JPH0776600B2 - Sound deadening structure in double pipe of fluid pipe and interposer used for it - Google Patents
Sound deadening structure in double pipe of fluid pipe and interposer used for itInfo
- Publication number
- JPH0776600B2 JPH0776600B2 JP3008450A JP845091A JPH0776600B2 JP H0776600 B2 JPH0776600 B2 JP H0776600B2 JP 3008450 A JP3008450 A JP 3008450A JP 845091 A JP845091 A JP 845091A JP H0776600 B2 JPH0776600 B2 JP H0776600B2
- Authority
- JP
- Japan
- Prior art keywords
- pipe
- fluid
- sheath
- fluid pipe
- tube
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Rigid Pipes And Flexible Pipes (AREA)
- Pipe Accessories (AREA)
Description
【0001】[0001]
【産業上の利用分野】この発明は、建築物内の暖房や給
湯等の水まわりの施工に用いられる流体管の二重配管に
おける消音構造及びそれに使用する介在材に関するもの
である。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sound deadening structure in a double pipe of a fluid pipe used for construction around a building such as heating or hot water supply, and an interposing material used therefor.
【0002】[0002]
【従来の技術】近年、建築物内の暖房や給湯等の水まわ
りの施工には、給湯器等の供給部と給水栓等の使用部と
をフレキシブルな流体管により接続すると共に、その流
体管を可撓性のある鞘管内に挿通して壁裏等に配管する
という、いわゆる鞘管工法が普及してきている(例え
ば、実開昭61−32880号公報)。この鞘管工法
は、壁裏等で自由な配管を行うことができるため、従前
から行われていた金属管による配管工法に比較して、施
工に手間がかからないと共に、流体管の交換が容易でメ
ンテナンスを簡単に行うことができるというメリットを
有している。2. Description of the Related Art In recent years, in the construction of water around a building such as heating or hot water supply, a flexible fluid pipe is used to connect a supply portion such as a water heater and a used portion such as a water tap. A so-called sheath pipe construction method has been widely used, in which a pipe is inserted into a flexible sheath pipe and piped behind a wall or the like (for example, Japanese Utility Model Laid-Open No. 61-32880). Since this sheath pipe construction method allows free piping on the back of walls, etc., compared to the conventional metal pipe construction method, it requires less work and the fluid pipes can be replaced easily. It has the advantage that maintenance can be performed easily.
【0003】又、前記の鞘管工法による流体管の消音構
造においては、給水栓が使用後に閉じられて水の流れが
急に止められたりすると、給水栓付近の流体管内で水圧
が急増し、その戻りにより水が流体管の内壁に衝突し
て、ウオーターハンマー現象を生じるが、このウオータ
ーハンマー現象により発生する音に対しては、流体管が
鞘管内に挿通保護されているため、鞘管の防音効果によ
りその音をある程度消すことができていた。Further, in the sound deadening structure of the fluid pipe by the sheath pipe construction method, if the water tap is closed after use and the flow of water is suddenly stopped, the water pressure in the fluid pipe near the water tap increases rapidly, Due to the return, water collides with the inner wall of the fluid pipe and causes a water hammer phenomenon.However, as for the sound generated by the water hammer phenomenon, the fluid pipe is protected by being inserted into the sheath pipe. The soundproof effect was able to eliminate the sound to some extent.
【0004】しかしながら、前記の鞘管工法による流体
管の消音構造では、流体管がフレキシブルになっている
ため、管内の水が急に止められた場合、ウオーターハン
マー現象と共に流体管に波打ち現象が生じて、流体管が
鞘管の内面に衝突し、大きな衝突音を発生すると共に、
流体管の損傷を招くという問題があった。However, in the sound deadening structure of the fluid pipe by the above-mentioned sheath pipe construction method, since the fluid pipe is flexible, when the water in the pipe is suddenly stopped, a wavy phenomenon occurs in the fluid pipe together with the water hammer phenomenon. Then, the fluid pipe collides with the inner surface of the sheath pipe, generating a loud collision sound, and
There is a problem of causing damage to the fluid pipe.
