KR20160002148A - Noise reduction devices for construction - Google Patents

Abstract

[0001] The present invention relates to an interlayer noise preventing apparatus for installing and removing noise in an interlayer noise by installing and installing on a concrete positioned between layers of a building, and more particularly, 10) and an upper cover plate (30) coupled to an upper portion of the lower support plate, wherein the upper interlayer noise preventing means (100) for forming the partition space inside the lower support plate into a non- Layer noise preventing means 200 in which the sound absorbing member 220 is installed in the inner space portion is installed in a double structure on the concrete upper surface 310 and the lower surface 320 located between the layers of the building, So that the effect of preventing noise between layers is further improved by absorbing noise in multiple stages.

Description

{Noise reduction devices for construction}

The present invention relates to an interlayer noise preventing device for absorbing and dissipating interlayer noise by installing and installing on a concrete positioned between layers of a building. More specifically, the present invention relates to an interlayer noise- Upper interlayer noise preventing means for connecting the plates to each other and forming a partition space inside the lower receiving plate in a non-orthogonal structure; and a lower interlayer noise preventing means provided with a sound absorbing member inside the sound absorbing box, The present invention relates to an interlayer noise preventing device for a building, which improves the effect of preventing the interlayer noise by providing a double structure on the upper and lower surfaces to dissipate the interlayer noise by multi-stage sound absorption.

Recently, the problem of interlayer noise has become a serious social problem in multi - family houses such as multi - family houses and apartments.

The interlayer noise is that the impact sound generated in each layer generation is transmitted to the adjacent generation through the bottom (or ceiling) of the concrete structure and the wall.

Particularly, the apartment house in Korea has an Ondol floor structure including a slab layer, a heat insulation layer on the upper slab, a lightweight concrete or foam concrete layer, a heating coil layer and a finish mortar layer, Since the construction is carried out using foamed styrofoam, which is effective, the construction is performed without using any additional noise shielding material.

A number of techniques have been proposed to solve the problem of interlayer noise.

For example, there is a method of providing a shielding layer in which a waste tire crushing material, acryl, urethane or the like is mixed with concrete placed between the layers of a building to prevent the concrete from being absorbed into the concrete layer. There is a method of constructing an interlayer noise material such as PE, PP, PS, etc., which has a problem in that it can not solve the amplification sound phenomenon due to the reproduction of the volume of the remaining sound field due to the noise shielding.

In order to solve such problems of the prior art, the present applicant has previously filed and filed a patent application No. 10-2014-01257 for an interlaminar noise preventing device, which comprises a lower pedestal plate And an upper cover plate coupled to the upper part of the lower support plate, and is installed on the upper surface of the concrete positioned between the layers of the building to dissipate the interlayer noise by sound absorption

However, the applicant of the present application has a problem that the effect of preventing the interlayer noise is limited because the interlayer noise preventing device is installed in a single structure on the upper surface of the concrete located between the layers of the building.

In addition, the applicant's prior art described above divides the compartment space in the lower support plate into a standard shape with a checkerboard or honeycomb shape, so that the sound absorption of the interlayer noise by the sound insulation is smooth, The noise vibration is not canceled due to the phenomenon that the noise vibration concentrated at one place (the center of the lower support plate) due to the divided space of the standardized standard.

Patent Application No. 10-2014-01257

The present invention has been made to solve the problems of the prior art described above and the applicant's prior application, and it is an object of the present invention to provide an air conditioner in which an upper cover plate is coupled to an upper part of a lower part plate, An upper interlayer noise preventing means for forming an internal compartment space in an irregular structure and a lower interlayer noise preventing means in which a sound absorbing member is installed inside the sound absorbing box are provided on the upper and lower surfaces of the concrete, So that the interlaminar noise is prevented from being absorbed in a multistage manner, and thus the effect of preventing the interlaminar noise is further improved.

In the present invention, since the filling grooves filled with the sound absorbing and insulating material are formed in the lower support plate of the upper interlayer noise preventing means, the noise absorbing and dispersing noise vibrations are dispersed in one place, And an object of the present invention is to further improve the noise preventing effect by dispersing the vibration by supporting and supporting the excel pipe at the upper portion of the upper cover plate by the protruding step portion.

