JP2005023619A - Sound absorbing panel and sound absorber - Google Patents

Sound absorbing panel and sound absorber Download PDF

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Publication number
JP2005023619A
JP2005023619A JP2003189180A JP2003189180A JP2005023619A JP 2005023619 A JP2005023619 A JP 2005023619A JP 2003189180 A JP2003189180 A JP 2003189180A JP 2003189180 A JP2003189180 A JP 2003189180A JP 2005023619 A JP2005023619 A JP 2005023619A
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Japan
Prior art keywords
sound absorbing
base material
absorbing panel
sound
panel base
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JP2003189180A
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Japanese (ja)
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JP4060760B2 (en
Inventor
Akio Wakabayashi
堯雄 若林
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Nakanishi Metal Works Co Ltd
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Nakanishi Metal Works Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To enrich an appearance; and to reduce cost, by improving productivity of a microporous part requiring precision work, and imparting a degree of freedom of selecting a construction material of a sound absorbing panel base material part. <P>SOLUTION: This sound absorbing panel 30 is arranged in front of a rigid wall 20 via a prescribed interval L, and is constituted by fitting microporous members 40, etc. for forming micropores 41 in a large number of installation holes 32, etc. formed in a panel base material 31. Such a constitution can do without directly forming a large number of micropores requiring the precision work on the panel base material 31. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

【0001】
【発明の属する技術分野】
本発明は、吸音パネルおよび吸音装置に関する。
【0002】
【従来の技術】
従来、剛壁の前面に所定間隔を介して多数の微細孔を設けた薄板(吸音パネル)を配置して構成される吸音装置が知られている(下記非特許文献1参照)。
【0003】
この吸音装置は、繊維質などの吸音材料を必要とせず、従来の吸音材料では吸音が困難であった低周波帯域を吸音できるという長所がある。
【0004】
【非特許文献1】
Maa Dah−you,“Theory and design of microperforated panel sound−absorbing constructions”,SCIENTIA SINICA,Jan−Feb,1975,pp55−71
【0005】
【発明が解決しようとする課題】
孔明き板と空気層、剛壁を組み合わせた共鳴器型吸音装置は上記非特許文献1の発表以前から知られていたが、非特許文献1は孔径を1mm以下とし、板の厚さや孔のピッチも孔径にふさわしく決定することで、微細孔における空気の粘性抵抗を利用して低周波音の範囲まで吸音できるという理論解析を発表した。
【0006】
しかしながら孔径を1mm以下に精密に加工するということは相当の加工技術を必要とし、また精密加工ができる材料を選択しなければならないので、外観仕上げやコストの面から材料の選択に制約を受けた。
【0007】
また、孔は吸音パネルの表面に均等に孔明けをするので総数として莫大な数となり、孔明け加工に多くの工数が必要となった。たとえば非特許文献1の数値例の1つでは、第1の事例として孔径が0.75mm、孔ピッチは孔径の4.7倍、第2の事例として孔径が0.75mm、孔ピッチは孔径の7.7倍を取り上げているが、孔の数は前者では1m当たり約8万個、後者では1m当たり約3万個となり、たとえば建築材の内装材などに使用する場合には、孔数の総合計数は莫大なものとなった。
【0008】
本発明は、精密加工を必要とする微細孔部分の生産性を向上させ、また吸音パネル母材部分の材質選択に自由度を持たせて外観を豊かにし、コストダウンを可能にすることを目的とする。
