JP2008106942A - Device for shutting off flow passage in pipe and method for shutting off flow passage of fluid piping system - Google Patents

Device for shutting off flow passage in pipe and method for shutting off flow passage of fluid piping system Download PDF

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JP2008106942A
JP2008106942A JP2007303021A JP2007303021A JP2008106942A JP 2008106942 A JP2008106942 A JP 2008106942A JP 2007303021 A JP2007303021 A JP 2007303021A JP 2007303021 A JP2007303021 A JP 2007303021A JP 2008106942 A JP2008106942 A JP 2008106942A
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valve
pipe
connecting flange
flange portions
flow path
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JP4681591B2 (en
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Atsushi Sakai
篤史 酒井
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Waterworks Technology Development Organization Co Ltd
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  • Fire-Extinguishing By Fire Departments, And Fire-Extinguishing Equipment And Control Thereof (AREA)
  • Branch Pipes, Bends, And The Like (AREA)
  • Pipe Accessories (AREA)
  • Valve Housings (AREA)
  • Sliding Valves (AREA)
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Abstract

<P>PROBLEM TO BE SOLVED: To efficiently, reliably and easily perform the operation of shutting off a flow passage between the mating surfaces of both connection flange portions with little effort while avoiding the leakage of fluid in a pipe and to simplify and miniaturize a leakage structure by rationally devising the width of a partition plate valve. <P>SOLUTION: A shut-off operation cover B that is mountable to both pipe portions while sealing the outer peripheries of the connecting flange portions thereof is provided with both a partition plate valve 8 having a sheet-shaped valve plate 8A that can be inserted through a gap created between the connecting flange portions by the operation of loosening a fastener 5 and be moved up to a position for shutting off the flow passage in the pipe, and a sliding guide means C for sliding and guiding the valve plate 8A of the partition plate valve 8 to a flow passage shutting position and a flow passage opening position while holding the valve plate sealed. The width of the valve plate 8A of the partition plate valve 8 is greater than the inside diameter of each pipe portion and smaller than the spacing between the bolts 5A of the fastener 5 that are opposite to each other across the pipe axis of each pipe portion. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

本発明は、水道配管系統等の流体配管系統の構成部材のうち、両管部の連結フランジ部同士をそれらの接合面間にシール材を介装した状態で締結具にて締付け連結してあるフランジ接合箇所において、それよりも下流側に位置する補修弁、消火栓、空気弁等の交換のために流路を遮断する管内流路遮断装置及び流体配管系統の流路遮断方法の改良に関する。   In the present invention, among the constituent members of a fluid piping system such as a water pipe system, the connecting flange portions of both pipe portions are tightened and connected with a fastener with a sealing material interposed between their joint surfaces. The present invention relates to an in-pipe passage shut-off device that shuts off a flow passage for replacement of a repair valve, a fire hydrant, an air valve, and the like located downstream of the flange joint, and an improvement in a flow shut-off method of a fluid piping system.

従来の流体配管系統の流路遮断方法では、例えば、フランジ接合箇所の下流側管部に接続された又は下流側管部自体を構成する補修弁、消火栓等の劣化による漏水や故障等が発生して、新しい補修弁等に取り替える必要が生じたとき、図19、図20に示すように、上流側の管部2に、それの外周面に径方向外方から当て付け可能なステンレス鋼製の一対の挾持帯100と、両挾持帯100の端部同士を挾持側に引寄せ固定する引寄せボルト101・ナット102からなるバンド103を装着する。   In a conventional fluid piping system flow path blocking method, for example, leakage or failure due to deterioration of a repair valve, a fire hydrant, etc., connected to the downstream pipe part of the flange joint or constituting the downstream pipe part itself occurs. When it is necessary to replace the valve with a new repair valve or the like, as shown in FIGS. 19 and 20, as shown in FIGS. 19 and 20, the upstream pipe portion 2 is made of stainless steel that can be applied to the outer peripheral surface thereof from the outside in the radial direction. A pair of holding belts 100 and a band 103 made up of a drawing bolt 101 and a nut 102 for attaching and holding the ends of both holding belts 100 to the holding side are attached.

このバンド103の両引寄せボルト101の各々には、両管部2,3の流路を遮断可能な薄板状の仕切板弁(止水板)104の長手方向両端に切欠き形成された係合凹部104aに対して係合可能なナット105を螺合してある仮止めボルト106が起伏揺動自在に取付けられているとともに、仕切板弁104の下面には、上流側管部2の連結フランジ部2Aに対して径方向外方から係合するL字状の係止片107が固着されている。   Each of the drawing bolts 101 of the band 103 has a notch formed at both ends in the longitudinal direction of a thin plate-like partition plate valve (water stop plate) 104 that can shut off the flow paths of the pipe portions 2 and 3. A temporary fixing bolt 106 screwed with a nut 105 that can be engaged with the mating recess 104a is attached so as to freely swing up and down, and the lower surface of the partition plate valve 104 is connected to the upstream pipe portion 2. An L-shaped locking piece 107 that is engaged with the flange portion 2A from the radially outer side is fixed.

次に、両管部2,3の連結フランジ部2A,3A同士を締付け連結するための締結具108を構成する4組の締結ボルト109・ナット110のうち、仕切板弁104の差し込み移動経路中に位置する一方の中心線上の二組の締結ボルト109・ナット110を取外し、仕切板弁104の差し込み方向に対して直交する他方の中心線上の二組の締結ボルト109・ナット110を徐々に緩み操作しながら、上流側管部2の連結フランジ部2Aと接合面間に介装されているシール材の一例である板パッキン111との間に仕切板弁104を差し込んだのち、この差し込まれた仕切板弁104の両係合凹部104aにバンド103の両仮止めボルト106を係入し、それに螺合されているナット105を締付け側に螺合操作して、上流側管部2の連結フランジ部2Aに当て付け固定された仕切板弁104によって止水する。   Next, among the four sets of fastening bolts 109 and nuts 110 constituting the fastener 108 for fastening and connecting the connecting flange portions 2A and 3A of the pipe portions 2 and 3, the partition plate valve 104 is in the insertion movement path. The two sets of fastening bolts 109 and nuts 110 on one center line located at the center are removed, and the two sets of fastening bolts 109 and nuts 110 on the other center line perpendicular to the insertion direction of the partition plate valve 104 are gradually loosened. While operating, the partition plate valve 104 was inserted between the connecting flange portion 2A of the upstream pipe portion 2 and the plate packing 111 which is an example of the sealing material interposed between the joining surfaces, and then inserted. Both temporary fixing bolts 106 of the band 103 are engaged with both engaging recesses 104a of the partition plate valve 104, and a nut 105 screwed into the band 103 is screwed to the tightening side, so that the upstream pipe portion 2 By forming a flange portion 2A in abutting fixed gate plate valve 104 to stop water.

次に、他方の中心線上の二組の締結ボルト109・ナット110も取外し、古い板パッキン111及び補修弁を撤去したのち、新しい板パッキン111及び補修弁を装着し、他方の中心線上の二組の締結ボルト109・ナット110を仮止め状態で取付けるとともに、仕切板弁104の両係合凹部104aから両仮止めボルト106を抜き出す。   Next, the two sets of fastening bolts 109 and nuts 110 on the other center line are also removed, the old plate packing 111 and the repair valve are removed, the new plate packing 111 and the repair valve are mounted, and the two sets on the other center line are installed. The fastening bolt 109 and the nut 110 are attached in a temporarily fixed state, and both the temporary fixing bolts 106 are extracted from the both engaging recesses 104 a of the partition plate valve 104.

この状態で板パッキン111がずれないように調整しながら仕切板弁104を引き抜いた後、他方の中心線上の二組の締結ボルト109・ナット110を本締めするとともに、一方の中心線上の二組の締結ボルト109・ナット110を取付けて本締めする(非特許文献1参照)。   In this state, the partition valve 104 is pulled out while adjusting so that the plate packing 111 is not displaced, and then two sets of fastening bolts 109 and nuts 110 on the other center line are finally tightened, and two sets on one center line are set. The fastening bolt 109 and the nut 110 are attached and finally tightened (see Non-Patent Document 1).

第45回全国水道研究発表会 平成6年5月(5−34)不断水による消火栓の取替事例The 45th National Waterworks Research Conference May 1994 (5-34) Replacing Fire Hydrant with Unrestricted Water

従来の流体配管系統の流路遮断方法では、不断水状態のまま補修弁等を取り替えることができるばかりでなく、両管部2,3の連結フランジ部2A,3A同士を締付け連結している締結ボルト109・ナット110のうち、仕切板弁104の差し込み経路内に位置する締結ボルト109・ナット110を取り外したのち、他の締結ボルト109・ナット110を緩み操作して、その緩み操作に連れて発生する両連結フランジ部2A,3A間の隙間を通して仕切板弁104を差し入れることにより、管内流路を遮断することができるので、施工コストの低廉化と施工期間の短縮化を図ることができる反面、締結ボルト109・ナット110を緩み操作した瞬間に、両連結フランジ部2A,3A間に形成された隙間を通して管内流体が外部に噴出するばかりでなく、噴出流体が仕切板弁104の差し入れ抵抗となり、しかも、両連結フランジ部2A,3A間の隙間を極力小さくする必要があるため、仕切板弁104の差し入れ操作に手間取り易い。   In the conventional fluid piping system flow path blocking method, not only the repair valve can be replaced in an uninterrupted water state, but also the connecting flange portions 2A and 3A of both pipe portions 2 and 3 are tightened and connected. Of the bolts 109 and nuts 110, after removing the fastening bolts 109 and nuts 110 located in the insertion path of the partition plate valve 104, the other fastening bolts 109 and nuts 110 are loosened, and the loosening operation is performed. By inserting the partition plate valve 104 through the gap between the generated connecting flange portions 2A and 3A, the flow path in the pipe can be shut off, so that the construction cost can be reduced and the construction period can be shortened. On the other hand, at the moment when the fastening bolt 109 and the nut 110 are loosened, the fluid in the pipe is ejected to the outside through the gap formed between the two connecting flange portions 2A and 3A. Not Rubakari, jetting fluid becomes pledged resistance of the partition plate valve 104, moreover, the two joining flange portions 2A, it is necessary to reduce the gap between 3A utmost easily it took much time to pledge operation of the partition plate valve 104.

特に、両連結フランジ部2A,3Aの接合面間に介装されている板パッキン111が波打つたり、或いは、両連結フランジ部2A,3Aの接合面間に亘って板パッキン111の一部が貼り付いている場合では、板パッキン111の一部を押し切りながら仕切板弁104を差し入れることになるため、管内流路が遮断されるまでの管内流体の総噴出量が増大する。   In particular, the plate packing 111 interposed between the joint surfaces of the two connecting flange portions 2A and 3A undulates, or a part of the plate packing 111 is pasted between the joint surfaces of the two connecting flange portions 2A and 3A. In the case where it is attached, the partition plate valve 104 is inserted while pushing part of the plate packing 111, so that the total amount of fluid in the pipe until the pipe flow path is shut off increases.

本発明は、上述の実状に鑑みて為されたものであって、その主たる課題は、両連結フランジ部の接合面間の隙間から外部に噴出する流体の圧力に抗して蔽板弁を差し込み操作する従来方法に比して、両連結フランジ部の接合面間での流路遮断作業を、管内流体の漏洩を抑制しながら少ない労力で能率良く確実、容易に行うことのできる流体配管系統の流路遮断方法及び管内流路遮断装置を提供する点にある。   The present invention has been made in view of the above situation, and the main problem is that the cover plate valve is inserted against the pressure of the fluid ejected to the outside from the gap between the joint surfaces of the two connecting flange portions. Compared to the conventional method to operate, the fluid piping system that can efficiently and reliably and easily perform the flow path blocking work between the joint surfaces of both connecting flanges with less labor while suppressing leakage of fluid in the pipe It is in providing a flow path blocking method and an in-pipe flow path blocking device.

流体配管系統において、両連結フランジ部の接合面間にシール材を介装した状態で締結具にて締付け連結されている両管部に、締結具の緩み操作を許容する状態で両連結フランジ部の外周を密封状態で囲繞可能で、かつ、両管部の流路を遮断可能な薄板状の仕切板弁が抜き差し操作自在に設けられている遮断作業カバーを装着し、この遮断作業カバーの仕切板弁を、締結具の緩み操作によって発生した両連結フランジ部間の隙間を通して流路遮断位置にまで差し入れることにより、両連結フランジ部間において流路を遮断してもよい。   In a fluid piping system, both connecting flange portions are allowed to loosen the fasteners on both pipe portions that are tightened and connected by a fastener with a sealing material interposed between the joint surfaces of both connecting flange portions. It is possible to enclose the outer periphery of the tube in a sealed state, and to install a blocking work cover provided with a thin plate-like partition plate valve that can block the flow passages of both pipe portions so that it can be inserted and removed. The flow path may be blocked between the two connecting flange portions by inserting the plate valve through the gap between the two connecting flange portions generated by the loosening operation of the fastener to the flow blocking position.

上記構成によれば、例えば、両管部のフランジ接合箇所の下流側管部に接続された又は下流側管部自体を構成する補修弁、消火栓等の劣化による漏水や故障等が発生して、新しい補修弁、消火栓等に取り替える必要が生じたとき、両管部に遮断作業カバーを装着して、両連結フランジ部の外周を密封状態で囲繞したのち、両管部の連結フランジ部を締付け連結している締結具を緩み操作する。この緩み操作に連れて両連結フランジ部間の隙間から流出した流体は遮断作業カバー内に充満するものの、外部に漏洩することはない又は外部への流体の漏洩量を大幅に減少することができる。
それ故に、両連結フランジ部間の隙間を仕切板弁の板厚よりも十分に大きくすることが可能で、しかも、遮断作業カバー内に流体が充満した状態では管路内圧と略等しくなっているため、この遮断作業カバーに設けられている薄板状の仕切板弁を両連結フランジ部間の隙間を通して流路遮断位置にまで確実、スムーズに差し込み操作することができる。
According to the above configuration, for example, leakage or failure due to deterioration of a repair valve, a fire hydrant, etc., connected to the downstream pipe part of the flange joint location of both pipe parts or constituting the downstream pipe part itself, When it is necessary to replace with a new repair valve, fire hydrant, etc., install a shut-off work cover on both pipe parts, seal the outer periphery of both connecting flange parts, and tighten and connect the connecting flange parts of both pipe parts Loosen and operate the fasteners. Although the fluid that has flowed out from the gap between the two connecting flanges with this loosening operation fills the blocking work cover, it does not leak to the outside, or the amount of fluid leakage to the outside can be greatly reduced. .
Therefore, it is possible to make the gap between the connecting flange portions sufficiently larger than the plate thickness of the partition valve, and when the fluid is filled in the shut-off work cover, it is substantially equal to the pipe internal pressure. For this reason, the thin plate-like partition plate valve provided in the blocking work cover can be reliably and smoothly inserted into the flow path blocking position through the gap between the two connecting flange portions.

