KR20070104151A - Porosity soundproof plate for room - Google Patents

Abstract

A porous soundproof plate for indoors is provided to prevent the transfer of noise to the outside by absorbing and cutting off noise occurring in a room, to offer convenience for construction and to improve in appearance by forming in the prefabricated type. A porous soundproof plate(100) for indoors comprises a first soundproofing member(110) provided with noise absorbing portions(113) by many grooves(111a), a second soundproofing member(120) located on the backside of the first soundproofing member, and a finishing member formed on the front of the first soundproofing member or the second soundproofing member selectively to protect the front of the porous soundproof plate for indoors. The first soundproofing member and the second soundproofing member are manufactured with materials having excellent air permeability and sound absorbing capacity such as sponge, Styrofoam, Polyolefin or Polyurethane foam to heighten sound absorbing and soundproofing efficiencies, and the noise absorbing portions of the first soundproofing member are formed to decrease and absorb the noise diffused reflected by a section(112) of the soundproofing member.

Description

Porous soundproof plate for room

1 is a perspective view showing an indoor sound insulation board according to the prior art.

Figure 2 is a perspective view showing the indoor porous sound insulation board according to the present invention.

Figure 3 is a perspective view showing a porous indoor sound insulation board according to another embodiment of the present invention.

Figure 4 (a) (b) is a cross-sectional view showing a porous indoor sound insulation board according to the present invention including a finishing member.

Figure 5 is a schematic diagram showing a manufacturing process of the indoor porous sound insulation board according to the present invention.

Figure 6 (a) (b) is a partial cross-sectional view showing another embodiment of the indoor porous sound insulation board according to another embodiment of the present invention.

Figure 7 (a) (b) is a cross-sectional view of the indoor porous sound insulation board installed in accordance with the present invention.

*** Explanation of symbols for the main parts of the drawing ***

50: indoor wall 100: indoor porous sound insulation board

110: first sound insulation material 111, 111a: groove portion

113: noise absorption unit 120: second sound insulation

122: protrusion 130: finishing member

131: cushioning material 132: leather

The present invention relates to a soundproof panel that blocks noise, and more particularly, to an indoor porous soundproof panel configured to absorb and block noise generated in a room so that it is not transmitted to the outside, and is prefabricated in construction as well as beautiful in appearance. will be.

As the industry develops and the vehicle is developed, noise sources increase among human environmental factors, and various methods have been attempted to effectively reduce them.

In general, theaters, music studios, recording studios, concert halls, etc., have sound absorption and soundproofing facilities to block noise from being transmitted to the outside or inflow of external sounds, and to remove resonance caused by the reflection of sound by sounds. In addition, sound absorbing and soundproofing devices should be installed so that indoor noise is not transmitted to the outside even in a home with many children.

The sound absorbing and soundproofing equipment is used a lot of methods using a sound absorbing material around the noise source, and the type of sound absorbing material used in this way is largely used inorganic and organic materials, inorganic materials include rock wool, glass wool, glass fiber, etc. As the organic material, a material obtained by foaming a resin such as a sound absorbing board made of polyester fiber, urethane, polypropylene, polyethylene, or the like is used.

Looking at the conventional sound-proofing member with reference to Figure 1, the general polyurethane sponge (1) was constructed by laminating the woven fabric (2) excellent in scratch performance and breathability on the front of the sponge. The sponge 1 is profiled to have an egg plate shape, and the woven fabric 2 has a beautiful touch and color, is antibacterial and flame retardant, and is laminated or glued together using adhesive or heat fusion. In addition, the back of the sponge (1) is configured by adding a plate-shaped foam product (3).

This method means that the soundproofing efficiency is entirely determined by the sound absorbing performance of the sponge 1, and it is difficult to expect complete soundproofing indoors. Therefore, the soundproofing effect that completely blocks the indoor noise and at the same time a simple structure is required.

The present invention is to solve the problems as described above, and to prevent the noise generated from the inside to be transmitted to the outside, and to provide a porous sound insulation board for indoor use as a prefabricated construction as well as beautiful appearance. .

In addition, an object of the present invention is to provide an indoor porous sound insulation board which can greatly improve sound absorption performance by enlarging the defect area actually hit by sound waves by increasing the surface area of the sound insulation material.

