KR200331857Y1 - Interlayer-Soundproofing Sheet for Reducing Floor Shock - Google Patents

Abstract

The present invention relates to an interlayer noise prevention material for reducing the floor impact. In particular, when the floor impact of a building is made through a multi-layered structure of styrofoam, porous nonwoven fabric and natural foam rubber on the upper side with very low thermal conductivity and excellent sound insulation and soundproofing effect. The present invention relates to an interlayer noise prevention material for effectively reducing the impact of light and heavy shocks and reducing the impact of insulation and improving the working environment by reducing dust generation during manufacturing.

In order to achieve the above object, the present invention has a styrofoam layer having heat insulation, soundproofing, and moisture resistance in the center, a porous nonwoven fabric layer bonded to both sides of the styrofoam layer by an adhesive layer, and a nonwoven fabric layer on one side. The upper side of the layer provides an interlayer anti-noise material for floor impact reduction, characterized in that the laminated layer formed of a natural foaming rubber formed with an embossed surface.

Description

Interlayer-Soundproofing Sheet for Reducing Floor Shock}

The present invention relates to an interlayer noise prevention material for reducing the floor impact. In particular, when the floor impact of a building is performed through a multi-layered structure of styrofoam and porous nonwoven fabric and a natural foam rubber on the upper side with very low thermal conductivity and excellent sound insulation and soundproofing effect. The present invention relates to an interlayer noise prevention material for effectively reducing the impact of light and heavy shocks and reducing the impact of insulation and improving the working environment by reducing dust generation during manufacturing.

In general, in order to prevent noise between floors of residential buildings such as office buildings or apartments, the noise prevention material is interposed between floors forming each floor, and construction is carried out to block the noise generated while living on the upper floor. Doing.

In such a floor structure of apartments, houses, and public facilities, impact sounds are classified into light impact sounds and heavy impact sounds, and lightweight impact sounds are coins falling or high heels stuttering. Although possible, the heavy impact sound is a dull sound such as children playing, and the existing sound insulation material and the existing floor structure is difficult to reduce the weight impact sound.

In general, the floor structure of apartment houses and public facilities uses floor buffers made of various inorganic materials, organic materials, and polymers for the purpose of sound insulation and dustproofing. have:

Synthetic resin composition such as EVA in which asphalt Pe film is mixed with inorganic filler such as calcium carbonate, clay, talc, bentonite, barite mainly containing barium sulfate

-Pe film deposits with functional fillers on fibrous felt

-Composite and styrofoam mixed with cork and rubber

-Inorganic materials such as gypsum board and rock wool.

However, these materials exhibit considerable vulnerabilities in problems such as sound insulation performance, workability, and economics, making them difficult to practically use.

For example, it is difficult to expect as much as the production cost is expensive or to have insulation and soundproofing and dustproofing effect.

In the case of the waste tire chip, which has attracted much attention recently, it is of great value in terms of utilizing waste materials, but the particle or density of the rubber is not constant and hardening and carbonization occur over time. Therefore, it is difficult to expect desirable heat insulation, sound insulation, and dustproof effects.

A typical example of the sound insulation sheet for reducing the floor impact as described above is shown in FIG.

In Figure 1, the member number 1 is a fibrous felt, 2 is an asphalt layer, and 3 is a polyethylene film.

As shown in the drawing, the conventional sound insulation sheet for reducing the floor impact is coated with asphalt (2) to increase sound insulation and waterproof effect to the upper and lower sides of the fibrous felt (1) and the fibrous felt (1) formed in a constant thickness and on both sides. The polyethylene film 3 is adhesively formed on both sides of the coated asphalt 2.

However, the sound insulation sheet for reducing the floor impact as described above uses porous fibrous felt and asphalt for waterproofing, but forms a simple laminated structure laminated only with fibrous felt and asphalt to completely block heat and sound energy. There was a problem that the heat insulation effect or waterproof effect is lowered.

In addition, the sound insulation sheet for reducing the floor impact is a simple laminated structure can block a simple lightweight impact sound, but there was a problem that the blocking of heavy impact sound is not perfect.