従って、従来方法のように両連結フランジ部の接合面間の隙間から外部に噴出する流体の圧力に抗して仕切板弁を差し込み操作する必要がなく、両連結フランジ部の接合面間での流路遮断作業を、管内流体の漏洩を抑制しながら少ない労力で能率良く確実、容易に行うことができる。   Therefore, unlike the conventional method, it is not necessary to insert and operate the partition plate valve against the pressure of the fluid ejected to the outside from the gap between the joint surfaces of both connection flange portions, and between the joint surfaces of both connection flange portions. The flow path blocking operation can be performed efficiently, reliably and easily with less effort while suppressing leakage of the fluid in the pipe.

また、前記遮断作業カバーに設けられた隙間形成手段によって、締結具の緩み操作代の範囲内で両連結フランジ部間を押し広げたのち、遮断作業カバーの仕切板弁を、両連結フランジ部間の隙間を通して流路遮断位置にまで差し入れるようにしてもよい。   In addition, the gap forming means provided in the shut-off work cover spreads between the connecting flange portions within the range of the loosening operation allowance of the fastener, and then the partition plate valve of the shut-off work cover is connected between the two connecting flange portions. You may make it insert in a flow-path interruption | blocking position through this clearance gap.

上記構成によれば、両管部の連結フランジ部を締付け連結している締結具を緩み操作しても、両連結フランジ部間に緩み操作代に相当する隙間が形成されなかったり、或いは、フランジ接合箇所に存在する融通範囲内で下流側管部の連結フランジ部に対して上流側管部の連結フランジ部が傾動しても、遮断作業カバーに設けられている隙間形成手段によって、締結具の緩み操作代の範囲内で両連結フランジ部間を強制的に押し広げることにより、両連結フランジ部間に緩み操作代に相当する隙間を確実に形成することができるので、両管部に装着した遮断作業カバーによって両連結フランジ部の外周を密封状態に囲繞しながらも、遮断作業カバーに設けられている仕切板弁を両連結フランジ部間の隙間を通して流路遮断位置にまで確実、スムーズに差し込み操作することができる。   According to the above configuration, even if the fasteners that fasten and connect the connecting flange portions of both pipe portions are loosened, a gap corresponding to the loosening operation allowance is not formed between the two connecting flange portions, or the flanges Even if the connecting flange portion of the upstream pipe portion tilts with respect to the connecting flange portion of the downstream pipe portion within the accommodation range existing at the joint location, the gap forming means provided in the shut-off work cover allows the fastener to be By forcibly expanding the gap between the two connecting flanges within the range of the loosening operation allowance, a gap corresponding to the loosening operation allowance can be reliably formed between the two connecting flanges. While the outer periphery of both connecting flanges is sealed with the shut-off work cover, the partition plate valve provided on the shut-off work cover can be securely and smoothly passed through the gap between the two connecting flanges to the flow path shut-off position. It is possible to operate plug in's.

また、両連結フランジ部の接合面間にシール材を介装した状態で締結具にて締付け連結されている両管部に対して、それらの両連結フランジ部の外周を密封する状態で装着自在な遮断作業カバーに、締結具の緩み操作によって発生した両連結フランジ部間の隙間を通して管内流路を遮断する位置にまで差込み移動自在な薄板状の仕切板弁と、この仕切板弁を密封状態で流路遮断位置と流路開放位置とに摺動案内する摺動ガイド手段が設けられていてもよい。   Also, it can be mounted on both pipe flanges that are tightened and connected with a fastener with a sealant between the joint surfaces of both connection flanges, with the outer periphery of both connection flanges sealed. A thin partition valve that can be inserted and moved to a position that blocks the flow path in the pipe through the gap between the two connecting flanges generated by the loosening operation of the fastener, and the partition valve is sealed. In this case, sliding guide means for slidingly guiding between the channel blocking position and the channel opening position may be provided.

上記構成によれば、例えば、両管部のフランジ接合箇所の下流側管部に接続された又は下流側管部自体を構成する補修弁、消火栓等の劣化による漏水や故障等が発生して、新しい補修弁、消火栓等に取り替える必要が生じたとき、両管部に遮断作業カバーを装着して、両連結フランジ部の外周を密封状態で囲繞したのち、両管部の連結フランジ部を締付け連結している締結具を緩み操作する。この緩み操作に連れて両連結フランジ部間の隙間から流出した流体は遮断作業カバー内に充満するものの、外部に漏洩することはない又は外部への流体の漏洩量を大幅に減少することができる。
それ故に、両連結フランジ部間の隙間を仕切板弁の板厚よりも十分に大きくすることが可能で、しかも、遮断作業カバー内に流体が充満した状態では管路内圧と略等しくなっているため、この遮断作業カバーに設けられている薄板状の仕切板弁を、摺動ガイド手段によって摺動案内されながら両連結フランジ部間の隙間を通して流路遮断位置にまで確実、スムーズに差し込み操作することができる。
According to the above configuration, for example, leakage or failure due to deterioration of a repair valve, a fire hydrant, etc., connected to the downstream pipe part of the flange joint location of both pipe parts or constituting the downstream pipe part itself, When it is necessary to replace with a new repair valve, fire hydrant, etc., install a shut-off work cover on both pipe parts, seal the outer periphery of both connecting flange parts, and tighten and connect the connecting flange parts of both pipe parts Loosen and operate the fasteners. Although the fluid that has flowed out from the gap between the two connecting flanges with this loosening operation fills the blocking work cover, it does not leak to the outside, or the amount of fluid leakage to the outside can be greatly reduced. .
Therefore, it is possible to make the gap between the connecting flange portions sufficiently larger than the plate thickness of the partition valve, and when the fluid is filled in the shut-off work cover, it is substantially equal to the pipe internal pressure. Therefore, the thin plate-like partition plate valve provided in the shut-off work cover is securely and smoothly inserted to the flow path shut-off position through the gap between the two connecting flange portions while being slid and guided by the slide guide means. be able to.

従って、従来方法のように両連結フランジ部の接合面間の隙間から外部に噴出する流体の圧力に抗して仕切板弁を差し込み操作する必要がなく、しかも、仕切板弁を密封状態で流路遮断位置と流路開放位置とにスムーズに摺動案内することができるので、両連結フランジ部の接合面間での流路遮断作業を、管内流体の漏洩を抑制しながら少ない労力で能率良く確実、容易に行うことができる。   Therefore, unlike the conventional method, it is not necessary to insert and operate the partition plate valve against the pressure of the fluid ejected to the outside from the gap between the joint surfaces of the two connecting flange portions, and the partition plate valve is allowed to flow in a sealed state. Since it can smoothly slide and guide between the channel blocking position and the channel opening position, the channel blocking work between the joint surfaces of both connecting flanges can be performed efficiently with less labor while suppressing leakage of fluid in the pipe. It can be done reliably and easily.

また、前記遮断作業カバーの周方向複数箇所に、締結具の緩み操作代の範囲内で両連結フランジ部間を押し広げる隙間形成手段が設けられていてもよい。   Moreover, the clearance formation means which pushes between both connection flange parts within the range of the loosening operation allowance of a fastener may be provided in the circumferential direction several places of the said interruption | blocking operation | work cover.

上記構成によれば、両管部の連結フランジ部を締付け連結している締結具を緩み操作しても、両連結フランジ部間に緩み操作代に相当する隙間が形成されなかつたり、或いは、フランジ接合箇所に存在する融通範囲内で下流側管部の連結フランジ部に対して上流側管部の連結フランジ部が傾動しても、遮断作業カバーの周方向複数箇所に設けられている隙間形成手段によって、締結具の緩み操作代の範囲内で両連結フランジ部間を強制的に押し広げることにより、両連結フランジ部間に緩み操作代に相当する隙間を確実に形成することができるとともに、その隙間の周方向での開口幅の均等化を図ることができるので、両管部に装着した遮断作業カバーによって両連結フランジ部の外周を密封状態に囲繞しながらも、遮断作業カバーに設けられている仕切板弁を両連結フランジ部間の隙間を通して流路遮断位置にまで確実、スムーズに差し込み操作することができる。   According to the above configuration, even if the fasteners that tighten and connect the connecting flange portions of both pipe portions are loosened, a gap corresponding to the loosening operation allowance is not formed between the two connecting flange portions, or the flanges Clearance forming means provided at a plurality of locations in the circumferential direction of the shut-off work cover even if the connecting flange portion of the upstream pipe portion tilts with respect to the connecting flange portion of the downstream pipe portion within the range of accommodation existing at the joint location. Thus, by forcibly expanding between the connecting flange portions within the range of the loosening operation allowance of the fastener, a clearance corresponding to the loosening operation allowance can be reliably formed between the both connecting flange portions, and Since the opening width in the circumferential direction of the gap can be equalized, the outer periphery of both connecting flanges is sealed with the blocking work covers attached to both pipe parts, but is provided on the blocking work cover. And it has a gate plate valve securely to the conduit shutting position through the gap between the two joining flange portions can be manipulated insertion smoothly.

また、前記遮断作業カバーが、各連結フランジ部の外周面に弾性力で圧接される環状のシール部を備えた環状弾性シール材と、この環状弾性シール材を径方向外方から締付け固定する分割構造の締付け輪とから構成されているとともに、環状弾性シール材及び締付け輪には、仕切板弁の差込み移動を許容する開口が形成されていてもよい。   In addition, the blocking work cover is provided with an annular elastic seal member provided with an annular seal portion pressed against the outer peripheral surface of each connecting flange portion by an elastic force, and a division for fastening and fixing the annular elastic seal member from the outside in the radial direction. An opening that allows insertion and movement of the partition plate valve may be formed in the annular elastic seal member and the tightening ring.

上記構成によれば、遮断作業カバーの一方の構成部材である環状弾性シール材を両管部に外装したとき、それの環状シール部が各連結フランジ部の外周面に圧接されるときの弾性力で両管部に仮保持させることができるので、環状弾性シール材自体の位置調整のみならず、環状弾性シール材に対する分割構造の締付け輪の装着作業も容易に行うことができる。それでいて、環状弾性シール材と分割構造の締付け輪とにより、両連結フランジ部の外周を密封状態で確実、強固に囲繞することができる。   According to the above configuration, when the annular elastic sealing material, which is one constituent member of the shut-off work cover, is sheathed on both pipe portions, the elastic force when the annular seal portion is pressed against the outer peripheral surface of each connecting flange portion. Therefore, not only the adjustment of the position of the annular elastic sealing material itself but also the mounting operation of the split ring tightening ring to the annular elastic sealing material can be easily performed. Nevertheless, the outer periphery of both the connecting flange portions can be securely and firmly surrounded in a sealed state by the annular elastic sealing material and the split ring.

また、前記環状弾性シール材の内周面に、両連結フランジ部の外周面の隣接間にわたって接触する環状の第2シール部が一体形成され、その第2シール部の一部に仕切板弁の差込み移動を許容する開口が形成されていてもよい。   In addition, an annular second seal portion that is in contact with the inner peripheral surface of the annular elastic sealing material over adjacent portions of the outer peripheral surfaces of both connecting flange portions is integrally formed, and a part of the second seal portion includes a partition plate valve. An opening that allows insertion movement may be formed.

上記構成によれば、環状弾性シール材の第2シール部により、仕切板弁の差込み移動箇所を除く両連結フランジ部の隣接間を予備的に閉塞することができるから、遮断作業カバーによる密封性を高めることができる。   According to the above configuration, the second seal portion of the annular elastic seal material can preliminarily close the adjacent portions of both connecting flange portions excluding the insertion movement position of the partition plate valve. Can be increased.

また、前記隙間形成手段が、遮断作業カバーの周方向複数箇所において、両連結フランジ部間の隙間に対して径方向外方から入り込み移動するテーパー面を備えた複数の分離ボルトから構成されていてもよい。
上記構成によれば、遮断作業カバーの周方向複数箇所に設けた複数の分離ボルトを締め込み操作することにより、締結具の緩み操作代の範囲内で両連結フランジ部間を押し広げて、両連結フランジ部間の隙間の周方向での開口幅の均等化を図ることができる。
Further, the gap forming means is composed of a plurality of separation bolts having tapered surfaces that enter and move from the outside in the radial direction with respect to the gap between the two connecting flange portions at a plurality of locations in the circumferential direction of the blocking work cover. Also good.
According to the above configuration, by tightening a plurality of separation bolts provided at a plurality of locations in the circumferential direction of the shut-off work cover, both coupling flange portions are pushed and expanded within the range of the loosening operation allowance of the fasteners. It is possible to equalize the opening width in the circumferential direction of the gap between the connecting flange portions.

また、前記隙間形成手段の分離ボルトは、それのボルト軸芯が仕切板弁の移動平面を通る平面上又はその近傍に位置する状態で締付け輪に取付けられていてもよい。   Further, the separation bolt of the gap forming means may be attached to the fastening ring in a state where the bolt shaft core is located on or near the plane passing through the moving plane of the partition plate valve.

上記構成によれば、遮断作業カバーの周方向複数箇所に設けた複数の分離ボルトを締め込み操作して、締結具の緩み操作代の範囲内で両連結フランジ部間を押し広げたとき、その押し広げられた隙間の中央位置又はその近傍に仕切板弁の移動平面が位置することになり、仕切板弁の差し込み操作をスムーズに行うことができる。   According to the above configuration, when a plurality of separation bolts provided at a plurality of locations in the circumferential direction of the shut-off work cover are tightened, and the space between both connecting flange portions is expanded within the range of the loosening operation allowance of the fastener, The moving plane of the partition plate valve is positioned at or near the center position of the widened gap, and the partition plate valve can be smoothly inserted.

また、前記締結具が、一方の連結フランジ部の外面との間を密封するためのOリングを頭部の当接面に設けてあるボルトと、他方の連結フランジ部の外面との間を密封するためのOリングを当接面に設けてある袋ナットから構成されていてもよい。   Further, the fastener seals between a bolt provided with an O-ring for sealing between the outer surface of one connecting flange portion and the outer surface of the other connecting flange portion. It may be configured from a cap nut provided with an O-ring on the contact surface.

