insulating material according to an embodiment of the present invention. Referring to FIG.

Referring to FIGS. 1 to 6, an interlayer noise insulating material 100 according to an embodiment of the present invention includes a bottom shield 110 and a side shield 120.

The bottom shroud 110 is provided between the concrete slab 10 and the flooring 20 to attenuate vertical shock waves. The bottom material 20 is provided on the bottom wall of the floor muffler 110 and includes mortar 24 on the top of bubble concrete 22 and mortar 24 on top of the bubble concrete 22, 26 are stacked in a stepwise manner.

The concrete slab 10 is mostly made of reinforced concrete, and the thickness of the concrete slab 10 is generally 150 ~ 210 mm.

The bottom shield 110 may be formed of a plurality of layers made of different materials as shown in FIG. For example, the bottom shield 110 may be formed by stacking a rigid panel, a heat insulating material, a sound insulating sheet, a buffer panel, and the like.

The side shield part 120 is provided on the side of the bottom shield part 110 and the floor material 20 to attenuate the horizontal shock wave. The lateral sound shield 120 is provided between the floor sound absorbing part 110 and the floor material 20 and the wall. That is, the horizontal shock wave, which is a part of the bottom shock wave, is transmitted to the four sides with the bottom surface being prevented from being transmitted to the lower portion through the wall.

As shown in FIG. 2, the lateral sound shield 120 may be formed of a metal plate having a high density or a synthetic resin having a high density. The side shield part 120 is formed with the corrugated part 122 so that the horizontal shock waves transmitted from the bottom shield part 110 and the floor material 20 are canceled. The corrugated portion 122 is formed in a vertical waveform. That is, the thickness of the side sound shield 120 is 0.20 to 0.45 mm, the depth of the corrugated portion 122 is 6 to 15 mm, and the pitch is about 10 to 35 mm.

That is, the corrugated portion 122 serves to minimize the contact area between the wall and the side surface shield 120 to prevent transmission of vibration.

6, the waveform portion 122 of the side sound source 120 may have a horizontal waveform.

The side shield part 120 is provided with a return shock absorbing part 130 which is formed on at least one of the upper and lower ends of the bottom shield 20 and the bottom shield part 110 so as to return the horizontal shock wave transmitted from the bottom shield 20 and the bottom shield part 110, A plate 124 is formed. That is, the side shield 120 includes a return plate 124 and has a 'C' shaped cross-sectional shape as shown in FIGS. 2 and 5. Therefore, the horizontal shock wave transmitted to both sides is returned to the finishing material 26 by the upper return plate 124 and returned to the bottom sound-deadening section 110 by the return plate 124 at the lower end.

The return plate 124 is formed by being bent at the upper and lower ends of the side shield 120, and the lower end is formed to be long.

And a damping material 130 for attenuating the vibration energy transmitted to the side sound shield 120 by the horizontal shock wave. The attenuating member 130 is provided in a space between the corrugated part 122 and the wall, and is made of a silica sand for absorbing and damping the vibration energy horizontally transmitted on the floor.

The vibration of the side shield 120 is converted into the kinetic energy of the attenuator 130 while the vibrations of the side shield 120 are transmitted to the attenuator 130 and are simultaneously vibrated. The vibration is attenuated.

Although not shown, the attenuating member 130 may be provided between the sound absorbing plate 140 and the corrugated portion 122, and may be provided on the front and rear sides with respect to the corrugated portion 122, respectively. When the attenuating material 130 is provided between the sound-absorbing plate 140 and the corrugated portion 122, the product can be modularized and the workability can be improved.

A sound absorbing plate 140 is provided between the side sound absorbing part 120 and the bottom sound absorbing part 110. The sound-absorbing plate 140 is made of a synthetic resin foam that does not contain heavy metals and does not generate volatile organic compounds (VOCs). A resin film 145 is attached to the sound absorbing plate 140 to prevent moisture from penetrating the sound absorbing plate 140 when the foam concrete 22 or the mortar 24 is poured.

Hereinafter, the operation and effect of the interlayer noise insulating material according to an embodiment of the present invention will be described.

First, as for the construction of the interlayer noise insulating material 100 according to the present embodiment, the side sound shielding part 120 is installed on the wall. 4, the side wall portion 120 having the corrugated portion 122 formed as a vertical corrugation is placed in contact with the wall, and the corrugated portion of the corrugated material And a sound absorbing plate 140 is provided on the inner surface side of the side sound absorbing portion 120. [ At this time, a resin film 145 is attached to the sound-absorbing plate 140, and the sound-absorbing plate 140 having a flat plate shape can be fixed by the return plate 124 formed at the upper and lower ends of the side sound-

Since the corrugated portion 122 of the side shield 120 is formed in a vertical corrugated shape, the corrugated portion 122 can be easily bent so as to correspond to each corner of the corridor, thereby improving workability.

