KR101302282B1 - Interfloor noise proofing material - Google Patents

Abstract

The present invention relates to a sound insulating material, and more particularly, includes a plurality of main bodies disposed adjacent to each other, including a resin foam foam; A watertight member covering a boundary between two adjacent main bodies; And a construction tape attached to a boundary portion between the watertight member and the main body, wherein the construction tape includes an adhesive layer formed on one surface of the base film and the base film, and the tear strength of the base film is 70 to 70. Characterized in that it is 120 kg / cm, sound insulation material according to the invention is excellent in various physical properties, such as sound insulation, cushioning, mechanical strength, workability and heat insulation, and particularly excellent waterproof performance.

Sound insulation material, construction tape, waterproof, tear strength, tensile strength

Description

Soundproofing material {Interfloor noise proofing material}

The present invention relates to a sound insulating material, and more particularly, has excellent physical properties such as cushioning, mechanical strength, workability, and thermal insulation, and in particular, can effectively absorb, disperse, and / or exhaust noise and / or vibration generated by an impact. The present invention relates to a sound insulating material having excellent waterproof performance.

In multi-collected multi-story buildings such as multi-family homes, townhouse villas, buildings, apartments, schools, hospitals, and dormitories, people live on the upper and lower floors, and are caused by the impacts and / or impacts from the upper floors. The noise of noise causes great inconvenience to the lower class. Such shocks and noises are also referred to as floor impact sounds, which means sounds and shocks generated by vibrations of the slab caused by falling and moving objects or walking of people.

The solid sound generated in such a case is transmitted to various positions with extremely low attenuation to vibrate the surface of the structure, and thus the floor impact sound is perceived as a directly reflected air transmission sound to lower people.

Recently, the noise caused by the floor impact sound is recognized as an important factor in determining the quality of the residential environment. In other words, while the consumer's desire for a comfortable living environment continues to increase, the material used for the floor structure of a multi-story building is getting thinner and lighter, and the internal noise source is increasing.

As the problem caused by the floor impact sound is highlighted as a socially important issue, it is installed on the wall or floor of the multi-story building to absorb, disperse and / or exhaust the shock and / or noise applied from the upper floor to the lower floor or the side. The research on the development of sound insulation materials for the purpose of doing so is being actively conducted.

On the other hand, during the construction of the sound insulation material, a plurality of unit sound insulation material is disposed in close proximity to the floor slab, and the edge of the adjacent unit sound insulation material taping finish.

At this time, when an impact amount or the like is applied to the unit sound insulating material, friction between adjacent unit sound insulating materials is generated, and the finishing tape is damaged due to the friction between the label layer of the unit sound insulating material (external exposed layer of the unit sound insulating material).

Due to such breakage, moisture penetrates between the boundary portions of the unit sound insulation material, thereby degrading sound insulation performance of the unit sound insulation material.

The present invention is to solve the above problems, an object of the present invention is to provide a sound insulation material that can effectively prevent the floor impact sound, excellent waterproof performance and workability.

The present invention to achieve the above object,

According to an aspect of the present invention, a plurality of main body including a resin foam foam, disposed adjacent; A watertight member covering a boundary between two adjacent main bodies; And a construction tape attached to a boundary portion between the watertight member and the main body.

At this time, the construction tape includes a pressure-sensitive adhesive layer formed on one surface of the base film and the base film, it is preferable that the tear strength of the base film is 70 ~ 120 kg / cm.

The sound insulation material according to the present invention has excellent physical properties such as sound insulation, cushioning property, mechanical strength, workability and heat insulation, and is particularly excellent in waterproofing performance.

Hereinafter, a sound insulating material according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a sound insulation material according to an embodiment of the present invention, Figure 2 is a side view of the sound insulation material shown in FIG.

The sound insulation material according to an embodiment of the present invention includes a resin foam foam, and includes a plurality of main bodies 100 disposed adjacently, a watertight member 120 covering the boundary between two adjacent main bodies 100, and the watertight member ( And a construction tape 130 attached to a boundary portion between the 120 and the main body 100.

Here, the construction tape 130 includes a base film and an adhesive layer formed on one surface of the base film.

Here, the base film is a polyolefin film, the thickness thereof is 50㎛ ~ 100㎛, it is preferable that the elongation rate in the longitudinal direction of the base film is 3 to 5 times, the elongation rate in the width direction is 4 to 8 times. desirable.