In order to achieve the above object, the indoor porous sound insulation board according to the present invention comprises a first sound insulation material having a groove portion and a second sound insulation material having a plate shape in forming a sound insulation plate that attenuates and absorbs noise.

In other words, the indoor sound insulation board for attenuating and absorbing noise includes a plurality of circular or polygonal grooves formed at regular intervals on the upper, lower, left, and right sides, and a plurality of noise absorbing portions formed by cross sections of the side surfaces of the grooves. It is formed to enlarge the sound absorption area. In addition, the second sound insulation material portion is a plate shape formed on the rear surface integrally with the first sound insulation material portion.

At this time, the first and second soundproofing material is a single soundproofing material, the second wall soundproofing material side is fixed to the room wall, and fixed, the noise generated in the room is diffusely reflected in the sound-absorbing sound absorbing material is characterized in that it is attenuated and absorbed by the soundproofing material .

The groove portion of the first sound insulation material portion is formed by mechanical compression of the groove shape, and the second sound insulation material portion formed behind the groove portion by the mechanical partial compression has a compressed plate shape.

In addition, the first and second soundproofing material may be configured separately, wherein the first soundproofing material is a soundproofing material formed by a circular or polygonal through groove formed at regular intervals on the top, bottom, left and right, and the through groove. A plurality of sound-absorbing parts formed by the cross section of the configuration is configured to maximize the sound absorption area, and the second sound insulation material has a plate shape that is adhesively bonded to the back of the first sound insulation material portion to a size that can cover the back of the first sound insulation material portion. .

The indoor porous sound insulation board formed as described above is folded and fixed to the second sound insulation material side when installed and used on an indoor wall. The noise generated in the room is diffusely reflected by the noise sound absorption part and attenuated and absorbed by the sound insulation material.

In addition, if necessary, the side of the first sound insulation material portion can be folded and fixed to the interior wall, wherein a plurality of independent air layers are formed between the first sound insulation material portion and the interior wall by the noise absorbing portion. At this time, the non-damped noise entered through the second sound insulation material portion is attenuated by the air layer formed by the sound absorbing portion to increase the sound insulation efficiency of the sound insulation plate.

In addition, the perforated grooves forming the sound absorbing portion of the first soundproofing portion to increase the soundproofing efficiency may be formed in a trapezoidal shape having a wide side and a narrow outer side of the second soundproofing portion in contact with the noise. The cross section of the second sound insulation material forming the sound absorbing portion is configured to protrude into the through groove portion to form a protruding portion.

In addition, in order to protect the indoor soundproof board for the interior of the size to cover the front, including a finishing member, such as wallpaper, fabric cloth, to configure the soundproof panel, considering the use state of the indoor soundproof board for indoor use and the amount of noise generated in the room The finishing member is configured using a thin material such as wallpaper or cushion material and leather formed with a plurality of through holes as necessary.

In addition, the first and second soundproofing parts may be one selected from a sponge, styropol or polyolefin, and a polyurethane foam resin having excellent soundproofing effect and capable of withstanding the force of mechanical compression.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the indoor porous sound insulation board according to the present invention.

Figure 2 is a perspective view showing an indoor porous sound insulation board according to the present invention, Figure 3 is a perspective view showing an indoor porous sound insulation board according to another embodiment of the present invention, Figure 4 (a) (b) includes a finishing member Sectional drawing showing the indoor porous sound insulation board according to the present invention.

As shown, the indoor porous sound insulation board 100 according to the present invention is the first sound insulation material 110, the sound-absorbing portion 113 is formed by the groove portion 111a, and the rear of the first sound insulation material 110 The second soundproofing portion 120 is located.

In addition, if necessary to include a finishing member (Fig. 4a, 4b: 130) to protect the front surface of the indoor porous sound insulation board 100.

In this case, the first and second soundproofing parts 110 and 120 are unitary single soundproofing plates, and preferably the soundproofing material to the depth of the grooves formed by the grooves 111a of the first soundproofing material part 110 is the first soundproofing material part ( 110) and the plate shape of the rear side is divided into a second sound insulation (120).

In addition, a plurality of grooves 111a of the first sound insulation material 110 are formed at regular intervals of up, down, left, and right, and may be formed of one selected from a circle, an ellipse, and a polygon, if necessary. Preferably, the first sound insulation material 110 is formed in a circular shape so as to be easily formed by mechanical compression.

