KR20220156150A - A slab construction method that reduces the noise between floors of a building - Google Patents

Abstract

The present invention relates to a slab construction method for reducing inter-floor noise of a building, which comprises: a reinforcing bar arrangement process (S1); a formwork forming process (S2); a placing process (S3); an absorption unit assembling process (S10); an absorbing unit arrangement process (S20); and a discharge unit arrangement and connection process (S30).

Description

A slab construction method that reduces the noise between floors of a building}

The present invention relates to a slab construction method for reducing inter-floor noise in a building, and more particularly, an absorption unit is disposed inside a slab of a building and a discharge unit is disposed on a wall or column, and the disposed absorption unit and discharge unit are disposed. are connected to each other through transmission pipes, so noise or vibration generated from the floor (slab) is transmitted to the absorption unit, then transmitted to the discharge unit through the transmission pipe connected to the absorption unit, and is naturally discharged to the room and disappears. It relates to a slab construction method for reducing inter-floor noise in a building that can significantly reduce inter-floor noise in an apartment house by stably preventing noise or vibration generated from the floor from spreading to other adjacent households or lower floors.

In general, buildings such as apartments and apartment houses are constructed with a slab structure, and when noise or vibration generated by people walking or falling objects, such as floor impact sound, is directly applied to the floor, There are characteristics that are passed on to different generations.

Inter-floor noise between the upper and lower floors of apartment houses as described above has emerged as a serious social problem such as murder and arson.

Therefore, recently, in order to reduce inter-floor noise, an attempt was made to reduce inter-floor noise by forming a buffer material such as foamed styrofoam between the foundation floor layer and the aerated concrete layer in the slab of a building, or by forming the thickness of the foundation floor layer thicker, but simply a buffer material It was difficult to expect an effective noise and vibration reduction effect by using a method of forming a thick slab or using a slab.

The present invention has been proposed to solve the various problems described above, and its object is to arrange an absorption unit inside a slab of a building and arrange a discharge unit on a wall or column, and the arranged absorption unit and discharge unit Since it is constructed to be interconnected through the transmission pipe, the noise or vibration generated from the floor (slab) is transmitted to the absorption unit, and then transmitted to the discharge unit through the transmission pipe connected to the absorption unit, so that it is naturally discharged into the room and dissipated. It is to provide a slab construction method that reduces inter-floor noise in a building that can significantly reduce inter-floor noise in an apartment house by stably preventing noise or vibration generated from the floor from spreading to other adjacent households or lower floors.

In order to achieve the above object, the slab construction method for reducing inter-floor noise of a building according to the present invention includes a reinforcement arranging step (S1) for arranging a plurality of lower and upper reinforcements forming the framework of the slab, and constructing the slab. In the slab construction method of a building, including a formwork forming step (S2) of assembling and forming a formwork for building, and a pouring step (S3) of constructing a slab by pouring and curing concrete into the formwork,

An absorption unit assembling process (S10) of assembling and manufacturing at least one lattice-shaped absorption unit by connecting and assembling a plurality of long pipe-shaped absorption pipes having their insides in communication with each other; and, in the rebar arrangement process (S1), the absorption unit is assembled. An absorption unit arrangement step (S20) of arranging at least one unit at the bottom of the lower reinforcing bar or between the lower and upper reinforcing bars or on top of the upper reinforcing bar; A discharge unit arrangement and connection process (S30) of arranging one or more discharge units selected from walls or pillars of a building, or both, so that the disposed discharge unit is connected in communication with the absorption unit through a delivery pipe; Including more,

When the pouring process (S3) is performed, the absorption unit is disposed inside the slab and the discharge unit is disposed on a wall or column so that noise or vibration generated in the slab is transmitted to the absorption unit, and the transmitted noise It is characterized in that the noise or vibration generated in the slab is transmitted to the discharge unit through the transmission pipe and induced to be discharged into the room, preventing the noise or vibration generated from the slab from spreading to the lower floor or to other adjacent households.

