KR20170123785A - Having a perforated plate and a method of manufacturing embossed type perforated sound-absorbing modules to be applied and its - Google Patents

Abstract

The present invention provides a sound absorbing module, a perforated plate having an embossed perforation applied thereto, and a manufacturing method thereof. To this end, the present invention includes: a sound absorbing material provided thereinside so as to minimize a phenomenon in which a noise having been introduced through embossed perforations is radiated to the outside through the perforations again; and a sound absorbing housing in which a plurality of embossed perforations having a wide outer diameter and a narrow inner diameter are formed at regular intervals such that the noise is not radiated to the outside again after being absorbed onto the outer circumferential surface that surrounds the sound absorbing material. Accordingly, the present invention is able to maximize the noise cancellation efficiency in various applications, such as a silencer, a soundproof wall, an enclosure, or the like, thus securing high reliability for a product.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sound absorbing module, a perforated plate having embossed perforations applied thereto, and a method of manufacturing the perforated plate,

The present invention relates to a sound absorbing module for maximizing sound absorbing efficiency by minimizing radiated noise to the outside through the embossed perforations introduced through the embossed perforations, a perforated plate having embossed perforations applied thereto, And a manufacturing method thereof.

Generally, a muffler installed in each duct provided for air conditioning of various buildings, or an enclosure covering the roadside such that the soundproof wall does not interfere with the heat radiation of the engine and does not radiate noise are contained in the fluid It is installed and used to reduce noise.

Prior art related to a silencer includes, as disclosed in Korean Patent No. 10-1030440 and Korean Patent No. 10-1542824, the noise included in the fluid on the surface of the case excluding the passage through which the fluid passes And a sound absorbing material is provided therein to reduce the noise introduced into the perforations (hereinafter, referred to as 'prior art document 1').

Prior art related to soundproof walls and the like includes a plurality of punched holes on the side where noise is generated as disclosed in Korean Patent No. 10-0925528, Korean Registered Patent No. 10-1143415, Korean Patent Laid-Open No. 10-2016-0017572, (Hereinafter, referred to as 'Prior Art Document 2'), and a sound absorbing material is installed inside the sound absorbing material.

In addition, a pier plate having a plurality of pores is provided in the not-shown enclosure so that noise can be introduced into the sound-absorbing material.

Korean Patent No. 10-1030440 Korean Patent No. 10-1542824 Korean Patent No. 10-0925528 Korean Patent No. 10-1143415 Korean Patent Publication No. 10-2016-0017572

However, the perforations of the perforated plate formed so as to introduce noise into the prior art documents 1 and 2 are merely perforated by a single pressing operation on the planar plate, so that noise is introduced and then radiated again through the perforated holes, And also causes a further reduction in the noise reduction efficiency due to the collision with the noise introduced through the perforation.

In order to solve the above problems, the present invention has been made to solve the above-mentioned problems in the related art by minimizing the noise radiated through the embossed perforations to the outside through the embossed perforations, thereby maximizing sound absorption efficiency A sound absorbing module, a perforated plate having embossed perforations applied thereto, and a method of manufacturing the same.

Another problem to be solved by the present invention is to make the flow of the fluid more smoothly in the sound-absorbing module.

Another problem to be solved by the present invention is to minimize the external radiation of the incoming noise as the noise is introduced smoothly.

According to an aspect of the present invention, there is provided a sound-absorbing module which is disposed to form a passageway in a case of a silencer, and is configured to absorb and reduce noise included in fluid passing through the silencer, A sound absorbing material provided inside; And a sound absorbing housing in which a plurality of embossed perforations are formed at regular intervals so that noises are absorbed on the outer circumferential surface surrounding the sound absorbing material and then are not discharged to the outside.

The embossed perforation may have a wide outer diameter on the side of the passage, a narrow inner diameter on the side of the sound absorbing material, and a pocket space formed between the embossed perforation and the embossed perforation.

The front end of the sound-absorbing housing is formed as a curved surface, and the rear end is formed as an inclined surface inclined to the intermediate side.

A pier plate having a plurality of embossed pores so that the noise contained in the fluid is absorbed and not released again through the absorbed portion. The embossed pore has a large outer diameter on the side where noise is introduced, The inner diameter is narrow and includes pocket spaces formed between the embossed perforations and the embossed perforations such that no noise is emitted.

Wherein the embossed perforation has an outer diameter area of 50% or more in proportion to the total area of the perforated plate, the inner diameter area is less than 40% in proportion to the total area of the perforated plate, 25, the inner diameter is 2 to 15, and the height between the outer diameter and the inner diameter is 0.8 to 10 mm.