The present invention is characterized in that it comprises a lower support plate for filling a sound absorbing and thermal insulating material into an inner compartment space and an upper cover plate coupled to an upper portion of the lower support plate, And a sound absorbing member is installed in the inner space of the sound absorbing box to constitute a lower layer noise preventing means so that a double structure is provided on the upper and lower surfaces of the concrete located between the layers of the building so as to absorb the interlayer noise in multiple stages It is characterized by its construction.

The upper interlaminar noise preventing means includes left and right filling grooves formed by dividing and filling filling grooves having different sizes on both sides thereof as divided spaces inside the lower receiving plate, an X-shaped supporting member connecting the corner points of both upper and lower sides with each other, A central filling groove formed by arranging filling grooves by a + -shaped supporter connecting the central points of both sides and the upper and lower portions to each other is formed in a non-orthopedic structure, and a protrusion And a step portion is formed.

According to an embodiment of the present invention, the sound-absorbing member of the lower layer-to-layer sound-deadening means is constituted by a sound-absorbing panel having a sound-absorbing material and a hollow portion inside thereof in a vertically stacked structure or a sound-absorbing material or a sound-absorbing panel alone.

The present invention is characterized in that the upper interlayer noise preventing means for joining the upper cover plate to the upper portion of the lower receiving plate for filling the sound absorbing and insulating material into the divided spaces, respectively, The soundproofing means of the lower layer installed with a sound absorbing member is installed in a double structure on the upper and lower surfaces of the concrete positioned between the layers of the building to reduce the interlayer noise by multi- .

Particularly, since the filling grooves filled with the sound absorbing and insulating material are formed in the lower support plate of the upper interlayer noise preventing means, the noise absorbing and dispersing noise vibrations are dispersed in one place, It is possible to disperse the vibration by supporting and supporting the excel pipe at the upper portion of the upper cover plate in a spaced apart state by the protruding step, thereby further improving the noise preventing effect.

1 is a sectional view showing the upper interlayer noise preventing means of the present invention.
Fig. 2 is an exploded sectional view of Fig. 1; Fig.
Fig. 3 is an exploded perspective view of the essential portion of Fig. 1; Fig.
4 is a plan view showing the bottom plate of the present invention.
Fig. 5 is a bottom view of Fig. 4; Fig.
6 is a plan view showing the upper cover plate of the present invention.
7 is a sectional view showing the lower interlayer noise preventing means of the present invention.
8 is an exploded sectional view of Fig.
Figs. 9 and 10 are cross-sectional views showing another embodiment of Fig. 7;
11 is a sectional view showing a construction state of the apparatus of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 11, the apparatus for preventing noise between buildings of the present invention comprises a lower support plate 10 for filling a sound-absorbing and thermal insulating material 20 into an internal compartment space, and an upper cover plate 30), wherein the upper interlayer noise preventing means (100) for forming the compartment space in the lower support plate into a non-fixed structure,

Layer noise preventing means 200 in which a sound absorbing member 220 is installed in an inner space portion of the sound absorbing box 210 to construct a concrete upper surface 310 and a lower surface 320 located between the layers of the building It is installed in a double structure so that the interlayer noise is absorbed in multiple stages.

The upper interlayer noise preventing means 100 includes left and right filling grooves 11 and 11 'formed by dividing and arranging fill grooves having different sizes on both sides thereof as partition spaces inside the lower foot plate 10, And a central filling groove 12 in which filling grooves 12a are formed by arranging the X-shaped supporting members 13 connecting the corner points of the upper and lower portions and the + And a protruding step portion 31 on which an excel pipe is seated is formed on an upper portion of the upper cover plate 30.

At this time, the left and right filling grooves 11 and 11 'inside the lower pedestal plate 10 are divided into the A type filling grooves 11a and the B type filling grooves 11b having a half size of the A type filling grooves, And a noise preventing structure which improves the noise preventing effect by dispersing the noise vibration together with sound absorption.

The lower support plate 10 is formed with a mortar insertion space portion 15 having an anvil projection 15a protruded from its lower portion. The mortar insertion space portion 15 has three And three of them are formed in the middle in the direction of the width along the central position in the lower part of the lower part.

The sound absorbing and insulating material 20 is formed in a shape corresponding to the filling grooves 11a, 11b and 12a of the left and right filling grooves 11 and 11 and the central filling groove 12, So that it is preferable to have an energy saving effect by the heat insulation performance and the heat storage performance as well as the sound absorption performance.

In addition, the sound-absorbing and insulating material 20 is preferably configured to prevent deterioration of the product function due to excessive moisture penetration that may occur in the wet mortar bottom finishing process using the inorganic sound-absorbing thermal insulator.

