KR100312021B1 - Soundproofing Board Using Resonance Absorption And Process For Making Thereof - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide a soundproof plate and a method of manufacturing the same, which achieve a sound effect by using the sound attenuation principle caused by the sound reflection action due to resonance.

This invention forms spherical foams having a predetermined diameter as foamed by the blowing agent, and mixes the spherical foams with any one material selected from cement and ceramics and water after mixing in an appropriate ratio, The mixture is put into the prepared mold to form a plate-shaped foam having a predetermined thickness, and the plate-shaped foam is dried for a predetermined time to produce a rigid foam plate, and the foam plate is heated to form a spherical shape. The bursting hole for resonance noise due to the combustion of the foam is formed. As a result, the noise transmitted from the surroundings can be effectively attenuated by the sound reflection effect generated during resonance by each burst hole.

Description

Soundproofing Board Using Resonance Absorption And Process For Making Thereof}

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a soundproof plate and a method of manufacturing the same, and more particularly to a soundproof plate for a resonant noise and a method of manufacturing the same, in which attenuation of noise is carried out by the reflection of sound caused by resonance. It is done.

In general, it is well known that a noise prevention plate is used for a house or a large building in order to block even a small amount of noise generated from the surroundings, that is, noise generated from a car or various construction sites or machines, into the room. . Moreover, since the harmful effects directly on human activities due to noise are very large, the necessity of sound insulation is urgently required. In recent years, there are many sound insulation panels developed for the purpose of blocking or absorbing such noise.

One of them is provided with a predetermined space between the panels, and the soundproof panel adopts a method of mitigating the noise transmitted from the outside by the space part, and other soundproof panels include glass wool or between the two panels. There are those that install the honeycomb type fillers so that the noise transmitted is absorbed by the fillers, resulting in a noise reduction effect.

However, the sound insulation plates have a problem that the sound insulation is not so high because the sound insulation is blocked by a space provided inside or a filling material, etc., so as to obtain a sound insulation effect. That is, a predetermined sound insulation effect can be obtained when the noise rate transmitted from the outside becomes below a certain level, but there is a drawback that the effect of noise blocking is reduced when the noise level exceeds a prescribed value. In other words, the existing sound insulation board is not always uniform with respect to the blocking of noise, and there is a defect that changes according to the characteristics of the noise.

Therefore, the present invention has been developed as a result of intensive research to solve the above drawbacks, the object of the present invention is to form a foam in a plate-shaped body made of any one of the ceramic or cement material and the spherical resin foam By having several burst holes formed by the combustion of (發泡 物), and by installing the exterior plate on both sides of the foam plate, the noise transmitted from the outside when used as the sound-proof plate body to the resonance when inhaled into the interior of the burst hole The present invention provides a resonance soundproof soundproof plate and a method of manufacturing the same, which can induce a reflection effect of the noises, so that stable noise attenuation can be obtained at all times.

A feature of the present invention for achieving the above object is the step of forming a spherical foam having a predetermined diameter as the foaming by the blowing agent; Mixing the spherical foams with any one material selected from cement and ceramics and adding water at an appropriate ratio and then mixing the spherical foams with water; Injecting the mixture into the previously formed molding die to form a plate-shaped foam having a predetermined thickness; Manufacturing a rigid foam plate by drying the plate-shaped foam for a predetermined time; Heating the foam plate to form a resonance hole for blast noise in contact with the outside due to combustion of a spherical foam in the entirety of the foam plate; And attaching an exterior plate to both sides of the sound insulation plate, wherein one of the exterior plates is provided in a method of manufacturing a sound insulation plate for resonance noise forming a plurality of pores in contact with a rupture hole.

It is preferable that the spherical foam has a diameter of about 3-4 mm.

In addition, it is preferable to use any one selected from rubber or plastic as the blowing agent, and the plastic is preferably used any one selected from PVC, polyethylene, EVA, polyfuropropylene, polystyrene and ABS resin.

In addition, a feature of the present invention is a foamed plate formed by mixing any material selected from cement and ceramic, and a spherical foam of a predetermined diameter; A resonance noise rupture hole formed in said foamed plate as combustion by spherical foams to attenuate noise transmitted to said foamed plate; And an exterior plate attached to a side of the foamed plate, wherein one exterior plate is on a soundproofing plate for resonance noise in which small pores are brought into contact with the bursting hole.

Small pores (小 소) in the above is preferably formed smaller than the diameter of the rupture hole.

1 to 4 show an example of the production of the resonance soundproof soundproof board according to the present invention,

1 is a perspective view showing the shape of the sound insulation board of the first stage,

2 is a cross-sectional view taken along the line I-I of FIG. 1,

Figure 3 is an enlarged cross-sectional view showing the form of the completed foam type sound insulation board in the same direction as in Figure 2,

Figure 4 A is a cross-sectional view showing a state in which the exterior plate is attached to the outside of the foamed sound insulation board according to the present invention in the same direction as in Figure 2,

4B is an enlarged view of a portion of FIG. 4A.

* Description of the symbols for the main parts of the drawings *

10: spherical foam 20: plate-shaped foam

30: rupture hole (40): soundproof plate

40a, 40b: exterior plate 42a: small hole

Hereinafter, with reference to the accompanying drawings will be described in detail a more preferred embodiment of the soundproof plate and the manufacturing method of the resonance noise according to the present invention.

1 to 4A and B show an example of the production of the resonance soundproof soundproof board according to the present invention.

First, a spherical foam 10 having a predetermined diameter is formed by using a blowing agent. The diameter of the spherical foam is preferably molded to form a granule of approximately 3-4mm. The reason is to mix well with the ceramic or cement material as will be described later.