In addition, the plurality of absorption pipes constituting the absorption unit are horizontally arranged in a lattice form so that they are uniformly arranged on the slab,

The absorption pipes are connected in solid communication with each other through the connector,

The connector is penetrated inside so that the absorption pipes can be connected to each other in communication with each other, and at least two inlets are formed at the ends into which the ends of the absorption pipes are inserted, and the plurality of absorption pipes are connected through the plurality of connectors. It is characterized in that they are connected in communication with each other.

In addition, it is configured to further include; a fixing unit firmly binding and fixing the absorption pipe inserted into the inlet of the connector,

The fixing part includes an adhesive groove formed on the inner circumference of the inlet of the connector and forming a space with the outer circumferential surface of the absorption pipe entering the inlet, and one or more injection holes formed on the outer surface of the inlet of the connector to communicate with the adhesive groove. It consists of,

When the end of the absorption pipe is inserted into the inlet of the connector, adhesive is injected into the bonding groove through the injection hole so that the connector and the absorption pipe can be firmly bound and fixed to each other by the adhesive force of the adhesive.

In addition, a plurality of supports formed under the absorption pipe or connector of the absorption unit or the absorption pipe and connector to support the absorption unit to have a predetermined height;

In the absorption unit arranging step (S20), the absorption unit is set and disposed at an appropriate height through the support.

In addition, when two or more absorption units are disposed in the absorption unit arrangement process (S20), the absorption units are connected in communication with each other through at least one connection pipe.

As described above, according to the slab construction method for reducing noise between floors of a building according to the present invention, an absorption unit is disposed inside the slab of the building and a discharge unit is disposed on a wall or column, and the disposed absorption unit and discharge unit are connected to each other through transmission pipes, so noise or vibration generated from the floor (slab) is transmitted to the absorption unit, then transmitted to the discharge unit through the transmission pipe connected to the absorption unit, and is naturally discharged to the room and disappears. It has the effect of significantly reducing noise between floors in an apartment building by stably preventing noise or vibration generated from the floor from spreading to other adjacent households or downstairs.

1 is a block diagram of a slab construction method in which noise between floors of a building is reduced according to an embodiment of the present invention.
2 is a view for explaining a slab construction method in which noise between floors of the building shown in FIG. 1 is reduced;

A slab construction method in which noise between floors of a building is reduced according to a preferred embodiment of the present invention will be described in detail based on the accompanying drawings. Detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 and 2 show a slab construction method for reducing noise between floors of a building according to an embodiment of the present invention, and FIG. 1 is a block of a slab construction method for reducing noise between floors of a building according to an embodiment of the present invention. FIG. 2 is a drawing for explaining a slab construction method in which inter-floor noise is reduced in the building shown in FIG. 1, respectively.

As shown in FIG. 1, the slab construction method 100 in which noise between floors of a building is reduced according to an embodiment of the present invention includes a plurality of lower and upper reinforcing bars 1a and 1b forming the skeleton of the slab 1. A reinforcing bar arrangement process (S1) for placing, a formwork forming process (S2) for assembling and forming a formwork for constructing a slab (1), and a casting process for constructing a slab (1) by pouring and curing concrete into the formwork ( In the slab construction method of a building including S3),

It further includes an absorption unit assembling process (S10), an absorption unit arrangement process (S20), and a discharging unit arrangement and connection process (S30).

As shown in FIGS. 1 and 2A , in the absorption unit assembling process (S10), a plurality of long pipe-shaped absorption pipes 11 penetrated inside are connected and assembled to communicate with each other to form a lattice-shaped absorption unit 10. It is the process of assembling at least one or more.

Here, the absorption unit 10 is assembled and transported to a construction site in a state of assembly and construction from the outside so that it can be conveniently used at the site. Of course, it can be directly assembled and manufactured on site.

The absorption unit 10 fabricated and assembled as described above arranges a plurality of absorption pipes 11 horizontally in a lattice form so that they can be uniformly arranged on the slab 1. At this time, the absorption pipes 11 are connected to the connector ( 40) so that they are firmly connected to each other through.

Here, as shown in FIG. 2A, the connector 40 penetrates the inside so that the absorption pipe 11 can communicate with each other, and the end of the absorption pipe 11 is inserted into the inlet 41 ) are formed at least two, and the plurality of absorption pipes 11 are connected in communication with each other through the plurality of the connectors 40.

