JP2006300203A - Constant water passage treating device of existing fluid tube - Google Patents

Constant water passage treating device of existing fluid tube Download PDF

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JP2006300203A
JP2006300203A JP2005122268A JP2005122268A JP2006300203A JP 2006300203 A JP2006300203 A JP 2006300203A JP 2005122268 A JP2005122268 A JP 2005122268A JP 2005122268 A JP2005122268 A JP 2005122268A JP 2006300203 A JP2006300203 A JP 2006300203A
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sleeve
existing
existing fluid
fluid pipe
sealing material
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JP4642537B2 (en
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Yusaku Ono
裕策 大野
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Cosmo Koki Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a constant water passage treatment device of an existing fluid tube capable of preventing a fluid from mixing in an existing flow passage even if the inner surface of the sleeve of a sealed case and the outer surface of the existing fluid tube are rusted by preventing the fluid from flowing into and out of a space between the inner surface of the sleeve and the outer surface of the existing fluid tube and the existing fluid passage. <P>SOLUTION: A sealing material 25 sealing a fluid flowing in and out of a clearance between the sleeve 12 of the sealed case 10 and the existing fluid tube 1 in the circumferential direction of the existing fluid tube 1 is formed at a predetermined position near the casing 11 of the sealing material 53 formed at the outer end of the sleeve 12. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

本発明は、スリーブと筐体とからなる分割構造の密封ケースで既設流体管を密封して、既設流体管を不断水状態で切断して、流路の遮断若しくは流路を形成する既設流体管の不断水流路処理装置に関する。   The present invention provides an existing fluid pipe that seals an existing fluid pipe with a sealed case having a divided structure including a sleeve and a casing, and cuts the existing fluid pipe in an uninterrupted water state to form a flow path blocking or a flow path. The present invention relates to a continuous water flow path processing apparatus.

従来の既設流体管の不断水流路処理装置は、既設流体管の一部を密封した密封ケース内部にて不断水状態で既設流体管を切断して、流路の遮断若しくは流路を形成している(例えば、特許文献1参照)。   A conventional continuous water channel treatment device for an existing fluid pipe is configured to cut off an existing fluid pipe in an undisturbed water state inside a sealed case in which a part of the existing fluid pipe is sealed to form a block or a flow path. (For example, refer to Patent Document 1).

特開平6−17986号公報(第3頁、第1図)Japanese Patent Laid-Open No. 6-17986 (page 3, FIG. 1)

しかしながら、特許文献1にあっては、密封ケース内部における既設流体管の切断により、密封ケース内部が既設流体管内の流体で充満し、スリーブ内面及び既設流体管外面の空間と既設流路とを流体が流出入して、該内面や該外面に錆等が発生した場合に、該錆等が既設流路に混入する恐れがあった。   However, in Patent Document 1, by cutting the existing fluid pipe inside the sealed case, the inside of the sealed case is filled with the fluid in the existing fluid pipe, and the space on the inner surface of the sleeve and the outer surface of the existing fluid pipe and the existing flow path are fluidized. When rust flows in and out and rust or the like is generated on the inner surface or the outer surface, the rust or the like may be mixed into the existing flow path.

本発明は、このような問題点に着目してなされたもので、密封ケースのスリーブ内面及び既設流体管外面の空間と既設流路とを流体が流出入することを防止して、スリーブ内面や既設流体管外面にて錆等が発生した場合でも、既設流路に混入することを防止できる既設流体管の不断水流路処理装置を提供することを目的とする。   The present invention has been made paying attention to such problems, and prevents fluid from flowing in and out of the inner surface of the sleeve of the sealed case and the space of the outer surface of the existing fluid pipe and the existing flow path. An object of the present invention is to provide a continuous water flow path treatment apparatus for an existing fluid pipe that can prevent the rust and the like from being generated on the outer surface of the existing fluid pipe, and to be mixed into the existing flow path.

上記課題を解決するために、本発明の請求項1に記載の既設流体管の不断水流路処理装置は、少なくとも1個のスリーブと筐体とからなる分割構造の密封ケースで、既設流体管の一部を被覆し、前記スリーブの外方端部と前記既設流体管とを密封材で周方向に亘って水密的に密封して、前記既設流体管の所定切断箇所を不断水状態で切断し、流路の遮断若しくは流路を形成する既設流体管の不断水流路処理装置であって、
前記密封材の前記筐体寄りの所定箇所には、前記スリーブと前記既設流体管との間に、流体の流出入を封止する封止材が形成されていることを特徴としている。
この特徴によれば、密封ケース内部のスリーブと既設流体管との間に封止材が形成されており、封止材と密封材との間におけるスリーブと既設流体管とで形成される空間と、既設流路との流体の流出入が封止されるため、該空間においてスリーブと既設流体管にて錆等が発生した場合でも、既設流路に混入することを防止できる。
In order to solve the above-mentioned problems, the continuous water flow path processing device for an existing fluid pipe according to claim 1 of the present invention is a sealed case having a split structure composed of at least one sleeve and a housing. Covering a part, sealing the outer end of the sleeve and the existing fluid pipe in a watertight manner with a sealant in the circumferential direction, and cutting a predetermined cutting portion of the existing fluid pipe in an undisrupted water state. , An undisturbed water flow path treatment device for an existing fluid pipe that forms a flow path blocking or flow path,
A sealing material that seals inflow and outflow of fluid is formed between the sleeve and the existing fluid pipe at a predetermined location near the housing of the sealing material.
According to this feature, the sealing material is formed between the sleeve inside the sealing case and the existing fluid pipe, and the space formed by the sleeve and the existing fluid pipe between the sealing material and the sealing material is Since the flow of fluid into and out of the existing flow path is sealed, even when rust or the like is generated in the space in the sleeve and the existing fluid pipe, it can be prevented from mixing into the existing flow path.

本発明の請求項2に記載の既設流体管の不断水流路処理装置は、請求項1に記載の既設流体管の不断水流路処理装置であって、前記封止材が、前記スリーブと前記既設流体管との間に、前記既設流体管の周方向に亘って形成されていることを特徴としている。
この特徴によれば、封止材が、スリーブと既設流体管との間に、既設流体管の周方向に亘って形成されているために、既設流体管の所定箇所が全断面に亘って切断される場合でも、スリーブと既設流体管にて発生した場合の錆等が、既設流路に混入することを防止できる。
The existing fluid pipe continuous water flow path processing apparatus according to claim 2 of the present invention is the existing fluid pipe continuous water flow path processing apparatus according to claim 1, wherein the sealing material includes the sleeve and the existing fluid flow path processing apparatus. It is characterized by being formed over the circumferential direction of the existing fluid pipe between the fluid pipe.
According to this feature, since the sealing material is formed between the sleeve and the existing fluid pipe over the circumferential direction of the existing fluid pipe, a predetermined portion of the existing fluid pipe is cut across the entire cross section. Even in this case, it is possible to prevent rust and the like generated in the sleeve and the existing fluid pipe from being mixed into the existing flow path.

