JP6081327B2 - Continuous flow type channel blocker - Google Patents

Continuous flow type channel blocker Download PDF

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JP6081327B2
JP6081327B2 JP2013188626A JP2013188626A JP6081327B2 JP 6081327 B2 JP6081327 B2 JP 6081327B2 JP 2013188626 A JP2013188626 A JP 2013188626A JP 2013188626 A JP2013188626 A JP 2013188626A JP 6081327 B2 JP6081327 B2 JP 6081327B2
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insertion guide
pipe
flow path
bag
shaft
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山本 大介
大介 山本
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Waterworks Technology Development Organization Co Ltd
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本発明は、流体管に形成されている分岐口を介して流体管内に挿入され、拡径側に膨張変形して流体管の管内流路を閉止する閉塞バッグを備えた不断流式の流路閉塞装置に関する。   The present invention is a continuous flow channel having a closed bag inserted into a fluid pipe through a branch port formed in the fluid pipe and inflating and deforming to the enlarged diameter side to close the fluid pipe in the pipe. It relates to an occluding device.

この種の不断流式の流路閉塞装置として、例えば、特許文献1には、流体管に形成された穿孔口(分岐口の一例)に連通する分岐管部及び当該穿孔口を介して、流体管の管内流路に挿入される閉塞バッグを備えた流路閉塞装置が開示されている。そして、閉塞バッグが管内流路に挿入された後、拡径用流体が閉塞バッグ内に供給されることで閉塞バッグが拡径側に膨張変形して、管内流路を閉止できるように構成されている。   As this type of uninterrupted flow path blocking device, for example, Patent Document 1 discloses that a fluid flows through a branch pipe portion communicating with a perforation port (an example of a branch port) formed in a fluid pipe and the perforation port. A channel closing device is disclosed that includes a blocking bag that is inserted into an in-tube channel of a tube. Then, after the closing bag is inserted into the pipe flow path, the expansion bag is supplied into the closing bag so that the closing bag is inflated and deformed toward the diameter increasing side, thereby closing the pipe flow path. ing.

特開平8−75077号公報JP-A-8-75077

ここで、特許文献1の不断流式の流路閉塞装置では、閉塞バッグが、分岐管部及び穿孔口を介して流体管の管内流路に挿入されるため、挿入の際に、穿孔の際に穿孔口の内面に生じたバリや分岐管部の内面に存在する突起等に接触或いは引っ掛かって、閉塞バッグが傷ついたり破損したりする虞があるとともに、閉塞バッグを分岐管部及び穿孔口を介して管内流路に挿入すること自体が困難となる虞がある。   Here, in the continuous flow type flow path closing device of Patent Document 1, since the closed bag is inserted into the in-pipe flow path of the fluid pipe via the branch pipe portion and the perforation port, In addition, there is a risk that the closure bag may be damaged or damaged by contact or being caught by burrs generated on the inner surface of the perforation port or protrusions existing on the inner surface of the branch pipe portion. There is a possibility that the insertion into the in-pipe flow path may be difficult.

又、流体管の管内流路における流体の通流を維持した不断流状態では、当該流体からの流体圧が閉塞バッグに作用するため、閉塞バッグを分岐管部及び穿孔口を介して流体管の管内流路に挿入する際には、穿孔口の内面のバリや分岐管部の内面の突起等に一層接触等し易くなるとともに、管内流路への挿入が一層困難となる虞がある。   Further, in the uninterrupted flow state in which fluid flow is maintained in the in-pipe flow path of the fluid pipe, the fluid pressure from the fluid acts on the closed bag. Therefore, the closed bag is connected to the fluid pipe via the branch pipe portion and the perforated port. When inserted into the in-pipe flow path, it becomes easier to contact the burrs on the inner surface of the perforation port, the protrusions on the inner surface of the branch pipe part, etc., and the insertion into the in-pipe flow path may become more difficult.

特に、このような不断流状態では、穿孔口を介して管内流路に挿入された閉塞バッグは、管内流路を通流する流体からの流体圧によって穿孔口の下流側(分岐管部の軸芯よりも流体管の下流側)に移動するように押圧される。そのため、閉塞バッグが所望の閉塞位置から偏倚した位置で管内流路を閉止する虞があるとともに、所望の閉塞位置で閉止している閉塞バッグが変形或いは移動して管内流路の内周面に対する密着度合いが変動し、所期の閉止効果を十分に発揮することができず、流体の閉止が不十分となる虞がある。   In particular, in such a continuous flow state, the closed bag inserted into the pipe flow path through the perforation port is downstream of the perforation opening (the axis of the branch pipe section) by the fluid pressure from the fluid flowing through the pipe flow path. It is pressed so as to move to the downstream side of the fluid pipe from the core. Therefore, there is a possibility that the in-tube flow path is closed at a position where the closed bag is deviated from the desired closed position, and the closed bag closed at the desired closed position is deformed or moved to the inner peripheral surface of the in-tube flow path. The degree of close contact varies, and the desired closing effect cannot be fully exerted, and there is a risk that the fluid will be insufficiently closed.

本発明は、上述の実情に鑑みて為されたものであり、その主たる課題は、流体管の管内流路における流体の通流を維持した不断流状態において、管内流路に挿入する閉塞バッグの挿入の容易化及び破損の防止を図り、更に、管内流路を確実に閉止できる不断流式の流路閉塞装置を提供する点にある。   The present invention has been made in view of the above-described circumstances, and the main problem is that an obstructed bag inserted into the in-tube flow channel in a continuous flow state in which fluid flow in the in-tube flow channel of the fluid pipe is maintained. An object of the present invention is to provide a continuous flow type flow path closing device that facilitates insertion and prevents breakage, and that can reliably close the flow path in the pipe.

本発明による第1の特徴構成は、流体管に形成されている分岐口を介して前記流体管内に挿入され、拡径側に膨張変形して前記流体管の管内流路を閉止する閉塞バッグを備えた不断流式の流路閉塞装置であって、
前記分岐口に連通し弁部材を有する分岐管部に着脱自在に接続される密閉ケースと、
前記密閉ケース内に内嵌される挿入ガイド筒と、
前記密閉ケース及び前記挿入ガイド筒に亘って、密封状態を維持したまま前記分岐管部の軸芯に沿って摺動自在に貫設され、内部に通流路を備えた軸と、
前記挿入ガイド筒内に位置する前記軸の先端部に固設されて、前記通流路を介して供給される拡径用流体により拡径側に弾性膨張変形自在な前記閉塞バッグと、
前記流体管内の流体圧に抗して前記軸を押し込み移動させる押込み操作手段と、
前記挿入ガイド筒内に位置する前記軸の先端部又は前記閉塞バッグの基端部位に固設され、前記挿入ガイド筒の内面に摺接可能な軸芯調整部とを備え、
前記閉塞バッグが前記挿入ガイド筒内に縮小された状態で収容された前記挿入ガイド筒が、前記押込み操作手段により、前記挿入ガイド筒の先端部の少なくとも一部が前記流体管の外周面における前記分岐口の外面側周縁部に当接する当接姿勢となるまで、前記分岐管部の軸芯に沿って前記密閉ケース内及び前記分岐管部内を移動自在に構成され、
前記当接姿勢にある前記挿入ガイド筒内に収容された前記閉塞バッグが、前記押込み操作手段により、前記分岐管部の軸芯に沿って前記挿入ガイド筒内から前記分岐口を介して前記流体管の管内流路に挿入自在に構成されるとともに、前記閉塞バッグが所定の管内流路閉塞位置に位置している状態で、前記軸芯調整部が前記流体管の径方向において前記分岐口に対応する箇所に位置するように構成されている点にある。
According to a first characteristic configuration of the present invention, there is provided a blocking bag that is inserted into the fluid pipe through a branch port formed in the fluid pipe and inflates and deforms toward the diameter-expanding side to close the flow path in the fluid pipe. A continuous flow type flow path closing device provided,
A sealed case detachably connected to a branch pipe portion having a valve member communicating with the branch port;
An insertion guide tube fitted in the sealed case;
Over the sealing case and the insertion guide cylinder, a shaft that is slidably penetrated along the axis of the branch pipe portion while maintaining a sealed state, and has a passage provided inside,
The closed bag fixed at the tip of the shaft located in the insertion guide cylinder and elastically deformable to the diameter expansion side by the diameter expansion fluid supplied through the flow path; and
A pushing operation means for pushing and moving the shaft against the fluid pressure in the fluid pipe;
An axial center adjustment portion fixed to a distal end portion of the shaft located in the insertion guide tube or a proximal end portion of the closing bag and capable of sliding contact with an inner surface of the insertion guide tube;
The insertion guide cylinder accommodated in a state in which the closing bag is contracted in the insertion guide cylinder is configured such that at least a part of the distal end portion of the insertion guide cylinder is formed on the outer peripheral surface of the fluid pipe by the pushing operation means. It is configured to be movable in the sealed case and in the branch pipe portion along the axial center of the branch pipe portion until it comes into contact with the outer peripheral edge of the branch port.
The closing bag accommodated in the insertion guide cylinder in the abutting position is moved by the pushing operation means from the insertion guide cylinder through the branch port along the axis of the branch pipe portion. The axial core adjusting portion is connected to the branch port in the radial direction of the fluid pipe while being configured to be freely inserted into the pipe flow path of the pipe and in the state where the closing bag is located at a predetermined pipe flow path closing position. It exists in the point comprised so that it may be located in a corresponding location.

上記構成によれば、基本的に、分岐管部に接続される密閉ケース及び密閉ケースに貫設される軸によって、流体管の管内流路及び分岐管部内を密封状態に維持することができ、流体管の管内流路における流体の通流を維持した不断流状態で、軸の先端部に固設された閉塞バッグにより管内流路の閉止を行うことができる。   According to the above configuration, basically, the internal flow path of the fluid pipe and the inside of the branch pipe part can be maintained in a sealed state by the sealed case connected to the branch pipe part and the shaft penetrating the sealed case. The in-tube flow path can be closed by a closed bag fixed to the tip of the shaft in an uninterrupted flow state in which the fluid flow in the in-tube flow path of the fluid pipe is maintained.

また、密閉ケース内に挿入ガイド筒が内嵌され、密閉ケース及び挿入ガイド筒には軸が分岐管部の軸芯に沿って摺動自在に貫設され、挿入ガイド筒内には閉塞バッグが縮小した状態で収容され、閉塞バッグが挿入ガイド筒内に位置する軸の先端部に固設されており、流体管内の流体圧に抗して軸を押し込み移動させる押込み操作手段が設けられている。   An insertion guide cylinder is fitted in the sealing case, and the shaft is provided in the sealing case and the insertion guide cylinder so as to be slidable along the axis of the branch pipe portion. A blocking bag is provided in the insertion guide cylinder. The closed bag is housed in a contracted state, and the closing bag is fixed to the distal end portion of the shaft located in the insertion guide cylinder, and a pushing operation means for pushing and moving the shaft against the fluid pressure in the fluid pipe is provided. .

このため、押込み操作手段によって、軸を分岐管部の軸芯に沿って摺動させることにより、閉塞バッグを収容した挿入ガイド筒を、流体管内の流体圧に抗して挿入ガイド筒の先端部の少なくとも一部が流体管の外周面における分岐口の外面側周縁部に当接する当接姿勢となるまで、分岐管部の軸芯に沿って密閉ケース内及び分岐管部内において移動自在に構成することができる。また、挿入ガイド筒が当接姿勢にある状態で、押込み操作手段によって、軸を分岐管部の軸芯に沿って更に摺動させることにより、挿入ガイド筒に収容された閉塞バッグを、分岐管部の軸芯に沿って挿入ガイド筒内から分岐口を介して流体管の管内流路に挿入自在に構成することができる。
なお、密閉ケース及び挿入ガイド筒に貫設される軸は、分岐管部の軸芯に沿って摺動させると、まず、密閉ケースに対して相対移動し且つ挿入ガイド筒に対しては相対移動せず(軸は挿入ガイド筒と共に移動し)、その後、挿入ガイド筒が流体管の外周面における分岐口の外面側周縁部に当接すると、密閉ケース及び挿入ガイド筒に対して相対移動する(軸のみが移動する)ように、密閉ケースよりも挿入ガイド筒の方が密着度がより高い状態で貫設されている。
For this reason, by sliding the shaft along the axis of the branch tube portion by the pushing operation means, the insertion guide tube containing the blocking bag is made to resist the fluid pressure in the fluid tube, and the distal end portion of the insertion guide tube Is configured to be movable in the sealed case and in the branch pipe section along the axial center of the branch pipe section until at least a part thereof is in contact with the outer peripheral edge of the branch port on the outer peripheral surface of the fluid pipe. be able to. In addition, in a state where the insertion guide cylinder is in the contact posture, the pushing bag is further slid along the axis of the branch pipe portion by the pushing operation means, so that the blocking bag accommodated in the insertion guide cylinder is removed from the branch pipe. It can be configured such that it can be freely inserted into the in-pipe flow path of the fluid pipe from the inside of the insertion guide cylinder through the branch port along the axis of the part.
When the shaft penetrating the sealing case and the insertion guide cylinder is slid along the axis of the branch pipe portion, it first moves relative to the sealing case and relative to the insertion guide cylinder. (The shaft moves together with the insertion guide cylinder), and then, when the insertion guide cylinder contacts the outer peripheral edge of the branch port on the outer peripheral surface of the fluid pipe, it moves relative to the sealing case and the insertion guide cylinder ( The insertion guide tube is provided with a higher degree of adhesion than the sealed case so that only the shaft moves.

これにより、不断流状態において閉塞バッグに管内流路を通流する流体の流体圧が作用する場合でも、挿入ガイド筒が当接姿勢となるまでは閉塞バッグを当該挿入ガイド筒内に収容した状態で、閉塞バッグを密閉ケースの内面や分岐管部の内面に当接させることなく、分岐管部の軸芯に沿って密閉ケース内及び分岐管部内を移動させることができる。   As a result, even when the fluid pressure of the fluid flowing through the in-pipe flow path acts on the closed bag in an uninterrupted flow state, the closed bag is housed in the inserted guide tube until the insertion guide tube is in the contact posture. Thus, the inside of the sealed case and the inside of the branch pipe part can be moved along the axis of the branch pipe part without bringing the closing bag into contact with the inner surface of the sealed case and the inner surface of the branch pipe part.

特に、挿入ガイド筒が当接姿勢にある状態で、押込み操作手段によって軸を分岐管部の軸芯に沿って更に摺動させることにより、当該挿入ガイド筒内に収容された閉塞バッグが分岐管部の軸芯に沿って挿入ガイド筒内から分岐口を介して流体管の管内流路における所定の管内流路閉塞位置に位置すると、挿入ガイド筒内に位置する軸の先端部又は閉塞バッグの基端部位に固設され、且つ、挿入ガイド筒の内面に摺接可能な軸芯調整部が、流体管の径方向において分岐口に対応する箇所に位置するように構成されている。   In particular, in a state where the insertion guide tube is in the contact posture, the closing bag accommodated in the insertion guide tube is moved by further sliding the shaft along the axis of the branch tube portion by the pushing operation means. When positioned at a predetermined in-tube flow path closing position in the in-tube flow path of the fluid pipe from the insertion guide cylinder through the branch port along the axial center of the insertion section, the tip end of the shaft located in the insertion guide cylinder or the closure bag An axial core adjusting portion fixed to the proximal end portion and slidably contacted with the inner surface of the insertion guide cylinder is configured to be located at a location corresponding to the branch port in the radial direction of the fluid pipe.

