JPH051174A - Sound-absorbing material - Google Patents

Abstract

(57) [Summary] [Object] The present invention provides a sound absorbing material in which fine hollow spheres are arranged in a wall in a matrix to enhance the sound absorbing effect and the heat insulating effect. According to the present invention, the surface of a micro hollow sphere is coated with a magnetic material to be magnetized, and the surface of the magnetic material is coated with a thermoplastic elastomer to form sound absorbing particles, and the sound absorbing particles are aggregated. It is characterized in that the sound absorbing layer is formed by heating and melting the same and applying a strong magnetic field to the matrix of the melted thermoplastic elastomer to align the fine hollow spheres in a wall shape in the magnetic field direction.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sound absorbing material in which fine hollow spheres are arranged in a matrix in a wall shape to enhance the sound absorbing effect and the heat insulating effect.

[0002]

2. Description of the Related Art In recent years, not only the function of partitioning the interior of a wall plate of a building material but also the function of partitioning the interior of the wall plate into a large number of inorganic fine internal hollow bodies is uniformly dispersed in the base material of the wall plate. A micro air layer has been developed, which has improved heat insulation and sound absorption by utilizing the characteristics of air. Further, in order to further improve the heat insulating property and the sound absorbing property, a material in which an inorganic hollow body having a relatively large particle size is used and particles are adhered to each other while leaving voids between the particles has been developed. For example,
In Japanese Patent Publication No. 61-38209, the surface of the inorganic hollow body particles is coated with a powder of a thermoplastic polymer finer than the particles of the inorganic hollow body particles, and the powder of the thermoplastic polymer is melted by heating to melt the inorganic hollow body. The particles are bound together.

[0003]

By the way, in order to improve the heat insulating property and the sound absorbing property, it is necessary to uniformly disperse the inorganic hollow body particles in the base material. However, the inorganic hollow body particles are compared with the base material. Since the specific gravity is low, it is difficult to uniformly disperse, and unevenness may occur in the molded product.

Further, although the weight reduction, the heat insulating property and the sound absorbing property are improved by increasing the use amount of the inorganic hollow particles, there is a drawback that the amount of the base material is decreased and the rigidity and the strength are decreased.

Therefore, the present invention has been devised in order to effectively solve these problems, and its purpose is to improve the heat insulating property and the sound absorbing property, and at the same time, the sound absorbing material having appropriate rigidity and strength. Is provided.

[0006]

In order to achieve the above object, the present invention is directed to coating the surface of a micro hollow sphere with a magnetic material for magnetization, and at the same time coating the surface of the magnetic material with a thermoplastic elastomer to absorb noise. Body particles are formed, and the sound absorbing body particles are assembled and heated and melted, and a strong magnetic field is applied to the matrix of the melted thermoplastic elastomer to align the minute hollow spheres in a wall shape in the magnetic field direction to form a sound absorbing layer. It was formed.

[0007]

As described above, the present invention collects the sound absorbing body particles and heats them to melt the thermoplastic elastomer coated on the surface of the magnetic material to form a matrix and magnetize the matrix. The sound absorbing particles are adhered to each other by the magnetic material. Then, when a strong magnetic field is applied to this molten matrix, the magnetic force causes the hollow microspheres to move in the magnetic field direction and align in a wall shape. When the molten matrix is cooled in this state, the matrix solidifies and a wall-shaped sound absorbing layer of minute hollow spheres is formed. Then, the air inside the micro hollow spheres forming the sound absorbing layer functions to buffer the sound waves transmitted from the surface of one matrix to the inside, and the sound waves transmitted to the other matrix are buffered to exert a sound absorbing effect. To do. Further, like the sound waves, the air inside the hollow microspheres forming the sound absorbing layer functions to suppress heat transfer, and the heat insulating effect is also exhibited. Further, since this matrix layer is continuously formed, it has appropriate rigidity and strength as a heat insulating material.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in FIG. 1, the sound absorbing material of the present invention comprises a thermoplastic elastomer matrix 1 and one or more sound absorbing layers 2 formed therein. The sound absorbing layer 2 is formed by gathering the sound absorbing particles 3 in the matrix 1 in a wall shape, and has a function of buffering a sound wave entering the matrix 1. As shown in FIG. 2, the sound absorbing body particles 3 are formed by coating the surface of the hollow microspheres 4 with the magnetic material 5 and further by coating the surface of the magnetic material 5 with the resin powder of the thermoplastic elastomer 6 in an appropriate layer thickness. It is constructed by melt coating. This thermoplastic elastomer 6 literally has an appropriate melting point and curing point, and constitutes a matrix when the sound absorbing body particles 3 are heated. Also,
The magnetic material 5 is formed by plating a metal such as iron, nickel or cobalt, and these are plated and then magnetized in a magnetic field. The fine hollow spheres 4 are preferably inorganic hollow spheres such as obsidian, but are hollow spheres containing air therein and have a melting point of the thermoplastic elastomer 6
Other polymers may be used if they are higher.

