JP2003041681A - Sound insulation material and method for constructing soundproof chamber using the same - Google Patents
Sound insulation material and method for constructing soundproof chamber using the sameInfo
- Publication number
- JP2003041681A JP2003041681A JP2001234767A JP2001234767A JP2003041681A JP 2003041681 A JP2003041681 A JP 2003041681A JP 2001234767 A JP2001234767 A JP 2001234767A JP 2001234767 A JP2001234767 A JP 2001234767A JP 2003041681 A JP2003041681 A JP 2003041681A
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- sound insulation
- hollow body
- fluid
- soundproof room
- constructing
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Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、遮音材及びこれを
用いた防音室の施工方法に係り、更に詳しくは、防音室
の組み立て時及び解体時における各種作業を行い易くす
ることのできる遮音材及びこれを用いた防音室の施工方
法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sound insulation material and a method of constructing a sound insulation room using the sound insulation material, and more particularly to a sound insulation material capable of facilitating various operations during assembly and disassembly of the sound insulation room. And a method for constructing a soundproof room using the same.
【0002】[0002]
【従来の技術】建物内での工事作業等、騒音等が発生す
る一時的な作業を行う場合には、その騒音発生源を複数
の遮音パネルで囲むことによって防音室を一時的に形成
し、当該防音室の外部への騒音の伝達を抑制することが
行われている。この際、使用される遮音パネルは、例え
ば、金属製或いは木製の枠体と、この枠体の表裏両側に
配置される合板と、これら枠体と合板との間に囲まれる
内部空間に充填されるグラスウールとによって構成され
たものが知られている。2. Description of the Related Art When performing temporary work such as construction work in which noise is generated, a soundproof room is temporarily formed by surrounding the noise source with a plurality of sound insulation panels. The transmission of noise to the outside of the soundproof room is suppressed. At this time, the sound insulation panel used is, for example, a metal or wooden frame body, plywoods arranged on both front and back sides of the frame body, and an internal space surrounded by the frame body and the plywoods. It is known that it is composed of glass wool.
【0003】[0003]
【発明が解決しようとする課題】しかしながら、前記遮
音パネルにあっては、その構成上、全体が重くなってお
り、防音室の組み立て時や解体時における遮音パネルの
運搬作業に大変な労力がかかるという不都合がある。ま
た、防音室を組み立てる際に、各遮音パネルの端面間が
相互に連結されるが、この連結の際には、各遮音パネル
の複数箇所を金具で止める等の締結作業が必要となり、
当該防音室の組み立て時や解体時においては、前記締結
作業やその取り外し作業にも多大な手間が掛かるという
不都合もある。However, in the sound insulation panel, the whole structure is heavy due to its structure, and it takes a lot of labor to carry the sound insulation panel when assembling or disassembling the soundproof room. There is an inconvenience. Also, when assembling the soundproof room, the end faces of each sound insulation panel are connected to each other, but at the time of this connection, fastening work such as stopping multiple parts of each sound insulation panel with metal fittings is required,
When assembling or disassembling the soundproof room, there is also a disadvantage that a lot of labor is required for the fastening work and the detaching work.
【0004】ところで、特開2000−319821号
公報には、塩化ビニール製の袋体に空気が充填されてな
る防音壁を用いて防音空間を形成可能な構成が開示され
ている。By the way, Japanese Patent Laid-Open No. 2000-319821 discloses a structure capable of forming a soundproof space by using a soundproof wall made of a vinyl chloride bag filled with air.
【0005】しかしながら、前記防音壁にあっては、塩
化ビニール製となる袋体が常時露出した状態となるた
め、防音壁の運搬時や使用時等において建築資材等が不
用意に袋体に接触したときに当該袋体が損傷し、耐久性
に劣るという不都合がある。However, in the soundproof wall, since the bag made of vinyl chloride is always exposed, construction materials and the like carelessly come into contact with the bag when the soundproof wall is transported or used. When this is done, the bag body is damaged, resulting in inferior durability.
【0006】[0006]
【発明の目的】本発明は、このような不都合に着目して
案出されたものであり、その目的は、防音室の組み立て
時及び解体時における各種作業を行い易くし、且つ、耐
久性を高めることができる遮音材及びこれを用いた防音
室の施工方法を提供することにある。OBJECTS OF THE INVENTION The present invention has been devised by paying attention to such inconvenience, and an object of the present invention is to facilitate various works at the time of assembling and disassembling a soundproof room and to improve durability. An object is to provide a sound insulation material that can be enhanced and a method for constructing a soundproof room using the sound insulation material.