本発明の請求項3に記載の既設流体管の不断水流路処理装置は、請求項1または2に記載の既設流体管の不断水流路処理装置であって、前記スリーブの下部には、前記封止材と前記密封材との間における前記スリーブと前記既設流体管とで形成される空間と、外部とを連通する流体排出孔が形成されていることを特徴としている。
この特徴によれば、スリーブの下部に流体排出孔が形成されており、封止材と密封材との間においてスリーブと既設流体管にて錆等が発生した場合でも外部に排出できるため、錆等がスリーブと既設流体管との空間に滞留することを防止して、該空間の清浄状態を維持できる。
The existing fluid pipe continuous water flow path processing apparatus according to claim 3 of the present invention is the existing fluid pipe continuous water flow path processing apparatus according to claim 1 or 2, wherein the seal is disposed at a lower portion of the sleeve. A fluid discharge hole that communicates the space formed by the sleeve and the existing fluid pipe between the stopper and the sealing material and the outside is formed.
According to this feature, a fluid discharge hole is formed in the lower part of the sleeve, and even when rust or the like is generated between the sealing material and the sealing material in the sleeve and the existing fluid pipe, it can be discharged to the outside. Etc. can be prevented from staying in the space between the sleeve and the existing fluid pipe, and the clean state of the space can be maintained.

本発明の請求項4に記載の既設流体管の不断水流路処理装置は、請求項3に記載の既設流体管の不断水流路処理装置であって、前記スリーブには、前記封止材と前記密封材との間における前記スリーブと前記既設流体管とで形成される空間と、外部とを連通する流体注入孔が形成されていることを特徴としている。
この特徴によれば、スリーブに流体注入孔が形成されており、スリーブと既設流体管との空間に水等を流体注入孔より注入して水圧をかけることで、スリーブの内方端部と既設流体管とを封止した封止材の水密性を確認でき、確認後に該水等を流体排出孔より排出することができる。
The continuous fluid channel processing device for an existing fluid pipe according to claim 4 of the present invention is the continuous water channel processing device for an existing fluid pipe according to claim 3, wherein the sleeve includes the sealing material and the A fluid injection hole is formed to communicate the space formed by the sleeve and the existing fluid pipe between the sealing material and the outside.
According to this feature, the fluid injection hole is formed in the sleeve, and water or the like is injected into the space between the sleeve and the existing fluid pipe through the fluid injection hole to apply water pressure, so that the inner end of the sleeve is connected to the existing end portion of the sleeve. The water tightness of the sealing material that seals the fluid pipe can be confirmed, and the water or the like can be discharged from the fluid discharge hole after the confirmation.

本発明の請求項5に記載の既設流体管の不断水流路処理装置は、請求項1ないし4のいずれかに記載の既設流体管の不断水流路処理装置であって、前記封止材の前記密封材寄りには、前記スリーブ内面若しくは前記筐体から前記既設流体管側に膨出し、前記封止材と当接可能な凸部が形成されていることを特徴としている。
この特徴によれば、封止材の密封材寄りに、既設流体管側に膨出する凸部が形成されており、既設流体管内の流体により封止材が密封材側に押圧されても凸部により封止材が所定箇所に保持されるため、流体が封止材と密封材との間におけるスリーブと既設流体管との空間に漏洩することなく、水密性を維持できる。
The continuous water channel processing device for an existing fluid pipe according to claim 5 of the present invention is the continuous water channel processing device for an existing fluid pipe according to any one of claims 1 to 4, wherein Near the sealing material, a convex portion that bulges from the inner surface of the sleeve or the housing to the existing fluid pipe side and can contact the sealing material is formed.
According to this feature, a convex portion that bulges toward the existing fluid pipe is formed near the sealing material of the sealing material, and even if the sealing material is pressed toward the sealing material by the fluid in the existing fluid pipe, Since the sealing material is held at a predetermined position by the portion, the water tightness can be maintained without the fluid leaking into the space between the sleeve and the existing fluid pipe between the sealing material and the sealing material.

本発明の請求項6に記載の既設流体管の不断水流路処理装置は、請求項1ないし5のいずれかに記載の既設流体管の不断水流路処理装置であって、前記封止材と前記密封材との間における前記スリーブと前記既設流体管とで形成される空間に、充填材が充填されていることを特徴としている。
この特徴によれば、密封ケース内部のスリーブと既設流体管との空間に充填材が充填されており、該空間に既設流体管内の流体が浸入することがないため、封止材と密封材との間におけるスリーブと既設流体管とが防錆される。
An existing water pipe continuous water flow path processing apparatus according to claim 6 of the present invention is the existing fluid pipe continuous water flow path processing apparatus according to any one of claims 1 to 5, wherein the sealing material and the A space formed by the sleeve and the existing fluid pipe between the sealing material is filled with a filler.
According to this feature, the space between the sleeve and the existing fluid pipe inside the sealing case is filled with the filler, and the fluid in the existing fluid pipe does not enter the space. The sleeve and the existing fluid pipe in between are rust-prevented.

本発明の請求項7に記載の既設流体管の不断水流路処理装置は、請求項6に記載の既設流体管の不断水流路処理装置であって、前記充填材が、充填前に流動性を有し充填後に硬化する硬化材からなることを特徴としている。
この特徴によれば、スリーブと既設流体管との空間に形成される充填材が、充填前に流動性を有し充填後に硬化する硬化材からなるため、該空間が余すところなく充填された後に硬化材が硬化して、密封ケースと既設流体管とが一体化して剛性が増すため、密封ケースの水密性が維持される。
The continuous fluid channel processing device for an existing fluid pipe according to claim 7 of the present invention is the continuous water channel processing device for an existing fluid pipe according to claim 6, wherein the filler has fluidity before filling. It is characterized by being made of a hardened material that hardens after filling.
According to this feature, the filler formed in the space between the sleeve and the existing fluid pipe is made of a hardened material that has fluidity before filling and hardens after filling. Therefore, after the space is fully filled Since the hardened material is cured and the sealed case and the existing fluid pipe are integrated to increase the rigidity, the water tightness of the sealed case is maintained.

本発明の請求項8に記載の既設流体管の不断水流路処理装置は、請求項6または7に記載の既設流体管の不断水流路処理装置であって、前記封止材の前記筐体寄りには、前記スリーブ内面若しくは前記筐体から前記既設流体管側に膨出し、前記封止材と当接可能な第2凸部が形成されていることを特徴としている。
この特徴によれば、封止材の筐体寄りに、既設流体管側に膨出する第2凸部が形成されており、充填材の充填により封止材が筐体側に押圧されても第2凸部により封止材が所定箇所に保持されるため、充填材が筐体内に漏洩することなくスリーブと既設流体管との空間に充填される。
The continuous fluid channel processing device for an existing fluid pipe according to claim 8 of the present invention is the continuous water channel processing device for an existing fluid pipe according to claim 6 or 7, wherein the sealing material is close to the casing. Is characterized in that a second convex portion is formed which bulges from the inner surface of the sleeve or the casing to the existing fluid pipe side and can come into contact with the sealing material.
According to this feature, the second convex portion bulging toward the existing fluid pipe is formed near the casing of the sealing material, and even if the sealing material is pressed to the casing side by filling with the filler, Since the sealing material is held at a predetermined position by the two convex portions, the filler is filled in the space between the sleeve and the existing fluid pipe without leaking into the housing.

本発明の実施例を以下に説明する。   Examples of the present invention will be described below.