上記構成によれば、例えば、両管部のフランジ接合箇所の下流側管部に接続された又は下流側管部自体を構成する補修弁、消火栓等の劣化による漏水や故障等が発生して、新しい補修弁、消火栓等に取り替える必要が生じたとき、両管部に遮断作業カバーを装着して、両連結フランジ部の外周を密封状態で囲繞したのち、両管部の連結フランジ部を締付け連結している締結具を緩み操作する。この緩み操作に連れて両連結フランジ部間に隙間が発生しても、一方の連結フランジ部とボルトの頭部との当接、及び他方の連結フランジ部と袋ナットとの当接が維持されているので、それらの各当接面間に位置するOリングによって、連結フランジ部に貫通形成されているボルト挿通孔を通しての流体の漏洩を抑制することができる。
そして、本発明による第1の特徴構成は、両連結フランジ部の接合面間にシール材を介装した状態で締結具にて締付け連結されている両管部に対して、それらの両連結フランジ部の外周を密封する状態で装着自在な遮断作業カバーに、締結具の緩み操作によって発生した両連結フランジ部間の隙間を通して管内流路を遮断する位置にまで差込み移動自在な薄板状の弁板を備えた仕切板弁と、この仕切板弁の弁板を密封状態で流路遮断位置と流路開放位置とに摺動案内する摺動ガイド手段が設けられているとともに、前記仕切板弁の弁板の幅が、両管部の内径よりも大で、且つ、前記締結具を構成する複数本のボルトのうち、両管部の管軸芯を挟んで相対向する両ボルトの対向間隔よりも小に構成されている管内流路遮断装置にある。
本発明による第2の特徴構成は、両連結フランジ部の接合面間にシール材を介装した状態で締結具にて締付け連結されている両管部に対して、それらの両連結フランジ部の外周を密封する状態で装着自在な遮断作業カバーに、締結具の緩み操作によって発生した両連結フランジ部間の隙間を通して管内流路を遮断する位置にまで差込み移動自在な薄板状の弁板を備えた仕切板弁と、この仕切板弁の弁板を密封状態で流路遮断位置と流路開放位置とに摺動案内する摺動ガイド手段が設けられているとともに、前記仕切板弁の弁板の幅が、両管部の内径よりも大で、且つ、前記締結具を構成する4本のボルトの周方向での隣接間隔よりも小に構成されている管内流路遮断装置にある。
本発明による第3の特徴構成は、前記仕切板弁の弁板の先端縁が先鋭状に形成されている管内流路遮断装置にある。
本発明による第4の特徴構成は、流体配管系統において、両連結フランジ部の接合面間にシール材を介装した状態で締結具を構成する複数組のボルト・ナットにて締付け連結されている両管部に、締結具の緩み操作を許容する状態で両連結フランジ部の外周を密封状態で囲繞可能で、かつ、両管部の流路を遮断可能な薄板状の弁板を備えた仕切板弁が、前記両管部の管軸芯を挟んで相対向する両ボルトの対向間を通して抜き差し操作自在に設けられている遮断作業カバーを装着し、この遮断作業カバーにおける仕切板弁の弁板を、ボルト・ナットの緩み操作によって発生した両連結フランジ部間の隙間を通して流路遮断位置にまで差し入れることにより、両連結フランジ部間において流路を遮断することを特徴とする流体配管系統の流路遮断方法にある。
本発明による第5の特徴構成は、流体配管系統において、両連結フランジ部の接合面間にシール材を介装した状態で締結具を構成する4組のボルト・ナットにて締付け連結されている両管部に、締結具の緩み操作を許容する状態で両連結フランジ部の外周を密封状態で囲繞可能で、かつ、両管部の流路を遮断可能な薄板状の弁板を備えた仕切板弁が、前記ボルトの周方向での隣接間を通して抜き差し操作自在に設けられている遮断作業カバーを装着し、この遮断作業カバーにおける仕切板弁の弁板を、ボルト・ナットの緩み操作によって発生した両連結フランジ部間の隙間を通して流路遮断位置にまで差し入れることにより、両連結フランジ部間において流路を遮断することを特徴とする流体配管系統の流路遮断方法にある。
According to the above configuration, for example, leakage or failure due to deterioration of a repair valve, a fire hydrant, etc., connected to the downstream pipe part of the flange joint location of both pipe parts or constituting the downstream pipe part itself, When it is necessary to replace with a new repair valve, fire hydrant, etc., install a shut-off work cover on both pipe parts, seal the outer periphery of both connecting flange parts, and tighten and connect the connecting flange parts of both pipe parts Loosen and operate the fasteners. Even if a clearance is generated between the two connecting flange portions as a result of this loosening operation, the contact between one connection flange portion and the bolt head and the contact between the other connection flange portion and the cap nut are maintained. Therefore, the fluid leakage through the bolt insertion hole penetratingly formed in the connecting flange portion can be suppressed by the O-ring located between the contact surfaces.
And the 1st characteristic structure by this invention is these both connection flanges with respect to the both pipe parts fastened and connected with the fastener in the state which interposed the sealing material between the joint surfaces of both connection flange parts. A thin plate-shaped valve plate that can be inserted and moved to a position that blocks the flow path in the pipe through the gap between the two connecting flanges generated by the loosening operation of the fastener on the blocking work cover that can be mounted with the outer periphery of the section sealed And a sliding guide means for slidingly guiding the valve plate of the partition valve in a sealed state to the flow path blocking position and the flow path opening position. The width of the valve plate is larger than the inner diameters of both tube portions, and among the plurality of bolts constituting the fastener, the interval between both bolts facing each other across the tube axis of both tube portions There is also an in-pipe flow path blocking device that is configured to be small.
According to a second characteristic configuration of the present invention, both the connecting flange portions are connected to both pipe portions that are fastened and connected by a fastener with a sealing material interposed between the joint surfaces of the both connecting flange portions. A thin plate-like valve plate that can be inserted and moved to a position that blocks the flow path in the pipe through the gap between both connecting flanges generated by the loosening operation of the fastener is provided on the shut-off work cover that can be mounted with the outer periphery sealed. And a sliding guide means for slidingly guiding the valve plate of the partition plate valve to the flow path blocking position and the flow path opening position in a sealed state, and the valve plate of the partition plate valve Is in the in-pipe flow path blocking device configured to be larger than the inner diameters of both the tube portions and smaller than the adjacent interval in the circumferential direction of the four bolts constituting the fastener.
A third characteristic configuration according to the present invention is an in-pipe flow path blocking device in which a tip edge of a valve plate of the partition plate valve is formed to be sharp.
According to a fourth characteristic configuration of the present invention, in a fluid piping system, a plurality of bolts and nuts constituting a fastener are tightened and connected in a state in which a sealing material is interposed between joint surfaces of both connection flange portions. A partition provided with thin plate-like valve plates that can surround the outer periphery of both connecting flange portions in a sealed state while allowing the loosening operation of the fasteners in both pipe portions, and can block the flow paths of both pipe portions. The plate valve is mounted with a shut-off work cover provided so as to be freely inserted and removed through the opposing portions of the bolts facing each other across the tube axis of the two pipe portions, and the valve plate of the partition plate valve in the shut-off work cover Of the fluid piping system characterized in that the flow path is cut off between both the connecting flanges by inserting it into the flow blocking position through the clearance between the two connecting flanges generated by the loosening operation of the bolts and nuts. Channel shut off There is the law.
According to a fifth characteristic configuration of the present invention, in the fluid piping system, the bolts and nuts constituting the fastener are tightened and connected in a state in which a sealing material is interposed between the joint surfaces of both the connecting flange portions. A partition provided with thin plate-like valve plates that can surround the outer periphery of both connecting flange portions in a sealed state while allowing the loosening operation of the fasteners in both pipe portions, and can block the flow paths of both pipe portions. The plate valve is fitted with a shut-off work cover that can be freely inserted and removed through the adjacent bolts in the circumferential direction, and the valve plate of the partition plate valve in this shut-off work cover is generated by loosening the bolts and nuts. The fluid piping system has a flow path blocking method characterized by blocking the flow path between both the connecting flange portions by inserting the gap between both the connected flange portions to the flow path blocking position.

図1、図2は流体配管系統中の管接続構造を示し、流体管の一例である鋳鉄管製の水道管1の途中に一体的に突出形成された上流側管部としての分岐管部2の連結フランジ部2Aに、下流側管部としての連結管3の上流側連結フランジ部3Aが、それらの接合面間にシール材の一例であるシートパッキン4を介装した状態で複数組(当該実施形態では4組)のボルト5A・袋ナット5Bからなる第1締結具5にて密封状態で脱着自在に締付け連結されているとともに、この連結管3の下流側連結フランジ部3Bには、流体機器又は配管材の一例である補修弁6の上流側連結フランジ部6Aが、それらの接合面間にシール材の一例であるシートパッキン4を介装した状態で複数組のボルト7A・ナット7Bからなる第2締結具7にて密封状態で脱着自在に締付け連結され、更に、補修弁6の下流側連結フランジ部6Bには、必要に応じて流体機器又は配管材の一例である消火栓等が密封状態で脱着自在に締付け連結される。   1 and 2 show a pipe connection structure in a fluid piping system, and a branch pipe part 2 as an upstream pipe part integrally formed in the middle of a water pipe 1 made of cast iron pipe which is an example of a fluid pipe. A plurality of sets of the above-described connecting flange portions 2A with the upstream side connecting flange portion 3A of the connecting pipe 3 serving as the downstream side pipe portion interposed between the joint surfaces of the sheet packing 4 as an example of a sealing material In the embodiment, four sets of bolts 5 </ b> A and cap nuts 5 </ b> B are fastened and detachably connected in a sealed state with a first fastener 5, and the downstream side connection flange portion 3 </ b> B of the connection pipe 3 has a fluid From a plurality of sets of bolts 7A and nuts 7B in a state in which the upstream connecting flange portion 6A of the repair valve 6 which is an example of equipment or piping material is interposed between the joint surfaces thereof and the sheet packing 4 which is an example of a sealing material. In a sealed state with the second fastener 7 Wear is freely tightened connection, further, the downstream joining flange portion 6B of the repair valve 6, which is an example of a fluid apparatus or piping material optionally fire hydrants or the like is detachably fastened connected sealingly.

そして、前記分岐管部2と連結管3とにわたる部位には、水道管1内の上水の流れを維持した不断水状態のまま、劣化による漏水や故障等の理由で補修弁6を取り替える必要が発生したとき、分岐管部2の連結フランジ部2Aと連結管3の上流側連結フランジ部3Aとの間において、水道管1の管軸芯X1に対して直交する分岐軸芯X2方向の管内流路Wを遮断する管内流路遮断装置Aが組付けられている。   Further, the repair valve 6 needs to be replaced at a portion extending between the branch pipe portion 2 and the connecting pipe 3 due to water leakage or failure due to deterioration while maintaining an undisturbed water state in which the flow of clean water in the water pipe 1 is maintained. In the pipe in the direction of the branch axis X2 perpendicular to the pipe axis X1 of the water pipe 1 between the connection flange part 2A of the branch pipe part 2 and the upstream side connection flange part 3A of the connection pipe 3 An in-pipe flow path blocking device A that blocks the flow path W is assembled.

この管内流路遮断装置Aには、図1〜図9に示すように、分岐管部2と連結管3に対して、それらの両連結フランジ部2A,3Aの外周を密封する状態で脱着自在に装着可能な遮断作業カバーBと、第1締結具5のボルト5A・袋ナット5Bの緩み操作によって発生した両連結フランジ部2A,3Aの接合面間の隙間Sを通して管内流路Wを遮断する位置にまで差込み移動自在な薄板状の仕切板弁8と、この仕切板弁8を密封状態で流路遮断位置と流路開放操作位置とに摺動案内する摺動ガイド手段Cが主要構成として備えられているとともに、前記遮断作業カバーBの周方向複数箇所(当該実施形態では周方向の三箇所)には、第1締結具5のボルト5A・袋ナット5Bの緩み操作代の範囲内で両連結フランジ部2A,3Aの接合面間を押し広げる隙間形成手段Dが設けられている。   As shown in FIGS. 1 to 9, the in-pipe flow path blocking device A is detachable with respect to the branch pipe part 2 and the connecting pipe 3 in a state where the outer periphery of both the connecting flange parts 2A and 3A is sealed. The in-pipe flow path W is blocked through the clearance S between the joint surfaces of the two connecting flange portions 2A and 3A generated by the loosening operation of the blocking work cover B that can be attached to the bolt 5A and the cap nut 5B of the first fastener 5. The main components are a thin plate-like partition plate valve 8 that can be inserted and moved to a position, and a sliding guide means C that slides and guides the partition plate valve 8 to a flow passage blocking position and a flow passage opening operation position in a sealed state. It is provided, and at a plurality of locations in the circumferential direction of the blocking work cover B (three locations in the circumferential direction in the embodiment) within the range of the loosening operation allowance of the bolt 5A and the cap nut 5B of the first fastener 5 Push between the joint surfaces of both connecting flanges 2A, 3A Gap forming means D is provided to widen.

前記第1締結具5としては、通常仕様の複数組(当該実施形態では4組)のボルト5C,5Dと密封機能に優れた防水仕様の複数組(当該実施形態では4組)のボルト5A・袋ナット5Bからなり、補修弁6を取り替え工事の開始時には、通常仕様のボルト5C,5Dから防水仕様のボルト5A・袋ナット5Bに取り替え、更に、取り替え工事の終了時に防水仕様のボルト5A・袋ナット5Bから通常仕様のボルト5C,5Dに取り替える。   The first fastener 5 includes a plurality of bolts 5C and 5D having a normal specification (four sets in the present embodiment) and a plurality of bolts 5A and 5D having a waterproof specification having excellent sealing function (four sets in the present embodiment). It consists of a cap nut 5B. At the start of replacement work, the repair valve 6 is replaced with a normal specification bolt 5C, 5D from a waterproof specification bolt 5A and a cap nut 5B, and at the end of the replacement work a waterproof specification bolt 5A and a bag. Replace the nut 5B with normal bolts 5C and 5D.