【0007】[0007]
【課題を解決するための手段】前記目的を達成するた
め、本発明は、板状若しくはシート状の補強材と、この
補強材に一体的に設けられるとともに、所定の流体を内
部に封入可能な中空体とを備え、前記中空体は、前記流
体の注入に伴って膨張する一方、前記流体の排出に伴っ
て収縮可能に設けられ、前記流体を封入した状態で前記
補強材の面に沿って膨張する、という構成を採ってい
る。このような構成によれば、枠体状の芯材を設けずに
遮音材を構成することができるため、遮音材全体の軽量
化を図ることができ、しかも、防音室の組み立て前若し
くは解体後は、中空体に封入された流体を抜くことで遮
音材全体の体積を減らすことができる。従って、防音室
の組み立て作業時及び解体作業時における遮音材の運搬
作業を楽に行うことができる。また、複数の遮音材を予
め連結して一体化することもでき、遮音材同士の連結作
業を軽減することができる他、前記運搬作業時や収納時
においては、中空体に封入された流体を抜くことで、複
数の遮音材を一体的に保ったまま全体の体積を減らすこ
とができる。更に、補強材と中空体とが一体的に形成さ
れるとともに、流体の封入状態で補強材の面に沿って中
空体が膨張するため、常時、補強材が中空体の保護部材
として作用し、建築資材等が遮音材に不用意に当たって
も、中空体を破れ難くして遮音材の耐久性を高めること
ができる。また、中空体の内部に流体が封入されたとき
に、中空体による空気層が補強材の面に沿って形成され
る構造となっているため、軽量であるにも拘わらず、空
気層と補強材とによって、より効果的な遮音性能を得る
ことができる。In order to achieve the above-mentioned object, the present invention provides a plate-like or sheet-like reinforcing member and an integral member of this reinforcing member, and is capable of enclosing a predetermined fluid therein. A hollow body, wherein the hollow body expands as the fluid is injected, and is contractible as the fluid is discharged. The hollow body extends along the surface of the reinforcing material in a state where the fluid is enclosed. It has a structure that it expands. According to such a configuration, the sound insulating material can be configured without providing the frame-shaped core material, so that it is possible to reduce the weight of the sound insulating material as a whole, and moreover, before assembling or after disassembling the soundproof room. Can reduce the volume of the entire sound insulation material by removing the fluid enclosed in the hollow body. Therefore, it is possible to easily carry out the work of transporting the sound insulating material during the assembling work and the disassembling work of the soundproof room. In addition, a plurality of sound insulating materials can be preliminarily connected and integrated, and the work of connecting the sound insulating materials can be reduced, and at the time of the transportation work or the storage, the fluid enclosed in the hollow body is removed. By pulling out, it is possible to reduce the total volume while keeping a plurality of sound insulating materials as one body. Furthermore, the reinforcing material and the hollow body are integrally formed, and since the hollow body expands along the surface of the reinforcing material in a fluid-filled state, the reinforcing material always acts as a protective member for the hollow body, Even if a building material or the like accidentally hits the sound insulation material, the hollow body is less likely to be broken and the durability of the sound insulation material can be improved. In addition, since the air layer formed by the hollow body is formed along the surface of the reinforcing material when the fluid is enclosed in the hollow body, it is lightweight and reinforced with the air layer. Depending on the material, more effective sound insulation performance can be obtained.
【0008】また、本発明は、前記遮音材を用いた防音
室の施工方法であって、前記中空体から流体が抜かれた
状態の遮音材を施工現場に必要数準備し、前記中空体に
流体を封入して膨張させることで、前記防音室の壁部分
が形成される、という手法を採ることによっても、前述
した目的を達成しようとしたものである。Further, the present invention is a method for constructing a soundproof room using the sound insulation material, wherein a required number of sound insulation materials in a state where fluid is drained from the hollow body are prepared at a construction site, and the hollow body is filled with the fluid. The above-described object is also achieved by adopting a method in which the wall portion of the soundproof chamber is formed by enclosing and expanding the above.
【0009】更に、前記遮音材を用いた防音室の施工方
法であって、前記中空体から流体が抜かれた状態の遮音
材を施工現場に必要数準備するとともに、当該施工現場
で、前記防音室の外形形状に沿ってフレームを形成し、
それと前後して、前記中空体に流体を封入して当該中空
体を膨張させ、前記中空体に流体が封入された状態の遮
音材を前記フレームに取り付けることで、前記防音室の
壁部分が形成される、という手法を採ることもでき、こ
れによっても、前述した効果を得ることができる。Further, in a method of constructing a soundproof room using the sound insulation material, a required number of sound insulation materials in a state where fluid is discharged from the hollow body are prepared at a construction site, and at the construction site, the sound insulation room is constructed. Form a frame along the outer shape of
Before and after that, the wall of the soundproof chamber is formed by enclosing a fluid in the hollow body to expand the hollow body and attaching a sound insulation material in a state in which the fluid is enclosed in the hollow body to the frame. It is also possible to adopt the method of being performed, and the effect described above can be obtained also by this.
