KR101776933B1 - Method for manufacturing a soundproof panel for decreasing wind load - Google Patents

Abstract

Disclosed is a method for manufacturing a soundproof panel with a reduced wind load, capable of dramatically reducing the manufacturing cost of a soundproof panel with a reduced wind load due to high productivity of the soundproof panel with a reduced wind load and easily mass-producing the soundproof panel having excellent drainage performance without forming a drain hole. The method for manufacturing a soundproof panel with a reduced wind load comprises: a process of preparing a main frame with four closed sides of upper, lower, left, and right sides and two opened sides of front and rear sides; a process of preparing three or more soundproof plates having vent holes; a process of preparing two or more resonance chamber forming members in which a plurality of longitudinal members and a plurality of lateral members cross each other to divide an internal space into a plurality of spaces; and a soundproof plate fixing process of alternately arranging the soundproof plate and the resonance chamber forming member in layers on the main frame back and forth by fixing the resonance chamber forming member to the inner surface of the main frame, and arranging the soundproof plate on the front, rear, and outermost sides.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for manufacturing a soundproof panel,

The present invention relates to an improvement of a method of manufacturing a soundproof panel with reduced wind load, and more particularly, to a method of manufacturing a soundproof panel by providing a wind path to reduce wind load and increase transmission loss by resonance with sound waves passing through a wind path, Improvement.

Generally, a sound barrier is installed around roads and railroad lines to reduce noise transmitted from roads and railroad lines to the surroundings. Conventional soundproof walls are designed in such a way that they can not communicate with each other due to noise blocking. Such conventional sound barrier walls cut off the flow of air as well as noise, resulting in an ecological disruption, which negatively affects the protection of the natural environment. Since the entire area of the soundproof wall receives the wind resistance, when the soundproof wall is formed considering the maximum wind speed in the area, the size of the soundproof wall foundation becomes excessive, and the installation cost of the soundproof wall per unit length becomes very high.

In order to overcome the above-mentioned problems of the conventional sound barrier, a wind load reduction type sound barrier has been developed and used.

In the prior art relating to a wind load reduction type soundproof wall, a ventilation type or a water supply type soundproof wall having a resonance chamber for a car which is superimposed around a ventilation passage or a water passage, Inventor: Kim Sang Hoon, A resonance chamber is arranged around the ventilation passage, and a space between the ventilation passage and the resonance chamber is separated by a porous sound-absorbing material, and air and air are introduced into the resonance chamber. In the process of passing through the ventilation passage together, the sound is absorbed by the resonance chamber and blocked, but the soundproofing wall through which the air passes is disclosed.

The above-mentioned line registration invention provides various positive effects such as achieving ventilation and soundproofing simultaneously, reducing wind pressure, and solving environmental problems due to ecological shutdown. However, when the resonance tubes are stacked for installation, Since the material for constituting the resonance tube enters the junction of the mutual junctions, the material enters a lot and the width of the resonance tube in the front-rear direction is increased to increase the volume of the resonance tube. This increases the width of the resonance tube and has a disadvantage that it is difficult to install In addition, there is a disadvantage in that the productivity is low and the manufacturing cost is very high, especially when one resonator tube is made.

Prior to the filing date of the invention, various types of soundproof panels have been developed. Since then, soundproof panels have been continuously developed. However, all of them have a storage space in which water can be accumulated, Rainwater or the like that has flowed into the room can not be discharged to the outside. Despite these problems, there has not yet been a method of manufacturing a soundproof panel having high productivity while solving such problems.

In addition, the conventional soundproof panel is disadvantageous in that it is difficult to remove foreign matter introduced into the resonance chamber and thus it is difficult to clean and maintenance and repair of the soundproof wall is very difficult.

The inventor of the present invention has recognized that it is necessary to invent a soundproof panel manufacturing method which is capable of solving the problems of the conventional soundproof panel and having high productivity.

The present inventors have considered that a drain hole is formed in a chamber forming member and a sound insulation plate so that rainwater or the like introduced into a resonance chamber through a vent hole can be well discharged to the outside, So that it is difficult to manufacture a soundproof panel and the strength of a soundproof panel is lowered.