【0005】このような問題点を解消するために、この
発明の出願人は、先の特許出願(特願平2−92902
号)において、流体管と鞘管との間に形成される空間に
介在材を介在させ、この介在材によって、ウオーターハ
ンマー現象と共に発生する流体管と鞘管との衝突音を消
音できるようにした流体管の消音構造を提案した。In order to solve such a problem, the applicant of the present invention has previously filed a patent application (Japanese Patent Application No. 2-92902).
No.), an intervening material is interposed in the space formed between the fluid pipe and the sheath pipe, and the intervening material can muffle the collision noise between the fluid pipe and the sheath pipe that occurs with the water hammer phenomenon. A sound deadening structure of fluid pipe is proposed.
【0006】[0006]
【発明が解決しようとする課題】ところが、この先願の
消音構造においては、介在材が発泡樹脂等の滑りの悪い
材料で形成されているため、流体管の外周に介在材を巻
き付けながら、流体管を介在材と共に鞘管内へ挿入する
際に介在材の外面と鞘管の内面との間に大きな摺動抵抗
が作用し、特に鞘管が長く配管されていたり、曲げ配管
されていたりする箇所では、挿入作業を円滑に行うこと
ができないという問題があった。However, in the sound deadening structure of this prior application, since the intervening material is formed of a material having poor sliding property such as foamed resin, the interposing material is wound around the outer periphery of the fluid pipe while A large sliding resistance acts between the outer surface of the interposer and the inner surface of the sheath when inserting the interposer together with the interposer into the sheath, especially in places where the sheath is long or bent. However, there is a problem that the insertion work cannot be performed smoothly.
【0007】又、古くなった流体管を新しいものと交換
するために、流体管を介在材と共に鞘管内から抜き取る
場合にも、介在材の外面と鞘管の内面との間に大きな摺
動抵抗が作用し、介在材が途中で破れたりちぎれたりし
て、抜き取り不能になるという問題があった。Also, when the fluid pipe is pulled out from the inside of the sheath pipe together with the interposing material in order to replace the old fluid pipe with a new one, a large sliding resistance is exerted between the outer surface of the interposing material and the inner surface of the sheath pipe. However, there is a problem that the intervening material is torn or torn in the middle, making it impossible to extract.
【0008】この発明は、このような従来の技術に存在
する問題点に着目してなされたものであって、その目的
とするところは、流体管を介在材とともに鞘管内へ挿入
する際に、介在材の外面と鞘管の内面との間に大きな摺
動抵抗が作用することなく、その挿入作業を円滑かつ短
時間に行うことができると共に、古くなった流体管を新
しいものと交換するために、流体管を介在材と共に鞘管
内から抜き取る場合にも、介在材の外面と鞘管の内面と
の間に大きな摺動抵抗が作用することなく、その抜き取
り作業を容易に行うことができる流体管の二重配管にお
ける消音構造及びそれに使用する介在材を提供すること
にある。The present invention was made by paying attention to the problems existing in such a conventional technique, and its purpose is to insert the fluid pipe into the sheath pipe together with the interposing material. Since a large sliding resistance does not act between the outer surface of the interposer and the inner surface of the sheath pipe, the insertion work can be performed smoothly and in a short time, and the old fluid pipe can be replaced with a new one. In addition, even when the fluid pipe is pulled out together with the intervening material from the inside of the sheath tube, the fluid can be easily pulled out without a large sliding resistance acting between the outer surface of the interposing material and the inner surface of the sheath tube. (EN) It is intended to provide a sound deadening structure for a double pipe and an interposing material used for the structure.