In the slab construction method 100 in which noise between floors of a building of the present invention is reduced, a plurality of absorption pipes ( 11) are connected in communication with each other, but it is of course not possible to implement and use only the connector 40 limited to the number of such inlets 41.

Therefore, the user can simply assemble and use the lattice-shaped absorption unit 10 by inserting and fixing the absorption pipe 11 to the inlet 41 of the connector 40.

In addition, a fixing part 50 for firmly binding and fixing the absorption pipe 11 inserted into the inlet 41 of the connector 40; is configured to further include,

The fixing part 50 includes an adhesive groove 51 formed on an inner circumference of the inlet 41 of the connector 40 and forming a space with an outer circumferential surface of the absorption pipe 11 entering the inlet 41, It is configured to include one or more injection holes 52 formed to communicate with the adhesive groove 51 on the outer surface of the inlet 41 of the connector 40.

That is, when the absorption pipe 11 is inserted into the inlet 11 of the connector 40 to interconnect the absorption pipes 11, the fixing portion formed at the inlet 41 of the connector 40 The adhesive is injected and hardened into the adhesive groove 51 through the injection hole 52 of (50), so that the absorption pipe 11 inserted into the inlet 41 of the connector 40 is very firmly due to the adhesive strength of the adhesive. It induces binding to be fixed.

Therefore, the separation and detachment of the absorption pipe 11 from the connector 40 due to the pressure of the concrete poured to construct the slab 1 is prevented in advance, thereby enhancing the structural safety of the absorption unit 10. Let it be.

As shown in FIGS. 1 and 2B, in the absorption unit arrangement step (S20), in the reinforcement arrangement step (S1), the absorption unit 10 is placed at the bottom of the lower reinforcement 1a or the lower and upper reinforcement 1a, It is a process of arranging at least one or more between 1b) or on top of the upper reinforcing bars 1b.

Here, when a plurality of absorption units 10 are used and arranged in consideration of the size (width) of a building, the absorption units 10 are connected in communication with each other through at least two connection pipes 70 to Noise or vibration transmitted to (10) is induced to be easily transmitted to other adjacent absorption units (10) through the connection pipe (70).

In addition, as shown in FIG. 2B, a plurality of supports 60 are formed under the absorption pipe 11 or the connector 40 or the absorption pipe 11 and the connector 40 of the absorption unit 10. In the absorption unit arranging process (S20), the absorption unit 10 is set and disposed at an appropriate height through the support 60.

In the slab construction method 100 in which noise between floors of a building of the present invention is reduced, the height is set so that the absorption unit 10 is disposed between the lower and upper reinforcing bars 1a and 1b through the support 60, but this height Of course, the height of the absorption unit 10 is not limited to .

As shown in FIGS. 1 and 2C, in the discharging unit arrangement and connection process (S30), at least one discharging unit 20 having an open discharging port 21 is formed in the shape of a long pipe through which the inside is penetrated, and the discharging unit 20 is formed at the top of the building. It is a process of disposing one or both selected from the walls 2 or pillars, and disposing the discharging unit 20 so as to communicate with the absorption unit 10 through the delivery pipe 30.

Here, the process of arranging the discharging unit 20 and connecting the discharging unit 20 and the absorption unit 10 with the transfer pipe 30 is performed together in the absorption unit assembling process (S10). , In the absorption unit arrangement process (S20), after the absorption unit 10 is placed on the site, it can be properly assembled and installed in consideration of the position of the wall 2 or pillar.

Then, after forming the formwork of the wall 2 and the column with the slab 1 through the formwork forming step S2 and the casting step S3, the concrete is poured and cured to form the wall with the slab 1 ( 2) and pillars are built, and since this process is usually a process of building a building, a detailed description thereof will be omitted.

That is, when the pouring process (S3) is completed, as shown in FIG. 2D, the absorption unit 10 is disposed inside the slab 1 and the discharge unit 20 is placed on the wall 2 or column. is placed on

Therefore, as shown in FIG. 2E, noise or vibration generated in the slab 1 is transmitted to the absorption unit 10, and the transmitted noise or vibration is transferred to the discharge unit 20 through the transmission pipe 30. ) and is induced to be discharged into the room, it is possible to effectively reduce inter-floor noise by preventing noise or vibration generated from the slab 1 from spreading to the lower floor or to other adjacent households.

