KR102227650B1 - Interlayer insulation sound insulation materials of buldings - Google Patents

Abstract

The present invention relates to a heat and sound insulation material capable of preventing a loss of heat while reducing the delivery of heavy and light impact sounds which are floor impact sounds between floors of a building. More specifically, a heat and sound insulation material is installed in an upper part of a slab of a building, wherein a light impact sound reduction member made of plastic foam or rubber panels to reduce a light impact sound, which is a sound caused when children drop an object such as a toy or the like, is installed to be brought into contact with the slab of the building, and a plastic panel, of which the Rockwell hardness R value is 100-300, for reducing a heavy impact sound caused by the running of children is installed in an upper part of the light impact sound reduction member to be brought into contact with light concrete or foam concrete of the building, thereby reducing the heavy and light impact sounds while reducing a loss of heat through the light impact sound reduction member functioning as a heat insulation material.

Description

Interlayer insulation sound insulation materials of buldings

The present invention relates to an insulating and sound insulating material that can prevent heat loss while reducing the transmission of the weight shock sound and light weight shock sound that is the floor impact sound between floors of a building, and to be described in more detail, the insulating sound insulating material is installed on the upper part of the slab of the building. , The sound of dropping objects such as toys that children play with, that is, a lightweight impact sound reduction member made of plastic foam or rubber panels to reduce the light impact sound is installed in contact with the slab of the building, and the thump that occurs as children run. A plastic panel with a Rockwell hardness R value of 100 to 300, which can reduce the weight impact sound such as the distance, is installed on the upper part of the lightweight impact sound reducing member so that it comes into contact with the lightweight concrete or aerated concrete of the building. It is a technical field related to an interlayer insulation and sound insulation material of a building that can reduce heat loss by reducing heat loss by reducing and at the same time, the lightweight impact sound reducing member acts as an insulation material.

Recently, incidents such as murder, arson, and assault between neighbors have occurred frequently due to the inter-floor noise problem in apartment houses, and the inter-floor noise in apartment houses has emerged as a serious social problem.

On the other hand, concrete used in most apartment houses in Korea is heavy and dense due to the nature of the material, so it has superior blocking performance against noise transmitted through air, such as human speech or TV sound, than other materials of the same thickness. The impact sound generated by direct impact on the surface tends to be easily transmitted to neighboring households through concrete slabs or walls.

These impact sounds are not easy to solve with the currently used floor structure, and in order to solve this problem, Germany and France have adopted a floating floor structure for a long time.

In recent years, efforts to solve the above problems in Korea have been actively made not only by academia, but also by large construction companies and building materials companies, and most of these efforts have led to the development of insulating and insulating materials.

Among the above-described impact sounds, the effect of the floating floor construction method, which is known to be the most effective among the methods for reducing the floor impact sound, is the role of an insulating and insulating material that insulates structures such as floor slabs and walls and the ondol layer.

Because of this importance, European countries such as Germany and Japan, which have been applying the floating floor construction method for a long time, stipulate and implement the type, size, quality, test method, and construction method of insulating and sound insulation materials for floating floors. Due to the lack of judgment rules, it is difficult to select insulation and sound insulation materials.

In particular, most apartment houses in Korea consist of an ondol floor structure including a slab layer, an insulation layer on the upper part of the slab, a lightweight concrete or aerated concrete layer, a heating coil layer, and a finished mortar layer, and the insulation layer on the upper part of the slab is constructed with foamed styrofoam. The reduction effect on the floor impact sound is inadequate.

In order to solve the inter-floor noise problem, the method of mixing waste tire pulverized material, acrylic, urethane, etc. to the inter-floor concrete of a building has a low noise blocking effect, so foam foam such as polyethylene, polypropylene, and polystyrene is used as an inter-floor noise material. It is being constructed with.

On the other hand, the noise between floors of apartments is the sound of children running, footsteps, falling objects and bumps, the sound of toilet water, the sound of turning off furniture, piano sound, audio sound, and TV sound generated in apartments, row houses, and multi-family houses. It is collectively referred to as noise pollution.