【0009】[0009]
【課題を解決するための手段】上記の目的を達成するた
めに、請求項1に記載の発明では、可撓性を有する鞘管
内に、湯、水等の流体を通すフレキシブルな流体管を挿
通して配管する流体管の二重配管においてウオーターハ
ンマー現象とともに発生する流体管と鞘管との衝突音を
消音するための消音構造であって、長尺シート状に形成
され、流体管の外面を長手方向に連続して巻包する介在
材を鞘管内に設け、前記介在材は、流体管の外面に接触
する側の緩衝効果を有する緩衝層と、鞘管の内面に接触
する側の滑りの良好なフィルム層とを備えたことを特徴
とするものである。In order to achieve the above object, in the invention described in claim 1, a flexible fluid pipe for passing fluid such as hot water and water is inserted into a flexible sheath pipe. It is a sound deadening structure for silencing the collision noise between the fluid pipe and the sheath pipe that occurs with the water hammer phenomenon in the double pipe of the fluid pipe to be piped, and is formed in a long sheet shape, and the outer surface of the fluid pipe is An intervening material that is continuously wrapped in the longitudinal direction is provided inside the sheath tube, and the intervening material has a buffer layer having a cushioning effect on the side that contacts the outer surface of the fluid tube and a slippage on the side that contacts the inner surface of the sheath tube. It is characterized by having a good film layer.
【0010】又、請求項2に記載の発明では、可撓性を
有する鞘管内に、湯、水等の流体を通すフレキシブルな
流体管を挿通して配管する流体管の二重配管におけるウ
オーターハンマー現象とともに発生する流体管と鞘管と
の衝突音を消音するために、長尺シート状に形成され、
流体管の外面を長手方向に連続して巻包して鞘管内に設
けられる介在材であって、流体管の外面に接触する側の
緩衝効果を有する緩衝層と、鞘管の内面に接触する側の
滑りの良好なフィルム層とを備えたことを特徴とするも
のである。According to the second aspect of the present invention, a water hammer in a double pipe of a fluid pipe in which a flexible fluid pipe through which a fluid such as hot water or water is passed is inserted into a flexible sheath pipe. In order to muffle the collision noise between the fluid pipe and the sheath pipe that occurs with the phenomenon, it is formed in a long sheet shape,
An intervening material that is provided inside the sheath tube by continuously wrapping the outer surface of the fluid tube in the longitudinal direction, and contacts an inner surface of the sheath tube with a buffer layer having a buffer effect on the side that contacts the outer surface of the fluid tube. And a film layer having good side slippage.
【0011】[0011]
【作用】上記のように構成された流体管に消音構造にお
いては、介在材が、流体管の外面に接触する側の緩衝効
果を有する緩衝層と、鞘管の内面に接触する側の滑りの
良好なフイルム層とを備えているため、流体管を介在材
とともに鞘管内へ挿入する際に、介在材の外面と鞘管の
内面との間に大きな摺動抵抗が作用することなく、その
挿入作業を円滑かつ短時間に行うことができる。特に鞘
管が長く配管されていたり、曲げ配管されていたりする
箇所では、挿入作業がきわめて容易になって、その効果
を顕著に発揮する。In the sound deadening structure for the fluid pipe constructed as described above, the intervening material has a cushioning layer having a cushioning effect on the side contacting the outer surface of the fluid pipe and a slippage on the side contacting the inner surface of the sheath tube. Since it has a good film layer, when inserting the fluid pipe together with the interposer into the sheath pipe, the insertion is performed without a large sliding resistance acting between the outer surface of the interposer and the inner face of the sheath pipe. Work can be performed smoothly and in a short time. In particular, at a location where the sheath pipe is long or bent, the insertion work becomes extremely easy and the effect is remarkably exhibited.
【0012】又、古くなった流体管を新しいものと交換
するために、流体管を介在材と共に鞘管内から抜き取る
場合にも、介在材の外面と鞘管の内面との間に大きな摺
動抵抗が作用することなく、その抜き取り作業を容易に
行うことができる。そのため、介在材が途中で破れたり
ちぎれたりして、抜き取り不能になるおそれを確実に防
止することができる。Further, when the fluid pipe is removed from the sheath tube together with the interposing material in order to replace the old fluid pipe with a new one, a large sliding resistance is exerted between the outer surface of the interposing material and the inner surface of the sheath tube. It is possible to easily perform the extraction work without the action of. Therefore, it is possible to reliably prevent the intervening material from being torn or torn in the middle and being unable to be extracted.