Here, it is preferable to make the thickness of the absorption pipe thin so that the noise and vibration generated in the slab 1 can be easily introduced (absorbed) into the absorption pipe 11. The thickness of the absorption pipe 11 If it is too thin, the durability of the absorption pipe 11 is lowered and may be damaged or damaged by the pressure of the concrete poured to build the slab 1, so a plurality of reinforcing spokes 80 are formed on the absorption pipe 11. Thus, it is preferable to secure the durability of the absorption pipe 11 and at the same time ensure excellent noise and vibration absorption and transmission functions.

In the slab construction method 100 in which inter-floor noise of a building according to an embodiment of the present invention having the configuration described above is reduced, a slab is constructed as follows to eliminate inter-floor noise.

First, as shown in FIG. 2A , a plurality of absorption pipes 11 are connected and assembled from the outside in communication with each other through connectors 40 to conveniently manufacture a lattice-shaped absorption unit 10 .

At this time, the absorption pipe 11 inserted into the inlet 41 of the connector 40 is tightly bound and fixed through the fixing part 50 . (S10)

Then, as shown in FIG. 2B, after transporting the assembled absorbent unit 10 to a construction site, the lower and upper reinforcing bars 1a and 1b performing the skeleton function of the slab 1 are placed. In the process, the absorption unit 10 is placed together, and at this time, it is positioned between the lower and upper reinforcing bars 1a and 1b through the support 60 formed on the absorption unit 10.

Here, when two or more absorption units 10 are used in arrangement, the absorption units 10 are interconnected through a connecting pipe 70. (S1), (S20)

Then, as shown in FIG. 2C, the delivery pipe 30 connected to the absorption unit 10 and the discharge unit 20 connected to the delivery pipe 30 are assembled and installed. At this time, the discharge unit ( 20) should be placed considering the location of the wall or column to be built. (S30)

Then, as shown in FIG. 2D, after installing the formwork to construct the slab 1, the wall 2, and the column, the concrete is poured and cured with the installed formwork to form the slab 1 and the wall 2 ) and pillars are built so that the absorption unit 10 is placed inside the slab 1 and the discharge unit 20 is placed inside the wall 2 or on the pillar. (S2), (S3)

As shown in FIG. 2E, noise or vibration generated from the floor (slab: 1) in the constructed state is transmitted to the absorption unit 10, and the transmitted noise or vibration is transferred to the transmission pipe 30. ) through the discharge unit 20 and can be discharged into the room, so noise between floors in a building such as an apartment building can be significantly reduced.

Here, the discharge port 21 of the discharge unit 20 is configured to be exposed to the outside, so that noise or vibration transmitted to the discharge unit 20 can be effectively discharged and eliminated.

In the slab construction method 100 in which inter-floor noise of a building is reduced according to the above process, the absorption unit 10 is disposed inside the slab 1 of the building and the emission is performed on a wall 2 or a pillar. The unit 20 is arranged, and since the arranged absorption unit 10 and discharge unit 20 are connected to each other through the transmission pipe 30, noise or vibration generated from the floor (slab: 1) After being transferred to the absorption unit 10, it is transferred to the discharge unit 20 through the delivery pipe 30 connected to the absorption unit 10, and is naturally discharged into the room, leading to disappearance and generation on the floor. It has the effect of significantly reducing inter-floor noise in an apartment building by stably preventing noise or vibration from spreading to other adjacent households or downstairs.

The present invention has been described with reference to the embodiments shown in the accompanying drawings, but these are illustrative and not limited to the above-described embodiments, and those skilled in the art can make various modifications and equivalent embodiments therefrom. you will understand the point. In addition, of course, modifications by those skilled in the art are possible within a range that does not impair the spirit of the present invention. Therefore, the scope claimed in the present invention will not be determined within the scope of the detailed description, but will be limited by the claims described later and their technical spirit.