【0010】[0010]
【発明の実施の形態】 本発明における補強材は可撓性
部材により構成され、前記流体が中空体より抜かれた状
態で、前記補強材及び中空体が所定の位置で折り曲げ可
能となる、という構成を採ることが好ましい。このよう
に構成することで、流体が中空体から抜かれた状態で、
遮音材をコンパクトに折り畳むことが可能となり、遮音
材の運搬上及び収納上便利となる。BEST MODE FOR CARRYING OUT THE INVENTION The reinforcing material according to the present invention is configured by a flexible member, and the reinforcing material and the hollow body can be bent at predetermined positions in a state where the fluid is drained from the hollow body. Is preferred. By configuring in this way, in the state where the fluid is extracted from the hollow body,
The sound insulation material can be folded compactly, which is convenient for transportation and storage of the sound insulation material.
【0011】また、前記補強材は、鉛及び/又はゴム成
分を含んで構成される、という構成を採用するとよい。
これにより、同一の面密度からなる他の補強材に比べ、
当該補強材に起因する高音域での遮音性能の落ち込み現
象(コインシデンス効果)が低減される他、補強材自身
の共振による遮音性能の低下が殆ど見られず、また、ダ
ンピングも大きくなる等の理由で、遮音材の遮音性能を
一層高めることができる。Further, it is preferable that the reinforcing material is configured to contain lead and / or a rubber component.
As a result, compared to other reinforcements with the same surface density,
The reason why the sound insulation performance drop phenomenon (coincidence effect) in the high range due to the reinforcement material is reduced, the sound insulation performance is hardly deteriorated due to the resonance of the reinforcement material, and the damping is increased. Thus, the sound insulation performance of the sound insulation material can be further enhanced.
【0012】なお、本明細書において、「可撓性部材」
とは、厳格なものではないが、無付加状態では定型を維
持し、人間が作用させることのできる程度の大きさの外
力を付加したときに、撓み変形可能な部材を意味する。
従って、ゴム成分を含む補強材の場合であっても、ゴム
紐のような可撓性を有するものとは区別される。In the present specification, "flexible member"
Although not strict, it means a member that can be flexibly deformed when an external force of a magnitude that can be applied by a human being is maintained while maintaining a fixed shape in the non-added state.
Therefore, even a reinforcing material containing a rubber component is distinguished from a flexible material such as a rubber cord.
【0013】また、「壁部分」とは、防音室を構成する
全てのパネル材を包含する概念として用い、側壁の他に
天井や床板等をも含む。The term "wall portion" is used as a concept that includes all panel materials that make up the soundproof room, and includes ceilings, floorboards, and the like in addition to side walls.
【0014】[0014]
【実施例】以下、本発明の実施例について図面を参照し
ながら説明する。Embodiments of the present invention will be described below with reference to the drawings.
【0015】図1には、本実施例に係る遮音材が適用さ
れた防音室の概略斜視図が示されている。この図におい
て、防音室10は、略直方体状の外形形状をなし、組み
立て及び解体が自在に設けられている。この防音室10
は、工事現場等の床面に敷設される平面視略長方形状の
床部12と、この床部12の外周に沿って起立する側壁
部13と、この側壁部13の上端側に載せられるととも
に、側壁部13で囲まれた内部空間を閉塞する天井板1
4とを備えて構成されている。FIG. 1 is a schematic perspective view of a soundproof room to which the sound insulating material according to this embodiment is applied. In this figure, the soundproof room 10 has a substantially rectangular parallelepiped outer shape, and can be assembled and disassembled freely. This soundproof room 10
Is placed on the floor surface of a construction site or the like, has a substantially rectangular floor view 12 in plan view, a side wall portion 13 standing upright along the outer periphery of the floor portion 12, and is mounted on the upper end side of the side wall portion 13. , A ceiling plate 1 for closing the internal space surrounded by the side wall portion 13
And 4 are provided.
【0016】前記床部12は、特に限定されるものでは
ないが、主としてパーティクルボード等の板材によって
構成され、その他、必要に応じて、グラスウールや防振
ゴム等が前記板材に付設されるようになっている。な
お、床部12を省略して、工事現場等の既存の床面に側
壁部13を直接固定することも可能である。Although the floor 12 is not particularly limited, it is mainly composed of a plate material such as particle board, and if necessary, glass wool, anti-vibration rubber or the like is attached to the plate material. Has become. It is also possible to omit the floor portion 12 and fix the side wall portion 13 directly to an existing floor surface such as a construction site.
【0017】前記側壁部13は、図2に示されるよう
に、分解若しくは折り畳み可能な棒状のフレーム形成部
材16によって略直方体状に枠組みされたフレーム17
と、このフレーム17の外側に固定されるとともに、正
面視略長方形状をなす遮音材としての複数枚の遮音パネ
ル19とを備えている。As shown in FIG. 2, the side wall portion 13 has a frame 17 framed in a substantially rectangular parallelepiped shape by a rod-shaped frame forming member 16 that can be disassembled or folded.
And a plurality of sound insulation panels 19 that are fixed to the outside of the frame 17 and that are substantially rectangular in a front view and serve as sound insulation materials.