前記遮断作業カバーBは、図1〜図6に示すように、各連結フランジ部2A,3Aの外周面に対して径方向外方から圧接可能な横断面視略半円形状の環状の第1シール部11a及び両連結フランジ部2A,3Aの外周面の隣接間に径方向外方に向かって開口形成されている環状凹部25に対して一部が入り込む状態で径方向外方から圧接可能な横断面視略半円形状の環状の第2シール部11bを備えた環状弾性シール材11と、この環状弾性シール材11を径方向外方から締付け固定する二分割構造の締付け輪12とから構成されている。   As shown in FIGS. 1 to 6, the blocking work cover B has a substantially semicircular annular first cross-sectional view that can be pressed against the outer peripheral surfaces of the connecting flange portions 2 </ b> A and 3 </ b> A from the outside in the radial direction. The seal portion 11a and the connecting flange portions 2A, 3A can be press-contacted from the outside in the radial direction in a state where a part of the annular recess 25 is formed to open radially outward between the adjacent outer peripheral surfaces of the seal portion 11a An annular elastic sealing material 11 provided with an annular second seal portion 11b having a substantially semicircular shape in cross-sectional view, and a two-part structure fastening ring 12 for fastening and fixing the annular elastic sealing material 11 from the outside in the radial direction. Has been.

前記環状弾性シール材11は、図6〜図9に示すように、接合面間に仕切板弁8を差し込み可能な設定最大隙間Sが形成されているときにおける両連結フランジ部2A,3Aの分岐軸芯X2方向での外面間隔と等しい又は略等しい幅で円環状に一体成形されているとともに、それの内周面のうち、両連結フランジ部2A,3Aの隣接間中央位置に対応する幅方向中央位置に一体形成される第2シール部11bの径方向内方への突出代が、各連結フランジ部2A,3Aの外周面に対応する幅方向両側位置に一体形成される第1シール部11aの径方向内方への突出代よりも大に構成され、更に、両第1シール部11aの最小内径及び第2シール部11bの最小内径が、連結フランジ部2A,3Aの外周面の外径よりも小に構成されている。   As shown in FIGS. 6 to 9, the annular elastic sealing material 11 is branched between the connecting flange portions 2 </ b> A and 3 </ b> A when a set maximum gap S into which the partition plate valve 8 can be inserted is formed between the joint surfaces. A width direction corresponding to the center position between adjacent ones of the connecting flange portions 2A and 3A on the inner peripheral surface thereof, which is integrally formed in an annular shape with a width equal to or substantially equal to the outer surface interval in the direction of the axis X2. The first seal portion 11a is integrally formed at both side positions in the width direction corresponding to the outer peripheral surfaces of the respective connecting flange portions 2A and 3A. And the minimum inner diameter of both the first seal portions 11a and the minimum inner diameter of the second seal portions 11b are the outer diameters of the outer peripheral surfaces of the connecting flange portions 2A and 3A. It is made smaller than.

また、前記環状弾性シール材11の第2シール部11bの一部には、仕切板弁8の差込み移動を許容する開口11cが形成され、この開口11cの周方向両側脇に位置する部位と開口11cに径方向で相対向する部位との合計三箇所には、隙間形成手段Dを構成する分離ボルト13の先端側が径方向外方から貫通する貫通孔11dが形成されている。   In addition, an opening 11c that allows the partition plate valve 8 to be inserted and moved is formed in a part of the second seal portion 11b of the annular elastic sealing material 11, and a portion and an opening located on both sides in the circumferential direction of the opening 11c. Through holes 11d through which the distal ends of the separation bolts 13 constituting the gap forming means D penetrate from the outside in the radial direction are formed at a total of three locations that are opposite to the portion 11c in the radial direction.

前記締付け輪12は、図1〜図6に示すように、環状弾性シール材11の分岐軸芯X2方向幅よりも大きな分岐軸芯X2方向幅に構成された略半円弧状の一対の締付け分割輪12Aと、各締付け分割輪12Aの周方向両端部に固着された連結片12Bのうち、仕切板弁8の抜き差し方向で相対向する連結片12B同士を引寄せ固定するボルト12C・ナット12Dから構成されていて、ボルト12C・ナット12Dが設定トルクで締め付け操作されたとき、第1締結具5の緩み操作に伴う分岐管部2と連結管3との水圧による相対離脱移動を許容する状態で、環状弾性シール材11の両第1シール部11aが両連結フランジ部2A,3Aの外周面に設定圧接力で密封圧接されると同時に、環状弾性シール材11の第2シール部11bが両連結フランジ部2A,3Aの隣接間の環状凹部25に設定圧接力で密封圧接されるように構成されている。   As shown in FIGS. 1 to 6, the tightening ring 12 is a pair of substantially semicircular arc-shaped tightening divisions configured to have a width in the branch axis X2 direction larger than the width in the branch axis X2 direction of the annular elastic sealing material 11. Of the connecting pieces 12B fixed to both ends in the circumferential direction of the ring 12A and the tightening divided wheels 12A, from the bolts 12C and nuts 12D that draw and fix the connecting pieces 12B facing each other in the direction of inserting and removing the partition valve 8 When the bolt 12C and the nut 12D are tightened with the set torque, the relative disengagement movement by the water pressure between the branch pipe portion 2 and the connecting pipe 3 accompanying the loosening operation of the first fastener 5 is permitted. The two first seal portions 11a of the annular elastic seal material 11 are hermetically pressed against the outer peripheral surfaces of the two connecting flange portions 2A and 3A with a set pressure contact force, and at the same time, the second seal portions 11b of the annular elastic seal material 11 are both connected. Flange portions 2A, and is configured to be sealed pressed by setting the annular recess 25 press-contact force between adjacent 3A.

また、一方の締付け分割輪12Aのうち、環状弾性シール材11の開口11に径方向で相対向する周方向中央位置には、仕切板弁8の弁板8Aの横断面形状よりも若干大きな相似形で、かつ、仕切板弁8の抜き差し移動を摺動案内する機能を備えたスリット状の開口12aが貫通形成されているとともに、両締付け分割輪12Aにおける環状弾性シール材11の各貫通孔11dに径方向で相対向する周方向の三箇所には、隙間形成手段Dを構成する分離ボルト13が径方向外方から貫通する貫通孔12bが形成されている。   Further, in one of the clamped divided wheels 12A, a similarity that is slightly larger than the cross-sectional shape of the valve plate 8A of the partition plate valve 8 is provided at a circumferentially central position opposed to the opening 11 of the annular elastic seal material 11 in the radial direction. And a slit-like opening 12a having a function of slidingly guiding the insertion / removal movement of the partition plate valve 8 is formed so as to penetrate therethrough, and each through-hole 11d of the annular elastic sealing material 11 in both tightening split rings 12A. At three locations in the circumferential direction opposite to each other in the radial direction, through holes 12b through which the separation bolts 13 constituting the gap forming means D penetrate from the radially outer side are formed.

前記仕切板弁8は、図3、図4、図6に示すように、前記分岐管部2及び連結管3の内径よりも大で、且つ、第1締結具5のボルト5Aのうち、分岐管部2及び連結管3の管軸芯である分岐軸芯X2を挟んで相対向する両ボルト5Aの対向間隔よりも小なる幅、詳しくは、周方向で隣接する両ボルト5Aの隣接間隔よりも小なる幅、換言すれば、分岐管部2及び連結管3の外径よりも少し大なる幅を有し、かつ、先端縁8aが半円形状に形成された薄板状(当該実施形態では板厚が3.2mm)の弁板8Aと、この弁板8Aの後端縁の中央位置に固着された操作伝達軸8Bと、この操作伝達軸8Bの後端部に螺合固定された操作ハンドル8Cとから構成されている。   As shown in FIGS. 3, 4, and 6, the partition plate valve 8 is larger than the inner diameters of the branch pipe portion 2 and the connection pipe 3, and branches out of the bolts 5 </ b> A of the first fastener 5. A width smaller than the facing interval between the bolts 5A facing each other across the branch axis X2 which is the tube axis of the pipe portion 2 and the connecting tube 3, more specifically, from the adjacent interval between the bolts 5A adjacent in the circumferential direction. In other words, in other words, a thin plate shape having a slightly larger width than the outer diameter of the branch pipe portion 2 and the connecting pipe 3 and the tip edge 8a formed in a semicircular shape (in this embodiment) A valve plate 8A having a plate thickness of 3.2 mm), an operation transmission shaft 8B fixed to the center position of the rear end edge of the valve plate 8A, and an operation screwed and fixed to the rear end portion of the operation transmission shaft 8B And a handle 8C.

また、前記弁板8Aの半円先端縁8aは、それの板厚方向中央位置に先鋭端が位置する状態で断面V字状に面取り加工されている。   The semicircular tip edge 8a of the valve plate 8A is chamfered to have a V-shaped cross section with a sharp end located at the center position in the plate thickness direction.

前記摺動ガイド手段Cを構成するに、図1〜図5に示すように、一方の締付け分割輪12Aに、仕切板弁8の半円弧状先端縁8aの一部がスリット状開口12aに対して摺動自在に入り込む状態で弁板8Aの大部分を収納可能な収納空間14を備えた弁ケース15が固着されているとともに、弁ケース15の後端部に形成された連結フランジ部15Aには、仕切板弁8の操作伝達軸8Bを仕切板弁8の抜き差し方向に移動自在に摺動案内する蓋体16がボルト17にて締付け固定され、更に、蓋体16には、仕切板弁8の操作伝達軸8Bの外周面との間を密封するOリング18が設けられている。   As shown in FIGS. 1 to 5, the sliding guide means C is configured such that a part of the semicircular tip end edge 8a of the partition plate valve 8 is formed with respect to the slit-shaped opening 12a. A valve case 15 having a storage space 14 in which most of the valve plate 8A can be stored while being slidably inserted is fixed to a connecting flange portion 15A formed at the rear end of the valve case 15. A lid body 16 that slides and guides the operation transmission shaft 8B of the partition plate valve 8 so as to be movable in the insertion / removal direction of the partition plate valve 8 is fastened and fixed by bolts 17. Further, the lid body 16 includes a partition plate valve. An O-ring 18 that seals between the outer peripheral surfaces of the eight operation transmission shafts 8B is provided.

前記隙間形成手段Dを構成するに、図2〜図5に示すように、両締付け分割輪12Aの外周面の各貫通孔12bに臨む部位には、分離ボルト13の雄ネジ部13aに螺合する雌ネジ部20aを備えたネジ筒体20が固着されているとともに、各分離ボルト13の先端部には、両連結フランジ部2A,3Aの隣接間の環状凹部25に対して径方向外方から進入することにより、第1締結具5のボルト5A・袋ナット5Bの緩み操作代の範囲内で両連結フランジ部2A,3Aの接合面間を押し広げるテーパー面13bが形成されている。   As shown in FIGS. 2 to 5, the gap forming means D is screwed into the male threaded portion 13 a of the separation bolt 13 at a portion facing the respective through holes 12 b on the outer peripheral surface of the tightening split ring 12 </ b> A. A threaded cylindrical body 20 having a female threaded portion 20a is fixed, and the distal end portion of each separation bolt 13 is radially outward with respect to the annular recess 25 between the adjacent connecting flange portions 2A and 3A. The taper surface 13b which pushes between the joint surfaces of both the connecting flange portions 2A and 3A within the range of the loosening operation allowance of the bolt 5A and the cap nut 5B of the first fastener 5 is formed.

更に、前記各分離ボルト13は、図6に示すように、それのボルト軸芯が仕切板弁8の弁体8Aの移動平面を通る平面上又はその近傍に位置する状態で締付け輪12の各締付け分割輪12Aに取付けられているとともに、各分離ボルト13の後端部には、ネジ筒体20の外部からレンチ等の操作具で螺合操作するための操作係合穴13cが形成され、更に、ネジ筒体20の内周面には、各分離ボルト13の外周面との間を密封するOリング21が設けられている。   Further, as shown in FIG. 6, each of the separating bolts 13 has each bolt shaft core positioned on or near a plane passing through the plane of movement of the valve body 8 </ b> A of the partition plate valve 8. An operation engagement hole 13c is formed at the rear end portion of each separation bolt 13 and screwed with an operation tool such as a wrench from the outside of the screw cylinder body 20, and is attached to the tightening split ring 12A. Furthermore, an O-ring 21 that seals between the outer peripheral surface of each separation bolt 13 is provided on the inner peripheral surface of the screw cylinder 20.

また、前記第1締結具5の防水仕様用のボルト5Aにおける頭部の当接面及び防水仕様用の袋ナット5Bの当接面の各々には、分岐管部2の連結フランジ部2Aの外面又は連結管3の上流側連結フランジ部3Aの外面との間を密封するOリング22,23が設けられている。   Further, the outer surface of the connecting flange portion 2A of the branch pipe portion 2 is provided on each of the contact surface of the head of the waterproof bolt 5A of the first fastener 5 and the contact surface of the cap nut 5B for waterproof specification. Alternatively, O-rings 22 and 23 are provided for sealing between the upstream surface of the upstream side connecting flange portion 3A of the connecting pipe 3.

そのため、分岐管部2の連結フランジ部2Aと連結管3の連結フランジ部3Aとを締付け連結している第1締結具5の緩み操作に連れて両連結フランジ部2A,3A間に隙間Sが発生しても、一方の連結フランジ部3Aとボルト5Aの頭部との当接、及び他方の連結フランジ部2Aと袋ナット5Bとの当接が維持されているので、それらの各当接面間に位置するOリング22,23によって、連結フランジ部2A,3Aに貫通形成されているボルト挿通孔を通しての流体の漏洩を抑制することができる。   Therefore, a clearance S is formed between the connecting flange portions 2A and 3A in accordance with the loosening operation of the first fastener 5 that tightens and connects the connecting flange portion 2A of the branch pipe portion 2 and the connecting flange portion 3A of the connecting tube 3. Even if it occurs, the contact between the one connecting flange portion 3A and the head of the bolt 5A and the contact between the other connecting flange portion 2A and the cap nut 5B are maintained. The O-rings 22 and 23 located between them can suppress fluid leakage through the bolt insertion holes formed through the connecting flange portions 2A and 3A.

次に、上述の如く構成された管内流路遮断装置Aを用いての流体配管系統の流路遮断方法について説明する。
先ず、分岐管部2の連結フランジ部2Aと連結管3の連結フランジ部3Aとを締付け連結している第1締結具5の通常仕様の複数組のボルト5C,5D(図18参照)を、一組又は二組単位で防水仕様のボルト5A・袋ナット5Bに取り替える。
Next, a flow path blocking method for a fluid piping system using the in-pipe flow path blocking apparatus A configured as described above will be described.
First, a plurality of bolts 5C and 5D (refer to FIG. 18) of the normal specification of the first fastener 5 that tightens and connects the connecting flange portion 2A of the branch pipe portion 2 and the connecting flange portion 3A of the connecting tube 3; Replace with waterproof bolts 5A and cap nuts 5B in one or two sets.

