KR200359989Y1 - Epitaxy structure of Noise between floor Prevention material - Google Patents

Abstract

The present invention relates to a laminated structure of an interlayer noise prevention material, and more particularly, to prevent floor impact of a building, a noise prevention material interposed between a net sound insulation reinforcement made of a foamed polyethylene sheet material having a plurality of hexagonal holes formed therein. It provides excellent sequential sound insulation and insulation effect to save energy, and provides a laminated structure of interlayer noise prevention material that can effectively increase the sound insulation, moistureproof and insulation effect by effectively blocking light impact sound and heavy impact sound. It has its features.

Description

Epitaxy structure of Noise between floor Prevention material

The present invention relates to a laminated structure of an interlayer noise prevention material, and more particularly, to prevent floor impact of a building, a noise prevention material interposed between a net sound insulation reinforcement made of a foamed polyethylene sheet material having a plurality of hexagonal holes formed therein. It is related to the laminated structure of the interlayer noise prevention material which can provide the sound insulation, moistureproof, and insulation effect by further blocking the light impact sound and heavy impact sound effectively by providing the excellent sequential sound insulation and insulation effect. .

Due to the unique heating structure of Ondol, Korea has built a lightweight concrete with a specific gravity of about 0.5 in the upper part of the slab when building the floor of a multi-family house to secure the horizontal layer for heating coils and the insulation layer at the bottom of the heating coil. It is common to complete the floor structure by installing heating coils and placing finishing mortars with a thickness of about 40 to 60 mm.

In addition, in the interlayer noise suppression industry, various materials have been developed and released.In the early stages, waste tire grinding was mixed with adhesive components such as acrylic, urethane, acrylic, etc. In this case, it is difficult to improve sound insulation and insulation because light weight concrete that is placed on top of this cushion material is very easily absorbed. Some have proposed soundproof plates using waste tire chips, and some used waste tire chips and cork powder. Although the proposed sound absorbing material is used, neither of these technologies has fundamentally improved the problems of sound insulation and thermal insulation deterioration of the waste tire chip, and the products have heavy and uncomfortable construction problems.

Therefore, in recent years, by forming protrusions on the surface of the polymeric foam material, the sound insulation is improved by absorbing, reflecting, and canceling the incident noise. Although it is difficult to expect satisfactory performance, some have proposed a method using a pulverized synthetic resin such as ethylene vinyl acetate, but this still has the same tendency and high thermal conductivity as waste tire chips. .

Since foam styrene, which has been used mainly as a heat insulating material for buildings, has a certain effect of reducing floor impact noise while being a heat insulating material, many sites use only this foam styrene as an interlayer noise prevention material and finish the surface with foam styrene as a main material. It is used as a noise preventing material between layers by changing only the texture through treatment, but it also does not deviate from the category of foamed styrene, and it is competitive by compounding with foamed styrene, foamed ethyl vinyl acetate, polyurethane foam, and soundproof sheet containing a large amount of inorganic materials. Efforts have been made to create floor impact sound absorbers.

However, the interlayer noise prevention material is not significantly different from the properties of the foamed styrene, and it is difficult to expect a high floor impact sound reduction effect by ignoring the aspects of light shock sound and heavy shock sound, which are the basic factors of floor impact sound reduction.

The impact sound in the above is divided into a light impact sound and a heavy impact sound, the light impact sound is a sound, that is, the sound of falling coins or the sound of high heels, etc. It is possible to reduce the impact sound even with the existing sound insulation material, but the children who are divided by heavy shock sound Since dull sounds such as playing sounds are transmitted as vibrations, it is a reality that the existing sound insulation material does not show the effect of reducing the weight impact sound in the existing floor structure.

In recent years, such a floor impact sound insulation material forms a styrofoam layer having heat insulation, soundproofing, and moisture resistance, and a porous upper and lower nonwoven layer bonded to upper and lower surfaces of the styrofoam layer through upper and lower adhesive layers, respectively. An interlayer noise prevention material composed of a natural foamed rubber layer having chemical resistance, oil resistance, abrasion resistance, and corrosion resistance having an embossed surface formed on the upper side was proposed and attempted to reduce the weight impact sound. There still remained a problem that could not effectively block the heavy shock sound transmitted by.