The inter-floor noise is divided into light impact sound and heavy impact sound, as the impact generated by falling objects and children's play vibrates the floor and generates noise to each floor, including the lower floor.

The lightweight impact sound is representative of the sound of falling objects such as toys that children play with, and is characterized by a small impact force and a short duration as a light and hard sound such as the sound of falling of small objects and turning off furniture.

The weight impact sound is representative of the sound of children's thumping, and is a heavy floor impact sound when children run or run, and has a large impact sound and a large duration.

In connection with the above, according to the noise source analysis data analyzed by the neighboring child center of the Korea Environment Corporation, the footsteps and running sounds of children were found to be 74.2% of the causes of interfloor noise.

According to the regulations on housing construction standards, the floor structure of a building has a slab thickness of 210 mm or more, and among the floor impact sounds, lightweight impact sound is 58db or less and weight impact sound is 50db or less. Although it has been resolved, it is not possible to resolve the weight impact sound of 50db or less.

In this regard, in November 2013, referring to the “Report on Safety Survey Results of Interfloor Noise Reduction Products for Apartment Buildings” of the Korea Consumer Agency, it is reported that there is no effect on weight impact noise in all products on the market.

Republic of Korea Patent Publication No. 10-2012-003557 (2012.01.11.)

The present invention is a technology conceived to solve the problems according to the prior art described above, and the conventional interlayer noise reduction products reduce the light weight impact sound to some extent, but there is a problem that does not reduce the weight impact sound, and as a solution to this, plastic foaming Insulation and sound insulation material consisting of a lightweight impact reducing member made of foam or rubber panel and a weight impact sound reducing member having a Rockwell hardness R value of 100 to 300 effectively reduces light weight and weight impact sound as well as reduces heat loss. Its main purpose is to provide it through the inter-floor insulation and insulating material of buildings that can even play a role.

The present invention is configured to include a first lightweight shock sound reducing member installed on the upper part of the slab of a building and a weight shock sound reducing member attached to the upper part of the first lightweight shock sound reducing member in order to realize the desired object as described above. We present the characteristic building inter-floor insulation and insulating material.

In addition, the present invention is configured to include a second lightweight shock sound reducing member attached to the upper portion of the weight shock sound reducing member, the weight shock sound reducing member is characterized in that the Rockwell hardness R value is a plastic panel of 100 to 300.

In addition, the weight impact sound reducing member of the present invention is composed of any one of nylon, polycarbonate, polyvinyl chloride, polyvinyl acetate, or 100 parts by weight of polyethylene (PE) or polypropylene (PP) inorganic powder, glass fiber or It is characterized in that it is configured by mixing any one of the carbon fibers in 10 to 40 parts by weight.

In addition, the first lightweight impact sound reducing member and the second lightweight impact sound reducing member of the present invention is characterized in that it is formed of a plastic foam or a rubber panel.

In addition, the plastic foam of the present invention is composed of any one of polyethylene, polypropylene, polystyrene, polyvinyl acetate, polyvinyl chloride, urethane, and latex, and the rubber panel is composed of a thermoplastic elastomer or a thermosetting elastomer, or an olefin-based elastomer, It is characterized in that it is composed of any one of a nitrile-based elastomer, a silicone-based elastomer, and a stylene-based elastomer.

In addition, the first lightweight impact sound reducing member and the second lightweight impact sound reducing member of the present invention is characterized in that it is configured to include a plurality of through holes having a circular or polygonal shape.

The interlayer insulation and sound insulating material of the building according to the present invention presented as described above has the effect of efficiently reducing the lightweight impact sound by using a lightweight impact sound reducing member made of a plastic foam or rubber panel in contact with the slab of the building, and the lightweight impact sound The effect of minimizing heat loss by the reducing member acting as a heat insulator and by using the weight shock sound reducing member attached to and installed on the upper part of the lightweight shock sound reducing member to efficiently reduce the weight impact sound among interfloor noise, that is, the floor impact sound. In addition, it is possible to obtain the effect of reducing the inter-floor noise of apartment houses by reducing both the lightweight impact sound and the heavy impact sound.