本発明の実施例を図面に基づいて説明すると、先ず図1は、本発明の実施例における既設水道管にバタフライ弁が設けられた密封ケースを装着した配管の全体像を示す平面図である。(a)は、既設水道管に装着した状態及び管内流体の流下方向を示した平面図であり、(b)は、同じく既設水道管を切断した状態を示した平面図であり、(c)は、同じく密封ケース内部に設置されたバタフライ弁の開状態を示した平面図であり、(d)は、同じくバタフライ弁の閉状態を示した平面図である。図2(a)は、本発明におけるバタフライ弁を示す斜視図であり、(b)は密封ケースの全体像を示す斜視図である。図3(a)は、密封ケース内の縦断面図であり、(b)は同じくバタフライ弁が設置された状態を示す縦断面図である。図4(a)は、本発明の変形例における密封ケース内の縦断面図であり、(b)は同じくバタフライ弁が設置された状態を示す縦断面図である。図5は、同じく変形例におけるスリーブと既設水道管との空間に充填材が充填される状況を示した斜視図である。   An embodiment of the present invention will be described with reference to the drawings. First, FIG. 1 is a plan view showing an overall image of a pipe in which a sealing case provided with a butterfly valve is attached to an existing water pipe in an embodiment of the present invention. (A) is the top view which showed the state with which the existing water pipe was mounted | worn, and the flow direction of the fluid in a pipe | tube, (b) is the top view which similarly showed the state which cut | disconnected the existing water pipe, (c) FIG. 4B is a plan view showing an open state of a butterfly valve that is also installed inside the sealed case, and FIG. 4D is a plan view showing a closed state of the butterfly valve. Fig.2 (a) is a perspective view which shows the butterfly valve in this invention, (b) is a perspective view which shows the whole image of a sealing case. Fig.3 (a) is a longitudinal cross-sectional view in a sealing case, (b) is a longitudinal cross-sectional view which shows the state in which the butterfly valve was similarly installed. FIG. 4A is a longitudinal sectional view inside a sealed case in a modification of the present invention, and FIG. 4B is a longitudinal sectional view showing a state where a butterfly valve is also installed. FIG. 5 is a perspective view showing a state in which the space between the sleeve and the existing water pipe in the modified example is filled with a filler.

本発明の実施例における不断水流路処理装置の装着後の配管状況について説明すると、図1(a)に示すように、本発明の既設流体管としての上水管である既設水道管1の管内流体の流下方向に対して、例えば既設水道管1の一部に撤去や補修が必要な特定エリアEよりも上流側の管部分に、本発明の実施例における密封ケース10からなる不断水流路処理装置を既設水道管1の外周面に水密的に装着し、密封ケース10内部の所定切除箇所である既設水道管1部分を後述する方法にて切断して(図1(b))、当該切断箇所にバタフライ弁4を装着し、図1(c)、(d)に示すように、既設水道管1の既設流路を開閉可能とする構成を有している。   Referring to FIG. 1 (a), the piping situation after installation of the continuous water flow path processing apparatus in the embodiment of the present invention will be described. In-pipe fluid of an existing water pipe 1 which is a water pipe as an existing fluid pipe of the present invention. For example, the continuous water flow path treatment device comprising the sealing case 10 in the embodiment of the present invention is provided on the upstream side of the specific area E that requires removal or repair of a part of the existing water pipe 1 with respect to the flow direction of Is attached to the outer peripheral surface of the existing water pipe 1 in a water-tight manner, and the existing water pipe 1 portion, which is a predetermined excision location inside the sealed case 10, is cut by a method described later (FIG. 1 (b)). A butterfly valve 4 is attached to the existing water pipe 1, and the existing flow path of the existing water pipe 1 can be opened and closed as shown in FIGS.

このような不断水流路処理装置の配設により、既設水道管1の特定エリアEには管内流体が流下しないように操作できるため、特定エリアEに位置する管部分の撤去やあるいは補修等の作業が可能となる。   By arranging such a continuous water flow path treatment device, it can be operated so that the fluid in the pipe does not flow down to the specific area E of the existing water pipe 1, so that the pipe portion located in the specific area E is removed or repaired. Is possible.

本発明の実施例における密封ケース10の概略について説明すると、図2(b)に示されるように、密封ケース10は、既設水道管1を上下方から被覆する分割密封ケース10’、10’からなる分割構造を有しており、図2(a)に示されるバタフライ弁4が設置可能なように、上向きに開口した円形の上方開口部Uが形成されている。   The outline of the sealing case 10 in the embodiment of the present invention will be described. As shown in FIG. 2B, the sealing case 10 is separated from the divided sealing cases 10 ′ and 10 ′ that cover the existing water pipe 1 from above and below. A circular upper opening U opened upward is formed so that the butterfly valve 4 shown in FIG. 2A can be installed.

密封ケース10は、既設水道管1の外径よりも大なる内径を有する筐体11と、筐体11と内部が連通して略直交するスリーブ12とからなっており、スリーブ12の両外方端部には水平方向に開口した円形の側方開口部A、A’が2箇所形成されている。   The sealed case 10 includes a casing 11 having an inner diameter larger than the outer diameter of the existing water pipe 1 and a sleeve 12 that communicates with the casing 11 and is substantially orthogonal to each other. Two circular side openings A and A ′ opened in the horizontal direction are formed at the end.

尚、本発明でスリーブ12とは、密封ケース10のうち既設水道管1の軸方向と平行に形成される部分を示すものとする。   In the present invention, the sleeve 12 refers to a portion of the sealing case 10 that is formed in parallel with the axial direction of the existing water pipe 1.

図2(b)及び図3(a)に示されるように、水平方向の同一の中心軸Cを有し、密封ケース10の側面において互いの対面に位置する側方開口部A、A’の内径は、既設水道管1の外径よりも略同一あるいは若干大きく形成されている。   As shown in FIG. 2B and FIG. 3A, the side openings A and A ′ having the same central axis C in the horizontal direction and located opposite to each other on the side surface of the sealing case 10. The inner diameter is formed substantially the same or slightly larger than the outer diameter of the existing water pipe 1.

密封ケース10の既設水道管1への装着について説明すると、上下分割構造の分割密封ケース10’、10’を中心軸Cと既設水道管1の管軸とを合わせる位置で、既設水道管1の外周部に装着する。既設水道管1の外周部に装着した分割密封ケース10’、10’の互いの接合面を、図示しないパッキンを介してボルトナット54にて締め付け接合する。   The mounting of the sealing case 10 to the existing water pipe 1 will be described. The split sealing cases 10 ′ and 10 ′ of the upper and lower split structure are arranged at positions where the central axis C and the pipe axis of the existing water pipe 1 are aligned. Attach to the outer periphery. The joint surfaces of the divided sealed cases 10 ′ and 10 ′ attached to the outer peripheral portion of the existing water pipe 1 are fastened and joined by bolts and nuts 54 through packing (not shown).

分割密封ケース10’、10’の接合の際に、本発明の封止材であって両端を突き合せることで、既設水道管1の外周と略同一の内径を有する環状に形成されるパッキン25を、予めスリーブ12内方端部近傍に形成された凸部27に近接する所定箇所に配置しておく。環状に形成されたパッキン25はゴム体からなり、図3(a)に示されるように、分割密封ケース10’、10’を接合することで周方向にスリーブ12内面及び既設水道管1外面と水密的に密接するように当接している。   When joining the divided sealing cases 10 ′ and 10 ′, the packing 25 which is the sealing material of the present invention and has an inner diameter substantially the same as the outer periphery of the existing water pipe 1 by butting both ends together. Is arranged in a predetermined location close to the convex portion 27 formed in the vicinity of the inner end portion of the sleeve 12 in advance. The packing 25 formed in an annular shape is made of a rubber body, and as shown in FIG. 3A, by joining the divided sealing cases 10 ′ and 10 ′, the inner surface of the sleeve 12 and the outer surface of the existing water pipe 1 are circumferentially joined. They are in close contact with each other in a watertight manner.