【0013】又、介在材が長尺シート状に形成され、流
体管の外面を長手方向に連続して巻包し得るものである
から、曲げ配管されて偏平状態になっている鞘管の内形
状にも容易に対応できて、介在材が流体管と鞘管との空
間内に充填され、これにより流体管を鞘管内にきちんと
保持することができる。そして、介在材が流体管の外面
を長手方向に連続して巻包し得ることにより、ウオータ
ーハンマー現象により発生する音に対する消音効果も一
層高めることができる。Further, since the intervening material is formed in the shape of a long sheet so that the outer surface of the fluid pipe can be continuously wrapped in the longitudinal direction, the inside of the sheath pipe bent and piped into a flat state. The shape can be easily accommodated, and the interposition material is filled in the space between the fluid pipe and the sheath pipe, whereby the fluid pipe can be properly held in the sheath pipe. Since the interposition material can continuously wrap the outer surface of the fluid pipe in the longitudinal direction, the sound deadening effect on the sound generated by the water hammer phenomenon can be further enhanced.
【0014】[0014]
【実施例】以下、この発明を具体化した消音構造の一実
施例を、図1〜図3に基づいて詳細に説明する。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a sound deadening structure embodying the present invention will be described in detail below with reference to FIGS.
【0015】図1図に示すように、流体管1はポリエチ
レン等の合成樹脂により作製され、いずれの方向にも撓
曲可能なフレキシブル特性を有している。鞘管2は合成
樹脂により波形管状に形成され、任意の方向へ湾曲可能
な可撓性を有している。そして、鞘管2が建築物内の壁
裏等に配管された状態で、流体管1がその鞘管2内に挿
入配管されて、この流体管1を介して給湯器等の供給部
と給水栓等の使用部とが接続される。As shown in FIG. 1, the fluid pipe 1 is made of a synthetic resin such as polyethylene and has a flexible characteristic that it can be bent in any direction. The sheath tube 2 is formed of synthetic resin into a corrugated tubular shape, and has flexibility so that it can be curved in an arbitrary direction. Then, the fluid pipe 1 is inserted into the sheath pipe 2 in a state where the sheath pipe 2 is piped behind the wall in the building, and the water pipe and the supply unit such as a water heater are supplied through the fluid pipe 1. Used parts such as stoppers are connected.
【0016】介在材3は所定幅の長尺シート状に形成さ
れ、緩衝効果を有する緩衝層4と、その緩衝層4の表面
に固定された滑りの良好なフィルム層5との二層構造に
なっている。又、前記緩衝層4は発泡ゴムや発泡樹脂等
の弾力性があって復元力に富む材料により形成され、フ
ィルム層5はポリプロピレン、ポリエチレン、ポリエス
テル等の合成樹脂により形成されている。The intervening material 3 is formed in the shape of a long sheet having a predetermined width, and has a two-layer structure of a buffer layer 4 having a buffer effect and a film layer 5 fixed on the surface of the buffer layer 4 and having a good slipperiness. Has become. Further, the buffer layer 4 is formed of a material having elasticity and a high resilience such as foamed rubber or foamed resin, and the film layer 5 is formed of a synthetic resin such as polypropylene, polyethylene or polyester.
【0017】そして、この実施例においては、図1に示
すように、前記流体管1の外面に介在材3をその緩衝層
4が接触するように巻き付けながら、流体管1を介在材
3と共に鞘管2内に挿入することにより、図2に示すよ
うに、流体管1と鞘管2との間の空間に介在材3が介在
される。In this embodiment, as shown in FIG. 1, the fluid pipe 1 is sheathed with the interposer 3 while the interposer 3 is wound around the outer surface of the fluid pipe 1 so that the buffer layer 4 is in contact therewith. By inserting into the pipe 2, as shown in FIG. 2, the interposition material 3 is interposed in the space between the fluid pipe 1 and the sheath pipe 2.