【0009】
【課題を解決するための手段】
上記課題を解決するため、本発明は、微細孔部分と吸音パネル母材部分とを別部材としたものである。
【0010】
すなわち、本発明は、剛壁の前面に所定間隔を介して配置される吸音パネルであって、板厚方向に貫通する多数の取付孔が形成されたパネル母材と、前記取付孔より断面積の小さい微細孔が形成され、各取付孔内に嵌め込まれた多数の微細孔部材と、を備えたことを特徴とするものである。
【0011】
このような吸音パネルによると、パネル母材には精密な微細孔を直接設ける必要がないため、優れた生産性を実現することができる。また、精密な微細孔の加工性の観点からパネル母材の素材が制約されることもない。
【0012】
また、このような吸音パネルにおいては、前記パネル母材に形成された前記取付孔の間隔で、複数の前記微細孔部材を連結する連結部を備えたことが望ましい。
【0013】
このようにすると、複数の微細孔部材を連結した状態で、効率的にパネル母材に取り付けることができる。
【0014】
また、このような吸音パネルにおいては、前記複数の微細孔部材と前記連結部とが一体的に成形されたことが望ましい。
【0015】
このようにすると、複数の微細孔部材と連結部とを効率的に製造することができる。
【0016】
また、このような吸音パネルにおいては、前記薄板部材とは異なる剛性を有する材質から構成され、前記パネル母材の背面側表面を覆うように配置された背面被覆板を備えたことが望ましい。
【0017】
このようにすると、背面被覆板によって吸音パネルの背面側表面の音響的な剛性を確保できるため、薄板部材の材質を外観等に応じて選択することができる。
【0018】
また、このような吸音パネルにおいては、前記背面被覆板と複数の前記微細孔部材とが一体的に形成されたことが望ましい。
【0019】
このようにすると、背面被覆板と複数の微細孔部材とを効率的に製造することができる。また、複数の微細孔を効率的にパネル母材に取り付けることができる。
【0020】
また、このような吸音パネルにおいては、前記パネル母材は、発泡性材料から構成されたことが望ましい。
【0021】
このようにすると、微細孔を有する吸音パネルによる吸音効果に加え、発泡性材料による吸音効果が得られるため、より優れた総合吸音性能を得ることができる。
【0022】
また、本発明にかかる吸音装置は、剛壁と、上記いずれかの吸音パネルと、前記剛壁の前面に所定間隔を介して前記吸音パネルを保持する保持手段と、を備えたことを特徴とするものである。
【0023】
このような吸音装置によると、上記の吸音パネルによる優れた生産性を実現することができる。
【0024】
【発明の実施の形態】
以下、本発明の実施形態について説明する。
【0025】
(第1実施形態)
図1は本発明の第1実施形態にかかる吸音装置の一部断面斜視図、図2は同吸音装置が備える吸音パネルの断面説明図である。
【0026】
図1に示すように、この吸音装置10は、音響的に強固な材質からなる剛壁20と、吸音パネル30と、剛壁20の前面に所定間隔を介した位置に吸音パネル30を保持する保持部材(保持手段)50とを備えている。
【0027】
保持部材50は、剛壁20の前面側に取り付けられ、その前端縁部に吸音パネル30がたとえばネジ止めによって取り付けられるようになっている。剛壁20と吸音パネル30との間隔は、求められる吸音性能等に応じて適宜設定すればよい。
【0028】
吸音パネル30は、パネル母材31と、多数の微細孔部材40…とから構成されている。
【0029】
パネル母材31には、板厚方向に貫通する多数の取付孔32…が形成されている。この取付孔32…は、パネル母材31の縦横方向にそれぞれ所定ピッチで、たとえば10mm間隔ごとに設けられている。
【0030】
微細孔部材40…は、取付孔32…とほぼ同一の外形に構成され、パネル母材31の取付孔32…内に嵌め込まれた状態で、たとえば圧入や接着等の手段によって取り付けられている。
【0031】
これら取付孔32…および微細穴部材40…は、ここでは円柱形状に構成しているが、任意の断面形状とすることができる。また、断面形状が吸音パネル30の厚み方向(取付孔32…の深さ方向)について変化するものでもよい。
【0032】
この微細孔部材40には、取付孔32…より断面積の小さい微細孔41が貫通して形成されている。
【0033】
微細孔41の形状は、図2に示すように、微細孔部材40の片面側からテーパー状に穿たれた形状を挙げることができる。この微細孔41の大きさは、たとえば最も小さい部分で0.6mmである。
【0034】
微細孔41の形状としては、この他に、図3に例示するような各種の形状を挙げることができる。具体的には、微細孔41は、図3(a)のように、微細孔部材40の上下両側から比較的大径のストレートな大孔部411,411を穿ち、これらを仕切る壁部412にさらに微細な微細孔部413を設けた形態や、図3(b)のように前記壁部412に設ける微細孔部414をテーパー状にした形態や、図3(c)のように前記壁部412に設ける微細孔部415を上下両側に向かうテーパー状にした形態や、図3(d)のように微細孔部材40の片面側のみから比較的大径のストレートな大孔部416を穿ち、その先端にテーパー状の微細孔部417を形成して他方の面に貫通させた形態や、図3(e)のように前記大孔部416の先端にストレートな微細孔部418を形成して他方の面に貫通させた形態等を挙げることができる。
【0035】
また、微細穴41は、微細穴部材40の中心からずれた位置に設けたり、各微細孔部材40…に、複数の微細孔41を設けてもよい。
【0036】
このような微細孔部材40…は、上記パネル母材31と比較して小さい部材であるため、精密な加工が行いやすい。このため、微細孔41をより精巧に形成することが容易である。
【0037】
