KR100995605B1 - A structure for reducing noise - Google Patents

Abstract

The present invention relates to a structure for reducing noise, and more particularly, to an elastic foam layer; And at least one laminate structure including a laminate panel and at least two support portions formed on one or both sides of the laminate panel, the at least one laminate structure having a plurality of through holes penetrating from one surface of the laminate panel to the other surface, wherein the elastic foam layer And a noise reduction structure in which the at least one laminate structure is laminated.

The noise reduction structure of the present invention provides a path for attenuation of noise by a space formed by a through hole and a support formed in the laminate panel, and the material of the laminate panel and the elastic foam layer itself has light weight and excellent noise absorption ability. Therefore, there is an advantage of excellent noise reduction characteristics.

Noise Reduction, Panel, Through Hole, Damping, Path

Description

Noise reduction structure {A STRUCTURE FOR REDUCING NOISE}

1 is a cross-sectional view of a general floor structure.

Figure 2a is a plan view showing an example of a laminate structure included in the noise reduction structure of the present invention.

Figure 2b is a cross-sectional view showing an example of the laminate structure included in the noise reduction structure of the present invention.

3 is a cross-sectional view showing an example of the noise reduction structure of the present invention.

[Industrial use]

The present invention relates to a structure for reducing noise, and more particularly, to a structure for reducing noise, which can be applied to a noise reducing material of a multi-family house or a noise reducing material of a car / machinery because of excellent noise reduction effect.

[Private Technology]

Various attempts have been made to reduce the noise generated in all parts of human life. In general, noise is defined as a sound harming human comfort, and it is generally known that anyone over 80 decibels feels uncomfortable, but in modern society, the complicated social image obscures the standard of noise, and the source of noise It is also very diverse and complex.

In general, the noise can be divided into light impact sound and heavy impact sound. The light impact sound is a "tick" or "click" treble, such as the sound of a dish, a cutlery, a pull of a chair, or the sound of walking on the floor with plastic sandals. Is a shock sound measured using a shock source, and a heavy shock sound is a shock sound measured by using a tire as a shock source as a thumping bass sound such as a child running sound, running, walking, falling a basketball.

With the development of the industrial society, large-scale apartments were constructed, and disputes caused by the impact noise between floor tenants were continuously raised. The government proposed a standard floor plan in May 2004, and the slab thickness was 180mm. The noise level between floors is less than 58 decibels (dB), and the heavy impact sound (running or rolling) is less than 50 decibels. Light impact shocks were immediately applied and heavy impact sounds were enacted in July 2005.

When applying the 'standard floor plan', the construction company constructs the slab with 180mm thickness when constructing the building, or adopts the slab thickness arbitrarily, but meets the criteria of less than 58dB of light noise and less than 50dB of weight noise. Since the construction must be carried out, the thickening of the slab will require a lot of construction costs, so the noise reduction standard has emerged as the most urgent issue to be solved by the builders.

The most useful and often used method of reducing such noise is to install a partition between the source of the noise and the listener to block and absorb the noise. In general, sound insulation is to block the propagation of sound waves, which means that sound insulation blocks the progress of noise, and materials of sound insulation are relatively rigid. Sound absorption, on the other hand, absorbs some of the sound energy that hits the surface of the sound absorbing material to reduce reflections. Porous or fibrous materials are used a lot.

In general, the floor of a building, etc. are being constructed in various forms for the purpose of heating and noise isolation, etc., Figure 1 is a cross-sectional view of a general floor structure. As shown in FIG. 1, the floor structure of a residential building such as an apartment house or an apartment includes an interlayer sound absorbing material 5 and foamed concrete 4 in any order on a floor slab 6, and then a heating pipe 3 thereon. ) And piped with finishing mortar (2) and then finished with a synthetic resin floor finishing material (1) of a certain thickness.