The fixing force of the boundary portion between the adjacent main bodies 100 is determined according to the elongation rate of the base film. When the elongation rate is smaller than the above-mentioned value, the fixing force of the boundary portion between the adjacent main bodies 100 increases, but on the contrary, When a certain amount or more of the impact amount is applied, breakage of the base film occurs, and moisture of the light-weight bubbles flows into the sound insulation material through the breakage portion, thereby degrading the performance of the main body 100.

On the contrary, when the elongation rate is larger than the above-mentioned numerical value, even if an impact amount is applied to the boundary between the adjacent main bodies 100, since the base film can disperse the impact amount, breakage does not occur, but the adjacent main bodies 100 The holding force on the boundary between them falls.

In addition, the tensile strength of the base film constituting the construction tape 130 is determined by the fixing force and the impact dispersion capacity required for the boundary portion between the adjacent main body 100, the living environment of the space where the sound insulation material is installed (active personnel And anticipated impact amount, etc.), and the tensile strength of the base film according to the present embodiment may be 170 to 250 kg / cm 2, and preferably 190 to 230 kg / cm 2.

As described above, when the construction tape 130 closing the boundary between the adjacent main bodies 100 is damaged, inflow of lightweight bubbles is generated through the damaged portion, and thus the performance of the sound insulating material is drastically degraded. do.

The damage of the construction tape 130 according to the impact amount can be confirmed through the tear strength, the tear strength of the base film constituting the construction tape 130 may be 70 ~ 120 ㎏ / ㎝, preferably Is 100-120 kg / cm.

If it is less than the above-mentioned value, the construction tape can be easily broken even with a weak impact amount, and if it is more than the above-mentioned value, the overall size (thickness, width, etc.) of the construction tape 130 is increased to increase the cost.

The sound insulation material according to an embodiment of the present invention includes a watertight member 120 covering a boundary between two adjacent main bodies 10. In the present invention, the synthetic resin film 110 may be formed of a material having excellent waterproofness, elongation rate and mechanical strength, and is preferably formed of the same material as the dimensionally stable layer, waterproof layer, or heat insulating layer which will be described later.

That is, the watertight member 120 is formed of the same material as the functional layer, and dissipates the friction force between the adjacent main bodies 100 even when an impact amount is applied to the boundary between the adjacent main bodies 100.

In addition, the watertight member 120 preferably has the same thickness and strength as the functional layer, the watertight member may have a thickness of 0.2mm ~ 5mm. In addition, the watertight member has an adhesive layer formed thereon, and the thickness of the adhesive layer may be 20 μm to 30 μm. Complementary adhesion of such a watertight member provides excellent effects of waterproofness and durability by friction.

The resin foam foam included in the main body 100 constituting the sound insulating material according to an embodiment of the present invention preferably has a thickness of 15 mm or more, more preferably 30 mm or more, and most preferably 40 mm or more.

If the thickness is smaller than 15 mm, the impact sound barrier property may be deteriorated. In addition, the upper limit of the thickness of the said foam is not specifically limited, For example, it may be 60 mm. If the thickness exceeds 60 mm, there is a fear that construction restrictions.

It is preferable that the said resin foam foam also has a density in the range of 10-25Kg / m <^3> from a complementary viewpoint of sound insulation, mechanical property, and buffering property. If the density is less than 10 Kg / m ³ , there is a fear that the mechanical properties and buffering properties are lower than the excellent sound insulation, and if it exceeds 25 Kg / m ³ , on the contrary, in terms of mechanical properties and buffering properties, but sound insulation This may fall.

Moreover, it is preferable that hardness (compressive strength) exists in the range of 5-50 kgf / 314cm <^2> , and, as for the resin foam foam of this invention, it is more preferable to exist in the range which is 5-22 kgf / 314cm <^2> .

The hardness is 5 kgf / 314cm ² If less than that, the ductility of the foam is too large, there is a risk that the bottom is recessed when a load is applied from the top, if more than 50 kgf / 314cm ² , there is a fear that the impact sound blocking effect is lowered.

The material of the resin foam foam which can be used in the present invention is not particularly limited as long as it has the above-described physical properties, and all of the foam foams of general resins in the art may be used.

Such resin foams include polyurethane foam, polyurea foam, polyvinyl chloride foam, polypropylene foam, polyethylene foam, polystyrene foam, polyvinylacetate foam, melamine resin foam, phenolic resin foam And one or more kinds selected from the group consisting of foamed foams of any one of the above derivative resins are laminated or bonded.