図1、図2に示すように、遮断作業カバーBの環状弾性シール材11を弾性復元力に抗して拡径変形させた状態で補修弁6を経由して分岐管部2の連結フランジ部2Aの外周面と連結管3の上流側連結フランジ部3Aの外周面とにわたる部位に外装すると、この環状弾性シール材11の縮径側への弾性復帰により、環状弾性シール材11の両第1シール部11aが両連結フランジ部2A,3Aの外周面に設定圧接力よりも小さな弾性力で圧接されると同時に、環状弾性シール材11の第2シール部11bが両連結フランジ部2A,3Aの隣接間に形成されている環状凹部25に一部が入り込む状態で設定圧接力よりも小さな弾性力で圧接され、環状弾性シール材11が両連結フランジ部2A,3Aに弾性力で保持される。   As shown in FIGS. 1 and 2, the connecting flange portion of the branch pipe portion 2 via the repair valve 6 in a state in which the annular elastic sealing material 11 of the blocking work cover B is expanded and deformed against the elastic restoring force. When the outer circumferential surface of 2A and the outer circumferential surface of the upstream connecting flange portion 3A of the connecting pipe 3 are mounted on the outer surface, the first elastic elastic material 11 is restored to the reduced diameter side by the elastic return of the annular elastic sealing material 11 to the first side. The seal portion 11a is pressed against the outer peripheral surfaces of both the connecting flange portions 2A and 3A with an elastic force smaller than the set pressure contact force, and at the same time, the second seal portion 11b of the annular elastic sealing material 11 is connected to both the connecting flange portions 2A and 3A. In a state where a part thereof enters the annular recess 25 formed between adjacent ones, the annular elastic seal material 11 is held by both the connecting flange portions 2A and 3A with an elastic force.

次に、前記環状弾性シール材11の外周面に遮断作業カバーBの一対の締付け分割輪12Aを当て付け、各締付け分割輪12Aの周方向両端部に固着された連結片12Bのうち、仕切板弁8の抜き差し方向で相対向する連結片12B同士を、ボルト12C・ナット12Dにて引寄せ固定し、第1締結具5の緩み操作に伴う分岐管部2と連結管3との水圧による相対離脱移動を許容する状態で、環状弾性シール材11の両第1シール部11aが両連結フランジ部2A,3Aの外周面に設定圧接力で密封圧接されると同時に、環状弾性シール材11の第2シール部11bが両連結フランジ部2A,3Aの隣接間の環状凹部25に設定圧接力で密封圧接される。   Next, a pair of tightening split rings 12A of the blocking work cover B is applied to the outer peripheral surface of the annular elastic seal material 11, and the partition plate among the connecting pieces 12B fixed to both circumferential ends of each tightening split ring 12A. The connecting pieces 12B facing each other in the direction of inserting / removing the valve 8 are attracted and fixed with bolts 12C and nuts 12D, and relative to each other by the hydraulic pressure between the branch pipe portion 2 and the connecting pipe 3 due to the loosening operation of the first fastener 5. In a state in which the detachment movement is allowed, both the first seal portions 11a of the annular elastic seal material 11 are sealed and pressed to the outer peripheral surfaces of the both connecting flange portions 2A and 3A with a set pressure contact force. The two seal portions 11b are hermetically pressure-welded to the annular recess 25 between the adjacent portions of both the connecting flange portions 2A and 3A with a set pressure contact force.

このように遮断作業カバーBが分岐管部2及び連結管3に取付けられた状態では、仕切板弁8の薄板状弁板8Aの大部分が、摺動ガイド手段Cを構成する弁ケース15の収納空間14内に収納され、仕切板弁8の半円弧状先端縁8aの一部のみが締付け輪12のスリット状開口12aに摺動自在に入り込んでいる。   In this state where the blocking work cover B is attached to the branch pipe portion 2 and the connecting pipe 3, most of the thin plate-like valve plate 8 </ b> A of the partition plate valve 8 is the valve case 15 constituting the sliding guide means C. Only a part of the semicircular tip end edge 8 a of the partition valve 8 is slidably inserted into the slit-shaped opening 12 a of the fastening ring 12.

また、第1締結具5のボルト5A・袋ナット5Bの緩み操作代の範囲内で両連結フランジ部2A,3Aの接合面間を押し広げるための隙間形成手段Dを構成する各分離ボルト13は、それのテーパー面13bが両連結フランジ部2A,3Aの隣接間の環状凹部25に臨むだけで、それ以外の大部分は両締付け分割輪12Aの外周面に固着されたネジ筒体20内に保持されている。   In addition, each separating bolt 13 constituting the gap forming means D for expanding the space between the joint surfaces of the two connecting flange portions 2A and 3A within the range of the loosening operation allowance of the bolt 5A and the cap nut 5B of the first fastener 5 is The taper surface 13b only faces the annular recess 25 between the two adjacent connecting flange portions 2A and 3A, and most of the remaining portion is in the screw cylinder 20 fixed to the outer peripheral surface of the tightening split ring 12A. Is retained.

次に、第1締結具5のボルト5A・袋ナット5Bを設定隙間Sに相当する寸法分だけ緩み操作して、両連結フランジ部2A,3Aの接合面間に、仕切板弁8の薄板状弁板8Aが少し余裕をもって進入可能な隙間Sを現出する。このとき、各分離ボルト13の後端部(径方向外方側端部)に形成されている操作係合穴13cをレンチ等の操作具で回転操作して、両連結フランジ部2A,3Aの隣接間の環状凹部25に臨む各分離ボルト13のテーパー面13bを径方向内方側に螺合移動させ、第1締結具5の緩み操作代の範囲内で両連結フランジ部2A,3A間を強制的に押し広げる。   Next, the bolt 5A and the cap nut 5B of the first fastener 5 are loosened by a dimension corresponding to the set gap S, and the thin plate-like shape of the partition plate valve 8 is formed between the joint surfaces of both the connecting flange portions 2A and 3A. A gap S that allows the valve plate 8A to enter with a slight margin appears. At this time, the operation engagement hole 13c formed in the rear end portion (radially outward end portion) of each separation bolt 13 is rotated with an operation tool such as a wrench, so that both the connecting flange portions 2A and 3A The tapered surface 13b of each separation bolt 13 facing the annular recess 25 between adjacent ones is screwed and moved inward in the radial direction, and between the connecting flange portions 2A and 3A within the range of the loosening operation allowance of the first fastener 5. Force to spread.

それ故に、連結フランジ部2A,3Aを締付け連結している第1締結具5を緩み操作しても、両連結フランジ部2A,3A間に緩み操作代に相当する隙間Sが形成されなかったり、或いは、フランジ接合箇所に存在する融通範囲内で分岐管部2の連結フランジ部2Aに対して連結管3の上流側連結フランジ部3Aが傾動しても、遮断作業カバーBの周方向複数箇所に設けられている分離ボルト13によって、第1締結具5の緩み操作代の範囲内で両連結フランジ部2A,3A間を強制的に押し広げることにより、両連結フランジ部2A,3A間に緩み操作代に相当する設定隙間Sを確実に形成することができるとともに、その設定隙間Sの周方向での開口幅の均等化を図ることができるので、分岐管部2及び連結管3に装着した遮断作業カバーBによって両連結フランジ部2A,3Aの外周を密封状態に囲繞しながらも、遮断作業カバーBに設けられている仕切板弁8の薄板状弁板8Aを両連結フランジ部2A,3Aの接合面間の設定隙間Sにおける分岐管部2及び連結管3の分岐軸芯X2を挟んで相対向する両ボルト5Aの対向間隔、詳しくは、周方向で隣接する両ボルト5Aの隣接間隔を通して流路遮断位置にまで確実、スムーズに差し込み操作することができる。   Therefore, even if the first fastener 5 that has tightened and connected the connecting flange portions 2A and 3A is loosened, a gap S corresponding to the loosening operation allowance is not formed between the two connecting flange portions 2A and 3A. Alternatively, even if the upstream side connecting flange portion 3A of the connecting pipe 3 is tilted with respect to the connecting flange portion 2A of the branch pipe portion 2 within the interchangeable range existing at the flange joint location, the blocking work cover B is provided at a plurality of locations in the circumferential direction. The separation bolt 13 provided forcibly pushes and spreads between the two connecting flange portions 2A and 3A within the range of the loosening operation allowance of the first fastener 5 so that the loosening operation is performed between the two connecting flange portions 2A and 3A. Since the set gap S corresponding to the cost can be reliably formed and the opening width in the circumferential direction of the set gap S can be equalized, the blocking attached to the branch pipe portion 2 and the connecting pipe 3 Work cover Although the outer periphery of both connection flange parts 2A and 3A is enclosed by B in a sealed state, the thin plate-like valve plate 8A of the partition valve 8 provided on the shut-off work cover B is joined to the connection surface of both connection flange parts 2A and 3A. The gap between the two bolts 5A facing each other across the branch pipe portion 2 and the branch axis X2 of the connecting pipe 3 in the set gap S between them, more specifically, the flow path is blocked through the adjacent distance between the two bolts 5A adjacent in the circumferential direction. It can be inserted securely and smoothly up to the position.

そして、図10に示すように、両連結フランジ部2A,3Aの接合面間の設定隙間Sにおける周方向で隣接する両ボルト5Aの隣接間隔を通して仕切板弁8の薄板状弁板8Aを流路遮断位置にまで差し込み操作すると、分岐管部2の連結フランジ部2Aと連結管3の上流側連結フランジ部3Aとの間において、水道管1の管軸芯X1に対して直交する分岐軸芯X2方向の管内流路Wが遮断される。   Then, as shown in FIG. 10, the flow is made to flow through the thin plate-like valve plate 8A of the partition plate valve 8 through the adjacent interval between both bolts 5A adjacent in the circumferential direction in the set gap S between the joint surfaces of both the connecting flange portions 2A and 3A. When inserted to the blocking position, the branch axis X2 perpendicular to the pipe axis X1 of the water pipe 1 between the connection flange 2A of the branch pipe 2 and the upstream side connection flange 3A of the connection pipe 3 is used. The in-tube flow path W in the direction is blocked.

次に、分岐管部2の連結フランジ部2Aと連結管3の上流側連結フランジ部3Aとの接合面間に介装されるシール材の一例であるシートパッキン4が、仕切板弁8の薄板状弁板8Aの流路遮断位置への差し込み操作によって損傷していない又は劣化していない場合には、図11に示すように、上述の管内流路Wの遮断状態において、連結管3の下流側連結フランジ部3Bと補修弁6の上流側連結フランジ部6Aとを締付け連結している第2締結具7のボルト7A・ナット7Bを取り外し、新たな補修弁6に取り替える。   Next, the sheet packing 4, which is an example of a sealing material interposed between the joint surfaces of the connecting flange portion 2 </ b> A of the branch pipe portion 2 and the upstream side connecting flange portion 3 </ b> A of the connecting pipe 3, is a thin plate of the partition plate valve 8. When the valve plate 8A is not damaged or deteriorated by the operation of inserting the valve plate 8A into the flow path blocking position, as shown in FIG. The bolts 7A and nuts 7B of the second fastener 7 that fasten and connect the side connection flange portion 3B and the upstream side connection flange portion 6A of the repair valve 6 are removed and replaced with a new repair valve 6.

新たな補修弁6の取り替えが終了すると、流路遮断位置にある仕切板弁8の薄板状弁板8Aを、両連結フランジ部2A,3Aの接合面間の設定隙間Sにおける周方向で隣接する両ボルト5Aの隣接間隔を通して流路開放位置にまで引き抜き操作するとともに、遮断作業カバーBの周方向複数箇所に設けられている分離ボルト13を隙間解除位置にまで緩み操作したのち、第1締結具5のボルト5A・袋ナット5Bを締め付け操作して、分岐管部2の連結フランジ部2Aと連結管3の上流側連結フランジ部3Aとを密封状態で締付け連結する。その後、分岐管部2及び連結管3から遮断作業カバーBを撤去したのち、第1締結具5の防水仕様のボルト5A・袋ナット5Bを、一組又は二組単位で通常仕様のボルト5C,5Dに取り替える。   When the replacement of the new repair valve 6 is completed, the thin plate-like valve plate 8A of the partition plate valve 8 at the flow passage blocking position is adjacent in the circumferential direction in the setting gap S between the joint surfaces of the two connecting flange portions 2A and 3A. The first fastener is operated after pulling out to the channel opening position through the adjacent distance between both bolts 5A and loosening the separation bolts 13 provided at a plurality of locations in the circumferential direction of the blocking work cover B to the clearance release position. 5 is tightened and the connecting flange portion 2A of the branch pipe portion 2 and the upstream side connecting flange portion 3A of the connecting tube 3 are tightened and connected in a sealed state. Then, after removing the blocking work cover B from the branch pipe portion 2 and the connecting pipe 3, the waterproof bolt 5A and the cap nut 5B of the first fastener 5 are connected to the normal specification bolt 5C in one or two sets. Replace with 5D.

また、分岐管部2の連結フランジ部2Aと連結管3の上流側連結フランジ部3Aとの接合面間に介装されるシール材の一例であるシートパッキン4が、仕切板弁8の薄板状弁板8Aの流路遮断位置への差し込み操作によって損傷するか、又は劣化していて、新しいシートパッキン4と取り替える必要が生じた場合には、補修弁6を取り外して作業用開閉弁52を取付け、この作業用開閉弁52に、下流側管部としての連結管3内の流路Wを通して上流側管部としての分岐管部2内の流路Wを遮断する流路遮断装置Eを取り付け、シートパッキン4及び補修弁6を取り替える方法を採ることになる。   Further, the sheet packing 4 as an example of a sealing material interposed between the joint surfaces of the connecting flange portion 2A of the branch pipe portion 2 and the upstream side connecting flange portion 3A of the connecting pipe 3 is a thin plate shape of the partition plate valve 8. If the valve plate 8A is damaged or deteriorated due to the operation of inserting the valve plate 8A into the flow path blocking position, and it is necessary to replace it with a new seat packing 4, the repair valve 6 is removed and the work on / off valve 52 is attached. In addition, a flow path blocking device E that blocks the flow path W in the branch pipe section 2 as the upstream pipe section through the flow path W in the connection pipe 3 as the downstream pipe section is attached to the on-off valve 52 for work. A method of replacing the seat packing 4 and the repair valve 6 is adopted.