The foaming agent is to use rubber or plastic, preferably plastic is preferred, plastic, PVC, polyethylene, EVA, polypropylene, polystyrene and ABS resin, and any one of these do.

Since a technique of manufacturing a spherical foam using a blowing agent in the above is a general technique, a detailed description thereof will be omitted in this embodiment.

The spherical foams 10 formed by the method described above are mixed with each other after being introduced at an appropriate ratio, such as water, with respect to any material selected from cement or ceramic. The mixing ratio of water and spherical foams to cement or ceramics is good to achieve 3: 3: 4 and to allow the spherical foams to mix well with ceramics or cement.

The evenly mixed mixtures are injected into the interior of a generally prepared mold (not shown) to form a substantially rectangular plate-shaped foam having a predetermined thickness in which spherical foams 10 are mixed, as shown in FIGS. 1 and 2. (20) can be obtained. The thickness and size of the plate-shaped foam 20 can be produced to be modified as much as the intended use.

In addition, the technique of manufacturing the foam 20 by the molding die is a general technique.

The plate-shaped foam 20 demolded from the mold not shown is molded in the form of a rigid foamed plate by curing for a predetermined time, that is, for a predetermined time by natural or forced drying.

The plate-shaped foam 20 thus firmly molded is transferred to a heating process and heated at a predetermined temperature. The reason for heating the plate-shaped foam 20 is to allow only the spherical foams 10 embedded in the foam 20 to be burned and then gasified to be released, and the heating temperature is the plate-shaped foam 20 ), It is desirable to be able to burn only.

When heat is applied to the plate-shaped foam 20, the foamed gas is released after the combustion of the foams 10 due to heat and is released, where the spherical foam 10 of the plate-shaped foam 20 was located. Honeycomb-shaped small holes are formed to have a size corresponding to 10), but in particular, these holes are in contact with the outside as shown in FIG. 3 by the force of the gas discharged during combustion of the foams 10. It is formed in the form of a bursting hole 30, these bursting holes 30 are to act as a resonance noise (共鳴 用 用 用) as described later.

The display of FIG. 4 is attached to both sides of the plate-shaped foam 20 in which the rupture holes 30 are formed by attaching exterior plates 40a and 40b formed to have substantially the same size as the plate-shaped foam 20. The desired sound insulation board 40 as follows is obtained.

Wherein one of the exterior plate (40a) is formed in contact with the rupture hole (30a) is formed in a small hole (42a) formed in the same or smaller size than the rupture hole (30) On the other side, the outer plate 40b is not attached to any holes are attached. Since the method of attaching the exterior plates 40a and 40b to the plate-shaped foam 20 can be performed in various forms, only one of them will be omitted in this embodiment.

An example of the operation of the sound insulation board 40 manufactured as described above will be described in detail with reference to FIG. 4 again.

The sound insulation board 40 is installed such that the exterior plate 40a on which the small holes 42a are installed is directed toward the outside and the portion of the exterior plate 40b is directed toward the inside. Therefore, while the noise generated from the noise source continuously hits the exterior plate 40a side of the soundproof plate 40, some of the noise remains in a state where entry into the interior is blocked by the soundproof plate 40, but most of the noise is After passing through the small holes 42a of the exterior plate 40a, they enter the inside of the bursting holes 30 making contact with the small holes 42a.

At this moment, each of the bursting holes 30 is resonant due to the vibration of the main wall forming the bursting hole 30 at the moment when the noise abuts against the wall of the bursting hole 30 by creating an airtight atmosphere. Caused. However, as the noise causing the resonance of the bursting holes 30 is indicated by an arrow in FIG. 4, the impact is reflected by the opposite direction at the same time as the impact on the inner wall portion of the bursting holes 30 again, or the original sound source is canceled. As it is reflected toward, the attenuation of noise is achieved.

As described above, according to the present invention, the several bursting holes formed in the plate body achieve the attenuation of the noise by the reflection of the noise by the resonance action, so that the noise of any characteristic transmitted to the outside, that is, the automobile, There is an effect to completely absorb and block the noise transmitted from the construction site or other noise sources. In addition, when manufactured with ceramics, there is an effect that can be utilized as a heat insulating material as well as a sound insulation material. In addition, the bio-ceramic can also be used as a health product to keep the indoor air clean.

Claims (5)

Forming spherical foams having a predetermined diameter as foaming with a blowing agent; Mixing the spherical foams with any one material selected from cement and ceramics, and then mixing water with an appropriate ratio; Injecting the mixture into the prepared mold to form a plate-shaped foam having a predetermined thickness; Manufacturing a rigid foam plate by drying the plate-shaped foam for a predetermined time; Heating the foam plate to form resonance noise rupture holes formed in contact with the outside due to combustion of the spherical foam in the entirety of the foam plate; And And attaching an exterior plate to both sides of the sound insulation plate, and forming a small hole in contact with the rupture hole in the entirety of any one exterior plate. The method of claim 1, wherein the spherical foam has a diameter of about 3-4 mm. The method of claim 1, wherein the foaming agent comprises a plastic, and the plastic is any one selected from PVC, polyethylene, EVA, polypropylene, polystyrene, and ABS resin. A foamed plate formed by mixing a material selected from cement and ceramics with a spherical foam having a predetermined diameter; A resonance noise rupture hole formed in the foamed plate as combustion by the spherical foams to attenuate the noise transmitted to the foamed plate; And And an exterior plate attached to a side of the foamed plate, wherein the exterior plate is provided with small pores in contact with the rupture hole. The sound insulation board according to claim 4, wherein the pore size is smaller than the diameter of the rupture pore.