The pocket space faces the embossed pore, and the space on the inner diameter side is wide and the outer diameter side on the opposite side is narrow.

A method of providing a plurality of embossed perforations to prevent a noise contained in a fluid from being absorbed and then re-emitted through the absorbed portion, comprising the steps of: puncturing a plurality of punctures at regular intervals on a flat plate; Forming a plurality of embossed perforations, each embossed perforation being formed by projecting the plurality of perforations upwardly or downwardly together with the expansion, wherein the inner diameter of the protruded embossed perforations is narrow and the opposite side of the inner diameter And a pocket space is formed between the embossed perforation and the embossed perforation.

The present invention minimizes radiated noise to the outside through the embossed holes, through which the noise introduced through the embossed hole is maximized, thereby maximizing the sound absorption efficiency. Thus, it is possible to reduce noise in various applications such as a silencer, a soundproof wall or an enclosure It is possible to maximize the efficiency and ensure high reliability of the product.

Further, in the sound-absorbing module, the flow of the fluid can be made more smoothly, so that the sound absorption efficiency and canceling efficiency of the noise can be maximized.

In addition, as the noise is smoothly introduced, the external radiation of the introduced noise can be minimized, thereby maximizing the canceling efficiency of the introduced noise.

1 is a sectional view for explaining a sound-absorbing module of the present invention,
FIG. 2 is a cross-sectional view illustrating a state where the silencer is applied to the silencer according to FIG. 1;
3 is a perspective view for explaining another embodiment of the present invention,
4 is a partially enlarged cross-sectional view according to Fig. 3,
5 is a block diagram for explaining another embodiment of the present invention;
6 is a flow chart for explaining the manufacturing process according to FIG.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The present invention is not limited to the embodiments.

FIG. 1 is a cross-sectional view for explaining a sound-absorbing module of the present invention, and FIG. 2 is a cross-sectional view for explaining a state of being applied to a silencer according to FIG.

A noise absorbing unit for absorbing noise included in the fluid passing through the passageway 112 is disposed in a case 110 of a known silencer 100 installed in each duct provided for air conditioning of various buildings, So that the sound absorption module (1) is provided.

The present invention minimizes radiated noise to the outside through the embossed perforations introduced through the embossed perforations, thereby maximizing sound absorption efficiency.

The sound-absorbing module 1 according to the present invention includes a sound-absorbing material 10, such as a conventional glass fiber, provided inside; And a sound absorbing housing 20 in which a plurality of embossed perforations 22 are formed at predetermined intervals through a pressing process so that noises are absorbed on the outer circumferential surface surrounding the sound absorbing material 10 and then released to the outside.

The embossed perforation 20 has an outer diameter D on the side of the passage 112 that is wide and an inner diameter C on the side of the sound absorbing material 10 is narrow. The embossed perforations 20 on the side of the sound absorbing material 10, Each of the pocket spaces 30 is formed such that noise is not emitted between the perforations 20. At this time, the portion of the pocket space located on the inner diameter side is wide and the portion located on the outer diameter side is formed narrower as opposed to the embossed perforation.

The front end of the sound-absorbing housing 20 is formed as a curved surface 20A so that the fluid can be guided smoothly. The rear end of the sound-absorbing housing 20 has a slope (20B).

In addition, at least two or three or more of the above-described sound-absorbing housings may be integrally manufactured by welding or the like, or may be connected and fixed to each other by known fasteners or connectors.

According to the present invention as described above, the noise included in the fluid passing through the passage is introduced through the embossed hole of the sound-absorbing housing, that is, the noise is smoothly introduced through the embossed hole formed with a narrow outer diameter and a narrow inner diameter And then absorbed by the sound absorbing material incorporated therein.

In addition, since the noise introduced through the embossed hole is not canceled by the sound absorbing material and a part of the noise can not be radiated to the outside, the inner diameter is formed to be narrower than the outer diameter due to the characteristic of the embossed hole, thereby minimizing the emission through the embossed hole And it is possible to minimize the radiation to the outside by the pocket space formed especially between the embossed punch and the embossed punch.

That is, the inner diameter of the embossed perforation is narrow, and the pocket space formed between the embossed perforation and the embossed perforation is formed by the portion where the inner diameter is located is formed so as to be trapped in the pocket space, It can be minimized.

Accordingly, the noise introduced through the embossed hole of the sound-absorbing housing is minimized from being radiated to the outside, thereby maximizing the efficiency of noise reduction by maximally offsetting the built-in sound-absorbing material. Particularly, the noise introduced through the embossed hole by the pocket space formed between the embossed hole and the embossed ride is minimized to the outside, so that the noise can be more efficiently reduced. do.