この方法に使用される流路遮断装置Eは、図12〜図17に示すように、作業用開閉弁52の下流側連結フランジ部52Bに対して密封状態で連結可能な連結フランジ部54Aを備えた有底筒状の蓋体54の底壁部54Bに、この底壁部54Bの中央部を密封状態で軸芯方向に摺動自在に貫通する筒状の第1操作軸55と、この第1操作軸55内を軸芯方向に摺動自在に貫通する第2操作軸56とが設けられ、この第1操作軸55及び第2操作軸56の内端側には、分岐管部2内の流路Wを遮断するための閉塞手段Fと、この閉塞手段Fによる遮蔽箇所よりも上流側の大径管壁部、つまり、水道管1の分岐流路開口周縁に対して係合可能な拡径姿勢に屈曲しながら張り出す係止リンク57,58対を備えた抜止め手段Gが設けられているとともに、閉塞手段F及び抜止め手段Gを外部から両操作軸55,56を介して操作する操作手段Hが設けられている。   As shown in FIGS. 12 to 17, the flow path blocking device E used in this method includes a connection flange portion 54 </ b> A that can be connected in a sealed state to the downstream connection flange portion 52 </ b> B of the work on / off valve 52. A cylindrical first operating shaft 55 is formed in the bottom wall portion 54B of the bottomed cylindrical lid body 54 so as to slidably pass through the central portion of the bottom wall portion 54B in the axial direction in a sealed state. A second operating shaft 56 that slidably passes through the first operating shaft 55 in the axial direction is provided, and the inner ends of the first operating shaft 55 and the second operating shaft 56 are provided in the branch pipe section 2. Is capable of engaging with a closing means F for blocking the flow path W and a large-diameter pipe wall portion upstream of the shielding portion by the closing means F, that is, the periphery of the branch flow path opening of the water pipe 1 When a retaining means G having a pair of locking links 57 and 58 projecting while bending in an expanded posture is provided. , The operating means H is provided for operating through both operating shaft 55, 56 a closing means F and the retaining means G from the outside.

次に、前記閉塞手段Fについて説明する。
図16に示すように、第1操作軸55の内端部に、円環状の押圧面60A及び先端側に向かって同芯円で開口する中空部60Bを備えた第1押圧板60が外嵌固定され、第2操作軸56の内端側には、第1押圧板60の押圧面60Aと軸芯方向で相対向する円環状の押圧面61A及び第1押圧板60の中空部60Bに対して軸芯方向から摺動自在に内嵌する筒状部61Bを備えた第2押圧板61が、軸芯方向に摺動自在に外嵌されているとともに、第2操作軸56に対する第2押圧板61の上流側への最大移動位置を設定するストッパー用のナット62とロック用のナット63が、第2操作軸56の内端側に形成されたネジ軸部56aに螺合されている。
Next, the closing means F will be described.
As shown in FIG. 16, the first pressing plate 60 having an annular pressing surface 60 </ b> A and a hollow portion 60 </ b> B opening concentrically toward the tip side is fitted on the inner end portion of the first operating shaft 55. Fixed to the inner end side of the second operating shaft 56, the annular pressing surface 61A opposite to the pressing surface 60A of the first pressing plate 60 in the axial direction and the hollow portion 60B of the first pressing plate 60. The second pressing plate 61 having a cylindrical portion 61B that is slidably fitted in the axial direction is externally slidably fitted in the axial direction, and the second pressing force is applied to the second operating shaft 56. A stopper nut 62 and a lock nut 63 for setting the maximum moving position of the plate 61 to the upstream side are screwed into a screw shaft portion 56 a formed on the inner end side of the second operation shaft 56.

前記第1押圧板60の外径及び第2押圧板61の外径は、蓋体54内の格納室54Cから作業用開閉弁52及び連結管3を通して水道管1の分岐管部2内に出し入れ操作することができるように、分岐管部2と連結管3の各内径及び作業用開閉弁52のボール弁体52Cにおける流路52Dの内径よりも小なる外径に形成されている。   The outer diameter of the first pressing plate 60 and the outer diameter of the second pressing plate 61 are taken in and out of the branch pipe portion 2 of the water pipe 1 from the storage chamber 54C in the lid 54 through the work on-off valve 52 and the connecting pipe 3. The inner diameter of the branch pipe portion 2 and the connecting pipe 3 and the outer diameter smaller than the inner diameter of the flow path 52D in the ball valve body 52C of the work on-off valve 52 are formed so that they can be operated.

また、前記第2押圧板61の筒状部61Bには、非加圧状態(自然状態)で作業用開閉弁52のボール弁体52Cにおける流路52Dの内径よりも小なる外径に形成され、かつ、両押圧板60,61の押圧面60A,61Aによる軸芯方向からの挟圧により、分岐管部2の内周壁面に密着する拡径状態に弾性変形してその内周壁面と両押圧板60,61の外周部との間を遮蔽するゴム製の拡径用弾性体59が外装されている。   Further, the cylindrical portion 61B of the second pressing plate 61 is formed to have an outer diameter smaller than the inner diameter of the flow path 52D in the ball valve body 52C of the work on-off valve 52 in a non-pressurized state (natural state). In addition, due to the pinching force in the axial direction by the pressing surfaces 60A and 61A of the pressing plates 60 and 61, the inner peripheral wall surface and the inner peripheral wall surface are both elastically deformed into a diameter-expanded state in close contact with the inner peripheral wall surface of the branch pipe portion 2. An elastic body 59 for expanding the diameter of rubber that shields between the outer peripheral portions of the pressing plates 60 and 61 is covered.

前記拡径用弾性体59の軸芯方向中央部は、図12〜図14に示すように、軸芯方向両端部よりも大径に構成されているとともに、その大径中央部の外周面は、それの軸芯方向中央位置が最も外方に突出する部分球状面に形成されている。   As shown in FIGS. 12 to 14, the central part in the axial direction of the diameter-enlarging elastic body 59 is configured to have a larger diameter than both ends in the axial direction, and the outer peripheral surface of the large-diameter central part is The central position in the axial direction is formed on a partially spherical surface that protrudes outward most.

また、図16に示すように、前記第1押圧板60の押圧面60Aの外周側端面部分及び第2押圧板61の押圧面61Aの外周側端面部分の各々が、拡径用弾性体59の両端面における外周側環状傾斜面59aに対して軸芯方向から密着接当するように、半径方向外方ほど拡径用弾性体59の軸芯方向中央位置側に位置する環状傾斜押圧面に形成されているとともに、第1押圧板60の押圧面60Aの外周縁側及び第2押圧板61の押圧面61Aの外周縁には、拡径用弾性体59の軸芯方向両端部の外周面に接触状態で外嵌な環状押さえ部60C,61Cが形成されている。   Further, as shown in FIG. 16, each of the outer peripheral side end surface portion of the pressing surface 60 </ b> A of the first pressing plate 60 and the outer peripheral side end surface portion of the pressing surface 61 </ b> A of the second pressing plate 61 Formed on the annular inclined pressing surface located closer to the center position in the axial direction of the diameter-enlarging elastic body 59 toward the outer side in the radial direction so as to come into close contact with the outer peripheral annular inclined surface 59a on both end surfaces from the axial direction. In addition, the outer peripheral edge of the pressing surface 60A of the first pressing plate 60 and the outer peripheral edge of the pressing surface 61A of the second pressing plate 61 are in contact with the outer peripheral surfaces of both ends in the axial direction of the elastic body 59 for diameter expansion. The annular pressing portions 60C and 61C that are externally fitted in the state are formed.

次に、前記抜止め手段Gについて説明する。
図16に示すように、第2押圧板61の上流側端面の周方向三箇所に、下流側の係止リンク58の端部が揺動自在に枢支連結される板状の連結部65が固着されているとともに、第2操作軸56の内端側ネジ軸部56aに摺動自在に外嵌された取付け筒体66の外周面の周方向三箇所には、上流側の係止リンク57の端部が揺動自在に枢支連結される板状の連結部67が固着され、更に、第2操作軸56に対する取付け筒体66の上流側への最大移動位置を設定するストッパー用のナット68が、第2操作軸56の内端側ネジ軸部56aの先端側に螺合されている。
Next, the retaining means G will be described.
As shown in FIG. 16, plate-like connecting portions 65, in which the end portions of the downstream side locking links 58 are pivotally connected at three locations in the circumferential direction of the upstream side end surface of the second pressing plate 61, are swingably supported. At the three circumferential positions of the outer peripheral surface of the mounting cylinder 66 that is fixedly attached and slidably fitted to the inner end side screw shaft portion 56 a of the second operation shaft 56, there are upstream locking links 57. A plate-like connecting portion 67 whose end is pivotally connected so as to be swingable is fixed, and a stopper nut for setting the maximum moving position of the mounting cylinder 66 upstream of the second operating shaft 56 is fixed. 68 is screwed to the tip end side of the inner end side screw shaft portion 56 a of the second operation shaft 56.

そして、第2押圧板61の連結部65と取付け筒体66の連結部67とのうち、軸芯方向で相対向する三組の連結部65,67に亘って夫々係止リンク57,58対が枢支連結されていて、図16に示すように、第1操作軸55に対する第2操作軸56の外端側への摺動に連動して、拡径用弾性体59による遮蔽箇所よりも上流側の内周壁面、つまり、水道管1の分岐流路開口周縁に対して係合可能な拡径姿勢に屈曲しながら張り出すように構成されているとともに、図12、図13に示すように、抜止め手段Jの係止リンク57,58対が縮径姿勢に伸展されたとき、係止リンク57,58対の屈曲枢支部P2が径方向外方に突出位置する外側腰折れ姿勢、つまり、係止リンク57,58対の屈曲枢支連結点P2が、取付け筒体66の連結部67に対する枢支連結点P1と第2押圧板61の連結部65に対する枢支連結点P3とを結ぶ線分よりも径方向外方に突出位置する外側腰折れ姿勢に接当規制する反転防止手段Jが設けられている。   And among the connection part 65 of the 2nd press board 61, and the connection part 67 of the attachment cylinder 66, it is respectively set to 3 sets of connection parts 65 and 67 which mutually oppose in an axial direction, and 57 links | As shown in FIG. 16, in conjunction with the sliding of the second operation shaft 56 to the outer end side, as shown in FIG. As shown in FIGS. 12 and 13, the inner peripheral wall surface on the upstream side, that is, the outer peripheral wall of the water pipe 1, is configured to be bent while being bent so as to be able to engage with the periphery of the branch channel opening. Further, when the pair of locking links 57, 58 of the retaining means J are extended to the reduced diameter posture, the outer hip folded posture in which the bent pivot portion P2 of the locking links 57, 58 pair protrudes radially outward, that is, The bending pivot connection point P2 of the pair of locking links 57 and 58 is connected to the mounting cylinder 66. Inversion prevention means J for restricting contact with an outer waist folded posture that protrudes radially outward from a line segment connecting a pivot connection point P1 with respect to 67 and a pivot connection point P3 with respect to the coupling portion 65 of the second pressing plate 61. Is provided.

前記反転防止手段Jを構成するに、図16に示すように、取付け筒体66の下流側端部に、径方向内方に伸展揺動する三つの上流側係止リンク57の側辺に当接して、各上流側係止リンク57を最も線分に近接する設定限界の外側腰折れ姿勢で受止めるリング状の弾性矯正体71が装着されている。   As shown in FIG. 16, the inversion preventing means J is arranged at the downstream end of the mounting cylinder 66 against the sides of the three upstream locking links 57 extending and swinging radially inward. In contact with each other, a ring-shaped elastic corrector 71 is mounted to receive each upstream side locking link 57 in a setting limit outer waist folded position closest to the line segment.

次に、前記操作手段Hについて説明する。
図12〜図15に示すように、前記第1操作軸55は、第1押圧板60に対して軸芯方向から嵌合固定される長尺の操作本体筒軸55Aと、この操作本体筒軸55Aの外端側に嵌合固定される操作延長筒軸55Bとからなり、この操作延長筒軸55Bの内周面が正六角形の異径内周面に形成されている。
Next, the operation means H will be described.
As shown in FIGS. 12 to 15, the first operation shaft 55 includes a long operation main body cylinder shaft 55 </ b> A that is fitted and fixed to the first pressing plate 60 from the axial direction, and the operation main body cylinder shaft. The operation extension cylinder shaft 55B is fitted and fixed to the outer end side of 55A. The inner peripheral surface of the operation extension cylinder shaft 55B is formed as a regular hexagonal different diameter inner peripheral surface.

前記第2操作軸56は、内端側ネジ軸部56aを備えた長尺の操作本体軸56Aと、この操作本体軸56Aの外端側に螺合固定される操作延長軸56Bとからなり、この操作延長軸56Bには、第1操作軸55の操作延長筒軸55Bの端部にスラストベアリング75を介して当接可能な操作ネジ部材76が螺合する外端側ネジ軸部56bと、第1操作軸55の操作延長筒軸55Bに相対回転不能な状態で軸芯方向にのみ摺動自在に嵌合する外周面が正六角形に形成された大径の角軸部56cが形成されている。   The second operation shaft 56 includes a long operation body shaft 56A having an inner end side screw shaft portion 56a and an operation extension shaft 56B screwed and fixed to the outer end side of the operation body shaft 56A. The operation extension shaft 56B includes an outer end side screw shaft portion 56b in which an operation screw member 76 that can be brought into contact with the end portion of the operation extension cylinder shaft 55B of the first operation shaft 55 via a thrust bearing 75 is screwed. A large-diameter angular shaft portion 56c having a regular hexagonal outer peripheral surface that is slidably fitted only in the axial direction in a state in which the first operation shaft 55 is not rotatable relative to the operation extension cylinder shaft 55B is formed. Yes.

そして、前記操作ネジ部材76を締付け側に螺合操作すると、図15に示すように、第2操作軸56に対して第1操作軸55が内端側に押込み摺動され、第2押圧板61に対する第1押圧板60の近接移動に伴う挟圧作用により、非圧縮状態にある拡径用弾性体59が分岐管部2の内周壁面に密着する拡径状態に弾性変形して、その分岐管部2内の流路Wを密封状態で遮蔽する。   Then, when the operation screw member 76 is screwed to the tightening side, the first operation shaft 55 is pushed and slid to the inner end side with respect to the second operation shaft 56 as shown in FIG. Due to the clamping action accompanying the proximity movement of the first pressing plate 60 with respect to 61, the elastic body 59 for diameter expansion in an uncompressed state is elastically deformed into a diameter expansion state in close contact with the inner peripheral wall surface of the branch pipe portion 2, The flow path W in the branch pipe part 2 is shielded in a sealed state.