The inventors of the present invention have also found that when a large porthole is formed, the resonance effect is reduced and it is difficult to design the porthole according to the target frequency for sound insulation, so that it is difficult to form a large porthole. In this case, It was also found that there was a problem that it was easy to be clogged by the foreign substances introduced.

Further, the inventor of the present invention has found that a conventional soundproof panel of a wind load reduction type is excellent in sound insulation effect by resonance only in a specific target frequency band, and is difficult to apply in a place where resonance sound insulation effect is required in two frequency bands I noticed that there was a problem.

It is an object of the present invention to provide a soundproof panel manufacturing method which can smoothly discharge water such as rainwater or the like that has flowed into a resonance chamber through ventilation to the outside,

Another object of the present invention is to provide a soundproof panel which is capable of smoothly discharging water such as rainwater introduced into a resonance chamber through a ventilation hole without a separate process of forming a separate ventilation hole in the chamber forming member and a soundproof panel, And a method for manufacturing a soundproof panel.

It is another object of the present invention to provide a soundproof panel manufacturing method in which there is no fear that a situation in which water in the resonance chamber can not be discharged due to clogging of a hole for receiving a sound.

It is another object of the present invention to provide a soundproof panel manufacturing method that facilitates maintenance and repair of a soundproof wall because the interior of the resonance chamber is easy to clean.

It is still another object of the present invention to provide a soundproof panel manufacturing method which is easy to manufacture and has a reduced amount of material as compared with the conventional art.

It is still another object of the present invention to provide a method for manufacturing a soundproof panel with reduced wind load capable of generating a sound effect by resonance in two target frequency bands.

It is still another object of the present invention to provide a method for manufacturing a soundproof panel with reduced wind load that can be easily adjusted by adjusting the volume ratio of chambers disposed adjacent to each other.

It is still another object of the present invention to provide a method for manufacturing a soundproof panel with reduced wind load which can make the chambers arranged adjacent to each other different from each other while keeping the dimensions of the chambers in the thickness direction constant.

A method for manufacturing a soundproof panel with a reduced load according to the present invention is a method for manufacturing a soundproof panel with a reduced wind load, comprising the steps of: preparing a main frame that surrounds four upper, lower, left and right sides, Preparing three or more sound insulating plates having vent holes; Preparing two or more resonance chamber forming members formed so that a plurality of longitudinal members and a plurality of lateral members intersect each other and divide the internal space into a plurality of members; And fixing the resonance chamber forming member to the inner surface of the main frame, the soundproof plate and the resonance chamber forming member are arranged alternately in layers on the main frame back and forth, and the soundproof plate is disposed on the outermost side And the soundproof plate fixing process is performed.

Fitting the two resonance chamber forming members to the inner surface of the main frame so that the soundproof plate is interposed between each of the at least two resonance chamber forming members; And the soundproof plate is disposed in close contact with the outside of the resonance chamber forming member disposed on the outermost side before and after the joining process, and the soundproof plate is disposed on the outermost side before and after the soundproof plate is separated from the main frame And forming a separation preventing part in the main frame along an edge of the sound insulation board.

In some cases, the soundproof plate fixing process may include forming a separation preventing portion along one edge of the main frame; Wherein the resonance chamber forming member is provided with an outermost soundproof plate on the inside of the departure preventing portion, and between the two resonance chamber forming members from the inside to the other side, the soundproof plate is in close contact with the two or more resonance chamber forming members To the inner surface of the main frame; And a step of disposing the sound insulation plate on the outside of the resonance chamber forming member disposed on the outermost side of the other side of the main frame after the fitting / fusing process and forming a separation preventing portion in the main frame along the outer edge thereof .