このため、閉塞バッグが管内流路閉塞位置に位置すると、軸芯調整部が、流体管の径方向において分岐口に対応する箇所(軸芯調整部が流体管の管軸芯方向に沿って移動すると分岐口の内周面に当接する箇所)に位置することとなり、不断流状態において管内流路を通流する流体からの流体圧によって当該閉塞バッグが、分岐口の下流側(分岐管部の軸芯よりも流体管の下流側)に移動するように押圧されたとしても、軸芯調整部が挿入ガイド筒の内面に摺接し、閉塞バッグは分岐口の内面のバリや分岐管部の内面の突起等には接触せず、しかも、軸を分岐管部の軸芯と同心状態に維持することができる。   For this reason, when the closing bag is positioned at the in-pipe flow path closing position, the axial core adjusting portion corresponds to the branch port in the radial direction of the fluid pipe (the axial core adjusting portion moves along the pipe axial direction of the fluid pipe. Then, it will be located at a position where it abuts the inner peripheral surface of the branch port, and the closed bag will be located downstream of the branch port (at the branch pipe part) by the fluid pressure from the fluid flowing through the pipe flow channel in an uninterrupted flow state. Even if it is pressed so as to move to the downstream side of the fluid pipe from the shaft core, the shaft core adjusting portion is in sliding contact with the inner surface of the insertion guide cylinder, and the closing bag is a burr on the inner surface of the branch port or the inner surface of the branch pipe portion. It is possible to keep the shaft concentric with the axial center of the branch pipe portion.

これにより、不断流状態において、管内流路閉塞位置に位置して管内流路を閉止している閉塞バッグが分岐口の内面のバリや分岐管部の内面の突起等により破損することを防止でき、また、閉塞バッグの変形や移動を低減して、管内流路の内周面に対する密着度合いの変動を防止することができる。   As a result, it is possible to prevent the obstruction bag that is located at the position where the pipe flow path is closed and closes the pipe flow path from being damaged due to burrs on the inner surface of the branch port, protrusions on the inner surface of the branch pipe section, etc. In addition, the deformation and movement of the blocking bag can be reduced, and fluctuations in the degree of adhesion to the inner peripheral surface of the in-tube flow path can be prevented.

よって、流体管の管内流路における流体の通流を維持した不断流状態において、管内流路に挿入する閉塞バッグの挿入の容易化及び破損の防止を図り、更に、管内流路を確実に閉止できる不断流式の流路閉塞装置を得ることができた。   Therefore, in an uninterrupted flow state in which the fluid flow in the in-tube flow path of the fluid pipe is maintained, the insertion of the closing bag inserted into the in-tube flow path is facilitated and damage is prevented, and the in-pipe flow path is securely closed. It was possible to obtain a continuous flow type channel closing device that can be obtained.

本発明による第2の特徴構成は、前記挿入ガイド筒の先端部には、前記挿入ガイド筒の外径側部位よりも内径側部位が先端側に突出形成された段部を備え、
前記当接姿勢にある前記挿入ガイド筒を、前記外径側部位の少なくとも一部を前記外面側周縁部に当接させ且つ前記内径側部位の少なくとも一部を前記分岐口に内嵌させた状態で位置決め可能に構成されている点にある。
According to a second characteristic configuration of the present invention, the distal end portion of the insertion guide tube includes a stepped portion in which an inner diameter side portion projects from the outer diameter side portion of the insertion guide tube toward the distal end side,
The insertion guide tube in the abutting posture is in a state in which at least a part of the outer diameter side part is brought into contact with the outer peripheral edge and at least a part of the inner diameter side part is fitted in the branch port. It is in the point which is comprised so that positioning is possible.

上記構成によれば、挿入ガイド筒の先端部には、挿入ガイド筒の外径側部位よりも内径側部位が先端側に突出形成された段部が形成されているので、挿入ガイド筒を分岐管部の軸芯に沿って移動させて、当該段部の外径側部位の少なくとも一部を流体管の外周面の分岐口の外面側周縁部に当接させ、且つ、内径側部位の少なくとも一部を分岐口に内嵌させた当接姿勢で、当該挿入ガイド筒を位置決めすることができる。なお、挿入ガイド筒の外径が分岐管部の内径よりも若干小径に構成されていると、分岐管部の内面により挿入ガイド筒を、より確実に位置決めすることができる。
これにより、挿入ガイド筒に貫設された軸が分岐管部の軸芯に対してずれている場合でも、挿入ガイド筒に形成された段部の内径側部位を、挿入ガイド筒を分岐口に挿入する際の案内部材として利用することができ、挿入ガイド筒に貫設された軸と分岐管部の軸芯とを同軸状態で位置決めすることができる。
また、挿入ガイド筒に形成された段部の内径側部位が分岐口に内嵌された状態で、外径側部位が分岐口の外面側周縁部に当接するので、挿入ガイド筒が流体管の管軸芯方向へ移動することを確実に防止することができる。
さらに、挿入ガイド筒の段部の内径側部位が分岐口に内嵌されるので、当該内径側部位が内嵌された部位では分岐口の内面側(流体管の管軸芯方向に沿う方向における分岐口の内面側)を覆う状態となり、当接姿勢にある挿入ガイド筒内から分岐口を介して流体管の管内流路に閉塞バッグを移動させる際に、当該閉塞バッグが分岐口の内面のバリや分岐管部の内面の突起等に接触することが無く、閉塞バッグの破損をより一層防止することができる。
According to the above configuration, the tip portion of the insertion guide tube is formed with the stepped portion in which the inner diameter side portion protrudes from the outer diameter side portion of the insertion guide tube toward the tip side. Moving along the axial center of the tube portion, causing at least a part of the outer diameter side portion of the stepped portion to contact the outer peripheral edge portion of the branch port of the outer peripheral surface of the fluid tube, and at least the inner diameter side portion The insertion guide tube can be positioned in a contact posture in which a part is fitted into the branch port. If the outer diameter of the insertion guide tube is slightly smaller than the inner diameter of the branch tube portion, the insertion guide tube can be more reliably positioned by the inner surface of the branch tube portion.
As a result, even when the shaft penetrating the insertion guide tube is deviated from the axis of the branch tube portion, the inner diameter side portion of the step portion formed in the insertion guide tube can be used as a branch port. It can be used as a guide member for insertion, and the shaft penetrating the insertion guide tube and the axis of the branch pipe portion can be positioned in a coaxial state.
Further, since the outer diameter side portion contacts the outer peripheral edge of the branch port while the inner diameter side portion of the step formed in the insertion guide tube is fitted in the branch port, the insertion guide tube is connected to the fluid pipe. It is possible to reliably prevent movement in the tube axis direction.
Further, since the inner diameter side portion of the step portion of the insertion guide cylinder is fitted into the branch port, the inner diameter side portion (in the direction along the tube axis direction of the fluid pipe) in the portion where the inner diameter side portion is fitted. When the closure bag is moved from the inside of the insertion guide cylinder in the abutting position to the in-tube flow path of the fluid pipe through the branch opening, the closure bag is covered with the inner surface of the branch opening. There is no contact with burrs or protrusions on the inner surface of the branch pipe portion, and the breakage of the blocking bag can be further prevented.

本発明による第3の特徴構成は、流体管に形成されている分岐口を介して前記流体管内に挿入され、拡径側に膨張変形して前記流体管の管内流路を閉止する閉塞バッグを備えた不断流式の流路閉塞装置であって、
前記分岐口に連通する状態で前記流体管に一体形成される装着口部と前記装着口部に装着される弁部材とを有する前記分岐管部に着脱自在に接続される密閉ケースと、
前記密閉ケース内に内嵌される挿入ガイド筒と、
前記密閉ケース及び前記挿入ガイド筒に亘って、密封状態を維持したまま前記分岐管部の軸芯に沿って摺動自在に貫設され、内部に通流路を備えた軸と、
前記挿入ガイド筒内に位置する前記軸の先端部に固設されて、前記通流路を介して供給される拡径用流体により拡径側に弾性膨張変形自在な前記閉塞バッグと、
前記流体管内の流体圧に抗して前記軸を押し込み移動させる押込み操作手段と、
前記挿入ガイド筒内に位置する前記軸の先端部又は前記閉塞バッグの基端部位に固設され、前記挿入ガイド筒の内面に摺接可能な軸芯調整部とを備え、
前記閉塞バッグが前記挿入ガイド筒内に縮小された状態で収容された前記挿入ガイド筒が、前記押込み操作手段により、前記挿入ガイド筒の先端部の少なくとも一部が前記装着口部に形成された被当接部に当接する当接姿勢となるまで、前記分岐管部の軸芯に沿って前記密閉ケース内及び前記分岐管部内を移動自在に構成され、
前記当接姿勢にある前記挿入ガイド筒内に収容された前記閉塞バッグが、前記押込み操作手段により、前記分岐管部の軸芯に沿って前記挿入ガイド筒内から前記分岐口を介して前記流体管の管内流路に挿入自在に構成されるとともに、前記閉塞バッグが所定の管内流路閉塞位置に位置している状態で、前記軸芯調整部が前記流体管の径方向において前記分岐口に対応する箇所に位置するように構成されている点にある。
According to a third feature of the present invention, there is provided a blocking bag which is inserted into the fluid pipe through a branch port formed in the fluid pipe and expands and deforms toward the diameter-expanding side to close the flow path in the fluid pipe. A continuous flow type flow path closing device provided,
A sealed case detachably connected to the branch pipe portion having a mounting port portion integrally formed with the fluid pipe in a state of communicating with the branch port and a valve member mounted to the mounting port portion;
An insertion guide tube fitted in the sealed case;
Over the sealing case and the insertion guide cylinder, a shaft that is slidably penetrated along the axis of the branch pipe portion while maintaining a sealed state, and has a passage provided inside,
The closed bag fixed at the tip of the shaft located in the insertion guide cylinder and elastically deformable to the diameter expansion side by the diameter expansion fluid supplied through the flow path; and
A pushing operation means for pushing and moving the shaft against the fluid pressure in the fluid pipe;
An axial center adjustment portion fixed to a distal end portion of the shaft located in the insertion guide tube or a proximal end portion of the closing bag and capable of sliding contact with an inner surface of the insertion guide tube;
In the insertion guide cylinder accommodated in a state where the closure bag is contracted in the insertion guide cylinder, at least a part of the distal end portion of the insertion guide cylinder is formed in the mounting opening by the pushing operation means. It is configured to be movable in the sealed case and the branch pipe part along the axis of the branch pipe part until it comes into a contact posture to contact the contacted part,
The closing bag accommodated in the insertion guide cylinder in the abutting position is moved by the pushing operation means from the insertion guide cylinder through the branch port along the axis of the branch pipe portion. The axial core adjusting portion is connected to the branch port in the radial direction of the fluid pipe while being configured to be freely inserted into the pipe flow path of the pipe and in the state where the closing bag is located at a predetermined pipe flow path closing position. It exists in the point comprised so that it may be located in a corresponding location.

上記構成によれば、基本的に、分岐口に連通する状態で流体管に一体形成される装着口部と装着口部に装着される弁部材とを有する分岐管部に接続される密閉ケース及び密閉ケースに貫設される軸によって、流体管の管内流路及び分岐管部内を密封状態に維持することができ、流体管の管内流路における流体の通流を維持した不断流状態で、軸の先端部に固設された閉塞バッグにより管内流路の閉止を行うことができる。   According to the above configuration, basically, a sealed case connected to a branch pipe portion having a mounting port portion integrally formed with the fluid pipe in a state of communicating with the branch port and a valve member mounted to the mounting port portion; By the shaft penetrating the sealed case, the in-pipe flow path and the branch pipe portion of the fluid pipe can be maintained in a sealed state, and the shaft can be maintained in a continuous flow state in which the flow of fluid in the in-pipe flow path of the fluid pipe is maintained. The in-tube flow path can be closed by a closing bag fixed to the tip of the tube.

また、密閉ケース内に挿入ガイド筒が内嵌され、密閉ケース及び挿入ガイド筒には軸が分岐管部の軸芯に沿って摺動自在に貫設され、挿入ガイド筒内には閉塞バッグが縮小した状態で収容され、閉塞バッグが挿入ガイド筒内に位置する軸の先端部に固設されており、流体管内の流体圧に抗して軸を押し込み移動させる押込み操作手段が設けられている。   An insertion guide cylinder is fitted in the sealing case, and the shaft is provided in the sealing case and the insertion guide cylinder so as to be slidable along the axis of the branch pipe portion. A blocking bag is provided in the insertion guide cylinder. The closed bag is housed in a contracted state, and the closing bag is fixed to the distal end portion of the shaft located in the insertion guide cylinder, and a pushing operation means for pushing and moving the shaft against the fluid pressure in the fluid pipe is provided. .

このため、押込み操作手段によって、軸を分岐管部の軸芯に沿って摺動させることにより、閉塞バッグを収容した挿入ガイド筒を、流体管内の流体圧に抗して挿入ガイド筒の先端部の少なくとも一部が装着口部に形成された被当接部に当接する当接姿勢となるまで、分岐管部の軸芯に沿って密閉ケース内及び分岐管部内において移動自在に構成することができる。また、挿入ガイド筒が当接姿勢にある状態で、押込み操作手段によって、軸を分岐管部の軸芯に沿って更に摺動させることにより、挿入ガイド筒に収容された閉塞バッグを、分岐管部の軸芯に沿って挿入ガイド筒内から分岐口を介して流体管の管内流路に挿入自在に構成することができる。
なお、密閉ケース及び挿入ガイド筒に貫設される軸は、分岐管部の軸芯に沿って摺動させると、まず、密閉ケースに対して相対移動し且つ挿入ガイド筒に対しては相対移動せず(軸は挿入ガイド筒と共に移動し)、その後、挿入ガイド筒が装着口部に形成された被当接部に当接すると、密閉ケース及び挿入ガイド筒に対して相対移動する(軸のみが移動する)ように、密閉ケースよりも挿入ガイド筒の方が密着度がより高い状態で貫設されている。
For this reason, by sliding the shaft along the axis of the branch tube portion by the pushing operation means, the insertion guide tube containing the blocking bag is made to resist the fluid pressure in the fluid tube, and the distal end portion of the insertion guide tube It can be configured to be movable in the sealed case and in the branch pipe portion along the axial center of the branch pipe portion until at least a part thereof is in a contact posture in contact with the contacted portion formed in the mounting opening. it can. In addition, in a state where the insertion guide cylinder is in the contact posture, the pushing bag is further slid along the axis of the branch pipe portion by the pushing operation means, so that the blocking bag accommodated in the insertion guide cylinder is removed from the branch pipe. It can be configured such that it can be freely inserted into the in-pipe flow path of the fluid pipe from the inside of the insertion guide cylinder through the branch port along the axis of the part.
When the shaft penetrating the sealing case and the insertion guide cylinder is slid along the axis of the branch pipe portion, it first moves relative to the sealing case and relative to the insertion guide cylinder. (The shaft moves together with the insertion guide tube.) After that, when the insertion guide tube comes into contact with the contacted portion formed in the mounting opening, the shaft moves relative to the sealing case and the insertion guide tube (only the shaft). The insertion guide tube is provided with a higher degree of adhesion than the sealed case.

これにより、不断流状態において閉塞バッグに管内流路を通流する流体の流体圧が作用する場合でも、挿入ガイド筒が当接姿勢となるまでは閉塞バッグを当該挿入ガイド筒内に収容した状態で、閉塞バッグを密閉ケースの内面や分岐管部の内面に当接させることなく、分岐管部の軸芯に沿って密閉ケース内及び分岐管部内を移動させることができる。   As a result, even when the fluid pressure of the fluid flowing through the in-pipe flow path acts on the closed bag in an uninterrupted flow state, the closed bag is housed in the inserted guide tube until the insertion guide tube is in the contact posture. Thus, the inside of the sealed case and the inside of the branch pipe part can be moved along the axis of the branch pipe part without bringing the closing bag into contact with the inner surface of the sealed case and the inner surface of the branch pipe part.