【0018】前記遮音パネル19は、図3に示されるよ
うに、鉛板からなる表裏一対の補強材21,21と、こ
れら補強材21,21の間に配置される塩化ビニール製
の中空体22とを備えて構成されている。As shown in FIG. 3, the sound insulation panel 19 includes a pair of front and back reinforcing members 21 and 21 made of a lead plate, and a hollow body 22 made of vinyl chloride disposed between the reinforcing members 21 and 21. And is configured.
【0019】前記各補強材21,21は、中空体22の
表面に所定の接着剤を用いて貼り付けられており、当該
中空体22と一体的に設けられている。なお、補強材2
1,21としては、前記鉛板の他、鉛及び/又はゴム成
分を含む板材若しくはシート材を使用することができ
る。また、合板、石膏ボード等も用いることができる
他、木製、金属製、樹脂製等の他の板材若しくはシート
材等を用いることもできる。また、補強材21,21の
うち何れか一方を省略することもできる。Each of the reinforcing members 21 and 21 is attached to the surface of the hollow body 22 with a predetermined adhesive, and is integrally provided with the hollow body 22. The reinforcing material 2
As the materials 1 and 21, other than the lead plate, a plate material or a sheet material containing lead and / or a rubber component can be used. Further, plywood, gypsum board and the like can be used, and other plate materials or sheet materials such as wood, metal and resin can also be used. Further, either one of the reinforcing members 21 and 21 can be omitted.
【0020】前記中空体22は、外周側が全て閉塞され
てなる袋状に設けられており、空気の出入口24を通じ
て内部に空気を封入可能となっている。この中空体22
は、出入口24からの空気の注入に伴って全体的に膨張
する一方、出入口24からの空気の排出に伴って収縮可
能に設けられている。すなわち、中空体22は、空気を
封入した状態で、各補強材21,21の相対面に沿って
膨張するようになっており、このとき、遮音パネル19
は、各補強材21,21の間に、中空体22による閉塞
した空気層Aが形成されることになる。また、中空体2
2に封入される空気圧は、特に限定されるものではない
が、中空体22に圧縮空気を封入すると、より高い遮音
性能を得ることができる。例えば、比熱比を一定とした
状態で大気圧の約3倍程度となる圧力の圧縮空気を用い
ると、大気圧程度の圧力の空気に比べて低音域で約5d
B程度遮音性能が向上することになる。更に、中空体2
2は、前述した作用を奏する限りにおいて、塩化ビニー
ル以外の他の材料によるものであってもよい。The hollow body 22 is provided in the shape of a bag whose outer peripheral side is completely closed, and air can be enclosed inside through an air inlet / outlet 24. This hollow body 22
Is expanded so as to be entirely expanded with the injection of air from the inlet / outlet 24, while being contractable with the discharge of air from the inlet / outlet 24. That is, the hollow body 22 expands along the relative surfaces of the reinforcing members 21 and 21 in a state where air is enclosed, and at this time, the sound insulation panel 19 is provided.
The air layer A closed by the hollow body 22 is formed between the reinforcing members 21 and 21. Also, the hollow body 2
The air pressure filled in 2 is not particularly limited, but if compressed air is filled in the hollow body 22, higher sound insulation performance can be obtained. For example, when compressed air having a pressure that is about three times the atmospheric pressure is used with the specific heat ratio kept constant, it is about 5d in the bass range compared to air having a pressure of about the atmospheric pressure.
About B, the sound insulation performance is improved. Furthermore, the hollow body 2
The material 2 may be made of a material other than vinyl chloride as long as the above-described action is exhibited.
【0021】次に、防音室10の施工手順について説明
する。Next, the procedure for constructing the soundproof room 10 will be described.
【0022】先ず、防音室10を構成する各資材を施工
現場に必要数準備する。この際、各遮音パネル19は、
中空体22から空気が抜かれた状態、すなわち、中空体
22が押し潰されて各補強材21,21が相互に接近し
た略二枚厚の板状となる状態で施工現場に搬入される。
そして、図2に示されるように、防音室10の外形形状
に沿ってフレーム形成部材16を枠組みすることでフレ
ーム17を形成する。これと前後して、中空体22に空
気を封入して当該中空体22を膨張させて遮音パネル1
9を膨張状態とし、当該膨張状態の遮音パネル19をフ
レーム17の外側に取り付けることにより、防音室10
の側壁部13を形成する。この際、各遮音パネル19
は、図4に示されるように、それらの端部側同士が、公
知の面ファスナーや両面粘着テープ等からなる接合手段
26若しくは接着剤等で相互に連結される。なお、図5
に示されるように、例えば、接合手段26を帯状として
隣り合う補強材21,21の面の間で掛け渡すように配
置し、これら各遮音パネル19,19をヒンジ状に連結
して、遮音パネル19をドアとして用いることもでき
る。そして、側壁部13が組み立てられた後、当該側壁
部13側に天井板14が連結されて、防音室10が完成
する。また、当該防音室10を解体する際には、前述と
逆の手順で行うことができる。First, a required number of materials constituting the soundproof room 10 are prepared at the construction site. At this time, each sound insulation panel 19
Air is evacuated from the hollow body 22, that is, the hollow body 22 is crushed and the reinforcing members 21 and 21 are brought into the construction site in a substantially two-thick plate shape that is close to each other.
