KR101723976B1 - Building having double slave - Google Patents

Abstract

A building to which a noise isolation double slab structure is applied is disclosed. A building to which the noise isolation double slab structure of the present invention is applied includes a noise blocking portion provided on a building slab to block noise; A bottom slab provided at an upper portion of the noise blocking portion; A connecting member for connecting the wall portion reinforcing member provided on the wall portion of the building and the floor slab reinforcing member provided on the floor slab to connect the floor slab to the wall portion of the building; And a finishing portion provided on an upper portion of the bottom slab portion.

Description

{BUILDING HAVING DOUBLE SLAVE}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a building to which a noise isolation double slab structure is applied, and more particularly, to a building having a dual structure of a slab of a building to which noise is shut off, .

Generally, multi-storey buildings such as apartments, multi-family houses, tenement houses, office buildings and buildings are separated by concrete slabs between the upper and lower floors, and these concrete slabs are used as the ceiling in the lower floor and as the floor in the upper floor.

Therefore, floor construction is carried out so that it can be used as a floor at the upper part. That is, the styrofoam for the insulation and the heating pipe is installed on the concrete slab, the foam concrete is placed on the styrofoam, the heating pipe is installed on the concrete slab, and finally the floor work is completed by performing the mortar mortar.

However, even if the floor construction is carried out on such a concrete slab, when impact or friction is applied to the floor due to the walking of the person, the falling of the object or the movement of the housing, the impact sound and the friction sound are transmitted through the concrete slab There is a problem that noise pollution due to interlayer noise is serious.

The interlayer noise is generally classified into a light impact sound including falling noise of a high frequency component such as a dropping impact sound such as an object or a moving fricative sound of a house, and a heavy impact sound of a low frequency component mainly caused by an adult walking or a child jumping do.

Especially, recently, the problem of the interstory noise is seriously raised, and the regulations on the housing construction standards for the interlayer noise are greatly strengthened. In other words, the construction is to be carried out with a recognized bottom structure satisfying a light impact sound of 58 decibels (dB) or less and a weight impact sound of 50 decibels (dB) or less, or a standard bottom structure determined and announced by the Minister of Construction and Transportation.

Generally, the technology for reducing the interlayer noise can be classified into two types. First, it is a wet floated structure, and second is a double floor structure.

The wet floored structure is constructed in the existing multi - story building. In order to reduce adiabatic and floor impact sound on the concrete slab, a heat insulation cushion of 20 ~ 30 ㎜ level is installed on the floor front, , And finish mortar are sequentially installed.

Insulating cushion of floored structure is cheap, easy to install, and has excellent ability to reduce light weight impact noise. However, cushioning material at 20 ~ 30 ㎜ level has almost no effect on reduction performance of heavy impact sound Proved.

On the other hand, a dual floor structure is proposed as an alternative for more effectively reducing the above-mentioned heavy impact sound. The double floor structure basically supports the ondol layer composed of the heating piping and the finishing mortar layer on the slab so as to minimize the path of the impact energy transferred from the finishing mortar layer to the slab, It is possible to add a larger concentrated load to the placed anti-vibration material, thereby making it possible to design a structure having more excellent vibration damping performance and excellent floor impact sound reduction performance.

However, the double bottom structure described above has a problem that it is difficult to maximize the performance of the anti-vibration rubber mount because the bottom layer is thin when applied to a multi-family house, and therefore it is difficult to expect a high-performance structure having a first-

In addition, since the support plate must be maintained horizontally for the smoothness of the heating pipe and the structural stability of the finish mortar layer, there are various difficulties in construction and cost, and structural stability and long-term durability have not been verified.

Korean Registered Patent No. 10-0671455 (Tae Won Comprehensive Engineering Team Architectural Office) 2007. 01. 12.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a structure using a double slab structure to block noise and securely fix a slab.

According to an aspect of the present invention, there is provided a noise reduction device comprising: a noise blocking part provided on a building slab to block noise; A bottom slab provided on an upper portion of the noise blocking portion; A connecting member connecting the bottom slab to the wall portion of the building by connecting the bottom slab to the bottom slab reinforcing member provided on the bottom slab, and a building slab reinforcing member provided in the height direction of the building; And a finishing portion provided on an upper portion of the bottom slab, may be provided.

Wherein the noise shielding part comprises: a heat insulating member provided on an upper portion of the building slab; And a plywood provided on the upper portion of the heat insulating member.

When the moisture contained in the plywood is dried, a clearance may be generated between the heat insulating member and the bottom slab to block the noise.

The heat insulating member may include styrofoam.

The connecting member may include a deformed reinforcing bar.

And a rubber member provided between the end portion of the finishing portion and the wall portion of the building.

A ceiling panel provided on the bottom of the building slab; And a sound absorbing material provided between the ceiling tile and the building slab, wherein the ceiling tile is provided in a truss shape.