The first, second, and third sound insulation plates, in which the ventilation holes are formed, are prepared in the process of preparing the sound insulation plate. In the process of preparing the resonance chamber formation member, first and second resonance chambers are prepared ,

Wherein the resonance chamber forming member,

A first sound insulation plate and a second sound insulation plate, which are disposed between the first sound insulation plate and the second sound insulation plate at one edge of the first sound insulation plate and the second sound insulation plate to define a space between the first sound insulation plate and the second sound insulation plate, The first resonance chamber forming member for forming resonance chambers,

And second resonance chambers which are provided between the second sound insulation plate and the third sound insulation plate and divide a space between the second sound insulation plate and the third sound insulation plate and communicate with the respective ventilation holes formed in the second sound insulation plate and the third sound insulation plate, The second resonance chamber having a larger volume than the first resonance chamber communicated through the vent hole and the second resonance chamber having a smaller volume than the first resonance chamber communicated through the vent hole, It is preferable to use the second resonance chamber forming member alternately arranged left and right or up and down.

In the process of preparing the sound insulation plate, the first, second and third sound insulation plates and the ventilation holes are formed respectively and the ventilation holes are formed in order, and the ventilation holes are formed on the opposite sides of the third sound insulation plate The first and second resonance chambers are prepared, and the first, second, and third resonance chambers are prepared in the process of preparing the resonance chamber forming member,

Wherein the resonance chamber forming member,

A first sound insulation plate and a second sound insulation plate, which are disposed between the first sound insulation plate and the second sound insulation plate at one edge of the first sound insulation plate and the second sound insulation plate to define a space between the first sound insulation plate and the second sound insulation plate, The first resonance chamber forming member for forming resonance chambers,

And second resonance chambers which are provided between the second sound insulation plate and the third sound insulation plate and divide a space between the second sound insulation plate and the third sound insulation plate and communicate with the respective ventilation holes formed in the second sound insulation plate and the third sound insulation plate, The second resonance chamber having a larger volume than the first resonance chamber communicated through the vent hole and the second resonance chamber having a smaller volume than the first resonance chamber communicated through the vent hole, The second resonance chamber forming member alternately arranged left and right or up and down,

A plurality of ventilation holes formed in the first sound insulation plate and a plurality of ventilation holes formed in the fourth sound insulation plate to divide a space between the first sound insulation plate and the fourth sound insulation plate and disposed between the first sound insulation plate and the fourth sound insulation plate, Wherein the third resonance chamber has a volume smaller than that of the first resonance chamber communicated through the vent hole and a second resonance chamber having a volume larger than that of the first resonance chamber communicated through the vent hole, It is preferable to use the third resonance chamber forming member in which the three resonance chambers are alternately arranged in the left and right or upper and lower sides.

Wherein the resonance chamber forming member,

It is more preferable that the volume of the second resonance chamber is gradually increased or decreased from the middle of the first resonance chamber to the third resonance chamber and that the volume of the second resonance chamber is alternately arranged horizontally or vertically.

Wherein the resonance chamber forming member,

The first resonance chambers are arranged in a size larger than the first resonance chambers and the second resonance chambers are alternately arranged in a larger size than the first resonance chambers, It is preferable to use the one that is disposed.

It is preferable that the ventilation holes formed in the sound insulation plate are disposed to be in contact with the bottom of the resonance chamber in the process of joining / melting so that the water introduced into the resonance chamber can be smoothly discharged to the outside.

In the process of preparing the resonance chamber forming member,

It is more preferable that the bottom of the resonance chamber has an inclined surface which is gradually increased toward the left and / or right in the contacting portion.

In the process of preparing the sound insulation plate, a transparent sound insulation plate may be prepared.

And the outer edge of the transverse member and the longitudinal member is formed with a folded bending portion so as to be in surface contact with the inner surface of the main frame at a larger area than the end portion thereof.

Industrial Applicability According to the present invention, the productivity of a soundproof panel with reduced wind load is high, and the manufacturing cost of a soundproof panel with reduced wind load can be drastically reduced.

According to the present invention, it is possible to easily mass-produce a soundproof panel having excellent drainage performance without forming a separate drain hole.

According to the present invention, since it is easy to remove foreign matter introduced into the resonance chamber, it is possible to make a sound insulation panel which is very easy to maintain and repair after construction of the sound insulation wall.