この微細孔部材40の材質は、微細孔41を形成できるものであれば特に限定されないが、パネル母材31より精密加工性に優れた材料で構成することが望ましい。具体的には、生産性を重視すれば各種プラスチック材料を、熱伝導性を重視すれば各種金属材料を挙げることができる。また、この微細孔部材40の製造方法は特に制限されるものではないが、各種プラスチック材料から構成する場合、好適な製造方法として射出成形を挙げることができる。また、より正確な加工ができることから、微細孔41をドリルや自動旋盤等による切削によって製造してもよい。
【0038】
一方、パネル母材31には、吸音性能を得るための微細孔41よりも大きい取付孔32…を形成すればよいため、微細孔部材40と比較して大きな部材であるパネル母材31に直接に精密な微細孔を直接設ける必要がないことから、優れた生産性を実現することができる。
【0039】
また、微細孔41に求められる厚みよりもパネル母材31を厚く構成して、十分な機械的強度を確保することができる。
【0040】
また、精密な微細孔の加工性の観点からパネル母材31の素材が制約されることがない。このため、パネル母材31としては、音響的に強固で剛性を有する材質の板材、たとえば木材、石材、スレート、コンクリート、金属板、合成樹脂板等、種々の材料を採用することができる。
【0041】
さらに、パネル母材31を中高周波数帯域での吸音性能を有する発泡性材料から構成することもできる。発泡性材料とは、具体的には、発泡性プラスチックや発泡性コンクリート等を挙げることができる。
【0042】
図4は、パネル母材を発泡性材料から構成した場合の吸音性能の説明図である。微細孔41…を有する吸音パネル30により、この図4(a)に示すような比較的低周波領域での優れた吸音効果が得られる場合に、図4(b)に示すような比較的高周波領域での優れた吸音効果を有する発泡性材料でパネル母材31を構成すると、これらの吸音効果が足し合わされ、図4(c)に示すような、より優れた総合的な吸音性能を得ることができる。
【0043】
(第2実施形態)
次に、第2実施形態について説明する。
【0044】
図5は、本発明の第2実施形態にかかる吸音パネルの断面説明図、図6は、微細孔部材の平面図である。以下、上記第1実施形態と同様の構成部分には同一の符号を付し、重複説明を省略する。
【0045】
この第2実施形態にかかる吸音パネル30では、複数の微細孔部材40…が連結部42によって互いに連結されている。この連結部42は、パネル母材31に形成された複数の取付孔32…の位置に対応するように、複数の微細孔部材40…(具体的には、縦方向および横方向にそれぞれ3個ずつ並べた合計9個)を、取付孔32…の形成間隔を介して連結するようになっている。
【0046】
こうして連結される複数の微細孔部材40…は連結部42…とともに微細孔部材集合体43として一体的に構成されている。具体的には、たとえば合成樹脂の射出成形等によって製造することができる。
【0047】
このように複数の微細孔部材40…が一体的に構成されているため、それぞれは小さい微細孔部材40…を容易に取り扱うことができる。また、複数の微細孔部材40…のパネル母材31への取り付け位置決めをまとめて行うことができるため、組み立てを効率的に行うことができる。また、微細孔部材40…をパネル母材31に取り付けた後も、各微細孔部材40…が所定位置に留まるように連結されていることで、取付孔32…からの脱落を軽減することができる。
【0048】
また、各微細孔部材集合体43…の周縁端部に位置する連結部43…には、隣接する微細孔部材集合体43の連結部42…と互いに連結するための結合手段44…がそれぞれ設けられている。この結合手段44は、具体的には、互いに連結し合う連結部42,42の一方の先端部に形成される若干膨らんだ係合部441と、この係合部441と係合する被係合部442とから構成されている。
【0049】
このように各微細孔部材集合体43…が結合手段44…を備えることで、複数の微細孔部材集合体43…を予め連結して、さらに多くの微細孔部材40…を一体的に取り扱い、パネル母材31の取付孔32…に効率的に取り付けることができる。また、パネル母材31に取り付けられた微細孔部材40…の脱落もさらに軽減することができる。
【0050】
(第3実施形態)
次に、第3実施形態について説明する。
【0051】
図7は、本発明の第3実施形態にかかる吸音パネルの断面説明図である。以下、上記第1、第2実施形態と同様の構成部分には同一の符号を付し、重複説明を省略する。
【0052】
この第3実施形態にかかる吸音パネル30では、パネル母材31の背面側表面が、背面被覆板45によって覆われている。この背面被覆板45は、パネル母材31とは異なる材質であって、音響的に剛性を有する材質から構成されている。具体的には、たとえば合成樹脂板やアルミニウム板等を挙げることができる。なお、この背面被覆板45は、少なくとも各微細孔部材40の微細孔41部分は穴が開いており、パネル母材31を背面側に露出させないようになっている。
【0053】
このようにパネル母材31の背面側が背面被覆板45で覆われているため、パネル母材31の材質によらず、吸音パネル30の背面側表面の音響的な剛性を確保して、微細穴を有する吸音効果を得ることができる。したがって、パネル母材31の材質をたとえば外観等に応じて選択することができる。
【0054】
また、この第3実施形態にかかる吸音パネルでは、背面被覆板45は、複数の微細穴部材40…と一体的に構成されている。具体的には、たとえば合成樹脂材料の射出成形等によって一体成形されている。
【0055】
このように複数の微細孔部材40…が背面被覆板45と一体的に構成されているため、上述した第2実施形態と同様に、それぞれは小さい微細孔部材40…を容易に取り扱うことができ、複数の微細孔部材40…のパネル母材31への取り付けを効率的に行うことができ、さらに、各微細孔部材40…の取付孔32…からの脱落を軽減することができる。
【0056】
以上、本発明を3つの実施形態に基づいて説明したが、本発明は上記実施形態に限定されるものではなく、その要旨の範囲内で適宜変更することができる。
【0057】
【発明の効果】