【0018】次に、前記のように構成された消音構造に
ついて作用を説明する。さて、この流体管の消音構造に
おいて、介在材3が、流体管1の外面に接触する側の緩
衝効果を有する緩衝層4と、鞘管2の内面に接触する側
の滑りの良好なフィルム層5との二層構造になっている
ため、流体管1の外面に介在材3を巻き付けながら、流
体管1を介在材3とともに鞘管2内へ挿入する際には、
介在材3の外面と鞘管2の内面との間に大きな摺動抵抗
が作用することなく、滑りの良好なフィルム層5と鞘管
2の内面との接触により、流体管1の挿入作業を円滑か
つ短時間に行うことができる。特に、鞘管2が長く配管
されていたり、曲げ配管されていたりする箇所では、挿
入作業がきわめて容易になって、その効果を顕著に発揮
する。Next, the operation of the sound deadening structure constructed as described above will be described. In the sound deadening structure of the fluid pipe, a buffer layer 4 having a cushioning effect on the side where the intervening material 3 contacts the outer surface of the fluid pipe 1 and a film layer having good slippage on the side contacting the inner surface of the sheath tube 2. When the fluid pipe 1 is inserted into the sheath pipe 2 together with the interposer 3 while winding the interposer 3 around the outer surface of the fluid pipe 1,
A large sliding resistance does not act between the outer surface of the intervening material 3 and the inner surface of the sheath tube 2, and the film layer 5 having good sliding contact with the inner surface of the sheath tube 2 so that the fluid tube 1 can be inserted. It can be done smoothly and in a short time. In particular, at a location where the sheath tube 2 is longly piped or bent, the insertion work becomes extremely easy, and its effect is remarkably exhibited.
【0019】又、この流体管の配管状態において、流体
管1内の水が急に止められると、管内で水圧が急増し
て、その戻りにより水が流体管1の内壁に衝突し、ウオ
ーターハンマー現象を生じるとともに、流体管1に波打
ち現象が生じて、流体管1と鞘管2との衝突により、衝
突音を発生するおそれがある。ところが、このウオータ
ーハンマー現象により発生する音については、流体管1
が鞘管2内に挿通保護されているため、鞘管2の防音効
果によりその音を消すことができる。そして、介在材3
が流体管1の外面を長手方向に連続して***し得ること
により、ウオーターハンマー現象により発生する音に対
する消音効果も一層高めることができる。又、流体管1
と鞘管2との衝突音については、流体管1と鞘管2との
間の空間に介在材3が介在されているため、この介在材
3の緩衝層4の緩衝効果により流体管1の波打ち現象が
防がれて、両管1,2の衝突音を消すことができる。When the water in the fluid pipe 1 is suddenly stopped in this piping state of the fluid pipe, the water pressure in the pipe suddenly increases, and the water collides with the inner wall of the fluid pipe 1 due to the return of the water pressure. In addition to the phenomenon, a corrugation phenomenon may occur in the fluid pipe 1 and a collision noise may be generated due to the collision between the fluid pipe 1 and the sheath pipe 2. However, regarding the sound generated by the water hammer phenomenon, the fluid pipe 1
Since the sheath tube 2 is protected by being inserted into the sheath tube 2, the sound can be silenced by the soundproof effect of the sheath tube 2. And the intervening material 3
Since the outer surface of the fluid pipe 1 can be continuously wrapped in the longitudinal direction, the sound deadening effect on the sound generated by the water hammer phenomenon can be further enhanced. Also, the fluid pipe 1
Regarding the sound of collision between the fluid pipe 1 and the sheath tube 2, since the intervening material 3 is interposed in the space between the fluid tube 1 and the sheath tube 2, the buffer layer 4 of the intervening material 3 cushions the fluid tube 1 from the fluid pipe 1. The waving phenomenon is prevented, and the collision noise between the tubes 1 and 2 can be eliminated.