Accordingly, the sound insulation sheet for reducing the floor impact proposed by the present applicant in Utility Model Registration Application No. 2003-11399 forms a multi-layered structure in which glass fibers and asphalt asphalt are laminated to reduce the floor impact to improve the effect of heat insulation, soundproofing, and waterproofing. However, the above-mentioned sheet has a problem of damaging the worker's respiratory system due to glass powder when the sheet is produced by using glass fiber, and the glass fiber is less abrasion resistant, brittle, and has a specific gravity of 2.2. There is a problem that the sheet is broken or heavy because of 1.7 times the size of the cotton, and the upper side of the sound insulating sheet is formed of polyethylene film has a problem that is easily broken during construction.

Therefore, the present invention was devised in view of the above-mentioned problems of the prior art, and in particular, styrofoam and porous nonwoven fabric having a very low thermal conductivity and excellent thermal insulation and soundproofing effect, and high chemical resistance, oil resistance, abrasion resistance, and corrosion resistance. Multi-layered structure of foam rubber can effectively block the light and heavy impact sound generated when the building's floor impact is applied.Insulation prevention material for floor impact reduction that can improve the working environment by reducing dust generation during manufacturing as well as insulation The purpose is to provide.

1 is a cross-sectional perspective view showing a noise prevention material for reducing the conventional floor impact,

Figure 2 is a cross-sectional perspective view showing the interlayer noise prevention material for reducing the floor impact according to the present invention,

3 is an explanatory cross-sectional view showing the transmission energy of the porous material;

Figure 4 is an explanatory cross-sectional view showing the transmission energy of the porous laminated structure of the interlayer noise protection material for reducing the floor impact according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: styrofoam layer 20: adhesive layer

30: nonwoven fabric layer 40: natural foam rubber layer

41: embossed surface

In order to achieve the above object, the present invention is disposed in the center and the insulation of the styrofoam layer having soundproof, moisture-proof, and the top of the porous bonded to the upper and lower surfaces of the styrofoam layer through the upper and lower adhesive layers, respectively And a lower nonwoven fabric layer and a natural foamed rubber layer laminated on an upper surface of the upper nonwoven fabric layer and having an embossed surface on the surface, and having a chemical resistance, oil resistance, abrasion resistance, and corrosion resistance. Provide noise prevention material.

(Example)

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

2 is a cross-sectional perspective view showing the interlayer noise preventing material for reducing the floor impact according to the present invention, Figure 3 is a cross-sectional view showing the transmission energy of the porous material, Figure 4 is for reducing the floor impact according to the present invention It is explanatory sectional drawing which shows the permeation energy of the porous laminated structure of an interlayer noise prevention material.

Referring to FIG. 2, the interlayer noise prevention material for reducing the floor impact according to the present invention is disposed in the center, and has a styrofoam layer 10 having heat insulation, soundproofing, and moisture resistance, and the upper and lower surfaces of the styrofoam layer 10. Chemical resistance of the porous upper and lower nonwoven layers 30 adhered through the upper and lower adhesive layers 20, respectively, and the upper side of the upper nonwoven layer 30 and the embossed surface 41 formed on the surface thereof. It is composed of a natural foamed rubber layer 40 having oil resistance, abrasion resistance, and corrosion resistance.

Hereinafter, the laminated structure of the interlayer noise preventing material and the function of each layer will be described in detail.

The interlayer noise prevention material for reducing the floor impact of the present invention has a styrofoam layer 10 which is a polystyrene foam having heat insulation, soundproofing, and moisture proofing in the center, thereby saving energy as well as noise blocking effect.

The nonwoven fabric layer 30 is formed on both sides of the styrofoam layer 10, but the nonwoven fabric layer 30 is adhesively fixed by the adhesive layer 20.

The upper side of the non-woven fabric layer 30 of the one side to absorb the shock and as a moisture-proof insulating material laminated with a natural foam rubber layer 40 excellent in chemical resistance, oil resistance, abrasion resistance, and corrosion resistance so that the noise preventive agent is not damaged even during the construction impact. The embossed surface 41 is formed on the upper side of the natural foamed rubber layer 40 to maximize the contact area of the mortar as well as to obtain a cushioning effect of air, thereby improving the sound insulation effect of the high frequency vibration having a large displacement amount.

The styrofoam layer 10 is formed to a thickness of 18-20mm, the nonwoven fabric layer 30 is formed to prevent the adhesion, breakage and contamination of the concrete, and the natural foam rubber layer 40 has a thickness of about 4-6mm It is preferable to form.