特に、挿入ガイド筒が当接姿勢にある状態で、押込み操作手段によって軸を分岐管部の軸芯に沿って更に摺動させることにより、当該挿入ガイド筒内に収容された閉塞バッグが分岐管部の軸芯に沿って挿入ガイド筒内から分岐口を介して流体管の管内流路における所定の管内流路閉塞位置に位置すると、挿入ガイド筒内に位置する軸の先端部又は閉塞バッグの基端部位に固設され、且つ、挿入ガイド筒の内面に摺接可能な軸芯調整部が、流体管の径方向において分岐口に対応する箇所に位置するように構成されている。   In particular, in a state where the insertion guide tube is in the contact posture, the closing bag accommodated in the insertion guide tube is moved by further sliding the shaft along the axis of the branch tube portion by the pushing operation means. When positioned at a predetermined in-tube flow path closing position in the in-tube flow path of the fluid pipe from the insertion guide cylinder through the branch port along the axial center of the insertion section, the tip end of the shaft located in the insertion guide cylinder or the closure bag An axial core adjusting portion fixed to the proximal end portion and slidably contacted with the inner surface of the insertion guide cylinder is configured to be located at a location corresponding to the branch port in the radial direction of the fluid pipe.

このため、閉塞バッグが管内流路閉塞位置に位置すると、軸芯調整部が、流体管の径方向において分岐口に対応する箇所(軸芯調整部が流体管の管軸芯方向に沿って移動すると分岐口の内周面に当接する箇所)に位置することとなり、不断流状態において管内流路を通流する流体からの流体圧によって当該閉塞バッグが、分岐口の下流側(分岐管部の軸芯よりも流体管の下流側)に移動するように押圧されたとしても、軸芯調整部が挿入ガイド筒の内面に摺接し、閉塞バッグは分岐口の内面の錆や分岐管部の内面の突起等には接触せず、しかも、軸を分岐管部の軸芯と同心状態に維持することができる。   For this reason, when the closing bag is positioned at the in-pipe flow path closing position, the axial core adjusting portion corresponds to the branch port in the radial direction of the fluid pipe (the axial core adjusting portion moves along the pipe axial direction of the fluid pipe. Then, it will be located at a position where it abuts the inner peripheral surface of the branch port, and the closed bag will be located downstream of the branch port (at the branch pipe part) by the fluid pressure from the fluid flowing through the pipe flow channel in an uninterrupted flow state. Even if it is pressed so as to move to the downstream side of the fluid pipe from the shaft core, the shaft core adjusting portion is in sliding contact with the inner surface of the insertion guide cylinder, and the closing bag is rusted on the inner surface of the branch port and the inner surface of the branch pipe portion. It is possible to keep the shaft concentric with the axial center of the branch pipe portion.

これにより、不断流状態において、管内流路閉塞位置に位置して管内流路を閉止している閉塞バッグが分岐口の内面の錆や分岐管部の内面の突起等により破損することを防止でき、また、閉塞バッグの変形や移動を低減して、管内流路の内周面に対する密着度合いの変動を防止することができる。   As a result, in an uninterrupted flow state, it is possible to prevent the blocking bag that is located at the closed position of the pipe flow path and closes the flow path of the pipe from being damaged by rust on the inner surface of the branch port, protrusions on the inner surface of the branch pipe section, In addition, the deformation and movement of the blocking bag can be reduced, and fluctuations in the degree of adhesion to the inner peripheral surface of the in-tube flow path can be prevented.

よって、流体管の管内流路における流体の通流を維持した不断流状態において、管内流路に挿入する閉塞バッグの挿入の容易化及び破損の防止を図り、更に、管内流路を確実に閉止できる不断流式の流路閉塞装置を得ることができた。   Therefore, in an uninterrupted flow state in which the fluid flow in the in-tube flow path of the fluid pipe is maintained, the insertion of the closing bag inserted into the in-tube flow path is facilitated and damage is prevented, and the in-pipe flow path is securely closed. It was possible to obtain a continuous flow type channel closing device that can be obtained.

本発明による第4の特徴構成は、前記軸芯調整部が、前記挿入ガイド筒の内径と略同径の外径に形成された軸芯調整筒部材により構成され、
前記閉塞バッグの基端部位には、前記通流路に連通する流体給排路を備え且つ前記軸芯調整筒部材の内面に摺接可能な外面を有する口金部材が設けられ、前記口金部材が、前記軸芯調整筒部材に内嵌するように配置されている点にある。
According to a fourth characteristic configuration of the present invention, the shaft core adjusting portion is configured by an shaft core adjusting cylinder member formed to have an outer diameter substantially the same as the inner diameter of the insertion guide cylinder,
A base end portion of the closure bag is provided with a base member that includes a fluid supply / discharge path communicating with the flow path and has an outer surface that can be slidably contacted with an inner surface of the shaft core adjusting cylinder member. In the point which is arranged so that it may fit in the axis adjustment cylinder member.

上記構成によれば、閉塞バッグの基端部位に、軸の内部に形成された通流路に連通する流体給排路を備えた口金部材が設けられ、口金部材が、挿入ガイド筒の内径と略同径の外径に形成された軸芯調整部としての軸芯調整筒部材に内嵌するように配置されているので、通流路から供給される拡径用流体を閉塞バッグ内に給排可能な状態で軸の先端部に固設される口金部材を利用して、不断流状態において、管内流路閉塞位置に位置して管内流路を閉止している閉塞バッグの変形や移動を一層低減して、管内流路の内周面に対する密着度合いの変動を一層防止することができる。
即ち、挿入ガイド筒の内面に摺接可能な軸芯調整筒部材に、当該軸芯調整筒部材の内面に摺接可能な外面を有する口金部材が内嵌されているので、不断流状態において管内流路を通流する流体からの流体圧によって、管内流路閉塞位置に位置する閉塞バッグが、分岐口の下流側(分岐管部の軸芯よりも流体管の下流側)に移動するように押圧されたとしても、口金部材の外面と軸芯調整筒部材の内面とが摺接し、軸芯調整筒部材の外面と挿入ガイド筒の内面とが摺接して、閉塞バッグ及び軸が流体管の管軸芯方向に沿って分岐口に近接する方向へ移動することを確実に防止することができる。
これにより、不断流状態において、軸を分岐管部の軸芯と同心状態に確実に維持して、管内流路閉塞位置に位置して管内流路を閉止している閉塞バッグの変形や移動を一層低減して、管内流路の内周面に対する密着度合いの変動を一層防止することができ、管内流路を一層確実に閉止できる。
According to the above configuration, the base member provided with the fluid supply / discharge passage communicating with the flow passage formed inside the shaft is provided at the proximal end portion of the closing bag, and the base member is connected to the inner diameter of the insertion guide tube. Since it is arranged so as to be fitted inside an axis adjustment cylinder member as an axis adjustment part formed with an outer diameter of substantially the same diameter, the fluid for expanding the diameter supplied from the flow path is supplied into the closure bag. Using a cap member fixed to the tip of the shaft in a state where it can be discharged, in an uninterrupted flow state, deformation or movement of the closed bag that is located at the closed position of the in-tube flow path and closes the in-tube flow path is performed. This can be further reduced, and fluctuations in the degree of close contact with the inner peripheral surface of the pipe flow path can be further prevented.
That is, since a base member having an outer surface slidable on the inner surface of the shaft adjusting cylinder member is fitted into the shaft adjusting cylinder member slidable on the inner surface of the insertion guide cylinder, Due to the fluid pressure from the fluid flowing through the flow path, the closed bag located at the closed flow path in the pipe moves to the downstream side of the branch port (downstream of the fluid pipe from the axial center of the branch pipe part). Even if pressed, the outer surface of the cap member and the inner surface of the shaft adjusting cylinder member are in sliding contact, the outer surface of the shaft adjusting cylinder member and the inner surface of the insertion guide cylinder are in sliding contact, and the closing bag and the shaft are connected to the fluid pipe. It is possible to reliably prevent movement in the direction close to the branch port along the tube axis direction.
This ensures that the shaft is kept concentric with the axial center of the branch pipe in an uninterrupted flow state, and that the closed bag that is located at the closed position of the pipe and closes the pipe is not deformed or moved. This further reduces the fluctuation of the degree of close contact with the inner peripheral surface of the pipe flow path, and the pipe flow path can be closed more reliably.

本発明による第5の特徴構成は、前記閉塞バッグが前記管内流路閉塞位置に位置している状態で、前記軸芯調整部の先端と前記分岐口における前記流体管の径方向内方側端とが、前記流体管の径方向において同一位置に位置するように構成されている点にある。   A fifth characteristic configuration according to the present invention is the radially inner side end of the fluid pipe at the distal end of the axial core adjusting portion and the branch port in a state where the closed bag is located at the closed flow path position in the pipe. Is that it is configured to be located at the same position in the radial direction of the fluid pipe.

上記構成によれば、閉塞バッグが管内流路閉塞位置に位置している状態で、軸芯調整部の先端と分岐口における流体管の径方向内方側端とが、流体管の径方向において同一位置に位置するように構成されているので、軸芯調整部が流体管の径方向において分岐口に対応する位置に位置しつつ、軸芯調整部の先端が、分岐口の径方向内方側端(径方向における流体管の内周面と同位置)よりも径方向内方側に突出したり、径方向外方側に引退することが無く、流体管の管内流路における流体の通流を良好なまま維持することができる。   According to the above configuration, in the state in which the closing bag is located at the in-pipe flow path closing position, the distal end of the shaft core adjustment portion and the radially inner side end of the fluid pipe at the branch port are in the radial direction of the fluid pipe. Since it is configured to be located at the same position, the shaft core adjustment portion is located at a position corresponding to the branch port in the radial direction of the fluid pipe, and the tip of the shaft core adjustment portion is radially inward of the branch port. Fluid flow in the in-pipe flow path of the fluid pipe without projecting radially inward from the side end (same position as the inner peripheral surface of the fluid pipe in the radial direction) or retreating outward in the radial direction Can be maintained in good condition.

本発明による第6の特徴構成は、前記軸の外周面には、前記押込み操作手段による前記軸の押込み操作につれて、前記当接姿勢となった前記挿入ガイド筒における底部外面に当接して、前記閉塞バッグの前記流体管内への挿入状態が前記管内流路閉塞位置となるように規制する挿入位置規制手段が前記軸の径方向外方側に突出形成されている点にある。   According to a sixth characteristic configuration of the present invention, the outer peripheral surface of the shaft comes into contact with the outer surface of the bottom portion of the insertion guide tube in the contact posture as the shaft is pressed by the pressing operation means. The insertion position restricting means for restricting the insertion state of the closing bag into the fluid pipe to be the in-tube flow path closing position is formed to protrude outward in the radial direction of the shaft.

上記構成によれば、軸の外周面には挿入位置規制手段が当該軸の径方向外方側に突出形成されているので、当接姿勢にある挿入ガイド筒内から分岐口を介して流体管の管内流路に閉塞バッグを移動させる際に、挿入位置規制手段が、押込み操作手段による軸の押込み操作につれて当接姿勢にある挿入ガイド筒の底部外面に当接し、閉塞バッグの流体管内への挿入状態を管内流路閉塞位置となるように規制することができる。
これにより、閉塞バッグを流体管の管内流路に挿入する際に、挿入位置規制手段を当接姿勢にある挿入ガイド筒の底部外面に当接させるだけで、閉塞バッグを管内流路における所定の管内流路閉塞位置に容易且つ確実に位置させることができる。
According to the above configuration, since the insertion position restricting means is formed on the outer peripheral surface of the shaft so as to protrude radially outward of the shaft, the fluid pipe is inserted from the inside of the insertion guide cylinder in the contact posture through the branch port. When the closure bag is moved to the in-pipe flow path, the insertion position restricting means abuts against the outer surface of the bottom of the insertion guide cylinder in a contact posture as the shaft is pushed by the pushing operation means. The insertion state can be regulated so as to be the in-tube flow path blockage position.
Thus, when the closure bag is inserted into the in-tube flow path of the fluid pipe, the insertion position restricting means is simply brought into contact with the outer surface of the bottom of the insertion guide cylinder in the abutting posture, so that the closure bag is fixed to the predetermined flow path in the in-tube flow path. It can be easily and reliably positioned at the in-tube flow path blocking position.

本発明による第7の特徴構成は、前記密閉ケースが、少なくとも前記挿入ガイド筒と前記挿入ガイド筒内から移動した状態の前記閉塞バッグとを収容可能な長さを有する内部空間を備えている点にある。   According to a seventh characteristic configuration of the present invention, the sealed case includes an internal space having a length capable of accommodating at least the insertion guide cylinder and the closing bag moved from the insertion guide cylinder. It is in.

上記構成によれば、密閉ケースが、少なくとも挿入ガイド筒と挿入ガイド筒内から移動した状態の閉塞バッグとを収容可能な長さを有する内部空間を備えているので、軸を押し込み操作して閉塞バッグを挿入ガイド筒内から移動させた状態(例えば、閉塞バッグを挿入ガイド筒内から移動させて管内流路における所定の管内流路閉塞位置に位置させた状態)から、軸を分岐管部の軸芯に沿って抜去した際、閉塞バッグが挿入ガイド筒内に収容されていない場合でも、挿入ガイド筒及び閉塞バッグを密閉ケースに形成された内部空間内に収容することができる。
これにより、挿入ガイド筒及び閉塞バッグを密閉ケースの内部空間内に完全に収容した状態で、密閉ケースを分岐管部から離脱することができ、密閉ケースの離脱、搬出、輸送等の際に、閉塞バッグが物体等に接触して破損することを良好に防止することができる。
According to the above configuration, the sealed case includes the internal space having a length capable of accommodating at least the insertion guide cylinder and the closure bag moved from the insertion guide cylinder. From the state in which the bag is moved from the inside of the insertion guide cylinder (for example, the state in which the closure bag is moved from the inside of the insertion guide cylinder and is positioned at a predetermined in-tube flow path closing position in the in-tube flow path), the shaft is connected to the branch pipe section. Even when the closure bag is not accommodated in the insertion guide cylinder when it is extracted along the shaft core, the insertion guide cylinder and the closure bag can be accommodated in the internal space formed in the sealed case.
Thereby, in a state where the insertion guide cylinder and the closure bag are completely accommodated in the internal space of the sealed case, the sealed case can be detached from the branch pipe portion, and when the sealed case is detached, carried out, transported, etc. It is possible to satisfactorily prevent the blocking bag from being damaged by contact with an object or the like.

本発明による第8の特徴構成は、前記閉塞バッグが、前記分岐管部の軸芯に沿って前記流体管の管内流路における前記管内流路閉塞位置に挿入された後、前記流体管の管軸芯方向及び径方向外方側に弾性膨張変形自在に構成されて、前記閉塞バッグが弾性膨張変形することにより、前記流体管の内周面における前記分岐口の内面側周縁部を閉塞する状態で、前記流体管の管内流路を閉止するように構成されている点にある。   According to an eighth characteristic configuration of the present invention, after the closing bag is inserted into the in-tube flow path closing position in the in-tube flow path of the fluid pipe along the axial center of the branch pipe portion, the pipe of the fluid pipe A state that is configured to be elastically expandable and deformable in the axial direction and the radially outward side, and that the closing bag is elastically expanded and deformed to close the inner peripheral side edge of the branch port on the inner peripheral surface of the fluid pipe Thus, the in-pipe flow path of the fluid pipe is closed.