以上のように、本発明にかかる吸音パネルおよび吸音装置によれば、吸音パネルを構成するパネル母材には精密な微細孔を直接設ける必要がないため、優れた生産性を実現することができ、また、精密な微細孔の加工性の観点からパネル母材の素材が制約されることもない。
【図面の簡単な説明】
【図1】本発明の第1実施形態にかかる吸音装置の一部断面斜視図である。
【図2】本発明の第1実施形態にかかる吸音装置の断面説明図である。
【図3】微細孔部材に形成される微細孔の形状を例示した断面説明図である。
【図4】パネル母材を発泡性材料から構成した場合の吸音性能の説明図である。
【図5】本発明の第2実施形態にかかる吸音パネルの断面説明図である。
【図6】同吸音パネルが備える微細孔部材の平面図である。
【図7】本発明の第3実施形態にかかる吸音パネルの断面説明図である。
【符号の説明】
10 吸音装置
20 剛壁
30 吸音パネル
31 パネル母材
32 取付孔
40 微細孔部材
41 微細孔
42 連結部
43 微細孔部材集合体
44 結合手段
45 背面被覆板
50 保持部材(保持手段)[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a sound absorbing panel and a sound absorbing device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is known a sound absorbing device configured by arranging a thin plate (sound absorbing panel) provided with a large number of fine holes on a front surface of a rigid wall at a predetermined interval (see Non-Patent Document 1 below).
[0003]
This sound absorbing device does not require a sound absorbing material such as a fiber, and has an advantage of being able to absorb a low frequency band that is difficult to absorb with a conventional sound absorbing material.
[0004]
[Non-Patent Document 1]
Maa Dah-you, “Theory and design of microperforated panel sound-absorbing constructions”, SCIENTIA SINICA, Jan-Feb, 1975, pp 55-71.
[0005]
[Problems to be solved by the invention]
A resonator-type sound absorbing device combining a perforated plate, an air layer, and a rigid wall has been known before the publication of Non-Patent Document 1, but Non-Patent Document 1 sets the hole diameter to 1 mm or less, A theoretical analysis has been announced that the pitch can be absorbed to the low frequency range by using the viscous resistance of the air in the fine holes by appropriately determining the pitch.
[0006]
However, precisely processing the hole diameter to 1 mm or less requires considerable processing technology, and it is necessary to select a material that can be processed precisely, so the selection of the material is limited in terms of appearance and cost. .
[0007]
In addition, since the holes are uniformly perforated on the surface of the sound absorbing panel, the total number is enormous, and a lot of man-hours are required for drilling. For example, in one of the numerical examples of Non-Patent Document 1, the hole diameter is 0.75 mm as the first case, the hole pitch is 4.7 times the hole diameter, the hole diameter is 0.75 mm as the second case, and the hole pitch is the hole diameter. Although taken up 7.7 times, about 80,000 per 1 m 2 is the number of holes in the former, the latter is about 30,000 per 1 m 2 is, for example, when using such interior materials of building materials, the hole The total number of numbers was enormous.