Thereafter, a bottom hearth 110 is provided on the concrete slab 10. The bottom shield 110 is formed of a plurality of layers made of different materials as described above. Bubble concrete 22 and mortar 24 are laid on top of the bottom hearth 110 and finish material 26 is provided on the top of the mortar 24 to complete the construction. At this time, the sound absorbing plate 140 may be provided with a resin film 145 to be waterproof.

The lower return plate 124 of the side shield 120 is provided between the concrete slab 10 and the bottom shield 110 and the upper return plate 124 is provided on the top of the finish material 26.

Hereinafter, the sound insulation performance of the interlayer noise insulating material 100 according to the present embodiment will be described. As shown in FIG. 5, when an impact occurs on the floor of the apartment building, a vertical shock wave transmitted to the ceiling of the lower layer and a horizontal shock wave transmitted horizontally along the floor surface are generated.

The vertical shock wave is attenuated by the bottom sound shielding part 110 through the finishing material 26, the mortar 24, and the bubble concrete 22. Since the bottom shield 110 is formed of a plurality of layers made of different materials, shock waves are effectively mitigated or blocked by sound absorption, sound insulation, and attenuation depending on the characteristics of each material.

The horizontal shock wave is horizontally transmitted along the floor material 20 and the floor sound source part 110, and can be mitigated or blocked by the side sound source part 120.

The horizontal shock wave transmitted in the horizontal direction of the bottom cover 20 and the bottom sound shield 110 is transmitted to the side sound shield 120 and the side sound shield 120 is formed with the waveform 122 It is possible to prevent the horizontal shock wave from being directly transmitted to the wall by the spacing action from the wall.

At this time, the sound absorbing plate 140 is formed on the inner surface side of the side sound absorbing part 120 to primarily relax the horizontal shock wave.

The horizontal shock wave transmitted to the side sound shield 120 may be vibrated by the waveform 122 to attenuate vibration. The vibration energy transmitted horizontally is converted into the kinetic energy of the attenuating member 130 to effectively absorb the horizontal shock wave by filling the space formed by the wave part 122 and the wall with the attenuating material 130 made of silica sand, Can be blocked.

In addition, upper and lower ends of the side shield 120 may be provided with a return plate 124 bent inward to return a horizontal shock wave, thereby preventing shock waves from being transmitted to the outside. That is, the vibration transmitted to the side shield 120 is transmitted to the finishing material 26 by the upper return plate 124 and is transmitted to the bottom shield 110 by the lower return plate 124, .

The vertical shock wave is mitigated and blocked by the bottom shield 110 and the horizontal shock wave is converted into kinetic energy by the sound absorbing plate 140, the wave part 122, the damping material 130, the return plate 124, It is possible to mitigate the interlayer noise and to maximize the sound insulation effect.

As described above, according to the present invention, it is possible to mitigate and absorb the horizontal shock waves transmitted to the lower part through the wall, as well as the vertical shock waves transmitted to the ceiling of the lower layer, It is possible to maximize the effect of sound insulation, and it is possible to improve the workability by the structural characteristic.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill 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. I will understand.

Accordingly, the true scope of protection of the present invention should be defined by the claims.

100: Inter-layer noise insulating material 110:
120: side wall portion 122: corrugated portion
124: return plate 130: attenuator
140: sound absorption plate 145: resin film

Claims (7)

A bottom wall provided between the concrete slab and the bottom wall for attenuating vertical shock waves; And
And a side sound insulating part provided on the bottom sound absorbing part and the side surface of the bottom material for attenuating the horizontal shock wave.
The method according to claim 1,
Wherein the bottom sound insulating portion is formed of a plurality of layers made of different materials.
The method according to claim 1,
Wherein the side sound insulating part is formed with a corrugated part so that horizontal shock waves transmitted from the bottom sound part and the floor material are canceled.
The method of claim 3,
Wherein the corrugated portion is formed in a vertical waveform.
The method according to claim 1,
And a damping material for damping vibration energy transmitted to the side sound insulating part by a horizontal shock wave.
The method according to claim 1,
And a return plate formed on at least one of an upper end and a lower end so as to return a horizontal shock wave transmitted from the floor material and the bottom sound insulation part to the floor material and the bottom sound insulation part is formed on the side sound insulation part. .
The method according to claim 1,
And a sound absorbing plate is provided between the side sound absorbing part and the bottom sound absorbing part.

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