また、スリーブ12内方端部近傍において、既設水道管1側に膨出する凸部27が、既設水道管1の周方向に亘って形成されており、スリーブ12と既設水道管1との空間を周方向に亘って密封するパッキン25が、凸部27と当接して保持される。   Further, in the vicinity of the inner end of the sleeve 12, a convex portion 27 bulging toward the existing water pipe 1 is formed over the circumferential direction of the existing water pipe 1, and the space between the sleeve 12 and the existing water pipe 1 is formed. The packing 25 that seals in the circumferential direction is held in contact with the convex portion 27.

尚、パッキン25は、スリーブ12内方端部近傍においてスリーブ12と既設水道管1との空間を周方向に亘って密封するものであれば、分割密封ケース10’、10’の接合の際に、予め既設水道管1外周面の所定箇所に配設して分割密封ケース10’、10’を接合するものであっても構わない。   As long as the packing 25 seals the space between the sleeve 12 and the existing water pipe 1 in the vicinity of the inner end of the sleeve 12 in the circumferential direction, the packing 25 is joined at the time of joining the divided sealing cases 10 ′ and 10 ′. Alternatively, it may be arranged in advance at a predetermined location on the outer peripheral surface of the existing water pipe 1 to join the divided sealed cases 10 'and 10'.

また、スリーブ12には、外側面から既設水道管1の管軸方向に向かって外周壁を押圧保持する調整ボルト61が、既設水道管1の外周方向に所定間隔に配設されており、各調整ボルト61を外側面から螺挿して既設水道管1の外周壁を押圧することで、既設水道管1の管軸と、スリーブ12の中心軸Cとの調整が可能となる。   The sleeve 12 is provided with adjustment bolts 61 that press and hold the outer peripheral wall from the outer surface toward the pipe axis direction of the existing water pipe 1 at predetermined intervals in the outer peripheral direction of the existing water pipe 1. The adjustment bolt 61 is screwed from the outer surface and the outer peripheral wall of the existing water pipe 1 is pressed to adjust the tube axis of the existing water pipe 1 and the central axis C of the sleeve 12.

次に、図3(a)、(b)に示されるように、開口部A、A’において、スリーブ12の内周面と既設水道管1の外周面との間に周方向に亘って、本発明の密封材であって両端を突き合せることで、既設水道管1の外周と略同一の内径を有する環状に形成されるゴム輪53を、既設水道管1の外周面よりも若干大きい内径のつば部60を有する分割構造の押し輪50にてスリーブ12内部の内方側に押し込む。   Next, as shown in FIGS. 3A and 3B, in the openings A and A ′, between the inner peripheral surface of the sleeve 12 and the outer peripheral surface of the existing water pipe 1 in the circumferential direction, The rubber ring 53 formed in an annular shape having an inner diameter substantially the same as the outer periphery of the existing water pipe 1 by abutting both ends of the sealing material of the present invention is slightly larger than the outer peripheral surface of the existing water pipe 1 It is pushed into the inside of the sleeve 12 by a push ring 50 having a split structure having a flange portion 60.

即ちスリーブ12の両端部の外周面それぞれにおいて、対向配置されたフランジ17のボルト孔17aと押し輪50のボルト孔50aとを介して係合されたボルトナット51を螺挿することにより、フランジ17の外端面と押し輪50の内端面とが近接されるに伴い、押し輪50の内側面に周方向に亘って形成されたつば部60により、ゴム輪53がスリーブ12の内方に押圧され、既設水道管1の外周面と、スリーブ12の外端部近傍の内周面との間を摺接しながらスリーブ12の内方へ進入することにより、開口部A及びA’における密封ケース10と既設水道管1の外周面との密封を行う。これにより、パッキン25とゴム輪53の間におけるスリーブ12内面と既設水道管1外面との空間が水密的に密封される。   In other words, on the outer peripheral surfaces of both ends of the sleeve 12, the bolt 17 is engaged with the bolt hole 17a of the flange 17 and the bolt hole 50a of the push ring 50, which are opposed to each other. The rubber ring 53 is pressed inward of the sleeve 12 by the flange portion 60 formed on the inner surface of the push ring 50 in the circumferential direction as the outer end face of the push ring 50 and the inner end face of the push ring 50 approach each other. The sealing case 10 at the openings A and A ′ is formed by entering the sleeve 12 while sliding between the outer peripheral surface of the existing water pipe 1 and the inner peripheral surface near the outer end of the sleeve 12. Sealing with the outer peripheral surface of the existing water pipe 1 is performed. As a result, the space between the inner surface of the sleeve 12 and the outer surface of the existing water pipe 1 between the packing 25 and the rubber ring 53 is hermetically sealed.

次に、押し輪50の周方向に亘って設けられた各押し込みボルト52を管軸中心に向かって螺挿することにより、押し込みボルト52の先方に設けられた押し爪64の先端爪が既設水道管1の外周にくい込まれ、押し輪50が既設水道管1を拘止される。   Next, by screwing each push bolt 52 provided over the circumferential direction of the push ring 50 toward the center of the tube axis, the tip claw of the push claw 64 provided at the end of the push bolt 52 becomes the existing water supply. The outer periphery of the pipe 1 is inserted into the outer periphery, and the push wheel 50 is held in place by the existing water pipe 1.

これにより、図3(b)に示されるように、既設水道管1の周方向に形成されるパッキン25とゴム輪53との間において、スリーブ12内面と既設水道管1外面との間に水密的に封止された空間Kが形成される。   As a result, as shown in FIG. 3 (b), between the packing 25 formed in the circumferential direction of the existing water pipe 1 and the rubber ring 53, there is a watertightness between the inner surface of the sleeve 12 and the outer surface of the existing water pipe 1. A sealed space K is formed.

次に、スリーブ12内方端部に形成されたパッキン25の密封状況の確認作業として、スリーブ12上部に形成される流体注入孔20より、空間Kに水等を注入して水圧をかけ、スリーブ12内方端部からの水の漏洩がないかを点検を行う。確認作業として空間Kに注入した水は、スリーブ12下部に形成される流体排出孔22より空間Kの外部に放出できる。   Next, as a work for confirming the sealing state of the packing 25 formed at the inner end of the sleeve 12, water or the like is injected into the space K from the fluid injection hole 20 formed at the upper part of the sleeve 12, and water pressure is applied. 12 Inspect for water leakage from the inner end. The water injected into the space K as a confirmation operation can be discharged to the outside of the space K through the fluid discharge hole 22 formed in the lower portion of the sleeve 12.

このようにすることで、スリーブ12に流体注入孔20が形成されており、スリーブ12と既設水道管1との空間Kに水等を流体注入孔より注入して水圧をかけることで、スリーブ12の内方端部と既設水道管とを水密的に封止したパッキン25の水密性を確認でき、確認後に該水等を流体排出孔22より排出することができる。   In this way, the fluid injection hole 20 is formed in the sleeve 12, and water or the like is injected into the space K between the sleeve 12 and the existing water pipe 1 from the fluid injection hole and water pressure is applied, thereby the sleeve 12. It is possible to confirm the water tightness of the packing 25 in which the inner end of the water pipe and the existing water pipe are sealed in a water tight manner, and the water can be discharged from the fluid discharge hole 22 after the confirmation.