The protruding stepped portion 31 of the upper cover plate 30 includes left and right stepped portions 31a and 31b formed on both sides of the upper surface of the cover plate in parallel with each other in the widthwise direction, (31c) and (31d), and is preferably formed to be 2/3 of the entire length of the cover plate.

In addition, it is preferable that the lower support plate 10 and the upper cover plate 30 are made of a recycled synthetic resin material so that resources can be recycled.

The lower support plate 10 and the upper cover plate 30 may be coupled by vertical assembly or may be assembled by means of coupling means (not shown) such as bolts to separate the sound absorption and thermal insulation material 30, It is possible to prevent the performance degradation.

The lower interlayer noise preventing means 200 may be constructed such that the sound absorbing member 220 is vertically stacked with the sound absorbing panel 221 and the sound absorbing panel 222 having the hollow portion 223 therein, The panel 222 can be inserted and configured alone.

The sound absorbing material 221 may be formed of various materials and various structures having a sound absorbing function, such as a rock surface and a glass surface, as in the sound absorbing and insulating material 30 of the above-described upper layer noise preventing means 100, to be.

The sound absorbing box 210 is formed with coupling step grooves 211 at upper portions of both sides to fix and install the wooden bars 225 fixedly mounted on the concrete lower surface 320 in a state where the wooden bars 225 are inserted.

In addition, the bottom of the sound-absorbing box 210 is formed by joining a stone board (not shown) or the like which forms a lower-layer ceiling.

Reference numeral 212 denotes an internal space of the sound absorbing box 210, reference numeral 330 denotes mortar, reference numeral 340 denotes an excel pipe, and reference numeral 350 denotes a finish mortar.

Hereinafter, the construction and operation of the present invention will be described.

In the present invention, upper and lower interlayer noise preventing means (100) and (200) are installed in a double structure on a concrete upper surface (310) and a lower surface (320) located between layers of a building, will be.

First, the upper interlayer noise preventing means 100 prepares the upper cover plate 30 by filling the sound absorbing and insulating material 20 into the compartment space in the lower receiving plate 10.

A plurality of mortar (330) are installed at appropriate positions on the concrete upper surface (310) of the building.

In this state, the mortar insertion space 15 formed at the lower portion of the lower support plate 10 of the upper interlayer noise preventing means 100 is placed on the mortar 330 to dry and fix the whole of the interlayer noise- Respectively.

At this time, the anchor protrusion 15a of the mortar insertion space 15 is fixed to prevent the anchor protrusion 15a from moving in the mortar 330. [

In this way, the upper interlayer noise preventing means 100 is continuously applied to the concrete upper surface 310 of the building in the horizontal and vertical directions.

The upper end of the upper cover plate 30 is connected to the lower end of the upper cover plate 30 and the upper end of the upper cover plate 30, (31) and is spaced apart from the upper cover plate (30).

In this state, the finish mortar 350 is installed on the upper portion of the excel pipe 340 and is installed.

The sound absorbing member 220 includes a sound absorbing material 221 and a hollow portion 223 in the interior space of the sound absorbing box 210. The sound absorbing material 220 is inserted into the interior space of the sound absorbing box 210, And the sound absorbing panel 221 or the sound absorbing panel 222 is inserted alone.

In this state, the wooden bars 225 fixed to the concrete lower surface 320 of the building are inserted into the coupling step grooves 211 formed on both sides of the sound-absorbing box 210, will be.

In this manner, the lower interlayer noise preventing means 200 is continuously applied to the concrete lower surface 320 of the building in the horizontal and vertical directions.

The lower surface of the sound-absorbing box 210 is connected to a stone board (not shown) that forms a lower-layer ceiling.

In this way, the upper and lower layer-to-layer noise preventing means 100 and 200 are installed on the concrete upper surface 310 and the lower surface 320 located between the layers of the building in a double structure to absorb the interlayer noise in multiple stages, Thereby improving the prevention effect.

Particularly, the upper interlayer noise preventing means 100 forms the inner partition space of the lower support plate 10 in an irregular shape so that the noise absorbing and sound vibration as well as the reinforcing structure by the partition walls can be improved, So that the noise prevention effect is improved.