In addition, the present invention has the effect of further effectively reducing the light weight impact sound and the weight impact sound by attaching and installing a light weight impact sound reducing member on the upper portion of the weight impact sound reducing member, and a plurality of the light weight impact sound reducing member By forming the through hole to add the characteristics of the resonance system, it is possible to obtain an effect of preventing the transmission of vibration or impact energy due to the floor impact sound to the floor slab.

1 is a perspective view showing a heat insulating and insulating material according to a preferred embodiment of the present invention.
Figure 2 is a cross-sectional view showing a heat insulating and insulating material according to a preferred embodiment of the present invention.
Figure 3 is a perspective view showing a heat insulating and insulating material according to another embodiment of the present invention.
Figure 4 is a perspective view showing the first and second lightweight impact sound reduction members according to a preferred embodiment of the present invention.

The present invention relates to an insulating and insulating material that can prevent heat loss while reducing the transmission of the weight impact sound and the lightweight impact sound, which is the floor impact sound between floors of a building, and to be described in more detail, plastic on the upper part of the slab (1) of the building The first lightweight impact sound reducing member 10 made of foam or rubber panel is installed to be in contact to reduce the sound of dropping objects such as toys that children play with, that is, the lightweight impact sound, and the first lightweight impact sound reducing member 10 ) By attaching a weight impact sound reducing member 20 made of a plastic panel having a Rockwell hardness R value of 100 to 300 to reduce the weight impact sound generated by running children, and to reduce the first lightweight impact sound The member 10 is a technology related to inter-floor insulation and insulating material of a building that can minimize heat loss by acting as an insulating material.

The configuration for achieving the present invention as described above is the first lightweight impact sound reducing member 10 installed on the upper part of the slab 1 of the building; and the weight impact sound attached to the upper part of the first lightweight impact sound reducing member 10 It characterized in that it comprises a; reducing member 20;

In addition, the first lightweight impact sound reducing member 10 and the second lightweight impact sound reducing member 30 of the present invention are configured to include a plurality of through holes 13 having a circular or polygonal shape, and the weight impact sound reducing member (20) is characterized in that the Rockwell hardness R value is a plastic panel of 100 to 300.

In addition, the weight impact sound reducing member 20 of the present invention is composed of any one of nylon, polycarbonate, polyvinyl chloride, polyvinyl acetate, or 100 weight of the main material comprising any one of polyethylene or polypropylene It is characterized in that it is formed by mixing 10 to 40 parts by weight of an additive of any one of inorganic powder, glass fiber or carbon fiber, such as bue; and talc.

In addition, the present invention comprises a second lightweight shock sound reducing member 30 attached to the upper portion of the weight shock sound reducing member 20, and the first lightweight shock sound reducing member 10 and the second lightweight shock sound reducing The member 30 is characterized in that it is a plastic foam or rubber panel.

In addition, the plastic foam of the present invention is composed of any one of polyethylene, polypropylene, polystyrene, polyvinyl acetate, polyvinyl chloride, urethane, and latex, and the rubber panel is an olefin-based elastomer or a nitrile-based elastomer among thermoplastic elastomers or thermosetting elastomers. , A silicone-based elastomer, and a stylene-based elastomer.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 4 showing an embodiment of the present invention.

The first lightweight impact sound reduction member 10, which is a major component for achieving the present invention, is

It is installed on the upper part of the slab (1) of the building, and at the same time, it prevents heat loss through the slab (1) of the building, and at the same time reduces the sound of dropping objects such as toys that children play with, that is, the light weight impact sound among floor impact sounds. It is characterized by that.

That is, the first lightweight impact sound reducing member 10 of the present invention is installed to contact the slab 1 of the building to prevent heat generated from the floor structure of the building from being lost, as well as absorb the lightweight impact. By doing so, it reduces the generation of light impact sound, and realizes the effect of minimizing the inter-floor noise caused by the light impact sound.