According to the present invention, it is possible to easily make a soundproof panel capable of exhibiting excellent sound insulation effect in two or more frequency bands differing by a few hundred Hz or more, and is easy to make and requires less material than conventional ones.

According to the present invention, the volume of the resonance chamber disposed adjacent to the front and rear can be easily adjusted and designed, which is excellent in adaptability.

According to the present invention, it is possible to make the resonance chambers, which are overlapped before and after the resonance chamber, to have different volumes while maintaining the thickness of each resonance chamber constant.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a process diagram showing a manufacturing process of a soundproof panel with reduced wind load according to a manufacturing method of the present invention;
2 is a perspective view of a soundproof panel according to the manufacturing method of the present invention,
Fig. 3 is an exploded perspective view of the soundproof panel of Fig. 2,
4 is a broken perspective view according to II of FIG. 2,
FIG. 5 is a perspective view of the third sound insulation plate of FIG. 4,
6 is a plan view for explaining the arrangement states of the first to third resonance chambers,
FIG. 7 is a graph showing sound pressure versus transmission loss for a soundproof panel of a wind load reduction type according to a manufacturing method of the present invention,
8 is a perspective view of a soundproof panel of a wind load reduction type according to a manufacturing method of the present invention using a transparent sound insulation plate,
9 and 10 are perspective views showing another example of the resonance chamber of the soundproof panel of the wind load reduction type according to the manufacturing method of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view of a soundproof panel according to a manufacturing method of the present invention, FIG. 3 is an exploded perspective view of the soundproof panel of FIG. 2, FIG. FIG. 4 is a perspective view of the third soundproof plate of FIG. 4, FIG. 5 is a perspective view of the third soundproof plate of FIG. 4, and FIG. 6 is a plan view of the first, second, and third resonance chambers.

1 to 6, a process of making a sound-absorbing panel 100 with reduced wind load according to the manufacturing method of the present invention will be described.

First, a main frame 150 having an empty interior is prepared (S1). As the main frame 150, it is suitable that the front, rear, and rear sides are opened while surrounding the four upper, lower, left, and right sides as shown in Figs. 2 and 3. The main frame 150 is preferably made of a metal. The metal is preferably made of stainless steel or the like which has sufficient strength and good weldability and is free from rust, and other materials such as mild steel, various kinds of carbon steel, and light alloy can be used. Sometimes, the main frame 150 may be made of synthetic resin. The main body frame 150 may be integrally formed with a release preventing portion 160 for preventing the soundproofing plate 110 from being detached along one edge of the main frame 150.

Three or more sound insulating plates 110 and four sound insulating plates 110 are prepared together with the main frame 150 (S2). The soundproofing plate 110 is preferably made of a synthetic resin plate such as acryl, and it is preferable that the outermost soundproofing plate 110 is made slightly thicker than the inside thereof. In the sound insulating plates 110, a plurality of ventilation holes (WH) are formed at corresponding positions. If necessary, small holes (WS) can be formed to reduce the wind noise caused by the wind passing through the ventilation hole (WH) around the ventilation hole (WH). If the soundproof plate 110 is made of a transparent material, the scenery outside the sound barrier wall can be appreciated in a vehicle running on the road on which the sound barrier wall is installed.

In addition, two or more resonance chamber forming members 120, preferably three resonance chamber forming members 120 are prepared together with the main frame 150 and the soundproof plate 110 (S3).

It is appropriate that the resonance chamber forming member 120 is formed in a grid shape in which a plurality of longitudinal members 120a and a plurality of transverse members 120b are formed so as to intersect each other and the inner space is divided into a plurality of parts. It is preferable that the longitudinal member 120a and the lateral member 120b are formed to have a cross-fit shape by forming grooves that can engage with each other at positions facing each other. Sometimes, the resonance chamber forming member 120 can be integrally molded through a mold.

The edges of the transverse member 120b and the longitudinal member 120a are preferably bent at an angle of 90 degrees so as to be in surface contact with the inner surface of the main frame 150 have. This improves the resistance weldability, and if it is made of a synthetic resin, it can be firmly bonded when it is welded.