[0008]
It is an object of the present invention to improve the productivity of fine hole portions that require precision processing, and to provide a degree of freedom in selecting the material of the sound absorbing panel base material portion to enrich the appearance and reduce costs. And
[0009]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention uses a fine hole portion and a sound absorbing panel base material portion as separate members.
[0010]
That is, the present invention provides a sound-absorbing panel disposed on the front surface of a rigid wall at a predetermined interval, and includes a panel base material in which a large number of mounting holes penetrating in the plate thickness direction are formed, and a cross-sectional area from the mounting holes. And a large number of minute hole members fitted in the respective attachment holes.
[0011]
According to such a sound absorbing panel, it is not necessary to provide precise fine holes directly in the panel base material, so that excellent productivity can be realized. Moreover, the material of the panel base material is not restricted from the viewpoint of the workability of precise fine holes.
[0012]
Further, in such a sound absorbing panel, it is preferable that a connection portion for connecting a plurality of the fine hole members is provided at intervals of the mounting holes formed in the panel base material.
[0013]
If it does in this way, it can attach to a panel base material efficiently in the state which connected a plurality of fine hole members.
[0014]
In such a sound absorbing panel, it is desirable that the plurality of fine hole members and the connecting portion are integrally formed.
[0015]
If it does in this way, a plurality of fine hole members and a connection part can be manufactured efficiently.
[0016]
In addition, such a sound absorbing panel is preferably provided with a back cover plate made of a material having rigidity different from that of the thin plate member and disposed so as to cover the back side surface of the panel base material.
[0017]
If it does in this way, since the acoustic rigidity of the back side surface of a sound-absorbing panel can be secured by the back surface covering plate, the material of the thin plate member can be selected according to the appearance and the like.
[0018]
In such a sound absorbing panel, it is desirable that the back cover plate and the plurality of fine hole members are integrally formed.
[0019]
If it does in this way, a back surface covering board and a plurality of fine hole members can be manufactured efficiently. Moreover, a plurality of fine holes can be efficiently attached to the panel base material.
[0020]
In such a sound absorbing panel, it is desirable that the panel base material is made of a foam material.
[0021]
In this case, in addition to the sound absorbing effect by the sound absorbing panel having the fine holes, the sound absorbing effect by the foamable material can be obtained, so that a better overall sound absorbing performance can be obtained.
[0022]
The sound absorbing device according to the present invention includes a rigid wall, any one of the above sound absorbing panels, and holding means for holding the sound absorbing panel on a front surface of the rigid wall at a predetermined interval. To do.
[0023]
According to such a sound absorbing device, it is possible to realize excellent productivity by the sound absorbing panel.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described.
[0025]
(First embodiment)
FIG. 1 is a partial cross-sectional perspective view of the sound absorbing device according to the first embodiment of the present invention, and FIG. 2 is a cross-sectional explanatory view of a sound absorbing panel provided in the sound absorbing device.
[0026]
As shown in FIG. 1, the sound absorbing device 10 holds a sound absorbing panel 30 at a position through a predetermined interval on a front surface of the rigid wall 20 made of an acoustically strong material, a sound absorbing panel 30, and the rigid wall 20. And a holding member (holding means) 50.
[0027]
The holding member 50 is attached to the front surface side of the rigid wall 20, and the sound absorbing panel 30 is attached to the front end edge portion thereof by, for example, screwing. What is necessary is just to set the space | interval of the rigid wall 20 and the sound absorption panel 30 suitably according to the sound absorption performance etc. which are calculated | required.
[0028]
The sound absorbing panel 30 is composed of a panel base material 31 and a large number of fine hole members 40.
[0029]
The panel base material 31 has a large number of mounting holes 32 penetrating in the thickness direction. The mounting holes 32 are provided at predetermined pitches in the vertical and horizontal directions of the panel base material 31, for example, every 10 mm.
[0030]
The fine hole members 40 are configured to have substantially the same outer shape as the mounting holes 32, and are fitted into the mounting holes 32 of the panel base material 31 by means such as press fitting or adhesion.
[0031]
The mounting holes 32 and the fine hole members 40 are formed in a cylindrical shape here, but may have any cross-sectional shape. Further, the cross-sectional shape may change in the thickness direction of the sound absorbing panel 30 (the depth direction of the mounting holes 32).
[0032]
The fine hole member 40 is formed with a fine hole 41 having a smaller cross-sectional area than the attachment holes 32.