In addition, the first lightweight impact sound reducing member 10 of the present invention may be configured to include a plurality of through holes 13 made of a circular or polygonal shape, the through hole 13 is a weight impact sound to be described in detail later. An air layer is formed inside by the reduction member 20 and the slab 1 of the building, and accordingly, the air layer resonates with the floor impact sound, thereby realizing the effect of reducing the floor impact sound.

The weight impact sound reduction member 20, which is a major component for achieving the present invention, is

It is attached to and installed on the upper portion of the first lightweight impact sound reducing member 10, characterized in that the sound generated when children run, that is, reducing the weight impact sound among the floor impact sound, and the first lightweight impact sound reducing member It may be attached to (10) by a laminating method, and may be installed while being mounted on the upper portion of the first lightweight impact sound reducing member (10).

Specifically, the weight impact sound reducing member 20 of the present invention is characterized in that it is a plastic panel having a Rockwell hardness R value of 100 to 300, which is easily damaged when the hardness of the weight impact sound reducing member 20 is the same as above. Of course, the impact amount, that is, the resistance to the weight impact among the impacts applied to the floor is high, so that the effect of effectively reducing the charging impact sound is realized.

At this time, the Rockwell hardness is the hardness of the material at the depth where the tip of the indenter enters by pressing the indenter into the sample surface with a constant load, and there are B scale and C scale, and the B scale is a steel ball of 1.588 mm under a load of 100 kgf, In the C scale, a cone of 120 degrees and a tip radius are hardness measured using a 0.2 mm diamond indenter.

In addition, the ratio of the thickness of the first lightweight impact sound reducing member 10 and the weight impact sound reducing member 20 of the present invention may be made of 1: 0.01 to 1, and a ratio of 1: 0.25 is preferable.

Accordingly, the weight impact sound is reduced through the weight impact sound reducing member 20, and at the same time, the lightweight impact sound is easily transmitted to the first lightweight impact sound reducing member, so that the light weight impact sound can be more efficiently reduced.

In more detail, the weight impact sound reducing member 20 may be composed of any one of nylon, polycarbonate, polyvinyl chloride, and polyvinyl acetate, and is formed of a synthetic resin material as described above, but R of Rockwell hardness The value is molded from 100 to 300 to achieve the above effect.

In addition, the weight impact sound reducing member 20 is preferably made of nylon, especially nylon 6, among the synthetic resin materials described above. In the case of nylon 6, it has excellent chemical resistance and chemical resistance, and has moisture-friendly properties. It has the advantage of excellent adhesion to cement.

In another embodiment, the weight impact sound reducing member 20 comprises a main material comprising any one or more of polyethylene or polypropylene, and an inorganic powder such as talc, or an additive material of any one of glass fiber or carbon fiber However, since it is difficult to manufacture a plastic panel having a Rockwell hardness R value of 100 to 300 with only one or more of polyethylene or polypropylene, a plastic panel having a Rockwell hardness in the range as described above is obtained by adding the above additives. Can be manufactured.

On the other hand, the interfloor insulation and sound insulating material of the building of the present invention may additionally attach a second lightweight impact sound reducing member 30 to the upper portion of the weight impact sound reducing member 20, the second lightweight shock sound reducing member 30 It is made of the same material as the first lightweight impact sound reducing member 10 to reduce the light weight impact sound and minimize damage to the weight impact sound reducing member 20 and at the same time disperse the weight impact sound from the weight impact sound reducing member 20 This makes it possible to realize the effect of reducing more efficiently.

At this time, the first lightweight impact sound reducing member 10 and the second lightweight impact sound reducing member 30 may be formed of a plastic foam or rubber panel.

Specifically, the plastic foam is made of any one of polyethylene, polypropylene, polystyrene, polyvinyl acetate, polyvinyl chloride, urethane, and latex, and foamed to form a number of micropores, thereby reducing lightweight impact sound and weight impact sound due to buffering. It realizes the effect that can disperse.