上記構成によれば、閉塞バッグが、分岐管部の軸芯に沿って流体管の管内流路における管内流路閉塞位置に挿入された後、分岐管部の軸芯と同心上に位置する管内流路閉塞位置において流体管の管軸芯方向及び径方向外方側に弾性膨張変形することにより、流体管の内周面における分岐口の内面側周縁部を閉塞する状態で、流体管の管内流路を閉止することができる。
これにより、不断流状態でも、管内流路閉塞位置に挿入され且つ軸芯調整部により分岐管部の軸芯と同心状態が維持された閉塞バッグを単に弾性膨張変形させるだけで、分岐口及び管内流路を簡便且つ確実に閉止することができる。
According to the above configuration, after the closing bag is inserted in the in-tube flow path closing position in the in-tube flow path of the fluid pipe along the axis of the branch pipe, the inside of the pipe located concentrically with the axis of the branch pipe In the state where the inner peripheral side of the branch port on the inner peripheral surface of the fluid pipe is closed by elastically expanding and deforming in the tube axis direction and the radially outer side of the fluid pipe at the flow path closing position, The flow path can be closed.
As a result, even in the case of an uninterrupted flow state, the closed bag inserted into the in-pipe flow path closing position and maintained in the concentric state with the axial center of the branch pipe part by the axial core adjusting part can be simply elastically expanded and deformed, thereby The flow path can be easily and reliably closed.

本発明による第9の特徴構成は、前記閉塞バッグの外周面において、前記管軸芯方向における前記軸の両側に位置する箇所には、前記閉塞バッグが弾性膨張変形した際に、前記流体管の内周面に対して周方向の全周に亘って圧接して前記閉塞バッグを摩擦保持する環状シール部が突設されている点にある。   According to a ninth characteristic configuration of the present invention, in the outer peripheral surface of the closing bag, the portions located on both sides of the shaft in the tube axis direction are arranged such that when the closing bag is elastically expanded and deformed, An annular seal portion that press-contacts the inner peripheral surface over the entire circumference in the circumferential direction and frictionally holds the closure bag is provided.

上記構成によれば、閉塞バッグの外周面において、管軸芯方向における軸の両側に位置する箇所には、閉塞バッグが管内流路閉塞位置において弾性膨張変形した際に、流体管の内周面に対して周方向の全周に亘って圧接して閉塞バッグを摩擦保持する環状シール部が突設されているので、不断流状態において管内流路を通流する流体からの流体圧によって当該閉塞バッグが、分岐口の下流側(分岐管部の軸芯よりも流体管の下流側)に移動するように押圧されたとしても、両環状シール部と流体管の内周面との摩擦により、閉塞バッグが流体管の下流側へ移動することを一層防止することができる。
また、流体管の内周面における分岐口の内面側周縁部に、バリや突起等、或いは、モルタルの剥離等が存在している場合でも、環状シール部は、流体管の管軸芯方向において当該内面側周縁部から偏倚した位置で流体管の内周面に圧接されるので、止水性が低下することがない。
加えて、流体管の内周面における分岐口の内面側周縁部が、分岐口に向かって曲面状に形成されている場合でも、環状シール部は、流体管の管軸芯方向において当該内面側周縁部から偏倚した位置で流体管の内周面に圧接されるので、止水性が低下することがない。
According to the above configuration, the outer peripheral surface of the fluid bag is located on the outer peripheral surface of the closed bag at both sides of the shaft in the tube axis direction when the closed bag is elastically expanded and deformed at the closed flow path in the tube. Since an annular seal portion that press-contacts the entire circumference in the circumferential direction and frictionally holds the closure bag is projected, the blockage is caused by the fluid pressure from the fluid flowing through the pipe flow path in the non-continuous flow state. Even if the bag is pressed so as to move to the downstream side of the branch port (downstream of the fluid pipe from the axis of the branch pipe part), due to the friction between both annular seal parts and the inner peripheral surface of the fluid pipe, It is possible to further prevent the blocking bag from moving to the downstream side of the fluid pipe.
Further, even if there are burrs, protrusions, or mortar peeling on the inner peripheral side of the branch port on the inner peripheral surface of the fluid pipe, the annular seal portion is in the direction of the pipe axis of the fluid pipe. Since it is pressed against the inner peripheral surface of the fluid pipe at a position deviated from the inner surface side peripheral edge portion, the water stoppage does not decrease.
In addition, even when the inner peripheral surface side peripheral portion of the branch port on the inner peripheral surface of the fluid pipe is formed in a curved shape toward the branch port, the annular seal portion is on the inner surface side in the tube axis direction of the fluid pipe. Since it press-contacts with the internal peripheral surface of a fluid pipe | tube in the position biased from the peripheral part, a water stop does not fall.

穿孔口に連通する分岐管部が接続された流体配管系統を示す縦断面図A longitudinal sectional view showing a fluid piping system to which a branch pipe portion communicating with a perforation port is connected 不断水式の流路閉塞装置を分岐管部に接続した状態を示す縦断面図Longitudinal sectional view showing a state where a continuous water type channel closing device is connected to the branch pipe section 筒軸を押し込み操作して、挿入ガイド筒が当接姿勢となった状態を示す縦断面図A longitudinal sectional view showing a state where the insertion guide cylinder is brought into a contact posture by pushing the cylinder shaft. 筒軸を更に押し込み操作して、管内流路に閉塞バッグを挿入する過程を示す縦断面図Longitudinal sectional view showing the process of further pushing the cylinder shaft to insert the closure bag into the pipe flow path 挿入位置規制凸部が挿入ガイド筒の底部外面に当接して、閉塞バッグが管内流路閉塞位置に位置する状態を示す縦断面図Longitudinal sectional view showing a state where the insertion position restricting convex portion is in contact with the bottom outer surface of the insertion guide cylinder and the closing bag is positioned at the in-tube flow path closing position 管内流路閉塞位置に位置する閉塞バッグを弾性膨張変形させた状態を示す縦断面図The longitudinal cross-sectional view which shows the state which carried out the elastic expansion deformation of the obstruction | occlusion bag located in the in-pipe flow-path obstruction | occlusion position 弾性膨張変形した閉塞バッグに流体圧が作用した状態を示す縦断面図Longitudinal sectional view showing a state in which fluid pressure is applied to an elastically inflated and closed bag 筒軸を抜去して、閉塞バッグを管内流路閉塞位置から密閉ケース内に収容する過程を示す縦断面図Longitudinal sectional view showing the process of removing the cylinder shaft and storing the closed bag in the sealed case from the closed position of the in-pipe channel 挿入ガイド筒及び閉塞バッグが密閉ケース内に収容された状態を示す縦断面図Longitudinal sectional view showing a state where the insertion guide tube and the closing bag are accommodated in the sealed case 不断水式の流路閉塞装置を分岐管部から離脱させた状態を示す縦断面図Longitudinal sectional view showing the state where the continuous water type channel closing device is detached from the branch pipe section 穿孔口への中栓の装着状態を示す縦断面図Longitudinal sectional view showing the state of the inner plug attached to the hole 穿孔口への中栓及び蓋の装着状態を示す縦断面図Longitudinal sectional view showing the state of the inner plug and lid attached to the hole 別実施形態に係る挿入ガイド筒等の構成を示す縦断面図Longitudinal sectional view showing the configuration of an insertion guide cylinder and the like according to another embodiment 別実施形態に係る挿入ガイド筒等の構成を示す縦断面図Longitudinal sectional view showing the configuration of an insertion guide cylinder and the like according to another embodiment

図1〜図10は、流体配管系統の一部を構成する鋳鉄製の水道管(流体管の一例)1に形成されている穿孔口(分岐口の一例)2を介して水道管1内に挿入され、拡径側に膨張変形して水道管1の管内流路3を閉止する閉塞バッグ4を備えた不断流式の流路閉塞装置Aを使用して、水道管1内を通流する上水(流体の一例)Qの通流を維持した不断水状態(不断流状態の一例)のまま管内流路3を閉止する流路閉塞方法を示す。
なお、このような流路閉塞装置Aを用いた流路閉塞方法は、穿孔口2の近傍で閉塞バッグ4により水道管1の管内流路3を閉止することで、管内流路3において閉塞バッグ4により閉止された箇所よりも下流側の部位で、不断水状態のまま、耐用年数に至ったり、劣化による漏水や故障等により更新時期を迎えた水道管1や消火栓(図示せず)等の更新作業・修理作業等を行うために実施される。
1 to 10 show a water pipe 1 through a perforated port (an example of a branch port) 2 formed in a cast iron water pipe (an example of a fluid pipe) 1 constituting a part of a fluid piping system. Using the continuous flow type flow blocking device A provided with a closed bag 4 that is inserted and expands and deforms toward the diameter expansion side to close the flow channel 3 of the water pipe 1, the water flows through the water pipe 1. A flow path closing method for closing the in-pipe flow path 3 while maintaining a continuous water state (an example of a continuous flow state) while maintaining the flow of clean water (an example of fluid) Q will be described.
In addition, the flow path closing method using such a flow path closing apparatus A closes the in-pipe flow path 3 of the water pipe 1 with the close bag 4 in the vicinity of the perforation port 2, thereby closing the closed bag in the in-pipe flow path 3. 4. Water pipe 1 or fire hydrant (not shown) that has reached the end of its useful life in the downstream part of the part closed by 4 or has reached the renewal period due to water leakage or failure due to deterioration, etc. It is carried out for renewal work and repair work.

具体的には、まず、図1に示すように、水道管1において消火栓等の更新作業等を行う箇所の上流側の所定領域(穿孔口2を穿孔する予定箇所を含む領域)に、分割構造の割T字管(T字継手の一例)5を水密状態で装着するとともに、この割T字管5の弁装着口部(装着口部の一例)6に、仕切弁(弁部材の一例)7を水密状態で接続する分岐管部接続工程を実行する。   Specifically, as shown in FIG. 1, first, a divided structure is provided in a predetermined region (a region including a planned location for drilling the perforation port 2) upstream of a location where a water hydrant or the like is updated in the water pipe 1. The split T-shaped tube (an example of a T-shaped joint) 5 is mounted in a watertight state, and a valve mounting port (an example of a mounting port) 6 of the split T-shaped tube 5 is connected to a gate valve (an example of a valve member). The branch pipe part connection process which connects 7 in a watertight state is performed.

割T字管5は、水道管1に対して径方向から外装自在な管周方向で三分割された部分円筒状の分割継手体5Aにより構成されているとともに、各分割継手体5Aの管周方向両端部には、水道管1に外装された分割継手体5Aの隣接端部同士を複数本のボルト8・ナット9を介して脱着自在に固定連結するための連結フランジ部5aが一体形成されている。
また、各分割継手体5Aの内面に形成されたシール保持溝5bには、水道管1の外周面1aとの間を水密状態に密封する合成ゴム製のシール材5cが装着されているとともに、一つの分割継手体5Aの中央部には、穿孔口2の直径よりも大径の内径を備えた円筒状の弁装着口部6が、水道管1の径方向外方側に向けて突出する状態で一体形成されている。
The split T-shaped pipe 5 is constituted by a partially cylindrical split joint body 5A that is divided into three in a pipe circumferential direction that can be externally mounted from the radial direction with respect to the water pipe 1, and the pipe circumference of each split joint body 5A. At both ends in the direction, connecting flange portions 5a for detachably fixing and connecting the adjacent ends of the split joint body 5A sheathed on the water pipe 1 through a plurality of bolts 8 and nuts 9 are integrally formed. ing.
A seal holding groove 5b formed on the inner surface of each split joint body 5A is fitted with a synthetic rubber sealing material 5c that seals between the outer peripheral surface 1a of the water pipe 1 in a watertight state, A cylindrical valve mounting port 6 having an inner diameter larger than the diameter of the perforation port 2 projects toward the radially outer side of the water pipe 1 at the center of one split joint body 5A. It is integrally formed in a state.

弁装着口部6は、水道管1の穿孔口2に連通し且つ穿孔口2の直径よりも大径の内径を備えた管部6aと、管部6aの下流側端部に形成される連結フランジ部6bと、連結フランジ部6bの内径側部位に形成され仕切弁7の筒状部7aの上流側端部を係合可能な環状凹溝6cとを備えている。
弁装着口部6の連結フランジ部6bには、仕切弁7の筒状部7aの長手方向中間部位に突出形成された連結フランジ部7Aが、ボルト10・ナット11により脱着自在に締付固定されている。
The valve mounting port 6 communicates with the piercing port 2 of the water pipe 1 and has a pipe portion 6a having an inner diameter larger than the diameter of the piercing port 2 and a connection formed at the downstream end of the pipe portion 6a. A flange portion 6b and an annular groove 6c formed at an inner diameter side portion of the connecting flange portion 6b and capable of engaging with an upstream end portion of the tubular portion 7a of the gate valve 7 are provided.
A connecting flange portion 7A that protrudes from a longitudinal intermediate portion of the tubular portion 7a of the gate valve 7 is fastened and fixed to the connecting flange portion 6b of the valve mounting port portion 6 by bolts 10 and nuts 11 so as to be detachable. ing.

仕切弁7は、後述する穿孔口2の内径よりも大径で且つ弁装着口部6の管部6aの内径よりも若干小径の内径に形成された筒状部7aと、筒状部7aの長手方向中間部位に形成され、筒状部7aの上流側端部をOリング(図示せず)を介して弁装着口部6の環状凹溝6cに係合させた水密状態で、ボルト10・ナット11により管部6aの連結フランジ部6bに脱着自在に締付連結される上流側の連結フランジ部7Aと、後述する流路閉塞装置Aの密閉ケース20の連結フランジ部20Aにボルト12・ナット13を介して脱着自在に水密状態で締付連結される下流側の連結フランジ部7Bと、連結フランジ部7Aと連結フランジ部7Bとの間の筒状部7aの流路を遮断自在な弁体7Cとを備えている。
つまり、分割継手体5Aにおける弁装着口部6及び仕切弁7が、分岐管部Bとして機能し、分岐管部B内には軸芯Yに沿って水道管1の外周面(穿孔口2を穿孔する予定箇所)に連通する流路が形成されている。
The gate valve 7 has a cylindrical portion 7a formed with an inner diameter that is larger than the inner diameter of the perforation port 2 described later and slightly smaller than the inner diameter of the tube portion 6a of the valve mounting port portion 6, and a cylindrical portion 7a. In the watertight state formed at the intermediate portion in the longitudinal direction, the upstream end of the tubular portion 7a is engaged with the annular groove 6c of the valve mounting port 6 via an O-ring (not shown), Bolts 12 and nuts are connected to the upstream connecting flange portion 7A, which is detachably fastened to the connecting flange portion 6b of the pipe portion 6a by the nut 11, and to the connecting flange portion 20A of the sealing case 20 of the flow path closing device A described later. 13 is a valve body that can shut off the flow path of the downstream side connecting flange portion 7B that is detachably connected in a watertight manner through the tube 13, and the tubular portion 7a between the connecting flange portion 7A and the connecting flange portion 7B. 7C.
That is, the valve mounting port 6 and the gate valve 7 in the split joint body 5A function as the branch pipe portion B, and the outer peripheral surface of the water pipe 1 (the perforation port 2 is provided along the axis Y in the branch pipe portion B). A flow path is formed which communicates with a portion to be perforated).