[0033]
As shown in FIG. 2, the shape of the fine hole 41 may be a shape that is formed in a tapered shape from one side of the fine hole member 40. The size of the fine hole 41 is, for example, 0.6 mm at the smallest portion.
[0034]
As the shape of the fine hole 41, various shapes as exemplified in FIG. Specifically, as shown in FIG. 3A, the microhole 41 has straight large hole portions 411 and 411 having relatively large diameters from both the upper and lower sides of the microhole member 40, and a wall portion 412 that partitions them. Further, a form in which a fine hole part 413 is provided, a form in which the fine hole part 414 provided in the wall part 412 is tapered as shown in FIG. 3 (b), or the wall part as shown in FIG. 3 (c). A shape in which the fine hole portion 415 provided in 412 is tapered toward the upper and lower sides, or a straight large hole portion 416 having a relatively large diameter is formed from only one side of the fine hole member 40 as shown in FIG. A tapered fine hole 417 is formed at the tip and penetrated through the other surface, or a straight fine hole 418 is formed at the tip of the large hole 416 as shown in FIG. The form etc. which were penetrated to the other surface can be mentioned.
[0035]
Further, the fine hole 41 may be provided at a position shifted from the center of the fine hole member 40, or a plurality of fine holes 41 may be provided in each fine hole member 40.
[0036]
Such a fine hole member 40 is a small member as compared with the panel base material 31 and is therefore easily processed with precision. For this reason, it is easy to form the fine holes 41 more precisely.
[0037]
The material of the fine hole member 40 is not particularly limited as long as the fine hole 41 can be formed. However, the fine hole member 40 is preferably made of a material superior in precision workability to the panel base material 31. Specifically, various plastic materials can be cited if productivity is important, and various metal materials can be cited if thermal conductivity is important. Moreover, although the manufacturing method in particular of this microporous member 40 is not restrict | limited, When it comprises from various plastic materials, injection molding can be mentioned as a suitable manufacturing method. Further, since more accurate processing can be performed, the fine holes 41 may be manufactured by cutting with a drill or an automatic lathe.
[0038]
On the other hand, since it is only necessary to form mounting holes 32... Larger than the fine holes 41 for obtaining sound absorption performance in the panel base material 31, the panel base material 31 is directly formed on the panel base material 31 which is a larger member than the fine hole member 40. Since it is not necessary to provide precise fine holes directly on the surface, excellent productivity can be realized.
[0039]
Moreover, the panel base material 31 can be configured to be thicker than the thickness required for the fine holes 41 to ensure sufficient mechanical strength.
[0040]
Moreover, the raw material of the panel base material 31 is not restricted from the viewpoint of the workability of precise fine holes. For this reason, as the panel base material 31, various materials such as acoustically strong and rigid plate materials such as wood, stone, slate, concrete, metal plate, and synthetic resin plate can be employed.
[0041]
Furthermore, the panel base material 31 can also be comprised from the foamable material which has the sound absorption performance in a medium-high frequency band. Specific examples of the foam material include foam plastic and foam concrete.
[0042]
FIG. 4 is an explanatory diagram of the sound absorbing performance when the panel base material is made of a foamable material. When the sound absorbing panel 30 having the fine holes 41... Provides an excellent sound absorbing effect in a relatively low frequency region as shown in FIG. 4A, a relatively high frequency as shown in FIG. When the panel base material 31 is made of a foam material having an excellent sound absorbing effect in the region, these sound absorbing effects are added together to obtain a better overall sound absorbing performance as shown in FIG. Can do.
[0043]
(Second Embodiment)
Next, a second embodiment will be described.
[0044]
FIG. 5 is an explanatory cross-sectional view of a sound absorbing panel according to the second embodiment of the present invention, and FIG. 6 is a plan view of a microporous member. Hereinafter, the same components as those in the first embodiment are denoted by the same reference numerals, and redundant description is omitted.
[0045]
In the sound absorbing panel 30 according to the second embodiment, a plurality of fine hole members 40 are connected to each other by a connecting portion 42. The connecting portion 42 has a plurality of fine hole members 40 (specifically, three in each of the vertical direction and the horizontal direction so as to correspond to the positions of the plurality of mounting holes 32 formed in the panel base material 31. A total of 9 pieces arranged one by one) are connected via the formation interval of the mounting holes 32.
[0046]
The plurality of microporous members 40... Connected in this way are integrally configured as a microporous member assembly 43 together with the connecting portions 42. Specifically, it can be manufactured, for example, by injection molding of synthetic resin.