Then, as shown in FIG. 2, the frame 17 is formed by framing the frame forming member 16 along the outer shape of the soundproof room 10. Around this, the hollow body 22 is filled with air to expand the hollow body 22 and the sound insulation panel 1
9 is set in an expanded state, and the sound insulation panel 19 in the expanded state is attached to the outside of the frame 17 so that the soundproof room 10
The side wall portion 13 is formed. At this time, each sound insulation panel 19
As shown in FIG. 4, their end portions are connected to each other by a joining means 26 such as a known surface fastener or a double-sided adhesive tape, or an adhesive agent. Note that FIG.
As shown in FIG. 5, for example, the joining means 26 is arranged in a band shape so as to be bridged between the surfaces of the adjacent reinforcing members 21 and 21, and the sound insulation panels 19 and 19 are connected in a hinge shape to form a sound insulation panel. 19 can also be used as a door. Then, after the side wall portion 13 is assembled, the ceiling plate 14 is connected to the side wall portion 13 side, and the soundproof room 10 is completed. Further, when disassembling the soundproof room 10, the procedure can be performed in the reverse order of the above.
【0023】従って、このような実施例によれば、遮音
パネル19が空気注入型となっているため、パネル全体
の軽量化を図ることができるばかりか、防音室10の組
み立て時若しくは解体時に遮音パネル19の体積を小さ
くすることができ、遮音パネル19を運搬し易くするこ
とができるという効果を得る。また、中空体22の表面
部分に、鉛成分を含むシート材からなる補強材21が貼
り付けられているため、空気を抜いた状態で遮音パネル
19を折り曲げ易くなり、遮音パネル19を折り畳んだ
状態での運搬や収納が可能となる他、コインシデンス効
果による遮音性能の低下を抑制できる等、遮音パネル1
9の遮音性能を良好にすることもできる。更に、遮音パ
ネル同士の連結を面ファスナーや両面粘着テープ等で簡
単に行うことができ、遮音パネル19同士の連結に際
し、ねじ止め等の締結作業が不要になって防音室10の
組み立て作業及び解体作業を一層簡単に行えるという効
果をも得る。Therefore, according to such an embodiment, since the sound insulation panel 19 is of the air injection type, not only can the weight of the entire panel be reduced, but also sound insulation can be achieved when the soundproof room 10 is assembled or disassembled. The effect that the volume of the panel 19 can be reduced and the sound insulation panel 19 can be easily carried is obtained. Further, since the reinforcing member 21 made of a sheet material containing a lead component is attached to the surface portion of the hollow body 22, the sound insulating panel 19 can be easily bent in a state where air is removed, and the sound insulating panel 19 is in a folded state. In addition to being able to be transported and stored in the sound insulation panel, it is possible to suppress deterioration of sound insulation performance due to the coincidence effect.
The sound insulation performance of No. 9 can be improved. Furthermore, the sound insulation panels can be easily connected to each other with a surface fastener, a double-sided adhesive tape, or the like, and when the sound insulation panels 19 are connected to each other, fastening work such as screwing is unnecessary, and the sound insulation chamber 10 is assembled and disassembled. It also has the effect of making the work easier.
【0024】なお、図6に示されるように、遮音パネル
19として、中空体22に空気を封入した状態で突き合
わせ部分に凹部28若しくは凸部29を形成可能な構成
とし、これら凹凸部28,29を係合した状態で各遮音
パネル19が連結されるようにしてもよい。これによ
り、補強材21,21の面を横切る方向の力に対して各
遮音パネル19の連結状態をより強固に維持することが
できる。なお、この場合に、前記接合手段26は、各補
強材21,21の面の間に跨るように配置され、遮音パ
ネル19の突き合わせ部分からの音漏れが抑制されるこ
ととなる。As shown in FIG. 6, as the sound insulation panel 19, the hollow body 22 is filled with air so that the concave portion 28 or the convex portion 29 can be formed at the abutting portion. The sound insulation panels 19 may be connected to each other in a state where they are engaged with each other. As a result, it is possible to more firmly maintain the connected state of the sound insulation panels 19 against the force in the direction crossing the surfaces of the reinforcing members 21 and 21. In this case, the joining means 26 is arranged so as to straddle the surfaces of the reinforcing members 21 and 21, and the sound leakage from the abutted portion of the sound insulation panel 19 is suppressed.