【0020】従って、給水栓の開閉時等に発生するウオ
ーターハンマー現象に伴う音は勿論のこと、流体管1の
波打ち現象に伴う衝突音も消すことができて、使用者に
不快感を与えるのを防止することができると共に、流体
管1が鞘管2と衝突して損傷するおそれを防止すること
もできる。Therefore, not only the sound associated with the water hammer phenomenon that occurs when the water tap is opened and closed, but also the collision sound associated with the waving phenomenon of the fluid pipe 1 can be eliminated, and the user is uncomfortable. It is also possible to prevent the fluid pipe 1 from colliding with the sheath pipe 2 and being damaged.
【0021】さらに、この流体管の消音構造において、
古くなった流体管1を新しいものと交換するために流体
管1を介在材3と共に鞘管2内から抜き取る場合には、
介在材3の外面と鞘管2の内面との間に大きな摺動抵抗
が作用することなく、滑りの良好なフィルム層5と鞘管
2の内面との接触により、流体管1の抜取り作業を容易
に行うことができる。そのため、介在材3が途中で破れ
たりちぎれたりして、抜き取り不能になるおそれを確実
に防止することができる。Further, in the sound deadening structure of this fluid pipe,
When removing the fluid pipe 1 together with the interposer 3 from the inside of the sheath pipe 2 in order to replace the old fluid pipe 1 with a new one,
A large sliding resistance does not act between the outer surface of the intervening material 3 and the inner surface of the sheath tube 2, and the fluid layer 1 is pulled out by the contact between the film layer 5 with good sliding and the inner surface of the sheath tube 2. It can be done easily. Therefore, it is possible to reliably prevent the intervening material 3 from being torn or torn in the middle and being unable to be extracted.
【0022】又、この流体管の消音構造においては、介
在材3が長尺シート状に形成され、流体管1の外面を長
手方向に連続して巻包し得るものであるから、図3に示
すように、曲げ配管されて偏平状態になっている鞘管2
の内形状にも容易に対応できて、介在材3が流体管1と
鞘管2との空間内に充填され、これにより、流体管1を
鞘管2内にきちんと保持することができる。Further, in the sound deadening structure of the fluid pipe, the interposition material 3 is formed in a long sheet shape, and the outer surface of the fluid pipe 1 can be continuously wrapped in the longitudinal direction. As shown, the sheath tube 2 is bent and flattened.
It is possible to easily correspond to the inner shape of the above, and the interposition material 3 is filled in the space between the fluid pipe 1 and the sheath pipe 2, whereby the fluid pipe 1 can be properly held in the sheath pipe 2.
【0023】なお、この発明は前記実施例の構成に限定
されるものではなく、次のように変更して具体化するこ
とも可能である。 介在材3のフイルム層5をアルミニウム等の金属蒸着
により形成すること。 介在材3のフイルム層5を合成樹脂によりなる層と、
その表面にアルミニウム等の金属蒸着を施した層とによ
る複層構造とすること。 介在材3を多層構造とすること。 介在材3の層間に強度を高める補強材を設けること。 介在材3の先端をテープ等により流体管1に固定した
状態で、流体管1を介在物3と共に鞘管2内へ挿入して
いくこと。このようにすれば、鞘管2内へ流体管1及び
介在材3の送り込みをスムーズに行うことができる。 予め介在材3の内面の適宜位置に離型紙を張り付けた
接着面を設け、鞘管2への流体管1の挿入に際して、離
型紙を剥しながら介在材3を流体管1に張り付けるよう
にすること。The present invention is not limited to the configuration of the above embodiment, and can be modified and embodied as follows. Forming the film layer 5 of the interposition material 3 by vapor deposition of a metal such as aluminum. A film layer 5 of the intervening material 3, a layer made of synthetic resin,
A multi-layer structure with a layer on the surface of which metal vapor deposition such as aluminum has been applied. The intervening material 3 has a multi-layer structure. Providing a reinforcing material between layers of the intervening material 3 to enhance strength. Inserting the fluid pipe 1 into the sheath pipe 2 together with the inclusions 3 with the tip of the interposition material 3 fixed to the fluid pipe 1 with tape or the like. With this configuration, the fluid pipe 1 and the interposition member 3 can be smoothly fed into the sheath pipe 2. An adhesive surface to which a release paper is attached is provided at an appropriate position on the inner surface of the interposition material 3 in advance, and when the fluid pipe 1 is inserted into the sheath tube 2, the interposition material 3 is attached to the fluid pipe 1 while peeling off the release paper. thing.