In the floor structure as described above, the bubble concrete (4) acts to attenuate the noise, but the noise attenuation effect is not so excellent, there is a problem that does not properly absorb, block the noise according to various impact sounds. Although the characteristics of the foamed concrete (4) is excellent in the attenuation effect on the gas transfer noise generated in the human voice and various acoustic devices, etc., it reduces the solid transfer noise generated by falling of people walking, things, etc. in the upper floor. Because the ability to block falls.

The interlayer noise reduction material 5 is prescribed to be selectively constructed above and below the foamed concrete 4, and it is prescribed to use more than 20T thickness (T is a unit indicating mm). Therefore, various materials, such as a composite sheet formed by the joining of the waste rubber and the waste material, the styrofoam, and the composite material, are used as the interlayer noise reduction material 5.

Korean Patent Laid-Open No. 2006-0072957 discloses a method of manufacturing an interlayer noise reducing material by mixing a thermoplastic elastomer and chaff, but in the case of such a reducing material, there is only an effect of reducing noise depending on the characteristics of the material. Since the structure of the abatement material itself is an ordinary panel, noise reduction effect according to the structural shape cannot be expected.

Korean Patent Laid-Open Publication No. 2006-0075643 discloses an interlayer noise reducing material in which a polypropylene resin and an inorganic filler are mixed and injection molded, and the injection molded product is composed of an upper plate portion and a lower plate portion, and forms irregularities on the surface of the upper plate portion. By exemplifying a structure in which the vibration distance of the air sound is maximized, only the uneven portion of the surface is insufficient to maximize the vibration distance of the air sound.

In addition, Korean Patent Laid-Open Publication No. 2006-0111910 is configured by stacking a lower plate, an intermediate plate, and an upper plate, and a sound absorbing groove is formed in the upper plate and the lower plate, and a through hole paired with the sound absorbing groove is formed in the middle plate. The soundproof plate structure is characterized in that a laminated paper (paper) is inserted between the upper plate, the middle plate, and the lower plate, but the sound absorbing spaces of the lower plate, the middle plate, and the upper plate are arranged in a line. As a result, the vibration distance of the air sound is short, and there is a fear that the foil interposed in the middle serves as a diaphragm.

The present invention is to solve the above problems, it is an object of the present invention to provide a noise reduction structure to maximize the noise reduction characteristics by maximizing the noise attenuation path.

The present invention, in order to achieve the above object, an elastic foam layer; And at least one laminate structure including a laminate panel and at least two support portions formed on one or both sides of the laminate panel, the at least one laminate structure having a plurality of through holes penetrating from one surface of the laminate panel to the other surface, wherein the elastic foam layer And a noise reduction structure in which the at least one laminate structure is laminated.

The structure for noise reduction of the present invention can be applied to noise reduction of automobiles and machinery or floors of various buildings, especially apartment houses, and floorboards for noise reduction, and can be manufactured at a lower cost than existing floor noise reduction materials. In addition, it is excellent in the selective noise reduction effect for the specific noise generated in special cases such as heavy impact sound.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the structure for noise reduction according to the present invention. However, the drawings illustrated below are only representative examples suitable for the present invention, the structure for noise reduction of the present invention is not necessarily limited to the form of the following drawings.

Figure 2a is a plan view showing an example of a laminate structure included in the noise reduction structure of the present invention, Figure 2b is a cross-sectional view showing an example of the laminate structure. As shown in Figures 2a and 2b, the laminate structure 20 included in the noise reduction structure of the present invention includes a laminate panel 21 and two or more supports 22 formed on one or both sides of the laminate panel, A plurality of through holes 23 penetrating from one surface of the laminate panel to the other surface is formed.

3 is a cross-sectional view showing an example of the noise reduction structure of the present invention having a structure in which at least one laminate structure 20 and the elastic foam layer 30 are laminated.

As shown in FIGS. 2A, 2B, and 3, the noise reduction structure 10 of the present invention is provided between the laminate panels 21 or between the laminate panels 21 by the support 22 formed in the laminate structure 20. And the space 40 is formed between the elastic foam layer 30 and the plurality of through holes 23 formed in the laminate panel 21 serve to connect the space 40.