The present invention has been devised to fundamentally solve the problems of the prior arts and to improve them. The object of the present invention is to provide a sound insulation reinforcement in the form of a mesh made of a foamed polyethylene (Foamed Polyethylene) sheet material having a plurality of hexagonal holes. Resonance holes are formed by foamed polyethylene sheets stacked on the upper and lower sides so that noise or vibration can be eliminated or blocked in a number of resonance holes. It is intended to further increase the sound insulation, moisture proof, and heat insulation effects.

1 is an exploded perspective view showing a laminated structure of the present invention,

Fig. 2 is a perspective view of the main part showing the main part of the present invention;

3 is a cross-sectional view showing a laminated structure of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: interlayer noise prevention material,

2: sound insulation stiffener,

3, 4: upper and lower side foamed polyethylene sheet,

5, 6: rubber sheet layer.

In order to achieve the above object, the present invention will be more clearly described with reference to the accompanying drawings.

That is, the present invention in the interlayer noise prevention material (1) for reducing the floor impact sound consisting of a plurality of laminated sheet material,

A plurality of hexagonal holes 21 are formed in the form of foamed polyethylene (Foamed Polyethylene) sheet material, which is formed by partitioning the front or both sides while maintaining a predetermined interval and shape on the upper and lower sides of the foamed polyethylene in the upper and lower sides The sheets 3 and 4 are thermally fused in a stacked manner to form resonance holes having a predetermined area and depth,

The upper and lower surfaces of the upper and lower foamed polyethylene sheets 3 and 4 are respectively heat-sealed with rubber sheet layers 5 and 6 having a predetermined thickness.

Referring to the operation of the present invention made of such a structure as follows.

First, the interlayer noise suppression material 1 of the present invention has hexagonal holes 21 formed on the entire surface of the net sound insulation stiffener 2 located in the middle of the laminated structure, and the upper and lower sides of the expanded polyethylene on the upper and lower surfaces thereof. The sheets 3 and 4 are respectively heat-sealed to form a space, that is, a resonance hole, in the state held in the middle portion thereof, and the laminated sheets in which the rubber sheets 5 and 6 are heat-sealed on the upper and lower sides thereof. Since it has a structure, when it is used for construction, the thermal conductivity is very low due to the material properties of the sheet, and it is composed of dense bubbles and independent bubble structure, so the heat blocking and thermal insulation effect is superior to other insulation materials, and the effect of sound insulation and moisture proofing. It is high, so it can simultaneously achieve the double effect of cozy and comfortable indoor atmosphere and energy saving.

In addition, the construction work is also easy to achieve because it is porous, not brittle, light and flexible.

After the construction of the interlayer noise prevention material 1 of the present invention made of such a laminated structure, when the noise occurs, the sound effect is excellent as well as the hard light sound, close to the heavy sound close to vibration, for example, noise in the upper layer When this occurs, the light sound and the heavy sound close to the vibration are hardened first through the upper rubber material sheet 6 layer, so that the strength of the noise is weakened, and in the upper foam polyethylene sheet 4 layer 2 The sound is erased, and by acting in the plurality of resonance holes formed in the network-shaped sound reinforcing material (2) located in the middle portion to act to eliminate the vibration sound.

The noise attenuated through the laminated sheet material, that is, the resonance hole, sequentially passes through the foamed polyethylene sheet (3) layer and the rubber material sheet (95) layer sequentially, thereby completely erasing. .

According to the present invention having such a structure, a sound insulation reinforcement in the form of a mesh made of a foamed polyethylene (Foamed Polyethylene) sheet material having a plurality of hexagonal holes is interposed in the middle portion, and the foamed polyethylene sheet is thermally fused to the upper and lower portions thereof. It can be eliminated or completely cut off by keeping the noise or vibration sound in a number of resonant halls, which are sound insulation spaces, so that high sound insulation can be obtained. It is obvious that this is a very beneficial design that can achieve several useful effects simultaneously, such as increasing the insulation effect even further.

Claims (1)

In the interlayer noise prevention material (1) for reducing the floor impact sound composed of a plurality of laminated sheet material, A plurality of hexagonal holes 21 are formed in the form of foamed polyethylene (Foamed Polyethylene) sheet material, which is formed by partitioning the front or both sides while maintaining a predetermined interval and shape on the upper and lower sides of the foamed polyethylene in the upper and lower sides The sheets 3 and 4 are thermally fused in a stacked manner to form resonance holes having a predetermined area and depth, The laminated structure of the interlayer noise preventing material, characterized in that the upper and lower sides of the foamed polyethylene sheet (3), (4), each of the rubber sheet layer (5), (6) having a predetermined thickness is heat-sealed respectively .