【0024】[0024]
【発明の効果】この発明は、以上説明したように構成さ
れているため、流体管を介在材と共に鞘管内へ挿入する
際に、介在材の外面と鞘管の内面との間に大きな摺動抵
抗が作用することなく、その挿入作業を円滑かつ短時間
に行うことができ、特に、鞘管が長く配管されていた
り、曲げ配管されたりする箇所では、その効果を顕著に
発揮する。又、古くなった流体管を新しいものと交換す
るために、流体管を介在材と共に鞘管内から抜き取る場
合にも、介在材の外面と鞘管の内面との間に大きな摺動
抵抗が作用することなく、その抜取り作業を容易に行う
ことができる。さらに、介在材が長尺シート状に形成さ
れ、流体管の外面を長手方向に連続して巻包し得るもの
であるから、曲げ配管されて偏平状態になっている鞘管
の内形状にも容易に対応できて、介在材が流体管と鞘管
との空間内に充填され、これにより流体管を鞘管内にき
ちんと保持することができる。そして、介在材が流体管
の外面を長手方向に連続して巻包し得ることにより、ウ
オーターハンマー現象により発生する音に対する消音効
果も一層高めることができる。Since the present invention is constructed as described above, when the fluid pipe is inserted into the sheath tube together with the interposer, a large sliding movement is caused between the outer surface of the interposer and the inner surface of the sheath tube. The insertion work can be performed smoothly and in a short time without resistance, and the effect is remarkably exhibited particularly in a place where the sheath pipe is long or bent. Also, in order to replace the old fluid pipe with a new one, when the fluid pipe is pulled out from the inside of the sheath pipe together with the interposing material, a large sliding resistance acts between the outer surface of the interposing material and the inner surface of the sheath pipe. Without this, the extraction work can be easily performed. Furthermore, since the intervening material is formed in a long sheet shape and the outer surface of the fluid pipe can be continuously wrapped in the longitudinal direction, the intervening material can be bent and piped into the flat shape of the sheath pipe. It can be easily accommodated, and the interposition material is filled in the space between the fluid pipe and the sheath pipe, so that the fluid pipe can be properly held in the sheath pipe. Since the interposition material can continuously wrap the outer surface of the fluid pipe in the longitudinal direction, the sound deadening effect on the sound generated by the water hammer phenomenon can be further enhanced.
【図1】請求項1記載の発明を具体化した消音構造の一
実施例を示す斜視図である。FIG. 1 is a perspective view showing an embodiment of a sound deadening structure embodying the invention described in claim 1. FIG.
【図2】消音構造の一部を拡大して示す縦断面図であ
る。FIG. 2 is a longitudinal sectional view showing a part of the sound deadening structure in an enlarged manner.
【図3】曲がり配管部分の消音構造の一部を拡大して示
す横断面図である。FIG. 3 is a transverse cross-sectional view showing an enlarged part of the sound deadening structure of the bent pipe portion.