In the noise reduction structure of the present invention, the most preferable example is that two or more laminate structures 20 are laminated on the elastic foam layer 30, the plurality of through-holes 23 formed in the laminate structure 20 is Arrangement at random intervals or arrangement of the through holes at regular intervals are also included in the scope of the present invention.

The space formed by the support serves to hinder the progress of the noise, and the plurality of through holes formed in the laminate panel further provide attenuation paths for the noise to further improve the noise reduction characteristics. In particular, it is preferable in view of providing a noise attenuation path that the plurality of through holes are not arranged in a straight line with the through holes formed in neighboring laminate panels.

In the noise reduction structure of the present invention, since the biggest feature is in the space formed by the through hole formed in the laminate panel and the support portion, the material of the laminate structure is not particularly limited as long as it has the above structure, and any material can be used. However, in order to obtain a better noise reduction effect, a noise reduction material having an effect of reducing noise may be used, and in order to further improve noise reduction characteristics, thermal stability, and durability, the laminate panel and the support portion may be thermoplastic polyester. It may include one or more selected from the group consisting of ether elastomers, thermoplastic polyester ester elastomers, and thermoplastic polyurethane elastomers.

At this time, the material of the laminate panel and the support of the laminate structure is not necessarily the same material, but for convenience of the manufacturing process, the laminate panel and the support may be integrally molded, it may be made of the same material.

In addition, in the noise reduction structure of the present invention, the elastic foam layer secondarily absorbs the noise attenuated primarily by the laminate structure, and closes the noise attenuation path formed by the through-holes of the laminate panel. Since it serves to block the, it may be disposed in contact with the support of the laminate structure at the furthest distance from the noise source, but is not necessarily limited thereto, and may be disposed between the plurality of laminate structures.

Although the material of the elastic foam layer is not particularly limited, at least one member selected from the group consisting of polyester-based elastomers, polyurethane-based elastomers, polyamide-based elastomers, polystyrene-based elastomers and polyolefin-based elastomers, or crosslinked bodies of the elastomers may be used. It is preferable to include in terms of noise blocking properties.

The noise reduction effect of the noise reduction structure of the present invention may be controlled by the size and shape of the through-holes formed in the laminate panel, the size and shape of the support portion, the size of the space formed by the support portion, and the like. Various changes can be made depending on the specific use, and are not limited to any particular matter.

In addition, the noise reduction structure of the present invention can be used alone, but can also be used in combination with a conventional sound insulation material, sound absorption material, or both.

 The noise reduction structure of the present invention provides a path for attenuation of noise by a space formed by a through hole and a support formed in the laminate panel, and the material of the laminate panel and the elastic foam layer itself has light weight and excellent noise absorption ability. Therefore, there is an advantage of excellent noise reduction characteristics.

Claims (4)

Elastic foam layer; And Two or more laminate structures including a laminate panel and two or more supports formed on one or both sides of the laminate panel, wherein a plurality of through holes penetrating from one surface of the laminate panel to the other surface are formed. And a plurality of through holes in the laminate structure, which are not arranged in a straight line with through holes formed in neighboring laminate panels, wherein the elastic foam layer and the at least two laminate structures are laminated. The method of claim 1, The laminate panel is at least one noise reduction structure selected from the group consisting of a thermoplastic polyester ether elastomer, a thermoplastic polyester ester elastomer, and a thermoplastic polyurethane elastomer. The method of claim 1, The plurality of through-holes formed in the laminate panel is arranged at random intervals noise reduction structure. The method of claim 1, The elastic foam layer is a noise reduction structure comprising at least one selected from the group consisting of polyester-based elastomers, polyurethane-based elastomers, polyamide-based elastomers, polystyrene-based elastomers, polyolefin-based elastomers, or a crosslinked body of the elastomers.

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