次に、公知の構成であるので説明を簡易にするため図示を省略するが、穿孔装置を仕切弁7の下流側の連結フランジ部7Bに締付連結し、穿孔装置のホールソーにより水道管1の管壁に円形状の穿孔口2を穿孔形成する。
具体的には、穿孔装置は、仕切弁7の下流側の連結フランジ部7Bにボルト・ナットを介して水密状態で連結可能な連結フランジ部を備えた有底筒状のケーシングと、ケーシングの底部に貫設されて、ケーシング内を当該ケーシングの長手方向に移動自在で且つ駆動回転自在なホールソー(円筒状回転カッター)とを備えている。
そして、ケーシングの連結フランジ部を、弁体7Cが閉弁状態にある仕切弁7の連結フランジ部7Bにボルト・ナットを介して水密状態で締付連結し、穿孔装置のホールソーを、分岐管部Bの軸芯Yに沿って仕切弁7の筒状部7a、開弁操作された弁体7C及び弁装着口部6の管部6aを介して送り込んで、水道管1の管壁に円形状の穿孔口2を穿孔形成する穿孔作業工程を実行する。なお、穿孔口2を形成した後、ホールソー及び円形状に切断された切片をケーシング内に収容するとともに弁体7Cを閉弁操作して、ケーシングの連結フランジと仕切弁7の連結フランジ7Bとの締付連結を解除し、穿孔装置を仕切弁7から撤去する。
Next, since it is a known configuration, illustration is omitted for the sake of simplicity. However, the perforation device is fastened and connected to the connection flange portion 7B on the downstream side of the gate valve 7, and the water pipe 1 is connected by the hole saw of the perforation device. A circular perforation port 2 is formed in the tube wall.
Specifically, the perforating apparatus includes a bottomed cylindrical casing having a connecting flange portion that can be connected to a connecting flange portion 7B on the downstream side of the gate valve 7 in a watertight manner via bolts and nuts, and a bottom portion of the casing. And a hole saw (cylindrical rotary cutter) that is movable in the longitudinal direction of the casing and is rotatable.
Then, the connecting flange portion of the casing is tightened and connected to the connecting flange portion 7B of the gate valve 7 in which the valve body 7C is in a closed state in a watertight state via bolts and nuts, and the hole saw of the punching device is connected to the branch pipe portion. It is fed along the axial center Y of B through the cylindrical portion 7a of the gate valve 7, the valve body 7C that has been opened, and the pipe portion 6a of the valve mounting port 6 to form a circular shape on the pipe wall of the water pipe 1 A perforating operation process for perforating and forming the perforation port 2 is executed. After the perforated port 2 is formed, the hole saw and the circularly cut piece are accommodated in the casing, and the valve body 7C is closed so that the connection flange of the casing and the connection flange 7B of the gate valve 7 are closed. The tightening connection is released, and the punching device is removed from the gate valve 7.

続いて、図2〜図7に示すように、仕切弁7に、流路閉塞装置Aを水密状態で接続し、管内流路閉塞工程を実行する。まず、流路閉塞装置Aの構成について説明する。   Subsequently, as shown in FIGS. 2 to 7, the flow path closing device A is connected to the gate valve 7 in a watertight state, and the in-pipe flow path closing process is executed. First, the configuration of the flow path closing device A will be described.

図2に示すように、流路閉塞装置Aは、穿孔口2に連通し仕切弁7を有する分岐管部Bに着脱自在に接続される密閉ケース20と、密閉ケース20内に内嵌される挿入ガイド筒22と、密閉ケース20及び挿入ガイド筒22に亘って、密封状態を維持したまま分岐管部Bの軸芯Yに沿って摺動自在に貫設され、内部に通流路30Aを備えた筒軸(軸の一例)30と、挿入ガイド筒22内に位置する筒軸30の先端部30Bに固設されて、通流路30Aを介して供給される拡径用流体Pにより拡径側に弾性膨張変形自在な閉塞バッグ4と、水道管1内の流体圧に抗して筒軸30を押し込み移動させる押込み操作手段40と、挿入ガイド筒22内に位置する筒軸30の先端部30Bに固設され、挿入ガイド筒22の内面22cに摺接可能な軸芯調整筒部材(軸芯調整部の一例)50とを備える。   As shown in FIG. 2, the flow path closing device A is fitted in a sealed case 20 that is detachably connected to a branch pipe portion B that communicates with the perforation port 2 and has a gate valve 7. The insertion guide cylinder 22, the sealing case 20, and the insertion guide cylinder 22 are slidably penetrated along the axis Y of the branch pipe portion B while maintaining a sealed state. The cylindrical shaft (an example of the shaft) 30 provided and the distal end portion 30B of the cylindrical shaft 30 located in the insertion guide tube 22 are fixed and expanded by the diameter-enlarging fluid P supplied through the flow passage 30A. The closed bag 4 that is elastically expandable and deformable on the radial side, the pushing operation means 40 that pushes and moves the cylinder shaft 30 against the fluid pressure in the water pipe 1, and the tip of the cylinder shaft 30 that is located in the insertion guide cylinder 22 Axial core tone fixed to the portion 30B and capable of sliding contact with the inner surface 22c of the insertion guide tube 22 (An example of the axis adjusting section) tubular member comprises a 50 and.

密閉ケース20は、仕切弁7の筒状部7aの内径と略同径の内径に形成された筒状壁20aと筒状壁20aの下流側端部を閉塞する底壁部20bとを備えた有底筒状に形成され、後述する挿入ガイド筒22及び挿入ガイド筒22内から移動した閉塞バッグ4を収容可能な長さの内部空間21を備えている。筒状壁20aの上流側端部には、仕切弁7の下流側の連結フランジ部7Bにボルト12・ナット13を介して脱着自在に水密状態で締付連結される連結フランジ部20Aが形成され、底壁部20bには、水道管1の管内流路3を閉塞する閉塞バッグ4を先端部30Bに備えた筒軸30が、環状シール部材20cにより密封状態を維持したまま摺動自在に貫設されている。
また、密閉ケース20には、筒状壁20aの外周面のうち底壁部20b寄りの箇所で且つ筒軸30を挟んで相対向する部位に、環状係止部20dを備えたアイナット20eが筒状壁20aの外周面に固着されたボルト等の適宜固定手段(図示せず)で固定されている。
The sealed case 20 includes a cylindrical wall 20a formed to have an inner diameter that is substantially the same as the inner diameter of the cylindrical portion 7a of the gate valve 7, and a bottom wall portion 20b that closes the downstream end of the cylindrical wall 20a. It is formed in a bottomed cylindrical shape, and includes an insertion guide cylinder 22 to be described later and an internal space 21 having a length capable of accommodating the closing bag 4 moved from the insertion guide cylinder 22. A connecting flange portion 20A is formed at the upstream end of the cylindrical wall 20a. The connecting flange portion 20A is connected to the connecting flange portion 7B on the downstream side of the gate valve 7 by a bolt 12 and a nut 13 so as to be detachable and tightened in a watertight state. In the bottom wall portion 20b, a cylindrical shaft 30 provided with a closing bag 4 for closing the in-pipe flow path 3 of the water pipe 1 at the tip portion 30B penetrates slidably while maintaining a sealed state by the annular seal member 20c. It is installed.
The sealed case 20 is provided with an eye nut 20e provided with an annular locking portion 20d at a location near the bottom wall portion 20b on the outer peripheral surface of the cylindrical wall 20a and opposed to each other across the cylindrical shaft 30. It is fixed by appropriate fixing means (not shown) such as a bolt fixed to the outer peripheral surface of the wall 20a.

挿入ガイド筒22は、仕切弁7の筒状部7aの内径よりも若干小径の外径に形成された筒状壁22aと筒状壁22aの下流側端部を閉塞する底壁部22bとを備えた有底筒状に形成され、後述する軸芯調整筒部材50及び閉塞バッグ4を収容可能な内部空間(図示せず)を備えている。底壁部22bには、水道管1の管内流路3を閉塞する閉塞バッグ4を先端部30Bに備えた筒軸30が、環状の弾性保持部材22dにより密封状態を維持したまま摺動自在に貫設されている。弾性保持部材22dは、挿入ガイド筒22の底壁部22bと筒軸30とを摩擦保持するとともに、挿入ガイド筒22と筒軸30とが相対移動した際に、挿入ガイド筒22の底壁部22bと筒軸30とが傷つくことを防止可能なゴム等により構成されている。なお、筒軸30の外周面に対する挿入ガイド筒22における底壁部22bの弾性保持部材22dによる密着度(摩擦保持度)が、筒軸30の外周面に対する密閉ケース20における底壁部20bの環状シール部材20cによる密着度(摩擦保持度)よりも高くなるように、筒軸30が挿入ガイド筒22及び密閉ケース20に貫設されている。   The insertion guide cylinder 22 includes a cylindrical wall 22a formed to have an outer diameter slightly smaller than the inner diameter of the cylindrical part 7a of the gate valve 7, and a bottom wall part 22b that closes the downstream end of the cylindrical wall 22a. It has an inner space (not shown) which is formed in a bottomed cylindrical shape and can accommodate an axis adjusting cylinder member 50 and a closing bag 4 which will be described later. On the bottom wall portion 22b, a cylindrical shaft 30 provided with a closing bag 4 for closing the in-pipe flow path 3 of the water pipe 1 at the distal end portion 30B is slidable while maintaining a sealed state by an annular elastic holding member 22d. It is penetrating. The elastic holding member 22d frictionally holds the bottom wall portion 22b of the insertion guide tube 22 and the tube shaft 30, and the bottom wall portion of the insertion guide tube 22 when the insertion guide tube 22 and the tube shaft 30 move relative to each other. It is comprised with the rubber | gum etc. which can prevent 22b and the cylinder shaft 30 from being damaged. Note that the degree of adhesion (friction retention) of the bottom wall portion 22 b of the insertion guide tube 22 with respect to the outer peripheral surface of the cylindrical shaft 30 by the elastic holding member 22 d is an annular shape of the bottom wall portion 20 b of the sealed case 20 with respect to the outer peripheral surface of the cylindrical shaft 30. The cylinder shaft 30 is provided through the insertion guide cylinder 22 and the sealing case 20 so as to be higher than the degree of adhesion (friction retention) by the seal member 20c.

また、挿入ガイド筒22の上流側端部(先端部)に、挿入ガイド筒22の外径側部位22eよりも内径側部位22fが先端側に突出形成された段部22Aを備え、外径側部位22eの外径は穿孔口2の内径よりも若干大径に形成され、内径側部位22fの外径は穿孔口2の内径よりも若干小径に形成されている。これにより、外径側部位22eの少なくとも一部を水道管1の外周面1aにおける穿孔口2の外面側周縁部2aに当接させ且つ内径側部位22fの少なくとも一部を穿孔口2に内嵌させた当接姿勢で、分岐管部B内において挿入ガイド筒22を位置決め可能に構成されている。   Further, the upstream end portion (tip portion) of the insertion guide tube 22 is provided with a step portion 22A in which an inner diameter side portion 22f protrudes from the outer diameter side portion 22e of the insertion guide tube 22 toward the distal end side. The outer diameter of the portion 22 e is slightly larger than the inner diameter of the perforation port 2, and the outer diameter of the inner diameter side portion 22 f is slightly smaller than the inner diameter of the perforation port 2. As a result, at least a part of the outer diameter side portion 22e is brought into contact with the outer peripheral edge 2a of the perforation port 2 in the outer peripheral surface 1a of the water pipe 1, and at least a part of the inner diameter side portion 22f is fitted into the perforation port 2. The insertion guide tube 22 is configured to be positioned in the branch pipe portion B in the abutted posture.

筒軸30は、筒状に形成されて内部に通流路30Aを備え、密閉ケース20の底壁部20b及び挿入ガイド筒22の底壁部22bに亘って、密封状態を維持したまま分岐管部Bの軸芯Yに沿って摺動自在に貫設されている。   The cylindrical shaft 30 is formed in a cylindrical shape and includes a flow passage 30 </ b> A therein, and the branched pipe is maintained in a sealed state over the bottom wall portion 20 b of the sealed case 20 and the bottom wall portion 22 b of the insertion guide tube 22. It slidably penetrates along the axis Y of the part B.

筒軸30の先端部30Bは、閉塞バッグ4の基端部位に設けられた口金部材4Aの嵌合筒部4aを内嵌可能に構成されているとともに、筒軸30の先端部30Bには、止めネジ30aを螺合可能な一対の螺合孔30bが筒軸30の径方向に貫通形成されている。これにより、筒軸30の先端部30Bに嵌合筒部4aを内嵌した状態で、止めネジ30aを、止めネジ30aの先端部が嵌合筒部4aに形成された係止段部4bに当接し係止するまで、螺合孔30bに螺合させることで、閉塞バッグ4を筒軸30の先端部30Bに水密状態で固設することができる。   The distal end portion 30B of the cylindrical shaft 30 is configured so that the fitting cylindrical portion 4a of the base member 4A provided at the proximal end portion of the closing bag 4 can be fitted therein, and the distal end portion 30B of the cylindrical shaft 30 includes A pair of screw holes 30 b into which the set screws 30 a can be screwed are formed so as to penetrate in the radial direction of the cylindrical shaft 30. As a result, in the state in which the fitting cylinder part 4a is fitted in the tip part 30B of the cylinder shaft 30, the set screw 30a is changed to the locking step part 4b in which the tip part of the set screw 30a is formed in the fitting cylinder part 4a. The closure bag 4 can be fixed to the distal end portion 30B of the cylindrical shaft 30 in a watertight state by being screwed into the screwing hole 30b until it is brought into contact with and locked.

筒軸30の後端部30Cは、通流路30Aを閉塞するとともに、回転軸(図示せず)周りで回動自在に軸支された滑車30cを備えた滑車配設部材により構成されており、当該滑車30cを介して密閉ケース20の一対の環状係止部20dに亘って、後述する押込み操作手段40のチェーン(又はワイヤー等)41を架け渡し可能に構成されている。
筒軸30の後端部30Cの上流側には、拡径用流体Pを筒軸30の外部の供給源(図示せず)から供給バルブ31aを介して通流路30Aに供給する供給路31、及び、通流路30A内の拡径用流体Pを排出バルブ32aを介して排出する排出路32が設けられている。
The rear end portion 30C of the cylindrical shaft 30 is configured by a pulley arrangement member that includes a pulley 30c that closes the passage 30A and is pivotally supported around a rotation shaft (not shown). A chain (or a wire or the like) 41 of the pushing operation means 40 to be described later can be bridged across the pair of annular locking portions 20d of the sealed case 20 via the pulley 30c.
On the upstream side of the rear end portion 30C of the cylindrical shaft 30, a supply path 31 for supplying the diameter-enlarging fluid P from a supply source (not shown) outside the cylindrical shaft 30 to the flow path 30A via the supply valve 31a. In addition, a discharge passage 32 is provided for discharging the diameter-enlarging fluid P in the flow passage 30A through the discharge valve 32a.

また、筒軸30の外周面には、筒軸30を挟んで相対向する位置に一対の挿入位置規制凸部(挿入位置規制手段の一例)30Dが筒軸30の径方向外方側に突出形成され、当該挿入位置規制凸部30Dは、筒軸30が分岐管部Bの軸芯Yに沿って摺動した際に、挿入ガイド筒22の底壁部22bの外面(底部外面)に当接して、筒軸30の挿入状態を最大挿入位置に規制する(閉塞バッグ4の水道管1内への挿入状態が管内流路閉塞位置となるように規制する)ように構成されている。   In addition, a pair of insertion position restricting projections (an example of an insertion position restricting means) 30 </ b> D protrudes radially outward of the tubular shaft 30 on the outer peripheral surface of the tubular shaft 30 at positions facing each other with the tubular shaft 30 therebetween. The insertion position restricting convex portion 30D is formed so as to contact the outer surface (bottom portion outer surface) of the bottom wall portion 22b of the insertion guide tube 22 when the tube shaft 30 slides along the axis Y of the branch tube portion B. In contact therewith, the insertion state of the cylinder shaft 30 is restricted to the maximum insertion position (the insertion state of the closing bag 4 into the water pipe 1 is restricted to be the in-pipe flow path closing position).

閉塞バッグ4は、挿入ガイド筒22内に位置する筒軸30の先端部30Bに固設されて、通流路30Aを介して供給される拡径用流体Pにより拡径側に弾性膨張変形自在に構成される。なお、拡径用流体Pとしては、閉塞バッグ4内に供給されることで、閉塞バッグ4を弾性膨張変形させて管内流路3を閉止可能であれば、圧縮空気等の気体や水等の液体を用いることができる。   The blocking bag 4 is fixed to the distal end portion 30B of the cylindrical shaft 30 located in the insertion guide cylinder 22, and can be elastically expanded and deformed to the diameter expansion side by the diameter expansion fluid P supplied through the flow path 30A. Configured. As the diameter expansion fluid P, if it is supplied into the closure bag 4 and the closure bag 4 can be elastically expanded and deformed to close the in-pipe flow path 3, a gas such as compressed air, water or the like can be used. Liquid can be used.