In addition, the groove 111a of the first sound insulation material 110 may be configured by removing the cut after cutting into the groove 111a shape by mechanical cutting, preferably using a groove-shaped machine. I use it.

Accordingly, the second sound insulation material portion 120 formed behind the first sound insulation material portion 110 has a plate shape that is partially compressed by the groove portion 111a formed by pressing, and the noise generated in the room is compressed. The sound insulation is diffused by the second sound insulation material 120 and is absorbed by the first sound insulation material 110 having the sound absorbing part 113 formed by the groove 111a and the groove end surface 112.

As such, the soundproof panel divided into the first soundproof member 110 and the plate-shaped second soundproof member 120 having grooves formed in a single soundproof board is suitable for use in a small room where the thickness of the soundproof board cannot be expanded and the thickness of the soundproof board is increased. The efficiency of damping and absorbing noise can be increased without widening.

In addition, as shown, the indoor porous sound insulation board 100 according to another embodiment of the present invention is the same size as the first sound insulation material 110 and the first sound insulation material forming the sound-absorbing portion 113 The second soundproofing portion 120 is made of a combination. Then, if necessary, the finishing member 130 is configured to protect the front surface of the indoor porous sound insulation board 100.

In addition, the first sound insulation material 110 and the second sound insulation material 120 of the present invention is one selected from a general sound absorbing member or a sound-absorbing member or a sponge, styropol or polyolefin, polyurethane foam resin is excellent in breathability and sound absorption. . In addition, the first and second soundproofing parts 110 and 120 may use the same material or different materials as necessary to increase sound absorption and soundproofing efficiency.

In addition, the indoor porous sound insulation panel 100 is a thickness of a degree that can protect people from accidental external impact when the wall is installed on the interior wall of the building, and can block and absorb the noise generated, preferably of 5 to 10 cm Has a thickness.

In addition, the first sound insulation material 110 forms a plurality of penetrating grooves 111 at regular intervals of up, down, left, and right, wherein each single penetrating groove 111 has a cross section according to a shape. Surrounding the end faces 112 of the soundproofing material to form a single sound-absorbing portion 113 to enter the noise. In addition, the penetrating groove 111 is one selected from a circle, an ellipse, and a polygon, if necessary, and is formed so as to penetrate the first soundproof material 110 in a quadrangular shape having four sound insulation material cross sections 112. .

The through grooves 111 formed as described above constitute a single sound absorbing portion 113 together with the cross-section 112 of the first soundproofing portion 110 to absorb the noise diffused by the sound-proofing material cross-section 112. By attenuating and absorbing sound in the section 113, the effect is excellent in room soundproofing. In addition, the penetrating groove 111 is formed to widen the surface area of the sound insulation material and has a size selected according to the degree of noise generated in the room.

In addition, the second soundproof material part 120 has the same size as the first soundproof material part 110 and has the same thickness as the thickness of the first soundproof material part 110, or is formed thinner or thicker to improve sound insulation efficiency. It is preferably made of a material that is excellent in sound absorption performance than the first soundproof material portion 110. Therefore, the second soundproof material portion 120 is bonded and bonded to the rear surface of the first soundproof material portion 110 by an adhesive means such as an adhesive 101, thereby absorbing sound while passing through the first soundproof material 110. The generated noise excluding the degree of extinction is attenuated and absorbed by the second sound insulation material 120 to be extinguished.

In addition, referring to Figure 4 (a) (b) the front of the first soundproofing material portion 110 has a nice touch and color beautiful and flame-retardant and antibacterial finish member 130 is integrally formed using an adhesive means However, the finishing member 130 is used to select a variety of fabrics, cloth, non-woven fabric and breathable leather and film and the like.

The finishing member 130 is to protect the indoor porous soundproofing plate 100 and according to the use of the porous soundproofing plate 100, as shown in FIG. 4 (a), a thin finishing member 130 such as wallpaper 133. ) Or use a thick finish member 130 as shown in Figure 4 (b).

At this time, looking at Figure 4 (b) is the finishing member 130, the cushion member 131 and leather 132, etc., the through-hole 133 is formed in the finishing member 130 is noise generated in the room Passing through the through hole 133 enters into the porous sound insulation board 100. The indoor porous sound insulation board 100 formed as described above improves sound insulation performance and improves aesthetics.