That is, the left and right filling grooves 11 and 11 'are formed by dividing the compartment space of the lower support plate 10 into two and filling grooves having different sizes from each other, and connecting the upper and lower corner points of the upper and lower sides to each other The central filling groove 12 in which the filling groove 12a is divided and arranged by the X-shaped support 13 and the + -shaped support 14 connecting the central points of the upper and lower sides with each other is formed into an irregular structure will be.

At this time, the filling grooves of the left and right filling grooves 11 and 11 'are formed by alternately repeating the A type filling grooves 11a and the B type filling grooves 11b having a half size of the A type filling grooves, Shaped structure to be formed.

The filling grooves 11a and 11b of the central filling groove 12 and the filling grooves 11a and 11b of the central filling groove 12 are formed in a non- The noise vibrations transmitted through the partition walls in the respective filling grooves 11a, 11b and 12a together with the sound absorption of the sound-absorbing and thermal insulating material 20 filled in the sound insulating heat insulating materials 11a, 11b and 12a are dispersed in four directions Thereby further improving the noise preventing effect.

The upper cover plate 30 of the upper interlayer noise preventing means 100 is installed on the protruding step portion 31 protruding from the upper portion of the cover plate so that the upper cover plate 30 and the spacing space to disperse and cancel the interlayer vibration noise without transmitting it.

That is, the protruding step jaws 31 on the upper cover plate 30 have left and right stepped portions 31a and 31b formed parallel to each other in the width direction on both sides of the upper surface of the cover plate, The length of the cover plate is set to be 2/3 of the length of the cover plate so that the extinguisher 340 installed on the upper cover plate 30 is seated on the protruding step portion 31 By forming a spacing space between the excel pipe 340 and the cover plate, the effect of dispersing and canceling vibration noise is obtained.

The lower interlayer noise preventing means 200 may be formed by inserting the sound absorbing panel 222 having the sound absorbing material 221 and the hollow portion 223 in the inner space portion of the sound absorbing box 210 in a vertically stacked structure, Since the noise preventing means itself absorbs the interlayer noise over a plurality of stages, the noise preventing effect is excellent.

Accordingly, the present invention provides an upper interlayer noise preventing means 100 for forming an upper portion of an upper cover plate on an upper portion of a lower portion of a lower space, Layer noise preventing means 200 having a sound-absorbing member installed inside the sound-absorbing box are installed in a double structure on the concrete upper surface 310 and the lower surface 320 located between the layers of the building, So that the effect of preventing the noise in the interstices is further improved.

10: bottom plate 11, 11 ': left and right filling grooves
12: central filling grooves 11a, 11b, 12a:
13: X-shaped support 14: + shaped support
15: mortar insertion space part 15a: anchor projection
20: Sound absorption heat insulator 30: Upper cover plate
31: protruding jaw
100: Upper interlaminar noise preventing means
200: Lower interlayer noise preventing means
210: Sound absorption box
220: Sound absorption member
221: Sound absorbing material
222: sound absorption panel
223: hollow part

Claims (5)

And a top cover plate (30) coupled to an upper portion of the lower plate, wherein the compartment space inside the lower plate is formed into a non-fixed structure An upper interlayer noise preventing means 100,
Layer noise preventing means 200 in which a sound absorbing member 220 is installed in an inner space portion of the sound absorbing box 210 to construct a concrete upper surface 310 and a lower surface 320 located between the layers of the building Wherein the floor structure is installed in a double structure so that the interlayer noise is absorbed in a multistage manner. The method according to claim 1,
The upper interlayer noise preventing means 100 includes left and right filling grooves 11 and 11 'formed by dividing and arranging fill grooves having different sizes on both sides thereof as partition spaces inside the lower foot plate 10, And a central filling groove 12 in which filling grooves 12a are formed by arranging the X-shaped supporting members 13 connecting the corner points of the upper and lower portions and the + And a protruding step portion (31) in which an excel pipe is seated on an upper portion of the upper cover plate (30) is formed on the upper cover plate (30). The method according to claim 1,
Wherein the sound absorbing member 220 of the lower interlayer noise preventing means 200 comprises a sound absorbing panel 221 and a sound absorbing panel 222 having a hollow portion 223 therein. Device. The method according to claim 1,
Wherein the sound absorbing member (220) of the lower interlayer noise preventing means (200) is formed of a sound absorbing material (221). The method according to claim 1,
Wherein the sound absorbing member (220) of the lower interlayer noise preventing means (200) comprises a sound absorbing panel (222) having a hollow portion (223) therein.

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