具体的には、閉塞バッグ4は、拡径用流体Pにより拡径側に弾性膨張変形自在なバッグ本体4Bと、通流路30Aを介してバッグ本体4B内に拡径用流体Pを供給又は排出可能な流体給排路4cを備えた口金部材4Aとを備えている。   Specifically, the closure bag 4 supplies the expansion fluid P into the bag body 4B via the flow passage 30A and the bag body 4B that is elastically expandable and deformable to the expansion side by the expansion fluid P. And a cap member 4A having a fluid supply / discharge passage 4c that can be discharged.

バッグ本体4Bは、袋状に形成されて、天然ゴムや合成ゴム等のゴム製の内側バッグ(図示せず)、及び、布等の繊維状部材やゴム等或いはそれらが層状に一体化された可撓性部材等の外側バッグ(図示せず)により、二重構造に構成されている。なお、二重構造ではなく、一重構造や三重構造以上の構成であってもよい。   The bag body 4B is formed in a bag shape, and is an inner bag made of rubber such as natural rubber or synthetic rubber (not shown), and a fibrous member such as cloth, rubber, or the like, or these are integrated in layers. A double structure is formed by an outer bag (not shown) such as a flexible member. Note that the structure may be a single structure or a triple structure or more instead of the double structure.

口金部材4Aは、一端側が筒軸30の先端部30Bに内嵌し且つ他端側がバッグ本体4Bを貫通してバッグ本体4B内に位置する状態で、内部に流体給排路4cを備えた嵌合筒部4aと、バッグ本体4B内に位置して、嵌合筒部4aの他端側の外面に形成された雌ネジ(図示せず)に螺合される円筒状のバッグ内螺合部材4eと、バッグ本体4B外に位置する嵌合筒部4aの一端側に嵌合して、バッグ内螺合部材4eとの間でバッグ本体4Bの一部を挟持する円筒状のバッグ外取付部材4fと、バッグ本体4B外に位置する嵌合筒部4aの一端側の外面に形成された雌ネジ部(図示せず)に螺合して、バッグ外取付部材4fをバッグ内螺合部材4e側に締付固定する固定ナット4gとを備えて構成されている。   The base member 4A is fitted with a fluid supply / discharge passage 4c inside, with one end side fitted into the distal end portion 30B of the cylindrical shaft 30 and the other end side penetrating the bag body 4B and located in the bag body 4B. Cylindrical in-bag screwing member that is located in the bag 4a and the bag main body 4B and is screwed into a female screw (not shown) formed on the outer surface of the other end of the fitting cylinder 4a. 4e and a cylindrical outer bag mounting member that is fitted to one end side of the fitting tube portion 4a located outside the bag body 4B and sandwiches a part of the bag body 4B between the bag inner screw 4e 4f is screwed into a female screw portion (not shown) formed on the outer surface of one end of the fitting tube portion 4a located outside the bag body 4B, and the bag outer attachment member 4f is screwed into the bag inner screw member 4e. And a fixing nut 4g that is fastened and fixed to the side.

嵌合筒部4aの長手方向は、筒軸30の長手方向(分岐管部Bの軸芯Y方向)に沿うように配置されており、バッグ本体4B内に拡径用流体Pが供給されていない状態では、バッグ本体4Bは、バッグ本体4B内に貫通した嵌合筒部4aの他端部が中心となるように棒状に縮小した状態で折り畳むことが可能に構成されている。バッグ本体4Bが棒状に縮小した状態で折り畳まれると、バッグ本体4Bの外径は挿入ガイド筒22の内径より若干小径となり、挿入ガイド筒22内に収容可能に構成されている。なお、本実施形態では、挿入ガイド筒22内に収容されたバッグ本体4Bは、バッグ本体4Bの外面が挿入ガイド筒22の内面22cに密着した(摩擦保持された)状態となっている。   The longitudinal direction of the fitting tube portion 4a is arranged along the longitudinal direction of the tube shaft 30 (the axis Y direction of the branch tube portion B), and the diameter expansion fluid P is supplied into the bag body 4B. In the absence of the bag body 4B, the bag body 4B is configured to be foldable in a state of being reduced in a rod shape so that the other end portion of the fitting cylinder portion 4a penetrating into the bag body 4B is the center. When the bag body 4B is folded in a state of being reduced to a rod shape, the outer diameter of the bag body 4B is slightly smaller than the inner diameter of the insertion guide tube 22 and is configured to be accommodated in the insertion guide tube 22. In the present embodiment, the bag main body 4B accommodated in the insertion guide cylinder 22 is in a state where the outer surface of the bag main body 4B is in close contact with the inner surface 22c of the insertion guide cylinder 22 (friction held).

一方で、バッグ本体4Bは、内部に拡径用流体Pが供給された状態では、拡径側に弾性膨張変形して袋状の概略円筒形状となるように構成され(図6参照)、外周面が管内流路3の内周面に良好に密着できる程度の外径を備えている。即ち、バッグ本体4Bが弾性膨張変形して概略円筒形状になる際には、バッグ本体4Bは、嵌合筒部4aの長手方向(筒軸30の長手方向)では円筒の直径が大きくなるように膨張変形し、嵌合筒部4aの長手方向に直交する方向では円筒の高さが大きくなるように膨張変形するように構成されている。
そして、バッグ本体4B(閉塞バッグ4)の外周面において、嵌合筒部4aの長手方向に直交する方向における嵌合筒部4a(筒軸30)の両側に位置する箇所には、閉塞バッグ4が弾性膨張変形した際に、水道管1の内周面に対して周方向の全周に亘って圧接して閉塞バッグ4を摩擦保持する環状シール部4iが突設されている。
On the other hand, the bag main body 4B is configured to be elastically expanded and deformed toward the diameter-expanding side to have a bag-like substantially cylindrical shape when the diameter-expanding fluid P is supplied therein (see FIG. 6). The outer diameter of the surface can be satisfactorily adhered to the inner peripheral surface of the pipe flow path 3. That is, when the bag body 4B is elastically expanded and deformed into a substantially cylindrical shape, the bag body 4B has a cylindrical diameter that increases in the longitudinal direction of the fitting tube portion 4a (longitudinal direction of the tube shaft 30). The cylinder is inflated and deformed, and in a direction orthogonal to the longitudinal direction of the fitting cylinder portion 4a, the cylinder is expanded and deformed so that the height of the cylinder is increased.
And on the outer peripheral surface of the bag main body 4B (blocking bag 4), the blocking bag 4 is located at positions located on both sides of the fitting tube portion 4a (tube shaft 30) in the direction orthogonal to the longitudinal direction of the fitting tube portion 4a. An annular seal portion 4i that protrudes from the inner peripheral surface of the water pipe 1 and frictionally holds the closed bag 4 by being in contact with the inner peripheral surface of the water pipe 1 when it is elastically expanded and deformed.

嵌合筒部4aの一端側の外面には、嵌合筒部4aの一端部が筒軸30の先端部30Bに内嵌した際、先端部30Bに貫通形成された螺合孔30bに対応する位置に、当該外面から内径側に窪み形成される係止段部4bが形成され、当該係止段部4bよりも更に端部側の外面には、筒軸30の先端部30Bにおける通流路30Aの内面との間を水密状態に維持する一対のOリング4hが配設されている。
バッグ外取付部材4fの外径は、後述する軸芯調整筒部材50に内嵌するように、軸芯調整筒部材50の内径よりも若干小径に形成され、バッグ外取付部材4fの外面が、軸芯調整筒部材50の内面50aに摺接可能に構成されている。
When one end of the fitting cylinder 4a is fitted into the tip 30B of the cylinder shaft 30 on the outer surface on one end of the fitting cylinder 4a, it corresponds to a screwing hole 30b formed through the tip 30B. A locking step portion 4b is formed at a position so as to be recessed from the outer surface toward the inner diameter side, and on the outer surface further on the end side than the locking step portion 4b, the flow path in the tip portion 30B of the cylindrical shaft 30 is formed. A pair of O-rings 4h that maintain a watertight state between the inner surface of 30A are disposed.
The outer diameter of the bag outer mounting member 4f is formed to be slightly smaller than the inner diameter of the shaft core adjusting cylinder member 50 so that the outer diameter of the bag outer mounting member 4f is fitted into a shaft core adjusting cylinder member 50 described later. The shaft core adjusting cylinder member 50 is configured to be slidable on the inner surface 50a.

押込み操作手段40は、水道管1内の流体圧に抗して筒軸30を押し込み移動させるように構成され、密閉ケース20に設けられた一対の環状係止部20dに係止可能な一対のフック部材42と、筒軸30の後端部30Cに配設された滑車30cを介して、フック部材42により一対の環状係止部20dに亘って架け渡される一本のチェーン(又はワイヤー等)41と、当該チェーン41を緊締側に巻き取り操作する操作レバー43とを備えている。なお、操作レバー43は、チェーン41を緊締側に巻き取り操作するのみならず、チェーン41を緊締した位置で位置保持したり、緊締を解除する解除側に操作したりすることができるレバーブロック(登録商標、以下同じ)により構成されている。   The pushing operation means 40 is configured to push and move the cylindrical shaft 30 against the fluid pressure in the water pipe 1, and can be locked to a pair of annular locking portions 20 d provided in the sealed case 20. One chain (or a wire or the like) spanned across the pair of annular locking portions 20d by the hook member 42 via the hook member 42 and a pulley 30c disposed at the rear end portion 30C of the cylindrical shaft 30. 41 and an operating lever 43 for winding the chain 41 to the tightening side. The operation lever 43 not only operates to wind the chain 41 to the tightening side, but can also hold the position of the chain 41 in the tightened position or operate the release side to release the tightening ( Registered trademark, the same shall apply hereinafter).

軸芯調整筒部材50は、挿入ガイド筒22内に位置する筒軸30の先端部30Bに固設され、軸芯調整筒部材50の外面が挿入ガイド筒22の内面22cに摺接可能な状態で、挿入ガイド筒22内に内嵌されている。
具体的には、軸芯調整筒部材50は、挿入ガイド筒22の内径よりも若干小径の外径で且つバッグ外取付部材4fの外径よりも若干大径の内径に形成された筒壁部50bと、筒軸30の先端部30Bが貫設される底壁部50cとを備えた有底筒状に形成されている。
The axial center adjusting cylinder member 50 is fixed to the distal end portion 30B of the cylindrical shaft 30 located in the insertion guide cylinder 22, and the outer surface of the axial center adjusting cylinder member 50 is in sliding contact with the inner surface 22c of the insertion guide cylinder 22. Thus, it is fitted inside the insertion guide tube 22.
Specifically, the axial center adjusting cylinder member 50 has a cylindrical wall portion formed with an outer diameter slightly smaller than the inner diameter of the insertion guide cylinder 22 and an inner diameter slightly larger than the outer diameter of the bag outer mounting member 4f. 50b and the bottom wall part 50c in which the front-end | tip part 30B of the cylinder shaft 30 penetrates are formed in the bottomed cylinder shape.

底壁部50cには、止めネジ51を螺合可能な一対の螺合孔52が軸芯調整筒部材50の径方向(筒軸30の径方向)に貫通形成されている。これにより、止めネジ51を、止めネジ51の先端部が筒軸30の先端部30Bの外周面に当接し係止するまで、螺合孔52に螺合させることで、軸芯調整筒部材50を筒軸30の先端部30Bに固設することができる。
このように、軸芯調整筒部材50が筒軸30の先端部30Bに固設された状態では、軸芯調整筒部材50の筒壁部50bの内面50aの少なくとも一部が、口金部材4Aのバッグ外取付部材4fの外面の径方向外方側に近接した状態で位置している。
A pair of screw holes 52 into which the set screw 51 can be screwed are formed in the bottom wall portion 50c so as to penetrate in the radial direction of the shaft adjusting cylinder member 50 (the radial direction of the cylinder shaft 30). As a result, the shaft adjusting cylinder member 50 is screwed into the screw hole 52 until the set screw 51 is brought into contact with and locked to the outer peripheral surface of the tip 30B of the tube shaft 30. Can be fixed to the tip 30B of the cylindrical shaft 30.
As described above, in a state where the shaft core adjusting cylinder member 50 is fixed to the distal end portion 30B of the tube shaft 30, at least a part of the inner surface 50a of the tube wall portion 50b of the shaft core adjusting cylinder member 50 is the base member 4A. The bag outer mounting member 4f is positioned in the state of being close to the radially outer side of the outer surface of the bag outer mounting member 4f.

そして、図2に示すように、このように構成された流路閉塞装置Aの密閉ケース20の連結フランジ部20Aを、仕切弁7の下流側の連結フランジ部7Bにボルト12・ナット13を介して水密状態で締付連結する。
この状態では、密閉ケース20の内部空間21には、縮小された閉塞バッグ4が収容された挿入ガイド筒22が、挿入ガイド筒22における段部22Aの内径側部位22fの先端が密閉ケース20の連結フランジ部20Aの近傍に位置し、且つ、筒軸30の挿入位置規制凸部30Dの上面が密閉ケース20の底壁部20bの内面に当接する位置に位置する状態で、収容されている。即ち、分岐管部Bの軸芯Yに沿う方向において、挿入位置規制凸部30Dの下面と挿入ガイド筒22の底壁部22bの外面との距離が、挿入ガイド筒22の段部22Aが穿孔口2の外面側周縁部2aに当接した当接姿勢となった後に、筒軸30を最大挿入位置(管内流路閉塞位置)にまで挿入する距離と同一となるように、挿入ガイド筒22が密閉ケース20の内部空間21に収容されている。
As shown in FIG. 2, the connecting flange portion 20 </ b> A of the sealing case 20 of the flow path closing device A configured as described above is connected to the connecting flange portion 7 </ b> B on the downstream side of the gate valve 7 via a bolt 12 and a nut 13. Tighten in a watertight state.
In this state, in the internal space 21 of the sealed case 20, the insertion guide cylinder 22 in which the reduced closure bag 4 is accommodated, the tip of the inner diameter side portion 22 f of the stepped portion 22 </ b> A in the insertion guide cylinder 22 is located in the sealed case 20. It is located in the vicinity of the connecting flange portion 20 </ b> A and is in a state where the upper surface of the insertion position regulating convex portion 30 </ b> D of the cylindrical shaft 30 is located at a position where it abuts against the inner surface of the bottom wall portion 20 b of the sealed case 20. That is, in the direction along the axis Y of the branch pipe portion B, the distance between the lower surface of the insertion position restricting convex portion 30D and the outer surface of the bottom wall portion 22b of the insertion guide tube 22 is determined by the step 22A of the insertion guide tube 22 being perforated. After being in contact with the outer peripheral edge 2a of the mouth 2, the insertion guide tube 22 is set so as to be equal to the distance for inserting the tube shaft 30 up to the maximum insertion position (intra-tube flow path closing position). Is accommodated in the internal space 21 of the sealed case 20.

次に、図3に示すように、弁体7Cを開弁操作して、押込み操作手段40の操作レバー43によりチェーン41を緊締側に巻き取り操作し、管内流路3を通流する上水Qの流体圧に抗して筒軸30を、分岐管部Bの軸芯Yに沿って仕切弁7の筒状部7a、弁体7C及び弁装着口部6の管部6aを介して管内流路3側に押込み操作する。   Next, as shown in FIG. 3, the valve body 7 </ b> C is opened, the chain 41 is wound around the tightening side by the operation lever 43 of the pushing operation means 40, and the clean water flowing through the in-pipe flow path 3 is operated. The cylindrical shaft 30 is resisted against the fluid pressure of Q through the cylindrical portion 7a of the gate valve 7 along the axis Y of the branch pipe portion B, the valve body 7C, and the pipe portion 6a of the valve mounting port portion 6 in the pipe. Push in the flow path 3 side.