In addition, the finishing member 130 is selectively positioned on the front surface of the first soundproof material portion 110 or the front surface of the second soundproof material portion 120 according to the use state of the indoor porous sound insulation board 100.

Figure 5 is a schematic diagram showing a manufacturing process of the indoor porous sound insulation board 100 according to the present invention in which the through groove 111 is formed.

As shown in the drawing, the indoor porous sound insulation board 100 firstly places the first sound insulation material 110 on a moving device such as a conveyor belt, and moves the punching device 10 up and down from the upper portion of the first sound insulation material 110. ) To form a rectangular through hole 111. Of course, the shape of the groove 111 to be penetrated according to the shape of the drilling device 10 is formed differently, the drilling device 10 for forming the groove portion 111 penetrated through the first soundproofing material (110). Any device can be used.

In addition, the first sound insulation material 110 having the through holes 111 formed therein is adhesive on the front surface of the first sound insulation material 110 using an adhesive roller 20 for coupling with the second sound insulation material 120. Applying 101 and adhesively bonding the second sound insulation material portion 120 to the front surface of the first sound insulation material portion (110). At this time, the second soundproof material portion 120 is compressed by a predetermined pressing roller 30 and adhesively bonded to the first soundproof material portion 110.

In addition, Figure 6 (a) (b) is a partial cross-sectional view showing another embodiment of the indoor porous sound insulation panel 100 according to another embodiment of the present invention, the through hole 111 of the first sound insulation material 110 In other words, the protrusion 121 is formed on the second sound insulation 120 according to the shape of the noise absorbing part 113.

At this time, as shown in Fig. 6 (a), the through hole 111 of the first sound insulation material 110, the inner side, that is, the more the space of the sound-absorbing sound 113 as entering the second sound insulation material 120 side. It is made of trapezoidal shape. In other words, the penetrating groove part 111 has a trapezoidal shape having a wide side and a narrow outer side contacting the second sound insulation material part 120. The sound passing through the finishing member 130 into the first soundproofing member 110 enters into the widened sound absorbing portion 113 and the speed of the noise falls and cross-sections of the second soundproofing member 120 are in contact with each other. It is configured to be attenuated and absorbed by hitting the end face 112 of the first sound insulation material 110 constituting the unit 113.

In other words, the cross-sectional area of the space formed by the sound-absorbing portion 113, that is, the cross-sectional area 112 formed by the end surface 112 of the first soundproof material portion 110 and the end surface 121 of the second sound insulation material portion of the noise generated by the widening Attenuation and sound absorption is facilitated, and the noise induced by the noise absorption unit 113 is exhausted by not being reflected back to the outside, thereby maximizing sound insulation efficiency.

In addition, as shown in Figure 6 (b), in order to form a wider sound absorbing end area of the sound insulation plate 100 more protrudes the end surface 121 of the second sound insulation material 120 into the sound absorbing portion 113 space ( 122). At this time, the shape of the protrusion 122 may be variously formed according to the forming method, preferably formed in each of the sound absorbing portion 113 in the shape of a triangle to maximize the sound absorbing cross-sectional area as shown, Attenuation and sound absorption, that is, the sound insulation efficiency is maximized.

Indoor porous sound insulation panel 100 according to the embodiments as described above is installed on the building interior wall 50 as shown in Figure 7 (a) (b) to perform a soundproof function, as shown in the present invention The indoor porous sound insulation board 100 according to the present invention is installed by contacting the first soundproofing member 110 side to the interior wall 50 or the second soundproofing member 120 side to the interior wall 50 as necessary. do.

7 (a) shows that the second sound insulation material part 120 is installed in contact with the interior wall 50. The interior wall 50, the second sound insulation material part 120, the first sound insulation material part 110, and the finishing member ( Located in the order of 130), it can be easily installed on the interior wall by using adhesives, etc., because the size is constant and light material is used.

Accordingly, the noise generated in the room passes through the finishing member 130 and enters the sound absorbing portion 113 of the first soundproofing material portion, and the noise is formed on a cross section which forms a sound absorbing area according to the angle of the entered noise. Is diffusely reflected, and most of them are attenuated and absorbed by the sound absorbing areas formed by the first and second sound insulation members 110 and 120. At this time, each time the process is reflected on the cross-section of the soundproof material is repeated, the soundproofing efficiency is increased to exert an excellent effect on the room soundproofing.