【0025】また、図7に示されるように、連結チュー
ブ31を介して複数枚の遮音パネル19を連結すること
により、複数枚一体型の遮音パネル19とすることもで
きる。連結チューブ31は、各遮音パネル19,19の
中空体22,22間における空気の流路となっており、
一つの遮音パネル19に設けられた出入口24から空気
を排出若しくは注入することによって、一体化された遮
音パネル19の各中空体22の内部に対する空気の出し
入れが可能となっている。このような構成とした場合に
は、遮音パネル19の組立工数を低減することができ、
その連結作業の迅速化及び簡易化を図ることができる。
しかも、防音室10のコーナー部分等、防音室10の曲
げ部分を構成する各遮音パネル19を一体化したときで
あっても、当該遮音パネル19の運搬時や収納時等に
は、各遮音パネル19の体積を減らしてコンパクトに折
り畳むことができ、曲げ部分を有する各遮音パネル19
の運搬時や収納時等における嵩張りを少なくすることが
できる。Further, as shown in FIG. 7, a plurality of sound insulation panels 19 can be connected through a connecting tube 31 to form a plurality of sound insulation panels 19. The connection tube 31 serves as an air flow path between the hollow bodies 22, 22 of the sound insulation panels 19, 19.
By discharging or injecting air from the inlet / outlet 24 provided in one sound insulation panel 19, it is possible to take air in and out of each hollow body 22 of the integrated sound insulation panel 19. With such a configuration, the number of steps for assembling the sound insulation panel 19 can be reduced,
The connecting work can be speeded up and simplified.
Moreover, even when the sound insulation panels 19 that constitute the bent portions of the sound insulation room 10 such as the corners of the sound insulation room 10 are integrated, the sound insulation panels 19 are transported or housed when the sound insulation panels 19 are integrated. Each sound insulation panel 19 that has a bent portion that can be folded compactly by reducing the volume of 19
It is possible to reduce the bulkiness during transportation and storage.
【0026】更に、図8(A)及び図9(A)に示され
るように、側壁部13を構成する遮音パネル19全体を
一体化し、その外周側略全周を補強材21で覆う構成と
することもできる。このようにした場合には、各遮音パ
ネル19同士の連結作業が不要となるばかりか、各中空
体13に空気を封入した状態で、各遮音パネル19全体
を自立させることが可能となり、フレーム17を省略す
ることもでき、組み立て作業及び解体作業をより簡単に
行うことができる。また、図8(A)及び図9(A)に
示される一体型の遮音パネル19は、防音室10の組み
立て前や解体後に、図8(B)及び図9(B)に示され
るように、各遮音パネル19全体をコンパクトに折り畳
むことができ、各遮音パネル19全体を一回の作業で運
搬することも可能となる。Further, as shown in FIGS. 8 (A) and 9 (A), the entire sound insulation panel 19 constituting the side wall portion 13 is integrated, and substantially the entire outer peripheral side thereof is covered with the reinforcing material 21. You can also do it. In this case, not only the work of connecting the sound insulation panels 19 to each other is unnecessary, but also the sound insulation panels 19 as a whole can be made to stand by themselves in a state in which each hollow body 13 is filled with air. Can be omitted, and the assembling work and the disassembling work can be performed more easily. In addition, as shown in FIGS. 8 (B) and 9 (B), the integrated type sound insulation panel 19 shown in FIGS. 8 (A) and 9 (A) is provided before and after disassembling the soundproof room 10. The entire sound insulation panel 19 can be folded compactly, and the entire sound insulation panel 19 can be transported in one operation.
【0027】また、前記防音室10は、図10に示され
るように、フレーム17に結びつけられたワイヤー34
を建物の天井部分Uから吊り下げられる構造にすること
も可能である。ここで、図11に示されるように、フレ
ーム17の上端側各コーナー部分に複数本のワイヤー3
4の各一端側を結びつけ、当該ワイヤー34をフレーム
17の対角線方向外側に引っ張って、ワイヤー34の各
他端側を錘36で接地面側に固定する構造にしてもよ
い。The soundproof room 10 has a wire 34 connected to the frame 17 as shown in FIG.
Can be hung from the ceiling U of the building. Here, as shown in FIG. 11, a plurality of wires 3 is provided at each corner portion on the upper end side of the frame 17.
4 may be connected to one end side, the wire 34 may be pulled outward in the diagonal direction of the frame 17, and the other end side of the wire 34 may be fixed to the ground surface side with a weight 36.
【0028】更に、本発明に係る遮音パネル19は、前
述した略直方体状の防音室10に限定されず、図12に
示される四角錐状の防音室等、種々の形状の防音室に適
用可能である。Furthermore, the sound insulation panel 19 according to the present invention is not limited to the substantially rectangular parallelepiped soundproof room 10 described above, but can be applied to various shapes of soundproof room such as the quadrangular pyramid soundproof room shown in FIG. Is.
【0029】また、以上においては、前記中空体13に
封入される流体として空気を適用したが、本発明はこれ
に限らず、窒素ガスやヘリウムガス等の他の気体や水等
の液体からなる流体を封入可能な構成とすることもでき
る。Further, in the above, air is used as the fluid sealed in the hollow body 13, but the present invention is not limited to this, and other gas such as nitrogen gas or helium gas or liquid such as water is used. A fluid can be enclosed.