The soundproof plate 110 is fixed to the main frame 150 by fixing the resonance chamber forming member 120 to the main frame 150 in a state where the main frame 150, the soundproof plate 110 and the resonance chamber forming member 120 are prepared, (150).

The process of fixing the soundproof plate is as follows.

When the three soundproofing plates 110 and two resonance chamber forming members 120 are provided, the edge of one of the first resonance chamber forming members 121 is welded to the inner surface of the main frame 150 by welding or welding The first resonance chamber forming member 121 and the second resonance chamber forming member 121 are disposed in close contact with each other so that the first soundproof plate 111 to be installed on the outside of the first resonance chamber forming member 121 remains, The second resonance chamber forming member 122 is bonded to the inner surface of the main frame 150 by welding or the like (S4).

Then, a first sound insulation plate 111 and a third sound insulation plate 113 are provided on the outer surfaces of the first and second resonance chamber forming members 121 and 122, a sealant is applied along the edges thereof, The detachment preventing portion 160 is installed on the main frame 150 along the edge of the first soundproofing plate 111 and the third soundproofing board 113 at step S5.

On the other hand, when four soundproofing plates 110 and three resonance chamber forming members 120 are provided, the resonance frequency of the resonance frame 120 is gradually increased from the outermost second resonance chamber forming member 122 or the third resonance chamber forming member 123, The sound insulating plate 110 is tightly sandwiched between the forming members 120 and coupled to the main frame 150 (S4).

Then, a third soundproofing plate 113 and a fourth soundproofing plate 114 are provided on the outer surfaces of the second and third resonance chamber forming members 122 and 123, and after the sealant is applied, the third soundproofing plate 113 and The separation prevention part 160 is installed on the main frame 150 along the edge of the fourth sound insulation board 114 (S5).

The outermost soundproofing plate 110 is provided on the inner side of the main body frame 150 and the resonance chamber forming member 160 is formed next to the outermost soundproofing plate 110, (120) and the soundproofing plate (110) may be alternately provided, and the escape prevention portion (160) may be provided outside the outermost soundproofing plate (110).

The separation preventing portion 160 is preferably made of a metal having a rectangular shape and is preferably joined to the main frame 150 by laser welding.

That is, according to the present invention, the sound-absorbing panel 100 with reduced wind load can be easily manufactured, and productivity is also excellent.

The soundproof panel 100 according to the present invention has a plurality of resonance chambers RC communicated with a plurality of ventilation holes WH and a plurality of ventilation holes WH, respectively. In this embodiment, the ventilation hole WH has a semicircular shape. One of the great features of the wind load reduction type soundproof panel 100 manufactured according to the manufacturing method of the present invention is that the ventilation hole WH is provided in contact with the bottom of the resonance chamber RC. Accordingly, in the soundproof panel 100 of the wind load reduction type according to the manufacturing method of the present invention, water such as rainwater introduced into the resonance chamber RC can be smoothly discharged to the outside, and a separate drain hole no need.

The soundproof panel 100 according to the present invention is preferably provided with a first soundproof plate 111, a second soundproof plate 112 and a third soundproof plate 113. A plurality of ventilation holes (WH) are formed at corresponding positions in the first to third sound insulation plates (111, 112, 113) at regular intervals. The first, second, and third sound insulation plates 111, 112, and 113 are disposed in sequence at intervals.

The sound-deadening panel 100 according to the present invention has a first resonance chamber forming member 121. The first resonance chamber forming member 121 is disposed between the first sound insulation plate 111 and the second sound insulation plate 112 to define a space between the first sound insulation plate 111 and the second sound insulation plate 112, The first resonance chambers RC1 are formed to communicate with the ventilation holes WH formed in the first sound insulation plate 111 and the ventilation holes WH formed in the second sound insulation plate 112, respectively.