次に、既設水道管1の切断作業工程を説明すると、既設水道管1に密封ケース10を上述のように密封した状態にて、上方開口部Uに、上方開口部Uを開閉自在とする開閉弁(図示略)と、前記開閉弁を介して取り付けた筐体11と連通する作業筒(図示略)の内部に既設水道管1の切断装置(図示略)を配設して、筐体11内の既設水道管1を不断水状態で切り粉を排出しながら所定長さ切断する。次に、切断後の管片及び該切断装置を密封ケース10外へ搬出する。   Next, the cutting operation process of the existing water pipe 1 will be described. With the sealing case 10 sealed to the existing water pipe 1 as described above, the upper opening U can be opened and closed freely. A cutting device (not shown) for the existing water pipe 1 is arranged inside a working cylinder (not shown) communicating with a valve (not shown) and the casing 11 attached via the on-off valve. The existing water pipe 1 in the inside is cut for a predetermined length while discharging the chips in an indefinite water state. Next, the cut piece and the cutting device are carried out of the sealing case 10.

次に、既設水道管1の管片及び切り粉を搬出した後において、内部にバタフライ弁4を内挿した挿入装置(図示略)を配設して、該開閉弁を開状態としてバタフライ弁4を筐体11内の所定箇所に設置する。   Next, after carrying out the pipe piece and chips of the existing water pipe 1, an insertion device (not shown) in which the butterfly valve 4 is inserted is disposed inside, and the on-off valve is opened to open the butterfly valve 4. Is installed at a predetermined location in the housing 11.

図2(a)、(b)に示されるように、バタフライ弁4は、開口Hを開閉軸40周りに開閉自在な弁体7を有する仕切壁6と、仕切壁6の上部と一体的に形成される上蓋部5とからなり、筐体11の内側面に設けられた一対の案内片29、29の間をガイドされながら、筐体11内の所定位置に設置される。   As shown in FIGS. 2A and 2B, the butterfly valve 4 includes a partition wall 6 having a valve body 7 that can open and close an opening H around an opening / closing shaft 40, and an upper portion of the partition wall 6. The upper lid portion 5 is formed, and is installed at a predetermined position in the housing 11 while being guided between a pair of guide pieces 29, 29 provided on the inner surface of the housing 11.

上蓋部5の周面にはシール8aが、筐体11の内側面に設けられた段部19と水密的に圧接するように形成されている。同様に図3(a)、(b)に示されるように、仕切壁6の両側面と底面とにはシール8bが、バタフライ弁4の設置位置において、筐体11の内側面に設けられた段部15及び密封ケース10の底面の一部が膨出した段部16と水密的に圧接するように形成されている。   A seal 8 a is formed on the peripheral surface of the upper lid portion 5 so as to be in watertight contact with a stepped portion 19 provided on the inner surface of the housing 11. Similarly, as shown in FIGS. 3 (a) and 3 (b), seals 8 b are provided on the inner side surface of the housing 11 at the installation position of the butterfly valve 4 on both side surfaces and the bottom surface of the partition wall 6. The step portion 15 and a part of the bottom surface of the sealing case 10 are formed so as to be in water-tight pressure contact with the bulged step portion 16.

また筐体11側面下部には、筐体11の内部に設置されたバタフライ弁4の上流側及び下流側に開閉可能な排出口13、13が設けられている。上述した既設水道管1の切断時において排出口13、13は密封ケース10の外部と連通可能となっている。   Discharge ports 13, 13 that can be opened and closed on the upstream side and the downstream side of the butterfly valve 4 installed inside the housing 11 are provided at the lower part of the side surface of the housing 11. At the time of cutting the existing water pipe 1 described above, the discharge ports 13 and 13 can communicate with the outside of the sealing case 10.

既設水道管1の切断により、筐体11内部は管内の流体が充満することになるが、上述のようにスリーブ12内方端部においてスリーブ12と既設水道管1との間にパッキン25が形成されており、このようにすることで、空間Kと既設流路との該流体の流出入が封止されるため、パッキン25とゴム輪53との間においてスリーブ12内面と既設水道管1にて錆等が発生した場合でも、錆等を既設流路に混入することを防止できる。   By cutting the existing water pipe 1, the inside of the casing 11 is filled with the fluid in the pipe. As described above, the packing 25 is formed between the sleeve 12 and the existing water pipe 1 at the inner end of the sleeve 12. In this way, since the fluid flows in and out of the space K and the existing flow path is sealed, the sleeve 12 inner surface and the existing water pipe 1 are connected between the packing 25 and the rubber ring 53. Even when rust is generated, it is possible to prevent rust and the like from being mixed into the existing flow path.

また、パッキン25は、スリーブ12と既設水道管1との間に、既設水道管1の周方向に亘って形成されており、このようにすることで、本実施例のように既設水道管1の所定箇所が全断面に亘って切断される場合でも、スリーブ12と既設水道管1にて発生した場合の錆等が、既設流路に混入することを防止できる。   Moreover, the packing 25 is formed over the circumferential direction of the existing water pipe 1 between the sleeve 12 and the existing water pipe 1, and by doing so, the existing water pipe 1 as in the present embodiment. Even when the predetermined portion is cut across the entire cross section, it is possible to prevent rust and the like generated in the sleeve 12 and the existing water pipe 1 from being mixed into the existing flow path.

また、スリーブ12の下部に流体排出孔22が形成されており、このようにすることで、パッキン25とゴム輪53との間においてスリーブ12内面と既設水道管1外面にて錆等が発生した場合でも空間Kに水等を注入することにより外部に排出できるため、錆等が空間Kに滞留することを防止して、空間Kの清浄状態を維持できる。   In addition, a fluid discharge hole 22 is formed in the lower portion of the sleeve 12, and by doing so, rust and the like are generated on the inner surface of the sleeve 12 and the outer surface of the existing water pipe 1 between the packing 25 and the rubber ring 53. Even in this case, since water or the like can be discharged to the outside by injecting water into the space K, it is possible to prevent rust and the like from staying in the space K and maintain the clean state of the space K.

さらに、スリーブ12のゴム輪53寄りに、既設水道管1側に膨出する凸部27が形成されており、このようにすることで、既設水道管1内の流体によりパッキン25がスリーブ12の外方側に押圧されても凸部27によりパッキン25が所定箇所に保持されるため、該流体がパッキン25とゴム輪53との間における空間Kに漏洩することなく、空間Kの水密性を維持できる。   Furthermore, the convex part 27 which bulges to the existing water pipe 1 side is formed near the rubber ring 53 of the sleeve 12, and by doing so, the packing 25 is attached to the sleeve 12 by the fluid in the existing water pipe 1. Since the packing 25 is held at a predetermined position by the convex portion 27 even when pressed outward, the fluid does not leak into the space K between the packing 25 and the rubber ring 53, and the water tightness of the space K is improved. Can be maintained.

次に本発明の変形例について以下に説明すると、図4(a)、(b)に示されるように、本発明の変形例における密封ケース10aは、筐体11とスリーブ12aとからなり、スリーブ12a内面には、凸部27の更に筐体11寄りに第2凸部18が形成されている。   Next, a modified example of the present invention will be described below. As shown in FIGS. 4A and 4B, a sealed case 10a in the modified example of the present invention includes a casing 11 and a sleeve 12a. A second convex portion 18 is formed on the inner surface of 12 a closer to the housing 11 of the convex portion 27.