【0030】更に、前記実施例においては、側壁部13
に遮音パネル19を適用したが、本発明はこれに限ら
ず、床部12や天井板14等の他の壁部分にも遮音パネ
ル19を適用することができる。Further, in the above embodiment, the side wall portion 13
Although the sound insulation panel 19 is applied to the above, the present invention is not limited to this, and the sound insulation panel 19 can be applied to other wall portions such as the floor portion 12 and the ceiling plate 14.
【0031】[0031]
【発明の効果】以上説明したように、本発明によれば、
板状若しくはシート状の補強材と、この補強材に一体的
に設けられるとともに、所定の流体を内部に封入可能な
中空体とを備え、前記中空体を、前記流体の注入に伴っ
て膨張する一方、前記流体の排出に伴って収縮可能に設
けたから、防音室の組み立て時及び解体時における遮音
材の運搬作業等の各種作業を行い易くすることができる
とともに、中空体を破れ難くして耐久性を高めることが
でき、しかも、効果的な遮音性能を得ることができる。As described above, according to the present invention,
A plate-shaped or sheet-shaped reinforcing material and a hollow body that is integrally provided on the reinforcing material and that can enclose a predetermined fluid therein are provided, and the hollow body expands as the fluid is injected. On the other hand, since it is provided so that it can be contracted as the fluid is discharged, it is possible to facilitate various tasks such as the work of transporting the sound insulation material during the assembly and disassembly of the soundproof room, and the hollow body is hard to break and durable. The sound insulation performance can be improved.
【0032】また、前記補強材を可撓性部材により構成
し、前記流体が中空体より抜かれた状態で、前記補強材
及び中空体を所定の位置で折り曲げ可能としたから、流
体が中空体から抜かれた状態で、遮音材をコンパクトに
折り畳むことが可能となり、遮音材の運搬上及び収納上
便利となる。Further, since the reinforcing member is made of a flexible member, and the reinforcing member and the hollow member can be bent at a predetermined position in a state where the fluid is extracted from the hollow member, the fluid flows from the hollow member. In the removed state, the sound insulation material can be folded compactly, which is convenient for transportation and storage of the sound insulation material.
【0033】更に、前記補強材を鉛及び/又はゴム成分
を含んで構成したから、同一の面密度からなる他の補強
材に比べ、コインシデンス効果を低減できる他、補強材
自身の共振による遮音性能の低下が殆ど見られず、遮音
材の遮音性能を一層高めることができる。Further, since the reinforcing material contains lead and / or rubber component, the coincidence effect can be reduced as compared with other reinforcing materials having the same surface density, and the sound insulating performance by resonance of the reinforcing material itself can be obtained. Is hardly seen, and the sound insulation performance of the sound insulation material can be further enhanced.
【図1】 本実施例に係る遮音材としての遮音パネルが
適用された防音室の概略斜視図。FIG. 1 is a schematic perspective view of a soundproof room to which a sound insulation panel as a sound insulation material according to this embodiment is applied.
【図2】 前記防音室を構成する側壁部の一部省略分解
斜視図。FIG. 2 is an exploded perspective view of a side wall part of the soundproof room, with some parts omitted.
【図3】 前記遮音パネルの拡大横断面図。FIG. 3 is an enlarged cross-sectional view of the sound insulation panel.
【図4】 前記遮音パネルの連結状態を示した要部概略
平面図。FIG. 4 is a schematic plan view of essential parts showing a connected state of the sound insulation panels.
【図5】 図4の変形例に係る要部概略平面図。5 is a schematic plan view of a main part according to the modified example of FIG.
【図6】 図4の他の変形例に係る要部概略平面図。6 is a schematic plan view of a main part according to another modification of FIG.
【図7】 図4の更に他の変形例に係る要部概略平面
図。7 is a schematic plan view of a main part according to still another modification of FIG.
【図8】 (A)は、図7の変形例に係る概略平面図で
あり、(B)は、(A)の遮音パネルの折り畳み状態を
説明するための概略平面図である。8A is a schematic plan view according to a modification of FIG. 7, and FIG. 8B is a schematic plan view for explaining a folded state of the sound insulation panel in FIG. 8A.
【図9】 (A)は、図8(A)の変形例に係る概略平
面図であり、(B)は、(A)の遮音パネルの折り畳み
状態を説明するための概略平面図である。9A is a schematic plan view according to a modified example of FIG. 8A, and FIG. 9B is a schematic plan view for explaining a folded state of the sound insulation panel of FIG.
【図10】 変形例に係る防音室の概略斜視図。FIG. 10 is a schematic perspective view of a soundproof room according to a modification.
【図11】 図10の変形例に係る防音室の概略斜視
図。11 is a schematic perspective view of a soundproof room according to a modified example of FIG.
【図12】 他の変形例に係る防音室の概略斜視図。FIG. 12 is a schematic perspective view of a soundproof room according to another modification.