Although not particularly limited, in the present invention, it is preferable to use a polyurethane foam in view of excellent elasticity as an elastomer, easy cell structure formation, and excellent mechanical properties and impact sound barrier properties compared to other materials. Do.

The method for producing the resin foam foam as described above is not particularly limited, it can be used without limitation the general method in this field according to each material. For example, the resin foam may be prepared by foaming a resin composition including an additive such as a base resin and a blowing agent through a mechanical method or a means such as ultraviolet irradiation.

The main body 100 constituting the sound insulation material according to an embodiment of the present invention may further include a functional layer formed on one side or both sides of the above-described resin foam.

Formation of the functional layer in the above means that the functional layer or the like is bonded or laminated.

The kind of the functional layer as described above is not particularly limited, and includes general layers in this field such as, for example, dimensionally stable layers, waterproof layers, insulation layers, or reinforcement board layers.

In the above dimensional stability layer is preferably used that the dimensional change rate is within 0.5%, for example, glass fiber; Synthetic resin film; And woven or nonwoven fabrics made of natural or synthetic fibers, and it is preferable to use glass fibers from the viewpoint of having excellent dimensional stability and tear strength.

In addition, examples of the waterproof layer include a liquid impermeable synthetic resin film; Or a synthetic resin impregnated or coated on a woven or nonwoven fabric such as polyester fiber; Examples of the insulation layer include synthetic resin foam sheets such as polystyrene foam sheets, polypropylene foam sheets or polyvinylacetate foam sheets; Glass wool; Rock wool; Mineral wool; And nonwoven fabrics; Examples of reinforcing board layers include inorganic modes such as plastic boards or gypsum boards; Wood plywood; Wood powder crimp board; And mixing boards of wood powder and inorganic materials.

The number, type, and / or formation order of the respective functional layers used in the sound insulating material of the present invention are determined in accordance with the use of the building to be constructed, and the like, and are not particularly limited.

That is, the sound insulation material of the present invention may include only one kind of the above-described functional layer, or may be formed on one or both sides of the heterogeneous layer of the above. In addition, in the present invention, the sound insulation material unit in which various functional layers are formed on one or both surfaces of the resin foam may be repeatedly formed to form one sound insulation material.

The foregoing description of the preferred embodiments of the present invention has been presented for purposes of illustration and various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention, And additions should be considered as falling within the scope of the following claims.

1 is a perspective view showing a sound insulating material according to an embodiment of the present invention.

2 is a side view of the sound insulation material shown in FIG.

Claims (10)

A plurality of main bodies including a resin foam and having a functional layer formed on one or both surfaces thereof; A watertight member covering a boundary between two adjacent main bodies and formed of the same material as the functional layer; And Includes a construction tape attached to the boundary between the watertight member and the main body, The construction tape includes a pressure-sensitive adhesive layer formed on one surface of the base film and the base film, characterized in that the tear strength of the base film is 70 to 120 kg / ㎝. The method of claim 1, The base film is a polyolefin film, the thickness of the sound insulating material, characterized in that 50㎛ ~ 100㎛. The method of claim 1, The adhesive layer is a sound insulating material, characterized in that the thickness of 20㎛ ~ 50㎛. The method of claim 1, The base film is a sound insulating material, characterized in that the elongation in the longitudinal direction is 3 to 5 times. The method of claim 1, The base film is a sound insulating material, characterized in that the elongation in the width direction is 4 to 8 times. The method of claim 1, The base film is a sound insulating material, characterized in that the tensile strength of 170 ~ 250 kg / ㎠. The method of claim 1, The resin foams include polyurethane foams, polyurea foams, polyvinyl chloride foams, polyfluoropropylene foams, polyethylene foams, polystyrene balo foams, polyvinylacetate foams, melamine foams, phenolic foams, acrylics A sound insulating material, characterized in that one or more mixtures selected from the group consisting of foamed foam, nonwoven fabric, textile fabric, and glassol. delete The method of claim 1, The watertight member is sound insulating material, characterized in that the thickness of 0.2mm ~ 5mm. The method of claim 1, The watertight member is formed with an adhesive layer, the sound insulating material, characterized in that the thickness of the adhesive layer is 20㎛ ~ 30㎛.

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