上述の実施例と同様に、両端を突き合せることで環状に形成されるパッキン25を、予めスリーブ12a内方端部近傍に形成された凸部27と第2凸部18との間の所定箇所に配置しておく。図4(a)に示されるように、分割密封ケース10a’、10a’を接合することで周方向にスリーブ12a内面及び既設水道管1外面と水密的に密接するように当接している。   Similarly to the above-described embodiment, the packing 25 formed in an annular shape by abutting both ends is provided at a predetermined position between the convex portion 27 and the second convex portion 18 formed in the vicinity of the inner end portion of the sleeve 12a in advance. Place it in. As shown in FIG. 4A, the divided sealing cases 10a 'and 10a' are joined so as to be in watertight contact with the inner surface of the sleeve 12a and the outer surface of the existing water pipe 1 in the circumferential direction.

上述と同様にスリーブ12a外方端部をゴム輪53と押し輪50にて密封することにより、図4(b)に示されるように、既設水道管1の周方向に形成されるパッキン25とゴム輪53との間において、スリーブ12内面と既設水道管1外面との間に水密的に封止された空間Kが形成される。   In the same manner as described above, the outer end of the sleeve 12a is sealed with the rubber ring 53 and the push ring 50, so that as shown in FIG. Between the rubber ring 53, a space K sealed in a watertight manner is formed between the inner surface of the sleeve 12 and the outer surface of the existing water pipe 1.

次に、図5に示されるように、スリーブ12a上部に形成される流体注入孔20より、充填前に流動性を有し充填後に硬化する本発明の充填材であって硬化材としてのモルタル材Mを、スリーブ12a内面と既設水道管1外面との空間Kに充填する。充填時に流動性を有するモルタル材Mは、空間Kを余すところなく充満した後に硬化して、所定の剛性を有するようになる。   Next, as shown in FIG. 5, the mortar material as a curing material according to the present invention, which has fluidity before filling and hardens after filling, from the fluid injection hole 20 formed in the upper portion of the sleeve 12 a. M is filled into a space K between the inner surface of the sleeve 12a and the outer surface of the existing water pipe 1. The mortar material M having fluidity at the time of filling is cured after the space K is fully filled, and has a predetermined rigidity.

このようにすることで、密封ケース10a内部のスリーブ12aと既設水道管1との空間Kにモルタル材Mからなる充填材が充填されており、スリーブ12と既設水道管1との間に既設水道管1内の流体が浸入することがないため、パッキン25とゴム輪53との間におけるスリーブ12内面と既設水道管1外面とが防錆される。   By doing so, the space K between the sleeve 12 a and the existing water pipe 1 inside the sealed case 10 a is filled with the filler made of the mortar material M, and the existing water pipe is provided between the sleeve 12 and the existing water pipe 1. Since the fluid in the pipe 1 does not enter, the inner surface of the sleeve 12 and the outer surface of the existing water pipe 1 between the packing 25 and the rubber ring 53 are rust-proof.

また、このようにすることで、モルタル材Mが硬化して、密封ケース10aと既設水道管1とが一体化して剛性が増すため、密封ケース10aの水密性が維持される。   Moreover, since the mortar material M hardens | cures by doing in this way and the sealing case 10a and the existing water pipe 1 are integrated and rigidity is increased, the watertightness of the sealing case 10a is maintained.

また、モルタル材Mの充填時には、流体注入孔20と同じくスリーブ12a上部に形成される排気孔21を開放して充填する。   Further, when the mortar material M is filled, the exhaust hole 21 formed in the upper portion of the sleeve 12 a is opened and filled in the same manner as the fluid injection hole 20.

このようにすることで、スリーブ12a内面と既設水道管1外面との空間Kに存する空気が、モルタル材Mの充填時に排気孔21から外部に排気されるため、モルタル材Mが空間Kにスムーズに充填される。   By doing in this way, since the air existing in the space K between the inner surface of the sleeve 12a and the outer surface of the existing water pipe 1 is exhausted to the outside from the exhaust hole 21 when the mortar material M is filled, the mortar material M is smoothly in the space K. Filled.

また、スリーブ12の筐体11寄りに、既設水道管1側に膨出する第2凸部18が形成されており、モルタル材Mの充填によりパッキン25が筐体11側に押圧されても第2凸部18によりパッキン25が所定箇所に保持されるため、モルタル材Mが筐体11内部側に漏洩することなくスリーブ12と既設水道管1との空間Kに充填される。   Moreover, the 2nd convex part 18 which swells to the existing water pipe 1 side is formed near the housing | casing 11 of the sleeve 12, and even if the packing 25 is pressed to the housing | casing 11 side by filling with the mortar material M, it is 1st. Since the packing 25 is held at a predetermined location by the two convex portions 18, the mortar material M is filled into the space K between the sleeve 12 and the existing water pipe 1 without leaking to the inside of the housing 11.

以上、本発明の実施例を図面により説明してきたが、具体的な構成はこれら実施例に限られるものではなく、本発明の要旨を逸脱しない範囲における変更や追加があっても本発明に含まれる。   Although the embodiments of the present invention have been described with reference to the drawings, the specific configuration is not limited to these embodiments, and modifications and additions within the scope of the present invention are included in the present invention. It is.

例えば、上記実施例では、筐体11内部において既設水道管1の切断の後、既設流路を処理する流路処理体としてバタフライ弁4が形成されていたが、流路処理体は流路の遮断若しくは他の流路を形成すれば本実施例のバタフライ弁4に限られず、例えば弁体が上下動可能なスルース弁でもよいし、既設流路を遮断する仕切体でもよい。更に、密封ケース10内部における既設水道管1の切断のみで、特に流路処理体を配置しなくてもよい。   For example, in the above embodiment, the butterfly valve 4 is formed as a flow path processing body for processing the existing flow path after the existing water pipe 1 is cut inside the casing 11. If the blocking or other flow path is formed, it is not limited to the butterfly valve 4 of this embodiment. For example, a sluice valve whose valve body can move up and down may be used, or a partition body that blocks an existing flow path may be used. Furthermore, it is not necessary to dispose the flow path treatment body in particular only by cutting the existing water pipe 1 inside the sealed case 10.

また、上記実施例では、筐体11内部における所定長さの既設水道管1を切除していたが、本発明の既設水道管1の切断は、必ずしも所定長の既設水道管1の切除に限らず、例えば既設水道管1を一の断面で切断してもよいし、また既設水道管1の管壁の一部を穿孔してもよい。   Moreover, in the said Example, although the existing water pipe 1 of predetermined length inside the housing | casing 11 was excised, the cutting | disconnection of the existing water pipe 1 of this invention is not necessarily restricted to excision of the existing water pipe 1 of predetermined length. For example, the existing water pipe 1 may be cut in one cross section, or a part of the pipe wall of the existing water pipe 1 may be perforated.

また、本発明の封止材は、必ずしも既設水道管1の周方向に亘って形成されている上記実施例に限らず、例えば既設水道管1の管壁の一部を穿孔する場合には、該穿孔により管壁の一部に形成された開口の周辺に、該開口より若干大径の環状に形成された封止材が、スリーブと既設水道管1との間に形成されていてもよい。   Further, the sealing material of the present invention is not necessarily limited to the above-described embodiment formed over the circumferential direction of the existing water pipe 1, for example, when perforating a part of the pipe wall of the existing water pipe 1, A sealing material formed in an annular shape having a slightly larger diameter than the opening may be formed between the sleeve and the existing water pipe 1 around the opening formed in a part of the pipe wall by the perforation. .