10・・・防音室、13・・・側壁部(壁部分)、17
・・・フレーム、19・・・遮音パネル(遮音材)、2
1・・・補強材、22・・・中空体10 ... Soundproof room, 13 ... Side wall part (wall part), 17
・ ・ ・ Frame, 19 ・ ・ ・ Sound insulation panel (sound insulation material), 2
1 ... Reinforcing material, 22 ... Hollow body
Claims (5)
補強材に一体的に設けられるとともに、所定の流体を内
部に封入可能な中空体とを備え、 前記中空体は、前記流体の注入に伴って膨張する一方、
前記流体の排出に伴って収縮可能に設けられ、前記流体
を封入した状態で前記補強材の面に沿って膨張すること
を特徴とする遮音材。1. A plate-shaped or sheet-shaped reinforcing material, and a hollow body integrally provided on the reinforcing material and capable of enclosing a predetermined fluid therein, wherein the hollow body is filled with the fluid. While expanding with
A sound insulation material, which is provided so as to be contractible as the fluid is discharged, and expands along the surface of the reinforcing material in a state where the fluid is enclosed.
れ、前記流体が中空体より抜かれた状態で、前記補強材
及び中空体が所定の位置で折り曲げ可能となることを特
徴とする請求項1記載の遮音材。2. The reinforcing member is made of a flexible member, and the reinforcing member and the hollow member can be bent at a predetermined position when the fluid is drained from the hollow member. Sound insulation material according to 1.
含んで構成されていることを特徴とする請求項1又は2
記載の遮音材。3. The reinforcing material is constituted by containing lead and / or a rubber component.
Sound insulation material described.
用いた防音室の施工方法であって、 前記中空体から流体が抜かれた状態の遮音材を施工現場
に必要数準備し、 前記中空体に流体を封入して膨張させることで、前記防
音室の壁部分が形成されることを特徴とする防音室の施
工方法。4. A method of constructing a soundproof room using the sound insulation material according to claim 1, wherein a required number of sound insulation materials in a state where fluid is drained from the hollow body are prepared at a construction site. A method for constructing a soundproof room, characterized in that a wall portion of the soundproof room is formed by enclosing a fluid in the hollow body and expanding the fluid.
用いた防音室の施工方法であって、 前記中空体から流体が抜かれた状態の遮音材を施工現場
に必要数準備するとともに、当該施工現場で、前記防音
室の外形形状に沿ってフレームを形成し、 それと前後して、前記中空体に流体を封入して当該中空
体を膨張させ、 前記中空体に流体が封入された状態の遮音材を前記フレ
ームに取り付けることで、前記防音室の壁部分が形成さ
れることを特徴とする防音室の施工方法。5. A method of constructing a soundproof room using the sound insulation material according to claim 1, wherein a required number of sound insulation materials in a state where fluid is drained from the hollow body are prepared at a construction site. At the same time, at the construction site, a frame is formed along the outer shape of the soundproof room, and before and after that, a fluid is enclosed in the hollow body to expand the hollow body, and the fluid is enclosed in the hollow body. A method of constructing a soundproof room, characterized in that a wall portion of the soundproof room is formed by attaching the sound insulating material in the closed state to the frame.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2001234767A JP2003041681A (en) | 2001-08-02 | 2001-08-02 | Sound insulation material and method for constructing soundproof chamber using the same |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2001234767A JP2003041681A (en) | 2001-08-02 | 2001-08-02 | Sound insulation material and method for constructing soundproof chamber using the same |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JP2003041681A true JP2003041681A (en) | 2003-02-13 |
Family
ID=19066316
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP2001234767A Pending JP2003041681A (en) | 2001-08-02 | 2001-08-02 | Sound insulation material and method for constructing soundproof chamber using the same |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2003041681A (en) |
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| US8469144B2 (en) | 2005-05-12 | 2013-06-25 | James G. Pilaar | Inflatable sound attenuation system |
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| JP2009150203A (en) * | 2007-11-29 | 2009-07-09 | Comany Inc | Building interior work execution with small noises |
| JP2009203686A (en) * | 2008-02-27 | 2009-09-10 | Comany Inc | Soundproof partition box |
| JP2010077744A (en) * | 2008-09-29 | 2010-04-08 | Comany Inc | Soundproof partitioning box |
| JP2010101043A (en) * | 2008-10-22 | 2010-05-06 | Comany Inc | Small-noise construction service of building interior finish work |
| JP2013090457A (en) * | 2011-10-18 | 2013-05-13 | Sanjou Kogyo Kk | Noise reducer for small-sized generator |
| JP2013195729A (en) * | 2012-03-21 | 2013-09-30 | Tottori Univ | Sound insulation unit and sound insulation structure using the same |
| JP2016156240A (en) * | 2015-02-26 | 2016-09-01 | 株式会社ピーエス三菱 | Soundproofing method for concrete bridge girder cutting work |
| KR20180100980A (en) * | 2017-03-03 | 2018-09-12 | 허재경 | Soundproofing booth and panel easy to set up |
| KR102308920B1 (en) * | 2017-03-03 | 2021-10-05 | 허재경 | Soundproofing booth and panel easy to set up |
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