Next, a method of manufacturing the sound absorbing material will be described. As shown in FIG. 3, first, the sound absorbing particles 3 configured as described above are densely gathered in the heat resistant container (see FIG.
A) When heated, the thermoplastic elastomer 6 covering the outermost surfaces of the sound absorbing body particles 3 melts to form a continuous liquid matrix 1 (FIG. 3B). Then, the magnetic material 5
The micro hollow spheres 4 coated with are floated in the matrix 1, and the magnetized magnetic materials 5 attract each other, and
As shown in B, they gather in the approximate center of the matrix 1. Next, when a strong magnetic field is applied to the matrix 1 in such a state, as shown in FIG. 3C, the micro hollow spheres 4 gathered in the substantially central portion are separated in the magnetic field direction, and the central portion of the matrix 1 is wall-shaped. Will be aligned to form the sound absorbing layer 2. Then, when this is press-molded and cooled, the matrix 1 is solidified, and the layers of the matrix 1 are formed above and below the sound-absorbing layer 2.

Next, the operation of the present invention will be described.

As described above, in the sound absorbing material of the present invention, the wall-shaped sound absorbing layer 2 including the plurality of minute hollow spheres 3 between the matrix 1 of the thermoplastic elastomer 6 exhibits the sound absorbing effect and the heat insulating effect. That is, the air inside the micro hollow spheres 3 converts the sound waves transmitted from the surface of the matrix 1 on one side into the heat energy, and acts to buffer the waves entering the matrix 1 on the other side, thereby providing a sound absorbing effect. It will be demonstrated. Further, like the sound waves, the air inside the micro hollow spheres 3 forming the sound absorbing layer 2 serves to suppress heat transfer, and the heat insulating effect is also exhibited at the same time. Further, since the layers of the matrix 1 are continuously formed, the density of the material surface is increased, and the matrix 1 has appropriate rigidity and strength.

As described above, the sound absorbing material of the present invention has the rigidity and strength required as a material such as a wall material by reducing the hollow hollow spheres 3 into a wall shape, and at the same time, reduces sound transmission and heat transfer. And have a sufficient sound absorbing effect and heat insulating effect. Further, the weight of the material can be reduced.

The size of the hollow microspheres 4 and the coating thickness of the thermoplastic elastomer 6 may be freely changed as required. Further, when the wall-shaped sound absorbing layer 2 is formed, by increasing or decreasing the number and strength of magnetic fields, a plurality of sound absorbing layers 2 can be formed in one matrix 1, or the width of the sound absorbing layer 2 can be arbitrarily changed. You can also

[0015]

In summary, according to the present invention, the rigidity and strength required for materials such as wall materials are provided, and the sound transmission and heat transfer are reduced to provide sufficient sound absorbing effect and heat insulating effect. .. Further, it has an excellent effect that the weight of the material can be reduced.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention.

FIG. 2 is a cross-sectional view showing a sound absorbing particle.

FIG. 3 is an explanatory view showing a manufacturing method of the present invention.

[Explanation of symbols]

 1 Matrix 2 Sound Absorbing Layer 3 Sound Absorbing Particles 4 Micro Hollow Spheres 5 Magnetic Material 6 Thermoplastic Elastomer

Front Page Continuation (72) Inventor Toshikazu Takeda 8 Tsutana, Fujisawa City Kanagawa Prefecture, Isuzu Central Research Institute (72) Inventor Osamu Sakamoto 8th Tsutana, Fujisawa City Kanagawa Prefecture Isuzu Central Research Institute (72) ) Inventor Eiji Okumura 8 Isuna Central Research Institute, Kanagawa Prefecture, Isuzu Central Research Institute (72) Inventor Keiko Takahashi 8 Isuzu Central Research Institute, Fujisawa, Kanagawa Prefecture Isuzu Central Research Institute

Claims (1)

Claim: What is claimed is: 1. The surface of a micro hollow sphere is coated with a magnetic material to be magnetized, and the surface of the magnetic material is coated with a thermoplastic elastomer to form sound absorbing body particles. A sound absorbing layer characterized in that body particles are aggregated and heated and melted, and a strong magnetic field is applied to the matrix of the melted thermoplastic elastomer to arrange the minute hollow spheres in a wall shape in the magnetic field direction to form a sound absorbing layer. material.