更に、上記実施例では、既設水道管1は、切断装置(図示略)により切断されていたが、既設水道管1の切断は上記実施例に限らず、筐体11内部において既設水道管1の所定箇所を切断する方法であれば何でもよい。   Furthermore, in the said Example, although the existing water pipe 1 was cut | disconnected by the cutting device (not shown), the cutting | disconnection of the existing water pipe 1 is not restricted to the said Example, The inside of the housing | casing 11 WHEREIN: Any method may be used as long as it cuts the predetermined portion.

また、上記実施例では、本発明の発明の封止材としてゴム体からなるパッキン25が形成されていたが、筐体11内部の既設流体が空間Kに浸入することを防止できれば封止材は必ずしもゴム体からなるパッキン25に限らない。   Further, in the above embodiment, the packing 25 made of a rubber body is formed as the sealing material of the present invention. However, if the existing fluid inside the casing 11 can be prevented from entering the space K, the sealing material is The packing 25 is not necessarily made of a rubber body.

また、上記実施例では、既設水道管1は水道用の管であったが、既設流体管の内部流体は上下水道等の液体であってもガス等の気体であってもよい。   Moreover, in the said Example, although the existing water pipe 1 was a water pipe, the internal fluid of an existing fluid pipe may be liquid, such as water and sewage, or gas, such as gas.

また、上記実施例では、密封ケース10はパッキンを介してフランジ接合される分割密封ケース10’、10’からなっていたが、密封ケース10内部が密封されていれば、分割密封ケース10’、10’の接合の方法は本方法に限られず、例えば分割密封ケース10’、10’の接合面が溶接されていてもよい。   Moreover, in the said Example, although the sealing case 10 consisted of division | segmentation sealing case 10 ', 10' flange-joined via packing, if the sealing case 10 inside is sealed, division | segmentation sealing case 10 ', The method of joining 10 ′ is not limited to this method, and for example, the joining surfaces of the divided sealed cases 10 ′ and 10 ′ may be welded.

また、上記実施例では、本発明の密封材としてゴム輪53及び押し輪50によりスリーブ12外方端部と既設水道管1外面との空間Kが密封されていたが、本発明の密封材は水密的に密封されていれば本実施例に限られず、例えばパッキン25を所定箇所に嵌挿した後のスリーブ12c外方端部と既設水道管1外面とを、既設水道管1の周方向を密封材として溶接接合により水密的に密封してもよい。   In the above embodiment, the space K between the outer end of the sleeve 12 and the outer surface of the existing water pipe 1 is sealed by the rubber ring 53 and the push ring 50 as the sealing material of the present invention. For example, the outer end of the sleeve 12c and the outer surface of the existing water pipe 1 after the packing 25 is inserted into a predetermined position are arranged in the circumferential direction of the existing water pipe 1 as long as it is watertightly sealed. The sealing material may be watertightly sealed by welding.

また、上記変形例では、スリーブ12内面と既設水道管1外面との空間Kに、本発明の硬化材としてモルタル材Mを注入していたが、本発明の硬化材はモルタル材Mとは限られず、充填前に流動性を有し充填後に硬化すれば何でもよい。更に、本発明の充填材は、必ずしも充填後に硬化して剛性を増す硬化材とは限られず、空間Kを充填できてスリーブ12内面や既設水道管1外面を防錆できれば何でもよい。   Moreover, in the said modification, although the mortar material M was inject | poured into the space K of the sleeve 12 inner surface and the existing water pipe 1 outer surface as a hardening material of this invention, the hardening material of this invention is not necessarily the mortar material M. However, anything is acceptable as long as it has fluidity before filling and is cured after filling. Furthermore, the filling material of the present invention is not necessarily limited to a hardening material that hardens after filling and increases rigidity, and any material can be used as long as it can fill the space K and can rust prevent the inner surface of the sleeve 12 and the outer surface of the existing water pipe 1.

また、上記変形例のように、スリーブ内面と既設水道管1外面との空間Kに、充填材を充填する場合には、空間Kの封止材と密封材との間に、同様の環状に形成される第2パッキンが形成されてもよい。   In addition, when the space K between the inner surface of the sleeve and the outer surface of the existing water pipe 1 is filled with a filler as in the above modification, a similar annular shape is formed between the sealing material and the sealing material in the space K. A second packing to be formed may be formed.

つまり空間Kが第2パッキンにより2つに区画され、うち内方側の区画された空間を充填材で充填する。このようにすることで、充填材がゴム輪53と直接的に接触することないため、ゴム輪53が充填材と接触することによる水密性の劣化を防止することができる。   That is, the space K is divided into two by the second packing, and the inner divided space is filled with the filler. By doing in this way, since a filler does not contact the rubber ring 53 directly, deterioration of watertightness by the rubber ring 53 contacting a filler can be prevented.

また、上記実施例では、第2凸部18はスリーブ12内面に形成されていたが、第2凸部18はパッキン25と当接可能に形成されていれば、必ずしもスリーブ12に形成されていなくてもよく、例えば筐体11の側面が既設水道管1側に膨出して第2凸部を形成してもよい。   In the above embodiment, the second convex portion 18 is formed on the inner surface of the sleeve 12. However, if the second convex portion 18 is formed so as to be able to contact the packing 25, it is not necessarily formed on the sleeve 12. For example, the side surface of the housing 11 may bulge toward the existing water pipe 1 to form the second convex portion.

本発明の実施例における既設水道管にバタフライ弁が設けられた密封ケースを装着した配管の全体像を示す平面図である。(a)は、既設水道管に装着した状態及び管内流体の流下方向を示した平面図であり、(b)は、同じく既設水道管を切断した状態を示した平面図であり、(c)は、同じく密封ケース内部に設置されたバタフライ弁の開状態を示した平面図であり、(d)は、同じくバタフライ弁の閉状態を示した平面図である。It is a top view which shows the whole image of piping which attached the sealing case in which the butterfly valve was provided in the existing water pipe in the Example of this invention. (A) is the top view which showed the state with which the existing water pipe was mounted | worn, and the flow direction of the fluid in a pipe | tube, (b) is the top view which similarly showed the state which cut | disconnected the existing water pipe, (c) FIG. 4B is a plan view showing an open state of a butterfly valve that is also installed inside the sealed case, and FIG. 4D is a plan view showing a closed state of the butterfly valve. (a)は、本発明におけるバタフライ弁を示す斜視図であり、(b)は密封ケースの全体像を示す斜視図である。(A) is a perspective view which shows the butterfly valve in this invention, (b) is a perspective view which shows the whole image of a sealing case. (a)は、密封ケース内の縦断面図であり、(b)は同じくバタフライ弁が設置された状態を示す縦断面図である。(A) is a longitudinal cross-sectional view in a sealing case, (b) is a longitudinal cross-sectional view which shows the state in which the butterfly valve was similarly installed. (a)は、本発明の変形例における密封ケース内の縦断面図であり、(b)は同じくバタフライ弁が設置された状態を示す縦断面図である。(A) is a longitudinal cross-sectional view in the sealing case in the modification of this invention, (b) is a longitudinal cross-sectional view which shows the state in which the butterfly valve was similarly installed. 同じく変形例におけるスリーブと既設水道管との空間に充填材が充填される状況を示した斜視図である。It is the perspective view which showed the condition by which a filler is similarly filled in the space of the sleeve and existing water pipe in a modification.