[0047]
Thus, since the plurality of microporous members 40 are integrally formed, each of them can easily handle the small microporous members 40. Moreover, since the attachment positioning to the panel base material 31 of several fine hole member 40 ... can be performed collectively, an assembly can be performed efficiently. Further, even after the fine hole members 40 are attached to the panel base material 31, the fine hole members 40 are connected so as to remain in a predetermined position, so that dropping from the attachment holes 32 can be reduced. it can.
[0048]
Further, the connecting portions 43... Positioned at the peripheral edge portions of the respective microporous member assemblies 43 are provided with coupling means 44 for connecting with the connecting portions 42 of the adjacent microporous member assemblies 43. It has been. Specifically, the coupling means 44 includes an engagement portion 441 that is slightly inflated formed at one end portion of the coupling portions 42 and 42 that are coupled to each other, and an engaged portion that engages with the engagement portion 441. Part 442.
[0049]
In this way, each microporous member assembly 43 is provided with the coupling means 44, so that a plurality of microporous member assemblies 43 are connected in advance, and more microporous members 40 are integrally handled, The panel base material 31 can be efficiently mounted in the mounting holes 32. Moreover, dropping of the fine hole members 40 attached to the panel base material 31 can be further reduced.
[0050]
(Third embodiment)
Next, a third embodiment will be described.
[0051]
FIG. 7 is a cross-sectional explanatory view of a sound absorbing panel according to the third embodiment of the present invention. Hereinafter, the same reference numerals are given to the same components as those in the first and second embodiments, and the duplicate description will be omitted.
[0052]
In the sound absorbing panel 30 according to the third embodiment, the back surface of the panel base material 31 is covered with the back cover plate 45. The back cover plate 45 is made of a material different from the panel base material 31 and acoustically rigid. Specific examples include a synthetic resin plate and an aluminum plate. The back cover plate 45 has at least the fine holes 41 of the fine hole members 40 so that the panel base material 31 is not exposed to the back side.
[0053]
Thus, since the back side of the panel base material 31 is covered with the back cover plate 45, the acoustic rigidity of the back side surface of the sound absorbing panel 30 is ensured regardless of the material of the panel base material 31, and the fine holes The sound absorption effect having Therefore, the material of the panel base material 31 can be selected according to, for example, the appearance.
[0054]
In the sound absorbing panel according to the third embodiment, the back cover plate 45 is formed integrally with a plurality of fine hole members 40. Specifically, it is integrally molded, for example, by injection molding of a synthetic resin material.
[0055]
As described above, since the plurality of fine hole members 40 are integrally formed with the back cover plate 45, each of the small hole members 40 can be easily handled as in the second embodiment described above. In addition, it is possible to efficiently attach the plurality of fine hole members 40 to the panel base material 31 and to reduce the dropout of the fine hole members 40 from the attachment holes 32.
[0056]
As mentioned above, although this invention was demonstrated based on three embodiment, this invention is not limited to the said embodiment, In the range of the summary, it can change suitably.
[0057]
【The invention's effect】
As described above, according to the sound absorbing panel and the sound absorbing device according to the present invention, it is not necessary to directly provide precise fine holes in the panel base material constituting the sound absorbing panel, so that excellent productivity can be realized. In addition, the material of the panel base material is not restricted from the viewpoint of the workability of precise fine holes.
[Brief description of the drawings]
FIG. 1 is a partial cross-sectional perspective view of a sound absorbing device according to a first embodiment of the present invention.
FIG. 2 is an explanatory cross-sectional view of the sound absorbing device according to the first embodiment of the present invention.
FIG. 3 is a cross-sectional explanatory view illustrating the shape of a microhole formed in a microhole member.
FIG. 4 is an explanatory diagram of sound absorption performance when the panel base material is made of a foamable material.
FIG. 5 is a cross-sectional explanatory view of a sound absorbing panel according to a second embodiment of the present invention.
FIG. 6 is a plan view of a fine hole member provided in the sound absorbing panel.