Accordingly, the sound-absorbing module of the present invention has a structural feature that is installed inside the silencer and minimizes radiated noise to the outside after the noise included in the fluid passing through the passage is minimized, thereby maximizing the noise reduction efficiency The reliability of the silencer can be maximized.

Fig. 3 is a perspective view for explaining another embodiment of the present invention, and Fig. 4 is a partially enlarged sectional view according to Fig.

As shown in the figure, a perforated plate P having a plurality of embossed perforations 22 is provided to prevent noise contained in the fluid from being absorbed and then released through the absorbed portion.

The perforated plate P may be a conventional silencer installed in each duct provided for air conditioning of various buildings or an enclosure covering the roadside without covering the soundproof wall or the heat radiation of the engine and preventing noise from radiating It is applied to case, plate, or housing type in which noise included in fluid can be introduced. In addition, the perforated plate having embossed perforations according to the present invention can be applied to all devices and places for attenuating sound.

The present invention minimizes radiated noise to the outside through the embossed perforations introduced through the embossed perforations, thereby maximizing sound absorption efficiency.

The embossed perforation 22 according to the present invention has an outer diameter D on the side where noise is introduced and a narrow inner diameter C on the side on which the noise is introduced and the embossed perforation 22 and the embossed And each pocket space 30 formed so that the noise introduced between the perforations 22 is not released.

In addition, the outer diameter area of the embossed perforation is formed to be approximately 50% or more in proportion to the total area of the perforated plate so as to increase the noise introduction efficiency, and the total area of the perforated plate It is preferable that the thickness is less than about 40%.

The embossed perforation 22 has an outer diameter D of 3.5 to 25, an inner diameter C of 2 to 15 and a height H of 0.8 to 10 mm between the outer diameter and the inner diameter. That is, the outer diameter and the inner diameter are preferably formed at a ratio of about 1.5: 1.

In other words, when the outer diameter is smaller than? 3.5, the sound absorption efficiency is lowered. When the outer diameter is larger than? 25, the perforated area is wider than the entire area of the perforated plate, something to do. The inner diameter also has the same condition as the above reason.

When the height is less than 0.8 mm, the height is too low to be radiated to the outside after the noise is introduced. If the height is more than 2.4 mm, the inner diameter is narrower than the above diameter, The above height is appropriate in order to prevent the possibility of deterioration.

On the other hand, the pocket space 30 has a large space on the side of the inner diameter C facing the embossed perforation 22 and a narrow side on the opposite side outer diameter D side. That is, when the noise introduced through the embossed hole is radiated to the outside, the pocket space on the inner diameter side is formed to be wide, thereby minimizing the conditions that can be radiated to the outside.

Accordingly, since the embossed punch has a wide outer diameter and a narrow inner diameter, it is possible to minimize the amount of noise introduced into the punch while increasing the efficiency of noise introduction, and in particular, The space is rather wide on the inner diameter side and narrow on the outer diameter side, thereby minimizing the condition that the noise can be radiated to the outside.

Therefore, the embossed perforation provided in the perforated plate of the present invention has a condition to maximize noise absorbing efficiency and cancellation efficiency by minimizing radiated noise to the outside while smoothly introducing noise.

FIG. 5 is a block diagram for explaining another embodiment of the present invention, and FIG. 6 is a flowchart for explaining a manufacturing process according to FIG.

As shown in the drawings, a method of providing a perforated plate having a plurality of embossed perforations in order to prevent the noise contained in the fluid from being absorbed and then released through the absorbed portion.

The perforated plate is included in the fluid in a conventional silencer installed in each duct provided for air conditioning of various buildings or in an enclosure covering the soundproof wall of the road or the engine so as not to radiate heat without disturbing the heat radiation It is applied to case, plate, or housing type in which noise can be introduced.

The perforated plate formed with the embossed perforations according to the present invention performs a step S1 of puncturing a plurality of perforations 22A at regular intervals by a known press work on a flat plate P1 of a conventional metal plate.

Thereafter, the plurality of pores 22A are pressed again by a conventional press work to form a perforated plate P having respective embossed perforations 22 protruding upward or downward (S2 Wherein the embossed perforations 22 have a protruding inner diameter C narrow and an outer diameter D opposite to the inner diameter C of the embossed perforations 22. The embossed perforations 22 and the embossed perforations 22, And a pocket space (30) is formed between the inner wall (22). The upper or lower portion of the embossed perforation is processed so as to project upward or downward depending on the positions of the upper and lower dies, and it is preferable to selectively apply the upper or lower portion according to working conditions.