また、前記第1操作軸55の操作延長筒軸55Bには、一対の第1押え操作杆77が脱着自在に嵌合保持されているとともに、この両第1押え操作杆77には、第2操作軸56の操作延長軸56Bに脱着自在に嵌合保持された第2押え操作杆78に対して係脱操作自在で、係合状態では水圧に抗して第1操作軸55に対する第2操作軸56の外端側への摺動を阻止する第1係止リング79と、蓋体54の底壁部54Bに固着されたL型の一対の係止片80に対して係脱操作自在で、係合状態では水圧に抗して蓋体54に対する第1操作軸55の外端側への摺動を阻止する第2係止リング81が設けられている。   In addition, a pair of first presser operation rods 77 are detachably fitted and held on the operation extension cylinder shaft 55B of the first operation shaft 55, and the first presser operation rods 77 include a second The second presser foot 78 that is detachably fitted to and held by the operation extension shaft 56B of the operation shaft 56 can be freely engaged and disengaged, and in the engaged state, the second operation with respect to the first operation shaft 55 against water pressure. The first locking ring 79 that prevents the shaft 56 from sliding toward the outer end side and the pair of L-shaped locking pieces 80 fixed to the bottom wall portion 54B of the lid body 54 can be freely engaged and disengaged. In the engaged state, a second locking ring 81 is provided that prevents sliding of the first operating shaft 55 to the outer end side with respect to the lid 54 against water pressure.

次に、上述の如く構成された流路遮断装置Eを用いてのシートパッキン4及び補修弁6を取り替える方法を説明する。
[1]図11に示すように、前記連結管3の下流側連結フランジ部3Aと取り替え対象の補修弁6の上流側連結フランジ部6Aとを締付け連結している第2締結具7のボルト7A・ナット7Bを緩み操作して、取り替え対象の補修弁6を取り外したのち、連結管3の下流側連結フランジ部3Aに、作業用開閉弁52の上流側連結フランジ部52Aを第2締結具7のボルト7A・ナット7Bで締付け連結する。
Next, a method for replacing the seat packing 4 and the repair valve 6 using the flow path blocking device E configured as described above will be described.
[1] As shown in FIG. 11, the bolt 7A of the second fastener 7 that fastens and connects the downstream connection flange portion 3A of the connection pipe 3 and the upstream connection flange portion 6A of the repair valve 6 to be replaced. After loosening the nut 7B and removing the repair valve 6 to be replaced, the upstream connecting flange portion 52A of the work on-off valve 52 is connected to the downstream connecting flange portion 3A of the connecting pipe 3 with the second fastener 7 The bolts 7A and nuts 7B are tightened and connected.

[2]図12に示すように、作業用開閉弁52のボール弁体52Cを閉じ操作し、流路遮断位置にある仕切板弁8の薄板状弁板8Aを流路開放位置にまで引き抜き操作したのち、作業用開閉弁52の下流側連結フランジ部52Bに、流路遮断装置Eの蓋体54の連結フランジ部54Aを第2締結具7のボルト7A・ナット7Bで締付け連結する。   [2] As shown in FIG. 12, the ball valve body 52C of the working on-off valve 52 is closed, and the thin plate-like valve plate 8A of the partition plate valve 8 at the flow path blocking position is pulled out to the flow path opening position. After that, the connection flange portion 54A of the lid 54 of the flow path shutoff device E is fastened and connected to the downstream connection flange portion 52B of the work on-off valve 52 with the bolt 7A and the nut 7B of the second fastener 7.

このとき、一対の第1係止リング79を第2押え操作杆78に係合させたまま、一対の第2係止リング81を蓋体54の両係止片80から取り外し、両操作軸55,56を蓋体54に対して上方に引き上げ移動させ、閉塞手段F及び抜止め手段Gを蓋体54の格納室54C内に格納する。   At this time, with the pair of first locking rings 79 engaged with the second presser operating rod 78, the pair of second locking rings 81 is removed from both the locking pieces 80 of the lid 54, and both the operation shafts 55 are removed. , 56 are moved upward with respect to the lid 54, and the closing means F and the retaining means G are stored in the storage chamber 54C of the lid 54.

また、両操作軸55,56の軸芯方向での位置関係は、両第1係止リング79によって規制されていて、その状態では両押圧板60,61の対向間隔が拡径用弾性体59を圧縮しない又はそれに近い間隔に設定されているため、拡径用弾性体59は縮径状態に維持されている。   Further, the positional relationship between the operation shafts 55 and 56 in the axial direction is regulated by the first locking rings 79, and in this state, the opposing distance between the pressing plates 60 and 61 is the diameter-enlarging elastic body 59. Is not compressed or set at an interval close thereto, the diameter-enlarging elastic body 59 is maintained in a reduced diameter state.

[3]図13に示すように、作業用開閉弁52を開き操作して、両操作軸55,56を蓋体54に対して下方に押し込み移動させ、一対の第2係止リング81を蓋体54の両係止片80に係合して、両操作軸55,56を押し込み操作位置に保持する。
このとき、抜止め手段Gは、分岐管部2内の流路Wよりも横断面積の大きな水道管1内に位置している。
[3] As shown in FIG. 13, the operation on-off valve 52 is opened, both the operating shafts 55 and 56 are pushed and moved downward with respect to the lid 54, and the pair of second locking rings 81 are covered. Engaging with both locking pieces 80 of the body 54, the two operating shafts 55 and 56 are pushed in and held in the operating position.
At this time, the retaining means G is located in the water pipe 1 having a larger cross-sectional area than the flow path W in the branch pipe portion 2.

[4]次に、図14に示すように、一対の第1係止リング79を第2押え操作杆78から取り外すとともに、第2操作軸56の操作延長軸56Bから第2押え操作杆78を取り外すと、水道管1を流動する水道水の水圧又はこの水圧と人為的な引き上げ操作力とによって、第2操作軸56が第1操作軸55に対して外端側(図の上方側)に摺動し、これに連動して第2押圧板61の連結部65と取付け筒体66の連結部67とに亘って枢支連結された係止リンク57,58対が拡径姿勢に屈曲しながら張り出す。   [4] Next, as shown in FIG. 14, the pair of first locking rings 79 are removed from the second presser operation lever 78, and the second presser operation rod 78 is moved from the operation extension shaft 56 </ b> B of the second operation shaft 56. When removed, the second operation shaft 56 is moved to the outer end side (upper side in the figure) with respect to the first operation shaft 55 by the water pressure of the tap water flowing through the water pipe 1 or the water pressure and the artificial pulling operation force. The pair of locking links 57 and 58 which are pivotally connected across the connecting portion 65 of the second pressing plate 61 and the connecting portion 67 of the mounting cylinder 66 are bent in a diameter-enlarging posture in conjunction with the sliding. Overhang.

この状態で、図15に示すように、両第2係止リング81を蓋体54の両係止片80から取り外し、水道水の水圧又はこの水圧と人為的な引き上げ操作力とによって、両操作軸55,56を蓋体54に対して上方に摺動させると、拡径姿勢に屈曲した係止リンク57,58対が、拡径用弾性体59による流路遮蔽箇所よりも上流側の内周壁面、つまり、水道管1の分岐流路開口周縁に対して係合する。   In this state, as shown in FIG. 15, both the second locking rings 81 are removed from both locking pieces 80 of the lid 54, and both operations are performed by the tap water pressure or the water pressure and an artificial pulling operation force. When the shafts 55 and 56 are slid upward with respect to the lid 54, the pair of locking links 57 and 58 bent in the diameter-enlarging posture are located on the upstream side of the flow path shielding portion by the diameter-enlarging elastic body 59. The peripheral wall surface, that is, the branch channel opening periphery of the water pipe 1 is engaged.

[5]図15、図16に示すように、操作ネジ部材76を人為的に締付け側に螺合操作すると、第2操作軸56に対して第1操作軸55が内端側(図の下方側)に押込み摺動され、第2押圧板61に対する第1押圧板60の近接移動に伴う挟圧作用により、縮径状態にある拡径用弾性体59が分岐管部2の内周壁面に密着する拡径状態に弾性変形して、その分岐管部2の内周壁面と両押圧板60,61の外周部との間が密封状態で遮蔽される。   [5] As shown in FIGS. 15 and 16, when the operation screw member 76 is artificially screwed to the tightening side, the first operation shaft 55 is moved to the inner end side (downward in the figure) with respect to the second operation shaft 56. The elastic body 59 for expanding the diameter in the reduced diameter state is formed on the inner peripheral wall surface of the branch pipe portion 2 by the pressing action accompanying the proximity movement of the first pressing plate 60 with respect to the second pressing plate 61. It is elastically deformed into an expanded diameter state in close contact, and the space between the inner peripheral wall surface of the branch pipe portion 2 and the outer peripheral portions of the pressing plates 60 and 61 is shielded in a sealed state.

[6]次に、図15、図17に示すように、蓋体54の排水管82に接続した水栓83の開閉操作レバー83Aを開き操作して放水させ、その放水が止まることで止水を確認したのち、第1押え操作杆77、蓋体54を除去したのち、作業用開閉弁52及び連結管3を水道管1の分岐管部2から取り外す。   [6] Next, as shown in FIGS. 15 and 17, the opening / closing operation lever 83A of the faucet 83 connected to the drain pipe 82 of the lid 54 is opened to discharge water, and the water stoppage is stopped by stopping the water discharge. After confirming the above, after removing the first presser operating lever 77 and the lid 54, the work on-off valve 52 and the connecting pipe 3 are removed from the branch pipe portion 2 of the water pipe 1.

その後、図18に示すように、分岐管部2の連結フランジ部2Aに、連結管3の上流側連結フランジ部3Aを、それらの接合面間に新しいシートパッキン4を介装した状態で複数組の通常仕様のボルト5C,5Dからなる第1締結具5にて密封状態で脱着自在に締付け連結したのち、この連結管3の下流側連結フランジ部3Bに、新しい補修弁6の上流側連結フランジ部6Aを、それらの接合面間に新しいシートパッキン4を介装した状態で複数組のボルト7A・ナット7Bからなる第2締結具7にて密封状態で脱着自在に締付け連結する。   Thereafter, as shown in FIG. 18, a plurality of sets of upstream connecting flange portions 3A of the connecting pipe 3 are connected to the connecting flange portions 2A of the branch pipe portion 2 with a new sheet packing 4 interposed between their joint surfaces. After being tightened and detachably connected in a sealed state with a first fastener 5 comprising normal bolts 5C and 5D, an upstream connection flange of a new repair valve 6 is connected to a downstream connection flange portion 3B of the connection pipe 3 The part 6A is detachably tightened and connected in a sealed state with a second fastener 7 including a plurality of sets of bolts 7A and nuts 7B with a new sheet packing 4 interposed between the joint surfaces.

〔その他の実施形態〕
(1)上述の第1実施形態では、水道管等の流体管1の途中に分岐管部2を一体形成してある流体配管系統について説明したが、流体管1に、それの周方向に沿って脱着自在に固定連結される複数の分割継手体を備え、かつ、一つの分割継手体に流体管1に形成された貫通孔に対して管径方向から連通する分岐管部2を突設してある管継手が装着されているとともに、管継手の分岐管部に開閉弁が取付けられている流体配管系統に本願発明の技術を適用してもよい。
[Other Embodiments]
(1) In the first embodiment described above, the fluid piping system in which the branch pipe portion 2 is integrally formed in the middle of the fluid pipe 1 such as a water pipe has been described, but the fluid pipe 1 is provided along the circumferential direction thereof. And a branch pipe portion 2 that protrudes from the pipe radial direction with respect to a through-hole formed in the fluid pipe 1 in one split joint body. The technique of the present invention may be applied to a fluid piping system in which an existing pipe joint is mounted and an on-off valve is attached to a branch pipe portion of the pipe joint.

(2)上述の第1実施形態では、遮断作業カバーBの弾性シール材11を環状に一体形成したが、この弾性シール材11を周方向で複数に分割してもよい。
要するに、遮断作業カバーBとしては、両連結フランジ部2A,3Aの外周を密封する状態で両管部2,3に対して脱着自在に装着することのできるものであればよい。
(2) In the first embodiment described above, the elastic sealing material 11 of the blocking work cover B is integrally formed in an annular shape, but the elastic sealing material 11 may be divided into a plurality in the circumferential direction.
In short, any blocking work cover B may be used as long as it can be detachably attached to both pipe portions 2 and 3 in a state in which the outer peripheries of both connecting flange portions 2A and 3A are sealed.

(3)上述の第1実施形態では、前記隙間形成手段Dを、遮断作業カバーBの周方向複数箇所において、両連結フランジ部2A,3A間の隙間Sに対して径方向外方から入り込み移動するテーパー面13bを備えた複数の分離ボルト13から構成したが、この構成に限定されるものではなく、例えば、径方向内方に入り込み付勢された複数の楔部材を設けて実施してもよい。
要するに、前記隙間形成手段Dとしては、第1締結具5の緩み操作代の範囲内で両連結フランジ部2A,3Aの接合面間を強制的に押し広げることのできるものであれば、如何なる構造のものを採用してもよい。
(3) In the first embodiment described above, the gap forming means D moves from the radially outer side into the gap S between the two connecting flange portions 2A, 3A at a plurality of locations in the circumferential direction of the blocking work cover B. However, the present invention is not limited to this configuration. For example, a plurality of wedge members that are urged inward in the radial direction may be provided. Good.
In short, as the gap forming means D, any structure can be used as long as the gap between the joint surfaces of the two connecting flange portions 2A and 3A can be forcibly expanded within the range of the loosening operation allowance of the first fastener 5. May be adopted.