このように、筒軸30を分岐管部Bの軸芯Yに沿って摺動させると、図3に示すように、筒軸30は、密閉ケース20に対して相対移動し且つ挿入ガイド筒22に対しては相対移動しない状態で、挿入ガイド筒22と共に移動し、挿入ガイド筒22の段部22Aの少なくとも一部が水道管1の外周面1aにおける穿孔口2の外面側周縁部2aに当接する当接姿勢となる。
この当接姿勢では、挿入ガイド筒22は、段部22Aの外径側部位22eの少なくとも一部が外面側周縁部2aに当接し且つ内径側部位22fの少なくとも一部が穿孔口2に内嵌した状態で位置決めされており、また、挿入ガイド筒22の外径が分岐管部Bの内径よりも若干小径に構成されているので、分岐管部Bの内面により挿入ガイド筒22が、より確実に位置決めされている。
In this way, when the cylindrical shaft 30 is slid along the axis Y of the branch pipe portion B, the cylindrical shaft 30 moves relative to the sealed case 20 and the insertion guide cylinder 22 as shown in FIG. In the state where it does not move relative to the guide tube 22, it moves together with the insertion guide tube 22, and at least a part of the step portion 22 A of the insertion guide tube 22 contacts the outer peripheral side peripheral portion 2 a of the perforation port 2 in the outer peripheral surface 1 a of the water pipe 1. The contact posture comes into contact.
In this contact posture, the insertion guide cylinder 22 is configured such that at least a part of the outer diameter side portion 22e of the step portion 22A abuts the outer surface side peripheral edge portion 2a and at least a part of the inner diameter side portion 22f is fitted into the perforation port 2. In addition, since the outer diameter of the insertion guide cylinder 22 is slightly smaller than the inner diameter of the branch pipe portion B, the insertion guide cylinder 22 is more reliably secured by the inner surface of the branch pipe portion B. Is positioned.

これにより、不断流状態において閉塞バッグ4に管内流路3を通流する上水Qの流体圧が作用する場合でも、挿入ガイド筒22が当接姿勢となるまでは閉塞バッグ4を当該挿入ガイド筒22内に収容した状態で、閉塞バッグ4を密閉ケース20の内面や分岐管部Bの内面に当接させることなく、分岐管部Bの軸芯Yに沿って密閉ケース20内及び分岐管部B内を移動させることができる。
また、挿入ガイド筒22に貫設された筒軸30が分岐管部Bの軸芯Yに対してずれている場合でも、挿入ガイド筒22に形成された段部22Aの内径側部位22fを、挿入ガイド筒22を穿孔口2に挿入する際の案内部材として利用することができ、挿入ガイド筒22に貫設された筒軸30分岐管部Bの軸芯Yとを同軸状態で位置決めすることができる。
さらに、挿入ガイド筒22に形成された段部22Aの内径側部位22fが穿孔口2に内嵌された状態で、外径側部位22eが穿孔口2の外面側周縁部2aに当接するので、挿入ガイド筒22が水道管1の管軸芯X方向へ移動することを確実に防止することができる。
加えて、挿入ガイド筒22の段部22Aの内径側部位22eが穿孔口2に内嵌されるので、当該内径側部位22eが内嵌された部位では穿孔口2の内面側(水道管1の管軸芯X方向に沿う方向における穿孔口2の内面側)を覆う状態となり、後述するように、当接姿勢にある挿入ガイド筒22内から穿孔口2を介して水道管1の管内流路3に閉塞バッグ4を移動させる際に、当該閉塞バッグ4が穿孔口2の内面のバリや分岐管部Bの内面の突起等に接触することが無く、閉塞バッグ4の破損をより一層防止することができる。
As a result, even when the fluid pressure of the clean water Q flowing through the in-pipe flow path 3 acts on the closed bag 4 in the uninterrupted flow state, the closed bag 4 is inserted into the inserted guide until the insertion guide cylinder 22 comes into the contact posture. In the state accommodated in the cylinder 22, the closure bag 4 is brought into contact with the inner surface of the sealed case 20 and the inner surface of the branch pipe part B, and the inside of the sealed case 20 and the branch pipe along the axis Y of the branch pipe part B. The part B can be moved.
Even when the cylindrical shaft 30 penetrating the insertion guide tube 22 is displaced from the axis Y of the branch tube portion B, the inner diameter side portion 22f of the step portion 22A formed in the insertion guide tube 22 is The insertion guide tube 22 can be used as a guide member when the insertion guide tube 22 is inserted into the perforation port 2, and the axial center Y of the cylindrical shaft 30 branch pipe portion B penetrating the insertion guide tube 22 is positioned coaxially. Can do.
Further, since the outer diameter side portion 22e abuts on the outer peripheral side peripheral portion 2a of the perforation port 2 in a state where the inner diameter side portion 22f of the step portion 22A formed in the insertion guide cylinder 22 is fitted into the perforation port 2, It is possible to reliably prevent the insertion guide tube 22 from moving in the direction of the tube axis X of the water pipe 1.
In addition, since the inner diameter side portion 22e of the step portion 22A of the insertion guide cylinder 22 is fitted into the perforation port 2, the inner surface side of the perforation port 2 (of the water pipe 1) The inner pipe side of the water pipe 1 from the inside of the insertion guide tube 22 in the contact position through the perforation port 2 as described later. When the closure bag 4 is moved to 3, the closure bag 4 does not come into contact with the burrs on the inner surface of the perforation port 2, the projections on the inner surface of the branch pipe portion B, and the like, and the breakage of the closure bag 4 is further prevented. be able to.

その後、更に、押込み操作手段40の操作レバー43によりチェーン41を緊締側に巻き取り操作して、管内流路3を通流する上水Qの流体圧に抗して筒軸30を分岐管部Bの軸芯Yに沿って押込み操作する。   Thereafter, the chain 41 is further wound up to the tightening side by the operating lever 43 of the push-in operating means 40, and the cylindrical shaft 30 is moved against the fluid pressure of the clean water Q flowing through the pipe flow path 3. Push-in operation is performed along the axis Y of B.

このように、挿入ガイド筒22が当接姿勢にある状態で、筒軸30を分岐管部Bの軸芯Yに沿って管内流路3側に向かって更に摺動させると、図4に示すように、筒軸30は、密閉ケース20及び挿入ガイド筒22に対して相対移動し、筒軸30の先端部30Bに固設された閉塞バッグ4及び軸芯調整筒部材50のみが分岐管部Bの軸芯Yに沿って管内流路3側に移動する。   In this manner, when the insertion guide tube 22 is in the contact posture, the tube shaft 30 is further slid along the axis Y of the branch tube portion B toward the in-tube flow path 3 side, as shown in FIG. As described above, the cylinder shaft 30 moves relative to the sealing case 20 and the insertion guide cylinder 22, and only the closing bag 4 and the shaft adjusting cylinder member 50 fixed to the distal end portion 30B of the cylinder shaft 30 are branched pipe portions. It moves to the in-pipe flow path 3 side along the axis Y of B.

図5に示すように、この押込み操作は、筒軸30の挿入位置規制凸部30Dの下面が、挿入ガイド筒22の底壁部22bの外面に当接するまで行う。即ち、筒軸30は、筒軸30の挿入状態が最大挿入位置(閉塞バッグ4が管内流路閉塞位置)に位置するまで行う。
この状態では、閉塞バッグ4は管内流路3において所期の管内流路閉塞位置に位置し、軸芯調整筒部材50は、水道管1の径方向において穿孔口2に対応する箇所(軸芯調整筒部材50が水道管1の管軸芯X方向に沿って移動すると穿孔口2の内周面に当接する箇所)に位置し、軸芯調整筒部50の先端と穿孔口2における水道管1の径方向内方側端とが、水道管1の径方向において同一位置に位置する(図5参照)。
As shown in FIG. 5, this pushing operation is performed until the lower surface of the insertion position restricting convex portion 30 </ b> D of the cylindrical shaft 30 contacts the outer surface of the bottom wall portion 22 b of the insertion guide tube 22. That is, the cylindrical shaft 30 is operated until the insertion state of the cylindrical shaft 30 is located at the maximum insertion position (the closed bag 4 is in the pipe flow path closed position).
In this state, the closing bag 4 is located at the desired in-tube flow path closing position in the in-tube flow path 3, and the axial core adjusting cylinder member 50 is located at the location corresponding to the perforation port 2 (axial core in the radial direction of the water pipe 1. When the adjustment tube member 50 moves along the tube axis X direction of the water pipe 1, the adjustment tube member 50 is located at a position where the adjustment tube member 50 abuts the inner peripheral surface of the hole 2. One radial inner end is located at the same position in the radial direction of the water pipe 1 (see FIG. 5).

このため、不断流状態において管内流路3を通流する上水Qからの流体圧によって当該閉塞バッグ4が、穿孔口2の下流側(分岐管部Bの軸芯Yよりも水道管1の下流側)に移動するように押圧されたとしても、口金部材4Aのバッグ外取付部材4fの外面が軸芯調整筒部材50の内面50aに摺接し、且つ、軸芯調整筒部材50の外面が挿入ガイド筒22の内面に摺接するので、閉塞バッグ4は穿孔口2の内面のバリや分岐管部Bの内面の突起等には接触せず、しかも、筒軸30を分岐管部Bの軸芯Yと同心状態に維持することができる。   For this reason, the said closure bag 4 is the downstream of the perforation port 2 (from the axial center Y of the branch pipe part B of the water pipe 1 by the fluid pressure from the clean water Q which flows through the in-pipe flow path 3 in a continuous flow state. Even if pressed so as to move to the downstream side, the outer surface of the bag outer mounting member 4f of the cap member 4A is in sliding contact with the inner surface 50a of the shaft core adjusting cylinder member 50, and the outer surface of the shaft core adjusting cylinder member 50 is Since the sliding bag 4 is in sliding contact with the inner surface of the insertion guide tube 22, the closing bag 4 does not come into contact with the burrs on the inner surface of the perforation port 2, the projections on the inner surface of the branch pipe portion B, and the like. It can be kept concentric with the core Y.

続いて、図6に示すように、供給バルブ31aを開弁して、供給路31、通流路30A及び流体吸排路4cを介して所定量の拡径用流体Pを、管内流路閉塞位置に位置する閉塞バッグ4のバッグ本体4B内に供給し、バッグ本体4Bを、水道管1の管軸芯X方向及び径方向外方側に弾性膨張変形させる。バッグ本体4Bが弾性膨張変形して概略円筒形状になる際には、バッグ本体4Bは、嵌合筒部4aの長手方向(筒軸30の長手方向)を含む平面上では円筒の直径が大きくなるように膨張変形し、嵌合筒部4aの長手方向を含む平面に直交する方向では円筒の高さが大きくなるように膨張変形する。
このように、バッグ本体4Bが管内流路閉塞位置で弾性膨張変形すると、バッグ本体4Bの外周面が、水道管1の内周面における穿孔口2の内面側周縁部を閉塞する状態で、水道管1の管内流路3を閉止するとともに、バッグ本体4B(閉塞バッグ4)の外周面において、水道管1の管軸芯X方向において嵌合筒部4a(筒軸30)の両側に位置する箇所に設けられた環状シール部4iが、水道管1の内周面を周方向の全周に亘って圧接する。なお、閉塞バッグ4が十分に弾性膨張変形すると、供給バルブ31aを閉弁する。
Subsequently, as shown in FIG. 6, the supply valve 31 a is opened, and a predetermined amount of the diameter-enlarging fluid P is passed through the supply passage 31, the flow passage 30 </ b> A and the fluid intake / exhaust passage 4 c. The bag main body 4B is elastically expanded and deformed in the direction of the tube axis X of the water pipe 1 and radially outward. When the bag body 4B is elastically expanded and deformed to have a substantially cylindrical shape, the bag body 4B has a larger cylinder diameter on a plane including the longitudinal direction of the fitting tube portion 4a (longitudinal direction of the tube shaft 30). In the direction perpendicular to the plane including the longitudinal direction of the fitting cylinder portion 4a, the cylinder is expanded and deformed so that the height of the cylinder increases.
Thus, when the bag main body 4B is elastically expanded and deformed at the in-pipe flow path blocking position, the outer peripheral surface of the bag main body 4B closes the inner peripheral side peripheral portion of the perforation port 2 on the inner peripheral surface of the water pipe 1. While closing the in-pipe flow path 3 of the pipe 1, it is located in the outer peripheral surface of the bag main body 4B (blocking bag 4) on the both sides of the fitting cylinder part 4a (cylinder axis | shaft 30) in the pipe axis X direction of the water pipe 1. The annular seal part 4i provided in the location presses the inner peripheral surface of the water pipe 1 over the entire circumference in the circumferential direction. When the closing bag 4 is sufficiently elastically expanded and deformed, the supply valve 31a is closed.

これにより、図7に示すように、水道管1内を通流する上水Qの流体圧が閉塞バッグ4に作用する不断流状態でも、上述のように、軸芯調整筒部材50が閉塞バッグ4の嵌合筒部4a及び筒軸30を分岐管部Bの軸芯Yと同心に維持して、閉塞バッグ4が管内流路閉塞位置から移動することを防止し、閉塞バッグ4が穿孔口2の内面のバリや分岐管部Bの内面の突起等に接触して破損することを防止でき、また、閉塞バッグ4の変形や移動を低減して、管内流路3の内周面に対する密着度合いの変動を防止することができる。
また、不断流状態でも、管内流路閉塞位置に挿入され且つ軸芯調整筒部材50により分岐管部Bの軸芯Yと同心状態が維持された閉塞バッグ4を単に弾性膨張変形させるだけで、穿孔口2及び管内流路3を簡便且つ確実に閉止することができることに加えて、両環状シール部4iと水道管1の内周面との摩擦により、閉塞バッグ4が水道管1の下流側へ移動することを一層防止することができ、管内流路3の内周面に対する密着度合いの変動をより一層防止することができる。
Thereby, as shown in FIG. 7, even if the fluid pressure of the clean water Q flowing through the water pipe 1 acts on the closed bag 4, the shaft adjusting cylinder member 50 is closed as described above. 4 is maintained concentrically with the axial center Y of the branch pipe portion B to prevent the closing bag 4 from moving from the closed position of the in-tube flow path, 2 can be prevented from being damaged by contact with burrs on the inner surface of the tube 2 or protrusions on the inner surface of the branch pipe portion B, and the deformation and movement of the blocking bag 4 can be reduced, so Variation in the degree can be prevented.
Further, even in an uninterrupted state, the elastic bag is simply elastically deformed and deformed by inserting the closed bag 4 inserted in the pipe flow path closed position and maintained concentric with the axis Y of the branch pipe part B by the axis adjustment cylinder member 50. In addition to being able to close the perforation port 2 and the in-pipe flow path 3 easily and reliably, the closed bag 4 is located downstream of the water pipe 1 due to friction between the annular seal portions 4 i and the inner peripheral surface of the water pipe 1. Can be further prevented, and fluctuations in the degree of close contact with the inner peripheral surface of the in-tube flow path 3 can be further prevented.

次に、閉塞バッグ4により管内流路3を閉止した箇所の下流側等で、消火栓等の交換等の作業が終了すると、図8に示すように、排出バルブ32aを開弁して、バッグ本体4B内の拡径用流体Pを、流体吸排路4a、通流路30A及び排出路32を介して外部に排出し、バッグ本体4Bを、水道管1の管軸芯X方向及び径方向内方側に縮小させる。この排出は、ポンプ等により強制的に吸引してもよく、大気開放する構成であってもよい。   Next, when work such as replacement of a fire hydrant is completed on the downstream side of the location where the in-pipe flow path 3 is closed by the closure bag 4, the discharge valve 32a is opened as shown in FIG. The fluid P for expanding the diameter in 4B is discharged to the outside through the fluid suction / discharge passage 4a, the flow passage 30A, and the discharge passage 32, and the bag body 4B is moved in the direction of the pipe axis X of the water pipe 1 and inward in the radial direction. Reduce to the side. This discharge may be forcibly sucked by a pump or the like, or may be configured to open to the atmosphere.