In other words, the plurality of punches and embossed punches are formed by progressive progressive dies, in which at least one mold is sequentially advanced.

That is, although the embossed punched hole may be formed by a single pressing operation, the end of the inner diameter side protruding when the diameter of the inner diameter and the outer diameter are to be different from each other is sharpened at one time, It may cause injury to the operator or may cause interference or damage with other parts.

Accordingly, it is preferable that a plurality of pores are firstly drilled first and then the embossed pores are sequentially formed by pressurization. This is because the ends of the inner diameter are formed to be flat or close to the plane as shown in the figure, Thereby eliminating problems caused by the problem.

As described above, the embossed punch is preferably formed by preliminarily fabricating the molds to have an outer diameter of Φ 3.5 to 25, an inner diameter of Φ 2 to 15, and a height between an outer diameter and an inner diameter of 0.8 to 10 mm .

In addition, in the step of forming the embossed pores, the plurality of pores are manufactured at a height together with the expansion due to the above-mentioned diameter conditions, so that the noise included in the fluid smoothly flows, that is, the outer diameter is wide and the inner diameter is narrow The noise can be smoothly introduced.

In addition, the noise introduced is a silencer, a soundproof wall, or an enclosure applied to offset various noises due to a minimum condition that can be radiated to the outside by the pocket space formed between the embossed perforations together with the embossed perforations. Efficiency is also maximized.

Further, in the process of forming embossed perforations, a plurality of perforations are perforated, and then the perforated perforations are pressed again to form embossed perforations, thereby preventing the safety of the operator and other parts from being damaged by post-processing operations It is possible to secure a condition that can be achieved.

The perforated plate formed with the embossed perforations can be manufactured in a desired shape by cutting or the like in a form necessary for a silencer, a soundproof wall or an enclosure to be applied, thereby maximizing noise reduction efficiency.

1: Sound absorption module
10: sound absorbing material 20: sound absorbing housing
20A: curved surface 20B: inclined surface
22: embossed piercing 22A: piercing
30: pocket space
P: Perforated plate P1: Flat plate

Claims (7)

A sound absorbing module, comprising: a sound absorbing module disposed in a case of a silencer so as to form a passageway therein so as to absorb and reduce noise included in a fluid passing through the passageway,
Wherein the sound absorption module comprises: a sound absorbing material provided inside;
And a sound absorbing housing having a plurality of embossed perforations formed at regular intervals so that noises are absorbed on the outer circumferential surface surrounding the sound absorbing material and then are not discharged to the outside. The method according to claim 1,
The embossed perforation further comprises a wide outer diameter on the side of the passage and a narrow inner diameter on the side of the sound absorbing material, and each pocket space is formed such that no noise is emitted between the embossed perforation and the embossed perforation on the sound absorbing material side Sound absorption module that features. 3. The method of claim 2,
Wherein a front end of the sound-absorbing housing is formed as a curved surface, and a rear end of the sound-absorbing housing is formed as an inclined surface inclined to the intermediate side. A perforated plate having a plurality of embossed perforations to prevent noise contained in the fluid from being absorbed and then released through the absorbed portion,
The embossed perforations are formed such that the outer diameter of the embossed perforations is wide and the inner diameter of the side on which noise is introduced is narrow and the noise introduced between the embossed perforations and the embossed perforations is not emitted. And an embossed perforated plate formed on the perforated plate. 5. The method of claim 4,
Wherein the embossed perforation has an outer diameter area of 50% or more in proportion to the total area of the perforated plate, the inner diameter area is less than 40% in proportion to the total area of the perforated plate, 25, the inner diameter is 2 to 15, and the height between the outer diameter and the inner diameter is 0.8 to 10 mm. 5. The method of claim 4,
Wherein the pocket space is opposed to the embossed perforation so that the inner diameter side space is wide and the opposite side outer diameter side is narrow. A method of providing a perforated plate having a plurality of embossed perforations to prevent noise contained in a fluid from being absorbed and then released through the absorbed portion,
Drilling a plurality of holes in the flat plate at regular intervals;
Forming a plurality of embossed perforations, each embossed perforation being formed by projecting the plurality of perforations upwardly or downwardly together with the expansion, wherein the inner diameter of the protruded embossed perforations is narrow and the opposite side of the inner diameter And a pocket space is formed between the embossed perforation and the embossed perforation, wherein the embossed perforation is formed to be wide.

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