符号の説明Explanation of symbols

1 既設水道管(既設流体管)
4 バタフライ弁
5 上蓋部
6 仕切壁
7 弁体
8a、8b シール材
10、10a 密封ケース
10’、10a’ 分割密封ケース
11 筐体
12、12a スリーブ
13 排出口
15 側面段部
16 底面段部
17 フランジ
17a ボルト孔
18 第2凸部
19 段部
20 流体注入孔
21 排気孔
22 流体排出孔
25 パッキン(封止材)
27 凸部
29 案内片
40 開閉軸
50 押し輪
50a ボルト孔
51 ボルトナット
52 押し込みボルト
53 ゴム輪(密封材)
54 ボルトナット
61 調整ボルト
64 押し爪
A、A’ 開口部
C 中心軸
E 特定エリア
H 開口
K、K’ 空間
M モルタル材(充填材)
U 上方開口部
1 Existing water pipe (existing fluid pipe)
4 Butterfly valve 5 Upper lid part 6 Partition wall 7 Valve body 8a, 8b Sealing material 10, 10a Sealing case 10 ', 10a' Split sealing case 11 Housing 12, 12a Sleeve 13 Discharge port 15 Side step part 16 Bottom step part 17 Flange 17a Bolt hole 18 2nd convex part 19 Step part 20 Fluid injection hole 21 Exhaust hole 22 Fluid exhaust hole 25 Packing (sealing material)
27 Convex 29 Guide piece 40 Opening / closing shaft 50 Push ring 50a Bolt hole 51 Bolt nut 52 Push-in bolt 53 Rubber ring (sealing material)
54 Bolt nut 61 Adjustment bolt 64 Push claws A, A 'Opening C Center axis E Specific area H Opening K, K' Space M Mortar material (filler)
U Upper opening

Claims (8)

少なくとも1個のスリーブと筐体とからなる分割構造の密封ケースで、既設流体管の一部を被覆し、前記スリーブの外方端部と前記既設流体管とを密封材で周方向に亘って水密的に密封して、前記既設流体管の所定切断箇所を不断水状態で切断し、流路の遮断若しくは流路を形成する既設流体管の不断水流路処理装置であって、
前記密封材の前記筐体寄りの所定箇所には、前記スリーブと前記既設流体管との間に、流体の流出入を封止する封止材が形成されていることを特徴とする既設流体管の不断水流路処理装置。
A sealing case having a divided structure composed of at least one sleeve and a casing, covering a part of an existing fluid pipe, and connecting the outer end of the sleeve and the existing fluid pipe with a sealing material in the circumferential direction. A water-tight sealing, a predetermined cutting portion of the existing fluid pipe is cut in a continuous water state, and a continuous water flow path treatment apparatus for an existing fluid pipe that forms a flow path blocking or flow path,
An existing fluid pipe characterized in that a sealing material that seals the inflow and outflow of fluid is formed between the sleeve and the existing fluid pipe at a predetermined location near the housing of the sealing material. Continuous water flow path treatment equipment.
前記封止材が、前記スリーブと前記既設流体管との間に、前記既設流体管の周方向に亘って形成されている請求項1に記載の既設流体管の不断水流路処理装置。   2. The continuous water flow path processing device for an existing fluid pipe according to claim 1, wherein the sealing material is formed between the sleeve and the existing fluid pipe in a circumferential direction of the existing fluid pipe. 前記スリーブの下部には、前記封止材と前記密封材との間における前記スリーブと前記既設流体管とで形成される空間と、外部とを連通する流体排出孔が形成されている請求項1または2に記載の既設流体管の不断水流路処理装置。   The fluid discharge hole which connects the space formed by the said sleeve and the said existing fluid pipe | tube between the said sealing material and the said sealing material, and the exterior in the lower part of the said sleeve is formed. Or the continuous water flow-path processing apparatus of the existing fluid pipe | tube of 2. 前記スリーブには、前記封止材と前記密封材との間における前記スリーブと前記既設流体管とで形成される空間と、外部とを連通する流体注入孔が形成されている請求項3に記載の既設流体管の不断水流路処理装置。   The fluid injection hole which connects the space formed by the said sleeve and the said existing fluid pipe | tube between the said sealing material and the said sealing material in the said sleeve, and the exterior is formed. An indefinite water channel treatment device for existing fluid pipes. 前記封止材の前記密封材寄りには、前記スリーブ内面若しくは前記筐体から前記既設流体管側に膨出し、前記封止材と当接可能な凸部が形成されている請求項1ないし4のいずれかに記載の既設流体管の不断水流路処理装置。   5. A convex portion that bulges from the inner surface of the sleeve or the casing toward the existing fluid pipe and contacts the sealing material is formed near the sealing material of the sealing material. The continuous water flow path processing apparatus for an existing fluid pipe according to any one of the above. 前記封止材と前記密封材との間における前記スリーブと前記既設流体管とで形成される空間に、充填材が充填されている請求項1ないし5のいずれかに記載の既設流体管の不断水流路処理装置。   6. The existing fluid pipe according to claim 1, wherein a filler is filled in a space formed by the sleeve and the existing fluid pipe between the sealing material and the sealant. Water channel treatment device. 前記充填材が、充填前に流動性を有し充填後に硬化する硬化材からなる請求項6に記載の既設流体管の不断水流路処理装置。   The continuous water flow path processing apparatus for an existing fluid pipe according to claim 6, wherein the filler is made of a hardener that has fluidity before filling and hardens after filling. 前記封止材の前記筐体寄りには、前記スリーブ内面若しくは前記筐体から前記既設流体管側に膨出し、前記封止材と当接可能な第2凸部が形成されている請求項6または7に記載の既設流体管の不断水流路処理装置。   The second convex part which bulges from the inner surface of the sleeve or the casing toward the existing fluid pipe and comes into contact with the sealing material is formed near the casing of the sealing material. Or a continuous water flow path treatment apparatus for an existing fluid pipe according to 7;
JP2005122268A 2005-04-20 2005-04-20 Non-continuous water flow path treatment equipment for existing fluid pipes Active JP4642537B2 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2017116061A (en) * 2015-12-25 2017-06-29 株式会社Ihi Removal method for storage inside nozzle pipe, and split type flange
JPWO2020012820A1 (en) * 2018-07-10 2021-02-15 株式会社水道技術開発機構 Housing device and mounting method of housing device

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JP2001330189A (en) * 2000-05-23 2001-11-30 Suiken:Kk Non-cutoff flow device and construction method

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JPS58193191U (en) * 1982-06-21 1983-12-22 コスモ工機株式会社 Installation structure of split T-pipe at uninterrupted water control valve installation site
JPH10103571A (en) * 1996-09-25 1998-04-21 Suido Gijutsu Kaihatsu Kiko:Kk Pipe connecting structure
JP2001330189A (en) * 2000-05-23 2001-11-30 Suiken:Kk Non-cutoff flow device and construction method

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JP2017116061A (en) * 2015-12-25 2017-06-29 株式会社Ihi Removal method for storage inside nozzle pipe, and split type flange
JPWO2020012820A1 (en) * 2018-07-10 2021-02-15 株式会社水道技術開発機構 Housing device and mounting method of housing device
JP7114111B2 (en) 2018-07-10 2022-08-08 株式会社水道技術開発機構 Enclosure device and mounting method of enclosure device
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