The indoor porous sound insulation board 100 installed as described above is greatly expanded by a sound absorbing area that attenuates and absorbs noise by the groove forming the sound absorbing portion 113, thereby maximizing flaw efficiency and desired by the finishing member 130. It forms colors and touches to satisfy the user's aesthetic needs.

FIG. 7 (b) shows that the first soundproofing member 110 is installed to be in contact with the interior wall. The interior wall 50, the first soundproofing member 110, the second soundproofing member 120, and the finishing member 130 are shown. Located in order.

Accordingly, the noise generated in the room passes through the finishing member 130 to be attenuated and absorbed by the second sound insulation material 120 to enter a plurality of air layers formed by the sound absorbing part 113. At this time, the speed of the noise is significantly reduced by the air layer formed by the sound absorbing portion 113, and thus the noise is easily attenuated and absorbed by the enlarged sound absorbing area in the sound absorbing portion.

The present invention described above can be variously modified and changed within the scope without departing from the spirit of the present invention for those skilled in the art to which the invention pertains to the foregoing embodiments and the accompanying drawings. It is not limited.

As described above, according to the indoor porous sound insulation board according to the present invention, the noise absorbing portion formed in the first soundproofing material portion is greatly enlarged the scratch area is maximized the efficiency of the sound effect and excellent finish by using a finishing member such as wallpaper and fabric.

In addition, the attenuation and sound absorption are repeated each time the process reflected in the sound-absorbing portion surrounded by the other cross-section of the sound insulation material exerts an excellent effect on the soundproofing of the room and at the same time the construction is simple and the weight is very light.

Claims (9)

In the sound insulation board which attenuates and absorbs noise, A first sound insulation member having a circular or polygonal groove formed at regular intervals at upper, lower, left, and right sides, and a plurality of noise absorbing portions formed by a cross section of the side surface of the groove to enlarge the sound absorption area; It is composed of a plate-shaped second sound insulation material formed on the rear surface integrally with the first sound insulation material; The first and second sound insulation material is a single sound insulation material, the side of the second sound insulation material is folded and fixed to the indoor wall, the noise generated in the room is diffusely reflected in the sound absorbing portion is attenuated and absorbed by the sound insulation material Perforated sound insulation board. The method of claim 1, The groove part of the first soundproof material part is formed by mechanical compression of the groove shape, and the second soundproof material part formed behind the groove part has a compressed plate shape. In the sound insulation board which attenuates and absorbs noise, A first sound insulation member having a plurality of sound absorbing portions formed by a circular or polygonal through groove portion formed at regular intervals at upper, lower, left and right sides, and a cross section of the soundproofing material formed on the through groove portion to enlarge the sound absorption area; A second soundproof material having a plate shape adhesively bonded to the rear surface of the first soundproof material part in such a size as to cover the rear surface of the first soundproof material part; And the second sound insulation material side is fixed to the interior wall, and noise generated in the room is diffusely reflected by the noise absorption part and attenuated and absorbed by the sound insulation material. The method according to claim 1 or 3, The first sound insulation material side is folded and fixed to the interior wall, and the interior sound insulation board comprising a plurality of independent air layers between the first sound insulation material and the interior wall by a sound absorbing portion. The method of claim 3, wherein The through-holes of the sound-absorbing portion have a trapezoidal shape with a wide side and a narrow outer side contacting the second soundproofing portion. The method of claim 5, The cross section of the second sound insulation material forming the sound-absorbing portion is projected into the through groove portion to form a protrusion for indoor use. The method according to claim 1 or 3, Indoor porous sound insulation board comprising a finishing member, such as wallpaper, fabric cloth in a size that can cover the entire surface of the indoor porous sound insulation board. The method of claim 7, wherein The finishing member is a porous sound insulation board for indoor, characterized in that comprising a plurality of through-holes formed cushioning material and leather. The method according to claim 1 or 3, The first and second sound insulation material is a porous sound insulation board for indoor, characterized in that one selected from sponge, styropol or polyolefin, polyurethane foaming resin.

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