1 流体管 2 鞘管 3 介在材 4 緩衝層 5 フィルム層 1 fluid pipe 2 sheath pipe 3 interposer 4 buffer layer 5 film layer
Claims (2)
体を通すフレキシブルな流体管を挿通して配管する流体
管の二重配管においてウオーターハンマー現象とともに
発生する流体管と鞘管との衝突音を消音するための消音
構造であって、長尺シート状に形成され、流体管の外面
を長手方向に連続して巻包する介在材を鞘管内に設け、
前記介在材は、流体管の外面に接触する側の緩衝効果を
有する緩衝層と、鞘管の内面に接触する側の滑りの良好
なフィルム層とを備えたことを特徴とする流体管の消音
構造。1. A fluid pipe and a sheath pipe which are accompanied by a water hammer phenomenon in a double pipe of a fluid pipe in which a flexible fluid pipe for passing a fluid such as hot water or water is inserted into a flexible sheath pipe. A silencing structure for silencing the collision sound with, which is formed in a long sheet shape, and provided in the sheath tube an interposing material that continuously wraps the outer surface of the fluid tube in the longitudinal direction,
The intervening material includes a cushioning layer having a cushioning effect on the side contacting the outer surface of the fluid tube, and a film layer having good slippage on the side contacting the inner surface of the sheath tube. Construction.
体を通すフレキシブルな流体管を挿通して配管する流体
管の二重配管におけるウオーターハンマー現象とともに
発生する流体管と鞘管との衝突音を消音するために、長
尺シート状に形成され、流体管の外面を長手方向に連続
して巻包して鞘管内に設けられる介在材であって、流体
管の外面に接触する側の緩衝効果を有する緩衝層と、鞘
管の内面に接触する側の滑りの良好なフィルム層とを備
えたことを特徴とする流体管の二重配管における消音構
造に使用する介在材。2. A fluid pipe and a sheath pipe which are generated together with a water hammer phenomenon in a double pipe of a fluid pipe in which a flexible fluid pipe for passing a fluid such as hot water and water is inserted into a flexible sheath pipe. It is an intervening material that is formed in the shape of a long sheet to muffle the collision sound with the fluid pipe and is provided inside the sheath tube by continuously wrapping the outer surface of the fluid pipe in the longitudinal direction. An intervening material for use in a sound deadening structure in a double pipe of a fluid pipe, comprising a buffer layer having a cushioning effect on the side of the sheath, and a film layer on the side of contact with the inner surface of the sheath tube, which has a good sliding property.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3008450A JPH0776600B2 (en) | 1991-01-28 | 1991-01-28 | Sound deadening structure in double pipe of fluid pipe and interposer used for it |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3008450A JPH0776600B2 (en) | 1991-01-28 | 1991-01-28 | Sound deadening structure in double pipe of fluid pipe and interposer used for it |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH04316786A JPH04316786A (en) | 1992-11-09 |
| JPH0776600B2 true JPH0776600B2 (en) | 1995-08-16 |
Family
ID=11693464
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP3008450A Expired - Fee Related JPH0776600B2 (en) | 1991-01-28 | 1991-01-28 | Sound deadening structure in double pipe of fluid pipe and interposer used for it |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0776600B2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP1849867A1 (en) | 2002-09-04 | 2007-10-31 | Chugai Seiyaku Kabushiki Kaisha | Preparation of antibody using mrl/lpr mouse |
Families Citing this family (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2502260B2 (en) * | 1993-04-19 | 1996-05-29 | 日本石油化学株式会社 | Composite sheet for pipe coating and method for sound insulation of resin pipe using the sheet |
| JP3157645B2 (en) * | 1993-04-19 | 2001-04-16 | 日本石油化学株式会社 | Composite sheet for pipe coating and method for sound insulation of resin pipe using the sheet |
| JP4801531B2 (en) * | 2006-08-24 | 2011-10-26 | 因幡電機産業株式会社 | Protective tube or sheath tube |
-
1991
- 1991-01-28 JP JP3008450A patent/JPH0776600B2/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP1849867A1 (en) | 2002-09-04 | 2007-10-31 | Chugai Seiyaku Kabushiki Kaisha | Preparation of antibody using mrl/lpr mouse |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH04316786A (en) | 1992-11-09 |
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