In the embodiments of the present invention, the building slab is provided with a noise shielding portion for shielding noise, and a floor slab is provided at an upper portion of the noise shielding portion, so that noise transmitted through the finishing portion provided at the upper portion of the floor slab is not transmitted to the building slab It is transmitted to the wall of the building and is destroyed, so that the noise transmitted to the lower layer can be blocked.

Also, since the bottom slab provided on the upper portion of the building slab is connected to the wall reinforcing member provided on the wall by the connecting member, the bottom slab can be stably fixed.

FIG. 1 is a cross-sectional view schematically illustrating a main part of a building to which a noise isolation double slab structure according to an embodiment of the present invention is applied.
FIG. 2 is a view schematically showing a connection member disposed on an upper portion of the building slab shown in FIG. 1. FIG.
3 is a use state diagram of this embodiment.
FIG. 4 is a cross-sectional view schematically showing a main part of a building to which a noise isolation double slab structure according to another embodiment of the present invention is applied.

As shown in these drawings, the building 1 to which the noise isolation double slab structure according to the present embodiment is applied includes a noise blocking portion 100 provided on the building slab 10 to block noise, a noise blocking portion 100 And a floor slab reinforcing member 210 provided on the floor slab 200 to connect the floor slab 200 and the floor slab 200. The floor slab 200 is connected to the wall slab 200, A rubber member 500 provided between the end portion of the finishing portion 400 and the wall portion of the building, a connecting member 300 for fixing the wall portion of the building to the wall portion of the building, a finishing portion 400 provided at the upper portion of the bottom slab 200, And a ceiling tile 600 provided on the bottom of the building slab 10.

As shown in FIG. 1, the noise blocking unit 100 is provided between the building slab 10 and the floor slab 200 so that noise transmitted to the floor slab 200 is transmitted to the building slab 10 It serves as a barrier to the wall of the building. As a result, the noise transmitted to the bottom slab 200 is not transmitted to the lower layer but is destroyed at the wall portion.

1, the noise blocking unit 100 includes a heat insulating member 110 provided on an upper portion of a building slab 10, a plywood 120 provided on an upper portion of the heat insulating member 110, ).

The heat insulating member 110 of the noise shielding part 100 includes styrofoam and functions to maintain a space between the building slab 10 and the floor slab 200.

In addition, in the present embodiment, the styrofoam used as the heat insulating member 110 is provided with a plurality of pores, and when noise is transmitted through the styrofoam, a part of the noise can be canceled by the plurality of pores.

Further, in this embodiment, a tape or the like can be attached to the edge of the heat insulating member 110 so as to prevent a gap from being generated between the plural heat insulating members 110. This is because when a gap is formed between the heat insulating members 110 while the concrete is being poured into the upper part of the heat insulating member 110 and the concrete penetrates through the gap, the building slab 10 and the floor slab 200 are connected to each other, In order to prevent them from being transmitted.

The plywood 120 of the noise shielding part 100 pays the weight of the initial concrete when the concrete is laid to provide the floor slab 200.

In this embodiment, the plywood 120 may contain a certain amount of moisture. In this embodiment, the moisture contained in the plywood 120 may be different from the moisture permeated into the plywood 120 when concrete is laid to provide the bottom slab 200.

That is, in this embodiment, before the plywood 120 is installed, the plywood 120 is immersed in water so that the plywood 120 contains sufficient water or the water is sprayed to the plywood 120, .

If the plywood 120 contains water as in the present embodiment, water contained in the plywood 120 is dried, and a clearance is generated between the heat insulating member 110 and the bottom slab 200 to naturally provide a space. The present embodiment is advantageous in that the noise transmitted to the noise blocking portion 100 by the space portion can be blocked separately from the noise blocking portion 100.

1, the floor slab 200 may be provided by placing concrete on the upper portion of the noise blocking portion 100. [

In this embodiment, the bottom slab 200 may be provided on the top of the noise isolation part 100 using the bottom slab reinforcing member 210, as shown in FIG.

In this embodiment, the bottom slab 200 may be fixed to the wall of the building using the connecting member 300, as shown in FIG.

That is, this embodiment can fix the floor slab 200 to the wall portion of the building by fixing the floor slab reinforcement member 210 inside the floor slab 200 to the wall reinforcement member 30 provided at the wall portion of the building have. For reference, the building slab reinforcing member 20 provided on the building slab 10 may be fixed to the wall reinforcing member 30 by a wire or the like.

In this embodiment, the bottom slab reinforcing member 210 and the wall reinforcing member 30 may be fixed to each other by using wires before placing the concrete on the top of the noise blocking portion 100.

The connecting member 300 connects the bottom slab reinforcement member 210 of the floor slab 200 and the wall reinforcement member 30 of the building wall portion which are spaced apart from each other as shown in Fig. To the wall portion.