1. Slab 1a. bottom rebar
1b. Upper rebar 2. Wall
10. Absorption unit 11. Absorption pipe
20. Exhaust unit 21. Exhaust port
30. Transmission pipe 40. Connection
41. Entrance 50. Fixing part
51. Adhesion groove 52. Injection hole
60. Support 70. Connecting pipe
80. Reinforced meat
S1. Rebar placement process S2. Formwork Forming Process
S3. pouring process
S10. Absorption unit assembly process
S20. Absorption unit arrangement process
S30. Discharge unit arrangement and connection process
100. Slab construction method to reduce noise between floors of buildings

Claims (5)

The skeleton of the slab 1 includes a reinforcing bar arrangement process (S1) for arranging a plurality of lower and upper reinforcing bars (1a, 1b) and a formwork forming process (S2) for assembling and forming a formwork for constructing the slab (1) And, in the slab construction method of a building comprising a pouring step (S3) of constructing a slab (1) by pouring and curing concrete into the formwork,
an absorption unit assembling process (S10) of assembling and manufacturing at least one lattice-shaped absorption unit 10 by connecting and assembling a plurality of long pipe-shaped absorption pipes 11 penetrating the inside so as to communicate with each other;
In the reinforcing bar arrangement step (S1), at least one absorption unit 10 is disposed below or below the lower reinforcing bar 1a and between the upper reinforcing bars 1a and 1b or above the upper reinforcing bar 1b. Batch process (S20); and
At least one or more discharge units 20 having a discharge port 21 open at the top in the shape of a long pipe through which the inside is penetrated are disposed, and any one or both of them selected from the wall 2 or the column of the building is disposed, and the disposed discharge unit 20 is disposed. The unit 20 further includes a discharging unit arrangement and connection process (S30) so that the unit 20 is connected in communication with the absorption unit 10 through the transfer pipe 30.
When the pouring process (S3) is performed, the absorption unit 10 is disposed inside the slab 1 and the discharge unit 20 is disposed on the wall 2 or pillar to generate The noise or vibration is transmitted to the absorption unit 10, and the transmitted noise or vibration is transmitted to the discharge unit 20 through the transmission pipe 30 to be discharged into the room and generated in the slab 1. A slab construction method in which inter-floor noise of a building is reduced, characterized in that it prevents the spread of noise or vibration to the lower floor or to other adjacent households.
According to claim 1,
The plurality of absorption pipes 11 constituting the absorption unit 10 are horizontally arranged in a lattice form to guide them to be uniformly arranged on the slab 1,
The absorption pipe 11 is firmly connected to each other through the connector 40,
The connector 40 is penetrated inside so that the absorption pipe 11 can be connected to each other in communication with each other, and at least two inlets 41 into which the ends of the absorption pipe 11 are inserted are formed at the end,
A slab construction method in which noise between floors of a building is reduced, characterized in that the plurality of absorption pipes (11) are connected in communication with each other through a plurality of the connectors (40).
According to claim 2,
It is configured to further include; a fixing part 50 for firmly binding and fixing the absorption pipe 11 inserted into the inlet 41 of the connector 40,
The fixing part 50,
An adhesive groove 51 formed on the inner circumference of the inlet 41 of the connector 40 and forming a space with the outer circumferential surface of the absorption pipe 11 entering the inlet 41;
It is configured to include one or more injection holes 52 formed in communication with the adhesive groove 51 on the outer surface of the inlet 41 of the connector 40,
When the end of the absorption pipe 11 is inserted into the inlet 41 of the connector 40, the adhesive is injected into the bonding groove 51 through the injection hole 52 to connect the connector 40 and the absorption pipe ( 11) A slab construction method in which noise between floors of a building is reduced, characterized in that it can be firmly bound and fixed to each other with the adhesive strength of the adhesive.
According to claim 2,
A plurality of absorbent pipes 11 or connectors 40 of the absorption unit 10 or formed under the absorber pipes 11 and connectors 40 to support the absorption unit 10 to have a predetermined height. Support 60; further including,
A slab construction method in which noise between floors of a building is reduced, characterized in that in the absorption unit arrangement step (S20), the absorption unit (10) is set and disposed at an appropriate height through the support (60).
According to claim 1,
When two or more absorption units 10 are disposed in the absorption unit arrangement process (S20), the absorption units 10 are connected in communication with each other through at least one connection pipe 70 between floors of a building, characterized in that A slab construction method that reduces noise.

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