The sound-deadening panel 100 according to the present invention has a second resonance chamber forming member 122. The second resonance chamber forming member 122 is disposed between the second sound insulation plate 112 and the third sound insulation plate 113 to divide a space between the second sound insulation plate 112 and the third sound insulation plate 113, And the second resonance chamber RC2 communicating with the ventilation holes WH formed in the first sound insulation plate 112 and the ventilation holes WH formed in the third sound insulation plate 113, respectively. These second resonance chambers RC2 are smaller than the first resonance chamber RC1 communicated with each other through the ventilation holes WH and smaller than the first resonance chamber RC1 communicated with each other via the other ventilation holes WH And the second resonance chambers RC2 having the same volume are mixed, and are preferably arranged alternately to the left and right.

The soundproof panel 100 according to the present invention further comprises a fourth soundproofing plate 114 and a third resonance chamber forming member 123. [

The fourth sound insulation plate 114 also has ventilation holes WH formed at positions corresponding to the ventilation holes WH of the first sound insulation plate 111. [ The fourth soundproofing plate 114 is disposed at a distance from the first soundproofing plate 111 on the opposite side of the second soundproofing plate 112.

The third resonance chamber forming member 123 is provided between the first sound insulation plate 111 and the fourth sound insulation plate 114 to divide a space between the first sound insulation plate 111 and the fourth sound insulation plate 114, And third resonance chambers RC3 communicating with the ventilation holes WH formed in the sound insulation plate 111 and the ventilation holes formed in the fourth sound insulation plate 114, respectively.

The third resonance chamber RC3 formed by the third resonance chamber forming member 123 is smaller in volume than the first resonance chamber RC1 communicated through the vent hole WH and the third resonance chamber RC2 formed through the vent hole WH The first resonance chamber RC1 has a volume larger than that of the first resonance chamber RC1.

The first resonance chamber forming member 121 to the third resonance chamber forming member 123 as described above have a lattice shape in which the transverse members and the longitudinal members cross each other.

The soundproof panel 100 according to the present invention can be manufactured by using the first soundproofing plate 111 to the fourth soundproofing board 114 and the first resonance chamber forming member 121 to the third resonance chamber forming member 123 And a main frame 150 surrounding and supporting the edges.

When the size of the second resonance chambers RC2 and the third resonance chambers RC3 is larger than necessary, an auxiliary plate AP may be provided to reduce the size of the chamber.

3 to 6, the first resonance chambers RC1 are formed to have a constant size and the second resonance chamber (second resonance chamber) RC2 are arranged alternately laterally and laterally than the first resonance chamber RC1 and the third resonance chambers RC3 are arranged alternately smaller and larger than the first resonance chamber RC1, In the resonance chamber RC2, the volumes increasing and decreasing gradually toward the third resonance chamber RC3 via the first resonance chamber RC1 are arranged alternately to the left and right, thereby achieving an efficient spatial arrangement.

In this embodiment, it is exemplified that the volume is gradually increasing and decreasing is alternately arranged in the right and left directions. However, the volume may be arranged alternately up and down at times. This can be easily understood by considering changing the position shown in FIG. 4 and FIG. 5 to a position where only the position of the ventilation hole WH is tangent to the floor, as shown in FIG.

The ventilation holes WH formed in the first sound insulation plate 111 to the fourth sound insulation plate 114 are preferably arranged in the same line, but may be arranged in a zigzag pattern at any time. When the ventilation holes WH are arranged in zigzag, the sound insulation performance is improved, but the ventilation performance is lowered. Therefore, in order to maintain the ventilation performance at an appropriate level, the size of the ventilation holes WH relatively increases.

The soundproof panel 100 of the wind load reduction type according to the manufacturing method of the present invention as shown in FIGS. 2 to 6 has the ventilation hole WH formed in contact with the bottom of the resonance chamber RC, The water flowing into the resonance chamber (RC) is not accumulated in the resonance chamber (RC).

When the wind passes through the ventilation hole (WH), the speed of the wind gets faster, so it not only makes it easier to dry, but it is also very easy to clean even if foreign matter enters the resonance chamber.

That is, when the soundproof wall is constructed by using the sound-absorbing panel 100 of the wind load reduction type according to the manufacturing method of the present invention, water is smoothly discharged, water is not accumulated in the resonance chamber, Do.