Styrofoam is a foamed product that injects hydrocarbon gas such as pentane or butane into polystyrene resin and then inflates it with steam. It is a resource-saving material in which 98% of the volume is air and 2% is resin. Packaging, agricultural and marine products boxes. Aquaculture rich, home insulation.

Such styrofoam has very low thermal conductivity and excellent heat shielding and thermal insulation effect than other insulation materials due to dense bubbles and independent bubble structure, and has high soundproof and moistureproof effect, so you can get a double effect of cozy and pleasant indoor atmosphere and energy saving. Ash is an excellent material.

In addition, the above-mentioned nonwoven fabric has a immersion type and a dry type in the processing method. Immersion is also called papermaking (抄紙 式), and the fibers are put in a synthetic resin glue, wet, dried and heat-treated, similar to paper. Drying is made of fibers made of thin cotton, spouted with synthetic resin and dried by heating.

Rapidly developed in the United States from around 1950, it is used in various applications because of its intertwined fibers, no lateral and lateral cutting, and no cutting edges.

These non-woven fabrics are porous, not brittle, light in weight, flexible, and use other composite materials with almost no heat transfer, thus maximizing insulation and absorbing performance.

In addition, natural foam rubber having excellent chemical resistance, oil resistance, abrasion resistance, and corrosion resistance lowers the absorbency, lowers the thermal conductivity coefficient, maintains thermal insulation, and prevents breakage by cushioning force. It is a cushion of air, which blocks vibrations of high, medium, and low frequencies, and is excellent in chemical resistance, oil resistance, wear resistance, and corrosion resistance.

The heat and negative energy blocking characteristics of the monolayer material and the porous material are shown in FIGS. 3 to 4.

The sound insulation sheet for reducing the floor impact as described above is very high sound insulation of dull low frequency sound and exhibits excellent properties of blocking sound and vibration for high frequency sound and the adhesive is used Schirofoam adhesive and ventrite.

In addition, the nonwoven fabric is excellent in sound insulation even when applied to a single layer structure, a simple laminated structure and a plurality of laminated structures with excellent sound absorption performance.

The porous structure of the nonwoven fabric prevents the sound from being re-radiated due to the impact vibration due to the adhesive damage prevention concrete, and has excellent sound insulation effect, and excellent adhesion to mortar, and prevents damage to the sound insulation sheet. Improve the adhesive performance of the material.

On the other hand, indoor floor structure such as Korea is made of unique structure called ondol, so the insulation property of the interlayer noise prevention material has more influence than other countries, and this insulation property prevents heat loss from the floor and continuously radiates heating heat. As the sound insulation sheet must be prevented from aging, the rubber material, which is a conventional single layer structure, loses its flexibility, and thus the effect of preventing noise is lowered. Therefore, there is almost no change in physical properties at temperatures below 100 ° C, and light styrofoam or nonwoven fabric is semipermanent. It can be used as an effect.

As described above, the present invention increases the volume reduction and the weight of the noise suppressant through the multi-layered structure of styrofoam, nonwoven fabric and nonwoven fabric and natural foam rubber on the upper side, which have very low thermal conductivity and excellent insulation and soundproofing effect. It is possible to improve the effectiveness of the product and to maintain worker's health because no dust is generated during the manufacturing and installation of the product.The cushioning force of the non-woven fabric and natural foam rubber and the non-woven fabric's combined force prevent the interlayer noise-preventing material from being damaged even during impact. There is an effect to increase.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and the general knowledge in the art to which the present invention belongs without departing from the spirit of the present invention. Various changes and modifications will be possible by those who have the same.

Claims (1)

A styrofoam layer 10 disposed in the center and having insulation, soundproofing, and moisture proofing; A porous upper and lower nonwoven layer 30 adhered to the upper and lower surfaces of the styrofoam layer 10 through the upper and lower adhesive layers 20, respectively; Floor impact reduction, characterized in that it is laminated on the upper side of the upper non-woven fabric layer 30 and formed of a natural foamed rubber layer 40 having chemical resistance, oil resistance, abrasion resistance, corrosion resistance formed on the surface embossed surface 41 Interlayer noise suppression material.