The rubber panel may be made of any one of a thermoplastic elastomer or a thermosetting elastomer, and more specifically, may include any one of an olefin-based elastomer, a nitrile-based elastomer, a silicone-based elastomer, and a stylene-based elastomer.

In this case, the rubber panel may be used by mixing an elastomer corresponding to a thermoplastic elastomer or a thermosetting elastomer among olefin elastomers, nitrile elastomers, silicone elastomers, and stylene elastomers.

In addition, the second lightweight impact sound reducing member 30 of the present invention may be configured to include a plurality of through holes 13 having a circular or polygonal shape, like the first lightweight impact sound reducing member 10 described above, The through hole 13 has an air layer formed therein by a weight impact sound reducing member 20 installed at the bottom and an ondol layer installed at the top, lightweight concrete or aerated concrete, and thus the air layer resonates with the floor impact sound. As a result, the floor impact sound is reduced.

In connection with the above, the present invention provides the first lightweight shock sound reducing member 10 and the weight shock sound reducing member 20 when the second lightweight shock sound reducing member 30 is installed on the upper portion of the weight shock sound reducing member 20. ) And the thickness of the second lightweight impact sound reducing member 30 may be 1:0.01 to 1:1, and a ratio of 1:0.25:1 is preferable.

As a result, the interlayer insulation and sound insulating material of the building of the present invention can reduce the lightweight impact sound through the first and second lightweight impact sound reducing members 10 and 30 made of plastic foam or rubber panels, as well as the Rockwell hardness R value. The weight impact sound can be reduced through the weight impact sound reduction member 20 made of a plastic panel of 100 to 300, so that the floor impact sound can be effectively reduced, so that social problems caused by inter-floor noise can be solved, and the first and second light weights Heat loss may also be minimized through the impact sound reducing members 10 and 30.

The above has been described with reference to a preferred embodiment of the present invention, and is not limited to the above embodiment, and through the above embodiment, a person of ordinary skill in the art to which the present invention belongs does not depart from the gist of the present invention. It can be implemented with various changes in.

1: slab
10: first lightweight impact sound reduction member
13: through hole
20: weight impact sound reduction member
30: second lightweight impact sound reduction member

Claims (10)

A first lightweight impact sound reducing member 10 installed on the upper part of the slab 1 of the building; And
Including; a weight impact sound reducing member 20 attached to the upper portion of the first lightweight impact sound reducing member 10,
Including; a second lightweight impact sound reducing member 30 attached to the upper portion of the weight impact sound reducing member 20,
The weight impact sound reducing member 20 is
It is a plastic panel with a Rockwell hardness R value of 100 to 300,
The weight impact sound reducing member 20 is
Interlayer insulation and insulating material of a building, characterized in that the composition by mixing 10 to 40 parts by weight of any one of inorganic powder, glass fiber or carbon fiber to 100 parts by weight of polyethylene (PE) or polypropene (PP).
delete delete The method of claim 1,
The weight impact sound reducing member 20 is
Interlayer insulation and insulating material of a building, characterized in that consisting of any one of nylon, polycarbonate, polyvinyl chloride, polyvinyl acetate.
delete The method of claim 1,
The first lightweight impact sound reducing member 10 and the second lightweight impact sound reducing member 30
Insulation and insulation between layers of buildings, characterized in that formed of plastic foam or rubber panels.
The method of claim 6,
The plastic foam is
Polyethylene, polypropylene, polystyrene, polyvinyl acetate, polyvinyl chloride, urethane, and latex.
The method of claim 6,
The rubber panel
Interlayer insulation and insulating material of a building, characterized in that consisting of a thermoplastic elastomer or a thermosetting elastomer.
The method of claim 8,
The rubber panel
An interlayer insulating and insulating material of a building, characterized in that it is composed of any one of an olefin-based elastomer, a nitrile-based elastomer, a silicone-based elastomer, and a stylene-based elastomer.
The method of claim 1,
The first lightweight impact sound reducing member 10 and the second lightweight impact sound reducing member 30
A plurality of through-holes (13) of a circular or polygonal shape; interlayer insulating and insulating material of a building, characterized in that configured by forming.

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