   FIG. 7 is a graph showing the sound pressure loss of transmission loss per frequency for a soundproof panel of a wind load reduction type according to a manufacturing method of the present invention.

The inventors of the present invention have found that the thickness of the ventilation holes WH is 65 mm, the thickness of the third and fourth sound insulation plates 114 and the main frame 150, and the thicknesses of the first through The thickness of the transverse member of the three resonance chamber forming member 123 is 5 mm and the thickness of the first and second soundproofing plates 112 and the length of the first to third resonance chamber forming members 123 is 2 mm, FIG. 7 is a graph showing the results of measurement of the sound pressure loss per frequency for the soundproof panel 100 according to the present invention.

As can be seen from the graph of FIG. 7, the sound-absorbing panel 100 according to the present invention has a sound pressure loss of about 25 dB at 500 Hz to 23.6 dB at a sound pressure of about 30 dB at 630 Hz and 1,000 Hz, .

8 is a perspective view of a wind load reduction type sound insulation board according to a manufacturing method of the present invention using a transparent sound insulation board.

8 is different in that a sound insulating plate 110 made of a transparent material such as transparent acrylic is used, and the rest is the same as shown in Figs. When the soundproof wall made of the soundproof panel 100 made using the transparent soundproof plate 110 is installed, it is possible to view the scenery outside the soundproof wall.

9 and 10 are perspective views showing another example of the resonance chamber of the soundproof panel of the wind load reduction type according to the manufacturing method of the present invention.

A bottom half BT of the resonance chamber RC formed by the resonance chamber forming member 120 is provided with a semicircular ventilation hole WH at the right and left central portions of the resonance chamber RC, And the inclined surface SL, which is set higher and higher toward the left and the right, can be provided. In this case, even if water such as rainwater flows into the inside of the resonance chamber RC, the inflow water falls down on the inclined surface and is discharged to the outside of the resonance chamber RC. Here, the bottom BT of the portion in contact with the ventilation hole WH may be formed entirely in a plane, or the left and right middle portions may be convex and both edges may be formed lower.

10, the ventilation hole WH may be provided on one edge of the resonance chamber (bottom) BT. In this case, the bottom BT may be provided on the opposite side to the ventilation hole WH, It is preferable to form the inclined plane SL which gradually increases to the edge.

Although the shape of the ventilation hole (WH) is described using a semicircular shape as an example, it may be formed in other shapes such as a circle, a rectangle, and an ellipse.

The rest are the same as those described with reference to Figs.

The present invention is likely to be used to create a wind load reduction type soundproof panel used to construct a wind load reduction type soundproof wall installed along an edge of a road or railroad.

100: Soundproof panel 110: Soundproof panel
111 to 114: first to fourth soundproofing plates 120: resonance chamber forming member
121, 122, 123: first to third resonance chamber forming members
150: Main frame 160:
RC: resonance chamber RC1: first resonance chamber
RC2: second resonance chamber RC3: third resonance chamber
WH: Ventilation hole BT: Floor
SL: slope

Claims (11)