FIG. 7 is a cross-sectional explanatory view of a sound absorbing panel according to a third embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Sound absorbing device 20 Rigid wall 30 Sound absorbing panel 31 Panel base material 32 Mounting hole 40 Fine hole member 41 Fine hole 42 Connecting part 43 Fine hole member aggregate 44 Coupling means 45 Back surface covering plate 50 Holding member (holding means)

Claims (7)

剛壁の前面に所定間隔を介して配置される吸音パネルであって、
板厚方向に貫通する多数の取付孔が形成されたパネル母材と、
前記取付孔より断面積の小さい微細孔が形成され、各取付孔内に嵌め込まれた多数の微細孔部材と、
を備えたことを特徴とする吸音パネル。A sound-absorbing panel disposed on the front surface of the rigid wall at a predetermined interval,
A panel base material in which a large number of mounting holes penetrating in the plate thickness direction are formed;
Micro holes having a smaller cross-sectional area than the mounting holes are formed, and a large number of micro hole members fitted into the mounting holes,
A sound absorbing panel characterized by comprising: 前記パネル母材に形成された前記取付孔の間隔で、複数の前記微細孔部材を連結する連結部を備えたことを特徴とする請求項1に記載の吸音パネル。The sound-absorbing panel according to claim 1, further comprising a connecting portion that connects the plurality of fine hole members at intervals between the mounting holes formed in the panel base material. 前記複数の微細孔部材と前記連結部とが一体的に成形されたことを特徴とする請求項2に記載の吸音パネル。The sound absorbing panel according to claim 2, wherein the plurality of fine hole members and the connecting portion are integrally formed. 前記薄板部材とは異なる剛性を有する材質から構成され、前記パネル母材の背面側表面を覆うように配置された背面被覆板を備えたことを特徴とする請求項1に記載の吸音パネル。The sound-absorbing panel according to claim 1, further comprising a back cover plate that is made of a material having rigidity different from that of the thin plate member and is disposed so as to cover a back-side surface of the panel base material. 前記背面被覆板と複数の前記微細孔部材とが一体的に形成されたことを特徴とする請求項4に記載の吸音パネル。The sound absorbing panel according to claim 4, wherein the back cover plate and the plurality of fine hole members are integrally formed. 前記パネル母材は、発泡性材料から構成されたことを特徴とする請求項1〜5のいずれかに記載の吸音パネル。The sound absorbing panel according to claim 1, wherein the panel base material is made of a foamable material. 剛壁と、
請求項1〜6のいずれかに記載の吸音パネルと、
前記剛壁の前面に所定間隔を介して前記吸音パネルを保持する保持手段と、
を備えたことを特徴とする吸音装置。A rigid wall,
The sound absorbing panel according to any one of claims 1 to 6,
Holding means for holding the sound absorbing panel on the front surface of the rigid wall at a predetermined interval;
A sound absorbing device comprising:
JP2003189180A 2003-07-01 2003-07-01 Sound absorbing panel and sound absorbing device Expired - Fee Related JP4060760B2 (en)

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Publication number Priority date Publication date Assignee Title
JP2006223433A (en) * 2005-02-16 2006-08-31 Daiwa:Kk Sound absorbing carpet
CN103021398A (en) * 2012-11-22 2013-04-03 圆展科技股份有限公司 Silencing structure
KR20160056502A (en) * 2014-11-11 2016-05-20 한양대학교 산학협력단 Method for manufacturing acoustic absorbent and acoustic absorbing structure having the same
CN109985800A (en) * 2019-04-15 2019-07-09 安徽工程大学 A kind of integrated apparatus of mechanical engineering protection type sandstone automatic sorting and collection
JP2019138977A (en) * 2018-02-07 2019-08-22 国立研究開発法人宇宙航空研究開発機構 Resonance type sound absorption panel

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JP6663659B2 (en) * 2015-07-14 2020-03-13 大成建設株式会社 Size setting method of through hole of perforated sound absorbing board that constitutes sound absorbing structure

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006223433A (en) * 2005-02-16 2006-08-31 Daiwa:Kk Sound absorbing carpet
CN103021398A (en) * 2012-11-22 2013-04-03 圆展科技股份有限公司 Silencing structure
KR20160056502A (en) * 2014-11-11 2016-05-20 한양대학교 산학협력단 Method for manufacturing acoustic absorbent and acoustic absorbing structure having the same
KR101643689B1 (en) 2014-11-11 2016-07-29 한양대학교 산학협력단 Method for manufacturing acoustic absorbent and acoustic absorbing structure having the same
JP2019138977A (en) * 2018-02-07 2019-08-22 国立研究開発法人宇宙航空研究開発機構 Resonance type sound absorption panel
JP7064236B2 (en) 2018-02-07 2022-05-10 国立研究開発法人宇宙航空研究開発機構 Resonance type sound absorption panel
CN109985800A (en) * 2019-04-15 2019-07-09 安徽工程大学 A kind of integrated apparatus of mechanical engineering protection type sandstone automatic sorting and collection
CN109985800B (en) * 2019-04-15 2024-02-20 安徽工程大学 Integrated device for automatically sorting and collecting protective sand and stones for mechanical engineering

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