In this embodiment, the connecting member 300 includes deformed reinforcing bars, and the bottom slab reinforcing member 210 and the wall reinforcing member 30 may be sufficiently overlapped.

In this embodiment, the connecting member 300 is disposed between the wood 50 and the Euroform 40, as shown in FIG. 2, and may be disposed before the bottom slab 200 is provided.

The finishing portion 400 is finished by covering the upper portion of the bottom slab 200. In this embodiment, the finishing portion 400 includes a plurality of A hot water pipe 410 and a finishing mortar 420 installed on the top of the bottom slab 200.

1, the rubber member 500 is provided between the end portion of the finishing mortar 420 and the wall portion of the building to prevent the impact applied to the finishing portion 400 from being transmitted directly to the wall portion of the building .

In this embodiment, the rubber member 500 may be fitted between the end portion of the finishing mortar 420 and the wall portion of the building in a fitting manner, or may be combined using an adhesive.

The ceiling panel 600 can be coupled to the wall of the building, as shown in Fig.

3 is a use state diagram of this embodiment.

Hereinafter, the use state of the present embodiment will be briefly described with reference to FIG.

If noise is generated in the upper layer after installing the double slab as in the present embodiment, the noise can not be transmitted to the wall of the building and the floor slab 200 without sounding the building slab. In this embodiment, the wall portion of the building and the floor slab 200 intersect with each other in several ways, so that noise can be absorbed and destroyed.

FIG. 4 is a cross-sectional view schematically showing a main part of a building to which a noise isolation double slab structure according to another embodiment of the present invention is applied.

4, the ceiling panel 600 is provided in a truss structure, and a sound absorbing material 60 is disposed between the ceiling panel 600 and the building slab 10, as shown in FIG. 4, The present invention is different from the above-described embodiment in that a ceiling panel 600 is provided with a finishing material 800 on the lower side thereof.

In this embodiment, the ceiling panel 600 comprises a pair of spaced apart horizontal louvres 610 provided on the wall of the building slab 10 so as to be spaced apart from the bottom of the building slab 10, A plurality of vertical lanes 620 connecting the pair of horizontal lanes 610 and a plurality of diagonal lanes 630 joined in a diagonal direction to the pair of horizontal lanes 610.

In this embodiment, a horizontal month ladder 610 located at an upper portion of a pair of horizontal month lanes 610 is provided so as to be spaced apart from the building slab 10 to form a noise blocking space, , As shown in FIG. 4, there is an advantage that the sound absorbing material 700 is provided to more effectively block the noise.

As described above, according to the present embodiment, the building slab is provided with a noise shielding portion for shielding noise, and a floor slab is provided at the upper portion of the noise shielding portion, so that noise transmitted through the finishing portion provided at the upper portion of the floor slab, It is transmitted to the wall portion of the building without being transmitted, so that the noise transmitted to the lower layer can be blocked.

Also, since the bottom slab provided on the upper portion of the building slab is connected to the wall reinforcing member provided on the wall by the connecting member, the bottom slab can be stably fixed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

1,1a: Building with noise-cut double slab structure
100: Noise blocking member 110:
120: plywood 200: bottom slab
210: bottom slab reinforcing member 300: connecting member
400: Finishing part 410: Hot water pipe
420: Finishing mortar 500: Rubber member
600: Ceiling tile 610: Horizontal tile
620: Vertical timber 630: Shooting timber
700: Sound absorbing material 800: Finishing material
10: building slab 20: building slab reinforcement member
30: wall steel member 40: euro foam
50: Wood

Claims (7)

A noise barrier provided on the building slab to block noise;
A bottom slab provided on an upper portion of the noise blocking portion;
A connecting member for connecting the wall member reinforcing member provided on the wall of the building and the floor slab reinforcing member provided on the floor slab to fix the floor slab to the wall of the building; And
And a finishing portion provided on an upper portion of the bottom slab portion,
Wherein the noise shielding portion includes a heat insulating member provided on an upper portion of the building slab and a plywood provided on an upper portion of the heat insulating member,
Wherein water is contained in the plywood and, when moisture contained in the plywood is dried, a clearance is generated between the heat insulating member and the bottom slab to block the noise. delete delete The method according to claim 1,
Wherein the heat insulating member comprises styrofoam. The method according to claim 1,
Wherein the connecting member comprises a deformed reinforcing bar. The method according to claim 1,
And a rubber member provided between the end portion of the finishing portion and the wall portion of the building, wherein the noise blocking double slab structure is applied. The method according to claim 1,
A ceiling panel provided on the bottom of the building slab; And
Further comprising a sound absorbing material provided between the ceiling tile and the building slab,
Wherein the ceiling ladder is provided in a truss shape.

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