A method of manufacturing a soundproof panel of reduced wind load,
A process of preparing an open main frame surrounding the top, bottom, left, and right sides of the front and rear sides;
Preparing three or more sound insulating plates having vent holes;
Preparing two or more resonance chamber forming members for forming a plurality of resonance chambers by dividing an inner space into a plurality of longitudinal members and a plurality of transverse members so as to intersect each other; And
Wherein the soundproof plate and the resonance chamber forming member are disposed in layers alternately back and forth in the main frame through fixing the resonance chamber forming member to the inner surface of the main frame, and the soundproof plate is disposed at the outermost position A soundproof plate fixing process,
Wherein the resonance chamber is fixed to the resonance chamber so that water flowing into the resonance chamber can not be accumulated in the resonance chamber and can be discharged to the outside through the ventilation hole in the soundproof plate fixing process, A step of installing the ventilation holes formed in the sound insulation plate so as to be in contact with the bottom of the resonance chamber so that moisture at the bottom of the resonance chamber can be easily dried,
Holes are formed in the vicinity of the ventilation holes of the sound insulation plate to reduce the wind noise caused by the wind passing through the ventilation holes,
The outer edge of the transverse member and the longitudinal member is formed with a folded bent portion so as to be in surface contact with the inner surface of the main frame at a larger area than the end portion thereof,
In the soundproof plate fixing process,
Joining two or more resonance chamber forming members to the inner surface of the main frame so as to be in a state in which the sound insulation plate is interposed between each of the at least two resonance chamber forming members; And
Wherein the soundproof plate is disposed in close contact with the outside of the resonance chamber forming member disposed on the outermost side before and after the joining process so that the soundproof plate is disposed on the outermost side And forming a separation preventing portion in the main frame along an edge of the sound insulation plate,
Forming a separation preventing part along one edge of the main frame;
Wherein the resonance chamber forming member is disposed so as to be in contact with the sound insulation plate between two or more resonance chamber forming members from the inside to the outside of the resonance chamber forming member, Joining the member to the inner surface of the main frame; And
And a step of disposing the sound insulation plate in close contact with the outside of the resonance chamber forming member disposed on the outermost side of the main frame and forming a separation preventing portion in the main frame along the outer edge thereof Lt; / RTI >
The process for preparing the soundproofing plate may include preparing first, second, and third sound insulation plates having the vent holes at corresponding positions, respectively,
In the process of preparing the resonance chamber forming member, first and second resonance chamber forming members are prepared,
Wherein the resonance chamber forming member,
And a second sound insulation plate disposed between the first sound insulation plate and the second sound insulation plate at one edge of the first sound insulation plate and the second sound insulation plate to define a space between the first sound insulation plate and the second sound insulation plate, The first resonance chamber forming member for forming resonance chambers respectively,
And a second resonance chamber provided between the second sound insulation plate and the third sound insulation plate and partitioning a space between the second sound insulation plate and the third sound insulation plate and communicating with the respective air holes formed in the second sound insulation plate and the third sound insulation plate, The second resonance chamber having a volume larger than that of the first resonance chamber communicated through the vent hole and the second resonance chamber having a volume smaller than that of the first resonance chamber communicated through the vent hole, Wherein said second resonance chamber forming member is disposed alternately in the left-right direction or in the up-down direction. delete delete delete The method according to claim 1, further comprising preparing a fourth sound insulation plate having ventilation holes formed in the process of preparing the sound insulation plate and disposed on the opposite side of the third sound insulation plate with respect to the first sound insulation plate,
The third resonance chamber forming member is further prepared in the process of preparing the resonance chamber forming member,
Wherein the resonance chamber forming member,
Wherein a space between the first sound insulation plate and the fourth sound insulation plate is provided between the first sound insulation plate and the fourth sound insulation plate and the spaces between the respective ventilation holes formed in the first sound insulation plate and the respective ventilation holes formed in the fourth sound insulation plate, Wherein the third resonance chamber has a volume smaller than that of the first resonance chamber communicated with each other through the vent hole and a second resonance chamber having a volume larger than that of the first resonance chamber communicated through the vent hole Wherein the third resonance chamber is formed of the third resonance chamber forming member arranged alternately in the left-right direction or in the upper-lower direction. The resonance chamber forming member according to claim 5,
Wherein the volume of the second resonance chamber is set to be larger or smaller as the volume moves from the third resonance chamber to the third resonance chamber through the intermediate resonance chamber, Method of manufacturing soundproof panel. The resonance chamber forming member according to claim 5,
The first resonance chambers are arranged in a size larger than the first resonance chambers and the second resonance chambers are alternately arranged in a larger size than the first resonance chambers, Wherein the sound absorbing panel is provided with a sound absorbing structure. delete The method of claim 1,
In the process of preparing the resonance chamber forming member,
Wherein the bottom of the resonance chamber is provided with an inclined surface which is provided so as to gradually increase to the left or to the right or to gradually increase toward the left and right at a portion where the ventilation hole is provided in contact with the bottom of the resonance chamber. Method of manufacturing soundproof panel. The method of claim 1, wherein the step of preparing the soundproofing plate comprises preparing a transparent soundproofing plate. delete

Images