(4)上述の第1実施形態では、前記仕切板弁8を、分岐管部2及び連結管3の外径よりも少し大なる幅をする薄板状の弁板8Aと、この弁板8Aの後端縁に固着された操作伝達軸8Bと、この操作伝達軸8Bの後端部に螺合固定された操作ハンドル8Cとから構成したが、この仕切板弁8を、分岐管部2及び連結管3の外径よりも少し大なる幅をする薄板状の弁板8Aのみから構成してもよい。
要するに、前記仕切板弁8としては、第1締結具5の緩み操作によって発生した両連結フランジ部2A,3A間の隙間Sを通して管内流路Wを遮断する位置にまで差込み移動自在な薄板状のものであれば、如何なる形状のものを用いてもよい。
(4) In the first embodiment described above, the partition plate valve 8 includes a thin plate-like valve plate 8A having a width slightly larger than the outer diameters of the branch pipe portion 2 and the connecting pipe 3, and the valve plate 8A. The operation transmission shaft 8B fixed to the rear end edge and the operation handle 8C screwed and fixed to the rear end portion of the operation transmission shaft 8B are configured. You may comprise only the thin plate-shaped valve plate 8A which has a width a little larger than the outer diameter of the pipe | tube 3. As shown in FIG.
In short, the partition valve 8 is a thin plate that can be inserted and moved to a position where the pipe flow path W is blocked through the gap S between the two connecting flange portions 2A and 3A generated by the loosening operation of the first fastener 5. Any shape may be used as long as it is.

(5)また、前記摺動ガイド手段Cとしては、仕切板弁8を密封状態で流路遮断位置と流路開放位置とにわたって摺動案内することのできるものであれば、如何なる構造のものを用いてもよい。   (5) The sliding guide means C may be of any structure as long as the partition plate valve 8 can be slidably guided across the flow path blocking position and the flow path opening position in a sealed state. It may be used.

本願発明の流体配管系統の流路遮断方法を示し、管内流路遮断装置を装着したときの側面図The side view when the flow path blocking method of the fluid piping system of the present invention is shown and the in-pipe flow path blocking device is mounted 管内流路遮断装置を装着したときの一部切欠き側面図Partial cutaway side view when the pipe flow path blocking device is installed 管内流路遮断装置を装着したときの水平断面図Horizontal sectional view when the pipe flow path shut-off device is installed 管内流路遮断装置の拡大断面側面図Expanded cross-sectional side view of the pipe flow path blocking device 両連結フランジ部と環状弾性シール材との関係を示す要部の拡大断面図Enlarged sectional view of the main part showing the relationship between both connecting flanges and the annular elastic sealing material 仕切弁体と分離ボルトとの関係を示す要部の拡大断面図Enlarged sectional view of the main part showing the relationship between the gate valve body and the separation bolt 環状弾性シール材の斜視図Perspective view of annular elastic sealing material 環状弾性シール材の断面図Cross section of annular elastic sealing material 環状弾性シール材の正面図Front view of annular elastic sealing material 仕切弁体を流路遮断位置に差し込み操作したときの一部切欠き側面図Partially cutaway side view when the gate valve is inserted into the flow path blocking position 補修弁を作業用開閉弁に取り替えるときの一部切欠き側面図Partially cutaway side view when replacing the repair valve with a work on / off valve 作業用開閉弁に流路遮断装置を取付けたときの一部切欠き側面図Partially cutaway side view when the flow shut-off device is attached to the work on / off valve 閉塞手段及び抜止め手段を水道管側に下降させたときの一部切欠き側面図Partially cutaway side view when the closing means and the retaining means are lowered to the water pipe side 抜止め手段のリンク対を拡径姿勢に屈曲させたときの一部切欠き側面図Partially cutaway side view when the link pair of retaining means is bent to an expanded posture 拡径用弾性体で流路を遮断したときの一部切欠き側面図Partially cutaway side view when the flow path is blocked by an elastic body for diameter expansion 拡径用弾性体で流路を遮断したときの要部の拡大断面図Enlarged cross-sectional view of the main part when the flow path is blocked by the elastic body for diameter expansion 第1押え操作杆、蓋体を除去したのち、作業用開閉弁及び連結管を水道管の分岐管部から取り外したときの一部切欠き側面図Partially cutaway side view of the work clamp, after removing the first presser foot and the lid, and removing the work on-off valve and connecting pipe from the branch pipe of the water pipe 新しいシートパッキン及び新しい補修弁に取り替えたときの側面図Side view when replaced with new seat packing and new repair valve 従来の流路遮断方法を示す要部の断面正面図Sectional front view of the main part showing a conventional flow path blocking method 要部の断面平面図Cross-sectional plan view of the main part

符号の説明Explanation of symbols

B 遮断作業カバー
C 摺動ガイド手段
D 隙間形成手段
S 隙間
W 管内流路
2 分岐管部(上流側管部)
2A 連結フランジ部
3 連結管(下流側管部)
3A 連結フランジ部(上流側連結フランジ部)
4 シール材(シートパッキン)
5 締結具(第1締結具)
5A ボルト
5B 袋ナット
8 仕切体弁
11 環状弾性シール材
11a 第1シール部
11b 第2シール部
11c 開口
12 締付け輪
13 分離ボルト
22 Oリング
23 Oリング
B Blocking work cover C Sliding guide means D Gap forming means S Gap W In-pipe flow path 2 Branch pipe part (upstream pipe part)
2A Connecting flange part 3 Connecting pipe (downstream pipe part)
3A Connecting flange (upstream connecting flange)
4 Sealing material (sheet packing)
5 fasteners (first fasteners)
5A bolt 5B cap nut 8 partition valve 11 annular elastic sealing material 11a first seal portion 11b second seal portion 11c opening 12 clamping ring 13 separation bolt 22 O ring 23 O ring

Claims (5)

両連結フランジ部の接合面間にシール材を介装した状態で締結具にて締付け連結されている両管部に対して、それらの両連結フランジ部の外周を密封する状態で装着自在な遮断作業カバーに、締結具の緩み操作によって発生した両連結フランジ部間の隙間を通して管内流路を遮断する位置にまで差込み移動自在な薄板状の弁板を備えた仕切板弁と、この仕切板弁の弁板を密封状態で流路遮断位置と流路開放位置とに摺動案内する摺動ガイド手段が設けられているとともに、前記仕切板弁の弁板の幅が、両管部の内径よりも大で、且つ、前記締結具を構成する複数本のボルトのうち、両管部の管軸芯を挟んで相対向する両ボルトの対向間隔よりも小に構成されている管内流路遮断装置。   Blocking that can be installed in a state where the outer periphery of both connecting flange portions is sealed against both pipe portions that are tightened and connected by a fastener with a sealing material interposed between the joint surfaces of both connecting flange portions. A partition plate valve having a thin plate-like valve plate that can be inserted and moved to a position that blocks the flow path in the pipe through a gap between both connecting flange portions generated by a loosening operation of the fastener on the work cover, and the partition plate valve In addition, there is provided a sliding guide means for slidingly guiding the valve plate to the flow passage blocking position and the flow passage opening position in a sealed state, and the width of the valve plate of the partition valve is larger than the inner diameters of both pipe portions. In-pipe flow path blocking device configured to be smaller than the facing interval between both bolts facing each other across the tube axis of both pipe portions among the plurality of bolts constituting the fastener . 両連結フランジ部の接合面間にシール材を介装した状態で締結具にて締付け連結されている両管部に対して、それらの両連結フランジ部の外周を密封する状態で装着自在な遮断作業カバーに、締結具の緩み操作によって発生した両連結フランジ部間の隙間を通して管内流路を遮断する位置にまで差込み移動自在な薄板状の弁板を備えた仕切板弁と、この仕切板弁の弁板を密封状態で流路遮断位置と流路開放位置とに摺動案内する摺動ガイド手段が設けられているとともに、前記仕切板弁の弁板の幅が、両管部の内径よりも大で、且つ、前記締結具を構成する4本のボルトの周方向での隣接間隔よりも小に構成されている管内流路遮断装置。   Blocking that can be installed in a state where the outer periphery of both connecting flange portions is sealed against both pipe portions that are tightened and connected by a fastener with a sealing material interposed between the joint surfaces of both connecting flange portions. A partition plate valve having a thin plate-like valve plate that can be inserted and moved to a position that blocks the flow path in the pipe through a gap between both connecting flange portions generated by a loosening operation of the fastener on the work cover, and the partition plate valve In addition, there is provided a sliding guide means for slidingly guiding the valve plate to the flow passage blocking position and the flow passage opening position in a sealed state, and the width of the valve plate of the partition valve is larger than the inner diameters of both pipe portions. And a pipe flow path blocking device configured to be smaller than the adjacent interval in the circumferential direction of the four bolts constituting the fastener. 前記仕切板弁の弁板8Aの先端縁が先鋭状に形成されている請求項1又は2記載の管内流路遮断装置。   The pipe | tube flow-path interruption | blocking apparatus of Claim 1 or 2 with which the front end edge of the valve plate 8A of the said partition plate valve is formed in the acute shape. 流体配管系統において、両連結フランジ部の接合面間にシール材を介装した状態で締結具を構成する複数組のボルト・ナットにて締付け連結されている両管部に、締結具の緩み操作を許容する状態で両連結フランジ部の外周を密封状態で囲繞可能で、かつ、両管部の流路を遮断可能な薄板状の弁板を備えた仕切板弁が、前記両管部の管軸芯を挟んで相対向する両ボルトの対向間を通して抜き差し操作自在に設けられている遮断作業カバーを装着し、この遮断作業カバーにおける仕切板弁の弁板を、ボルト・ナットの緩み操作によって発生した両連結フランジ部間の隙間を通して流路遮断位置にまで差し入れることにより、両連結フランジ部間において流路を遮断することを特徴とする流体配管系統の流路遮断方法。   In fluid piping systems, loosening operation of fasteners is performed on both pipe parts that are tightened and connected with multiple sets of bolts and nuts that constitute the fasteners with a sealant interposed between the joint surfaces of both connecting flange parts. A partition valve having a thin plate-like valve plate that can surround the outer periphery of both connecting flange portions in a sealed state and that can shut off the flow passages of both pipe portions. A shut-off work cover is provided that can be inserted and removed through the opposite sides of the bolts facing each other across the shaft core, and the valve plate of the partition valve in this shut-off work cover is generated by loosening the bolts and nuts. A flow path blocking method for a fluid piping system, characterized in that a flow path is blocked between both connecting flange portions by being inserted to a flow path blocking position through a gap between the two connected flange portions. 流体配管系統において、両連結フランジ部の接合面間にシール材を介装した状態で締結具を構成する4組のボルト・ナットにて締付け連結されている両管部に、締結具の緩み操作を許容する状態で両連結フランジ部の外周を密封状態で囲繞可能で、かつ、両管部の流路を遮断可能な薄板状の弁板を備えた仕切板弁が、前記ボルトの周方向での隣接間を通して抜き差し操作自在に設けられている遮断作業カバーを装着し、この遮断作業カバーにおける仕切板弁の弁板を、ボルト・ナットの緩み操作によって発生した両連結フランジ部間の隙間を通して流路遮断位置にまで差し入れることにより、両連結フランジ部間において流路を遮断することを特徴とする流体配管系統の流路遮断方法。   In the fluid piping system, loosening operation of the fasteners is performed on both pipe parts that are fastened and connected by four sets of bolts and nuts that constitute the fasteners with a sealing material interposed between the joint surfaces of both connecting flange parts. A partition valve having a thin valve plate that can surround the outer periphery of both connecting flange portions in a sealed state and that can block the flow path of both pipe portions in a circumferential direction of the bolt. Install a shut-off work cover that can be inserted and removed through the adjacent parts of the door, and flow the valve plate of the partition plate valve in this shut-off work cover through the gap between the connecting flanges generated by the loosening operation of the bolts and nuts. A flow path blocking method for a fluid piping system, characterized in that a flow path is blocked between both connecting flange portions by being inserted to a path blocking position.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010038227A (en) * 2008-08-04 2010-02-18 Waterworks Technology Development Organization Co Ltd Flow passage cutoff device and opening-closing valve updating method of fluid pipe system
JP2010043721A (en) * 2008-08-18 2010-02-25 Cosmo Koki Co Ltd Device for attaching/detaching pipe connecting member and method for the same
JP2010043722A (en) * 2008-08-18 2010-02-25 Cosmo Koki Co Ltd Device for attaching/detaching pipe connecting member and method for the same
JP2012102582A (en) * 2010-11-12 2012-05-31 Daiyu Freeze:Kk Method to replace accessory equipment
JP2012102583A (en) * 2010-11-12 2012-05-31 Daiyu Freeze:Kk Method to replace accessory equipment
JP2015129531A (en) * 2014-01-06 2015-07-16 株式会社水道技術開発機構 Device for shutting off flow passage in pipe
KR20220002851U (en) * 2021-05-26 2022-12-05 동화산업 주식회사 Clanmping apparatus for preventing the fluid leakage from plugging machine for stopping fluid flowing in gas pipe

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JPS55168790U (en) * 1979-05-21 1980-12-04
JPS629081A (en) * 1985-07-05 1987-01-17 Yano Giken Kk Cock mounting and removing device and method of its use
GB2296305B (en) * 1994-12-22 1999-05-12 North West Water Group Plc Under-pressure pipeline component replacement

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JPS4920325B1 (en) * 1969-03-25 1974-05-24
JPS55168790U (en) * 1979-05-21 1980-12-04
JPS629081A (en) * 1985-07-05 1987-01-17 Yano Giken Kk Cock mounting and removing device and method of its use
GB2296305B (en) * 1994-12-22 1999-05-12 North West Water Group Plc Under-pressure pipeline component replacement

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010038227A (en) * 2008-08-04 2010-02-18 Waterworks Technology Development Organization Co Ltd Flow passage cutoff device and opening-closing valve updating method of fluid pipe system
JP2010043721A (en) * 2008-08-18 2010-02-25 Cosmo Koki Co Ltd Device for attaching/detaching pipe connecting member and method for the same
JP2010043722A (en) * 2008-08-18 2010-02-25 Cosmo Koki Co Ltd Device for attaching/detaching pipe connecting member and method for the same
JP2012102582A (en) * 2010-11-12 2012-05-31 Daiyu Freeze:Kk Method to replace accessory equipment
JP2012102583A (en) * 2010-11-12 2012-05-31 Daiyu Freeze:Kk Method to replace accessory equipment
JP2015129531A (en) * 2014-01-06 2015-07-16 株式会社水道技術開発機構 Device for shutting off flow passage in pipe
KR20220002851U (en) * 2021-05-26 2022-12-05 동화산업 주식회사 Clanmping apparatus for preventing the fluid leakage from plugging machine for stopping fluid flowing in gas pipe
KR200496519Y1 (en) 2021-05-26 2023-02-16 동화산업 주식회사 Clanmping apparatus for preventing the fluid leakage from plugging machine for stopping fluid flowing in gas pipe

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