閉塞バッグ4が縮小すると、押込み操作手段40の操作レバー43により緊締状態にあるチェーン41の位置保持を解除操作して、クレーン等(図示せず)により筒軸30を分岐管部Bの軸芯Yに沿って抜去する。
なお、押込み操作手段40の操作レバー43により緊締状態にあるチェーン41の位置保持を解除操作することで、管内流路3を通流する上水Qの流体圧により筒軸30を分岐管部Bの軸芯Yに沿って抜去できる場合には、クレーン等を用いる必要はないが、安全のためクレーン等を併用する構成としてもよい。
When the closure bag 4 is reduced, the operation lever 43 of the push-in operation means 40 is operated to release the position of the chain 41 in the tightened state, and the cylinder shaft 30 is moved to the axis of the branch pipe portion B by a crane or the like (not shown). Remove along Y.
In addition, by releasing the position holding of the chain 41 in the tightened state by the operation lever 43 of the pushing operation means 40, the cylindrical shaft 30 is made to branch by the fluid pressure of the clean water Q flowing through the in-tube flow path 3. However, it is not necessary to use a crane or the like, but a crane or the like may be used in combination for safety.

図9に示すように、筒軸30を抜去すると、筒軸30は、密閉ケース20に対しては相対移動するが、筒軸30の先端部30Bに固設された閉塞バッグ4及び軸芯調整筒部材50、並びに、挿入ガイド筒22に対しては相対移動しない状態で、筒軸30、閉塞バッグ4、軸芯調整筒部材50及び挿入ガイド筒22が一体的に分岐管部Bの軸芯Yに沿って密閉ケース20側に移動する。即ち、閉塞バッグ4が挿入ガイド筒22内から移動した状態(挿入ガイド筒22内に収容されていない状態)で、且つ、軸芯調整筒部材50が挿入ガイド筒22内における先端部近傍に位置する状態で、挿入ガイド筒22及び閉塞バッグ4が、分岐管部Bの軸芯Yに沿って分岐管部B内及び密閉ケース20内を移動する。   As shown in FIG. 9, when the cylindrical shaft 30 is removed, the cylindrical shaft 30 moves relative to the sealed case 20, but the closed bag 4 fixed to the distal end portion 30 </ b> B of the cylindrical shaft 30 and the shaft core adjustment. The cylinder shaft 30, the closing bag 4, the shaft core adjusting cylinder member 50, and the insertion guide cylinder 22 are integrally formed in the axis of the branch pipe portion B without moving relative to the cylinder member 50 and the insertion guide cylinder 22. It moves to the sealed case 20 side along Y. That is, the closing bag 4 is moved from the insertion guide tube 22 (the state is not accommodated in the insertion guide tube 22), and the shaft core adjusting cylinder member 50 is positioned in the vicinity of the distal end portion in the insertion guide tube 22. In this state, the insertion guide cylinder 22 and the closing bag 4 move in the branch pipe part B and in the sealed case 20 along the axis Y of the branch pipe part B.

そして、図10に示すように、筒軸30の挿入位置規制凸部30Dの下面が挿入ガイド筒22の底壁部22bの外面に当接した状態で、当該挿入位置規制凸部30Dの上面が密閉ケース20の底壁部20bの内面に当接すると、挿入ガイド筒22及び閉塞バッグ4の全体が密閉ケース20の内部空間21に完全に収容される。なお、挿入ガイド筒22及び閉塞バッグ4の全体が密閉ケース20の内部空間21に完全に収容されていない状態、即ち、閉塞バッグ4の先端(一部)が、密閉ケース20の内部空間21からはみ出して、仕切弁7の筒状部7a内において弁体7Cに干渉しない位置に位置する状態であってもよい。   As shown in FIG. 10, the upper surface of the insertion position restricting convex portion 30 </ b> D is in a state where the lower surface of the insertion position restricting convex portion 30 </ b> D of the cylindrical shaft 30 is in contact with the outer surface of the bottom wall portion 22 b of the insertion guide tube 22. When abutting against the inner surface of the bottom wall portion 20 b of the sealed case 20, the entire insertion guide tube 22 and the closed bag 4 are completely accommodated in the internal space 21 of the sealed case 20. It should be noted that the insertion guide tube 22 and the entire closure bag 4 are not completely accommodated in the internal space 21 of the sealed case 20, that is, the tip (part) of the closed bag 4 extends from the internal space 21 of the sealed case 20. The state which protrudes and is located in the position which does not interfere with the valve body 7C in the cylindrical part 7a of the gate valve 7 may be sufficient.

その後、弁体7Cを閉弁操作して、ボルト12・ナット13の締付連結を解除し、挿入ガイド筒22及び閉塞バッグ4が内部空間21に収容された密閉ケース20の連結フランジ部20Aを、仕切弁7の連結フランジ部7Bから撤去する。   Thereafter, the valve body 7C is closed to release the tightening connection between the bolt 12 and the nut 13, and the connection flange portion 20A of the sealing case 20 in which the insertion guide tube 22 and the closing bag 4 are accommodated in the internal space 21 is removed. Then, it is removed from the connecting flange portion 7B of the gate valve 7.

これにより、筒軸30を押し込み操作して閉塞バッグ4を挿入ガイド筒22内から移動させて、管内流路3における所定の管内流路閉塞位置に位置させた状態から、筒軸30を分岐管部Bの軸芯Yに沿って抜去した際、閉塞バッグ4が挿入ガイド筒22内に収容されていない場合でも、挿入ガイド筒22及び閉塞バッグ4を密閉ケース20に形成された内部空間21内に収容することができ、挿入ガイド筒22及び閉塞バッグ4を密閉ケース20の内部空間21内に完全に収容した状態で、密閉ケース20を分岐管部Bから離脱することができる。そのため、密閉ケース20の離脱、搬出、輸送等の際に、閉塞バッグ4が物体等に接触して破損することを良好に防止することができる。   As a result, the cylinder shaft 30 is moved from the insertion guide cylinder 22 by pushing the cylinder shaft 30 so that the cylinder shaft 30 is moved from the insertion guide cylinder 22 to a predetermined in-tube flow path closing position. Even when the closing bag 4 is not accommodated in the insertion guide tube 22 when extracted along the axis Y of the part B, the insertion guide tube 22 and the closing bag 4 are inside the internal space 21 formed in the sealed case 20. The sealed case 20 can be detached from the branch pipe portion B in a state where the insertion guide cylinder 22 and the closing bag 4 are completely accommodated in the internal space 21 of the sealed case 20. Therefore, it is possible to satisfactorily prevent the blocking bag 4 from being damaged by coming into contact with an object or the like when the sealed case 20 is detached, carried out, transported, or the like.

よって、閉塞バッグ4は、穿孔口2を介して管内流路3に挿入される際に、穿孔口2のバリ等や分岐管部Bの突起等に接触或いは引っ掛かることが無く、また、密閉ケース20内に収容して離脱等する際に、物体等に接触することが無いため、傷ついたり破損したりすることが無く、良好に再利用することができる。   Therefore, when the closure bag 4 is inserted into the in-pipe flow path 3 through the perforation port 2, it does not contact or get caught by burrs or the like of the perforation port 2 or projections of the branch pipe portion B. Since it does not contact an object or the like when it is accommodated in 20 and detached, it can be reused well without being damaged or damaged.

次に、図11及び図12に示すように、中栓挿入機Gを使用して中栓60により穿孔口2を密封した後、弁装着口部6を蓋61により密封する密封工程を実行する。   Next, as shown in FIG. 11 and FIG. 12, after the perforation port 2 is sealed with the inner plug 60 using the inner plug insertion machine G, the sealing step of sealing the valve mounting port 6 with the lid 61 is performed. .

この中栓挿入機Gには、図11に示すように、仕切弁7の連結フランジ部7Bにボルト12・ナット13を介して脱着自在に水密状態で締付連結される連結フランジ部70Aを備えた有底筒状のケース部70と、ケース部70の底壁部に水密状態を維持したまま摺動自在に貫設される外軸71と、外軸71内に挿通される内軸72と、外軸71の後端部に配設される一対の固定竿73と、内軸72の後端部において外軸71の固定竿73よりも後方側に配設されるハンドル74と、連結フランジ部70Aに配設された一対の固定リング75と、一対の固定竿73と一対の固定リング75とに亘って架け渡される一対のチェーン(又はワイヤー等)76とを備えて構成されている。   As shown in FIG. 11, the inner plug insertion machine G includes a connecting flange portion 70 </ b> A that is detachably tightened and connected to the connecting flange portion 7 </ b> B of the gate valve 7 through bolts 12 and nuts 13 in a watertight state. A bottomed cylindrical case portion 70, an outer shaft 71 slidably penetrating the bottom wall portion of the case portion 70 while maintaining a watertight state, and an inner shaft 72 inserted through the outer shaft 71, A pair of fixing rods 73 disposed at the rear end portion of the outer shaft 71, a handle 74 disposed at a rear side of the rear end portion of the inner shaft 72 from the fixing rod 73 of the outer shaft 71, and a connecting flange A pair of fixing rings 75 disposed in the portion 70 </ b> A, a pair of fixing rods 73, and a pair of chains (or wires, etc.) 76 spanned between the pair of fixing rings 75 are configured.

そして、外軸71及び内軸72の先端部には、中栓60が脱着自在に取り付けられている。
中栓60は、円筒状の本体部60aと、内軸72の先端部に接続され本体部60aの上部に設けられる取付部60bと、本体部60aの外周部に設けられ径方向外方側に拡径変形自在な環状の拡径弾性部材60cと、中栓挿入機Gにおける内軸72の相対回転操作に応じて拡径弾性部材60cを拡径変形させる拡径機構(図示せず)と、中栓挿入機Gにおける内軸72の相対回転操作に応じて中栓60を水道管1の内周面における穿孔口2の内周面側周縁部に位置決め固定する固定機構(図示せず)とを備えて構成されている。なお、中栓60の本体部60aの外径は穿孔口2の内径よりも若干小径に構成されている。
An inner plug 60 is detachably attached to the distal ends of the outer shaft 71 and the inner shaft 72.
The inner plug 60 includes a cylindrical main body portion 60a, an attachment portion 60b that is connected to the distal end portion of the inner shaft 72 and is provided on the upper portion of the main body portion 60a, and is provided on the outer peripheral portion of the main body portion 60a. An annular diameter-expanding elastic member 60c that can be expanded and deformed, and a diameter-enlarging mechanism (not shown) that expands and deforms the diameter-expanding elastic member 60c in accordance with the relative rotation operation of the inner shaft 72 in the inner plug insertion machine G. A fixing mechanism (not shown) for positioning and fixing the inner plug 60 to the inner peripheral surface side peripheral portion of the perforation port 2 in the inner peripheral surface of the water pipe 1 in accordance with the relative rotation operation of the inner shaft 72 in the inner plug insertion machine G; It is configured with. The outer diameter of the main body 60 a of the inner plug 60 is slightly smaller than the inner diameter of the perforation port 2.

従って、密封工程では、まず、中栓挿入機Gの外軸71及び内軸72に取付部60bを介して中栓60を装着した状態で、中栓挿入機Gの連結フランジ部70Aをボルト12・ナット13を介して仕切弁7の連結フランジ部7Bに連結固定する。そして、仕切弁7の弁体7Cを開弁操作した後、レバーブロック等(図示せず)により一対のチェーン76を緊締側に巻き取り操作して、外軸71及び内軸72を分岐管部Bの軸芯に沿って管内流路3側に摺動させ、外軸71及び内軸72の先端部に配設された中栓60を水道管1の径方向において穿孔口2に対応する位置に位置させる。その後、内軸72の後端部に配設されたハンドル74を相対回転操作することで、固定機構により中栓60を水道管1の内周面における穿孔口2の内周面側周縁部に位置決め固定し、ハンドル74を更に相対回転操作することで、拡径機構により拡径弾性部材60cを径方向外方側に拡径変形させて当該拡径弾性部材60cを穿孔口2に圧接する。
これにより、中栓60を穿孔口2に固定できるとともに、穿孔口2を密封状態で閉塞することができる。
Therefore, in the sealing step, first, the connecting flange portion 70A of the inner plug insertion machine G is attached to the bolt 12 with the inner plug 60 being attached to the outer shaft 71 and the inner shaft 72 of the inner plug insertion machine G via the mounting portion 60b. -It is connected and fixed to the connecting flange portion 7B of the gate valve 7 via the nut 13. Then, after opening the valve body 7C of the gate valve 7, the pair of chains 76 are wound around the tightening side by a lever block or the like (not shown), and the outer shaft 71 and the inner shaft 72 are connected to the branch pipe portion. A position corresponding to the perforation port 2 in the radial direction of the water pipe 1 by sliding the inner plug 60 disposed at the distal ends of the outer shaft 71 and the inner shaft 72 along the axis B of the pipe to the inner flow path 3 side. To be located. Thereafter, the handle 74 disposed at the rear end portion of the inner shaft 72 is operated to relatively rotate, so that the inner plug 60 is placed on the inner peripheral surface side peripheral portion of the perforation port 2 on the inner peripheral surface of the water pipe 1 by a fixing mechanism. By positioning and fixing, and further rotating the handle 74 relative to each other, the diameter-expanding elastic member 60c is expanded and deformed radially outward by the diameter-expanding mechanism, and the diameter-expanding elastic member 60c is pressed against the perforation port 2.
As a result, the inner plug 60 can be fixed to the perforation port 2 and the perforation port 2 can be closed in a sealed state.

続いて、中栓60の取付部60bと内軸72との接続を解除して、外軸71及び内軸72をケース部70内に収容し、ボルト12・ナット13の締付連結を解除して、中栓挿入機Gを仕切弁7の連結フランジ部7Bから撤去した後、ボルト10・ナット11の締付連結を解除して、弁装着口部6の環状凹溝6cに係合していた仕切弁7を弁装着口部6の管部6aにおける連結フランジ部6bから撤去する。
なお、仕切弁7の撤去は、中栓装着機Gの撤去と同時に行う構成としてもよい。
Subsequently, the connection between the mounting portion 60 b of the inner plug 60 and the inner shaft 72 is released, the outer shaft 71 and the inner shaft 72 are accommodated in the case portion 70, and the fastening connection of the bolt 12 and the nut 13 is released. Then, after removing the inner plug insertion machine G from the connection flange portion 7B of the gate valve 7, the bolt 10 and the nut 11 are released from being tightened and engaged with the annular groove 6c of the valve mounting opening 6. The gate valve 7 is removed from the connecting flange portion 6 b in the pipe portion 6 a of the valve mounting opening 6.
The gate valve 7 may be removed at the same time as the inner plug mounting machine G is removed.

更に、密封工程では、図12に示すように、弁装着口部6の管部6aにおける連結フランジ部6bに、ボルト12・ナット13により蓋61を密封状態で連結固定する。
蓋61は、平板状の本体部61aと、本体部61aの下面から円形状に突出する筒部61bと、筒部61bの外周部から径方向外方側に延出する連結フランジ部61cとを備えている。
具体的には、筒部61bをシール部材(図示せず)を介して弁装着口部6の環状凹溝6cに内嵌させた状態で、連結フランジ部61cと弁装着口部6の連結フランジ部6bとをボルト12・ナット13により連結固定する。
これにより、穿孔口2を中栓60により密封した状態で、更に、当該中栓60を囲繞する状態で弁装着口部6を密封することができる。
Further, in the sealing step, as shown in FIG. 12, the lid 61 is connected and fixed in a sealed state to the connecting flange portion 6 b of the tube portion 6 a of the valve mounting port portion 6 with bolts 12 and nuts 13.
The lid 61 includes a flat plate-like main body portion 61a, a cylindrical portion 61b that protrudes in a circular shape from the lower surface of the main body portion 61a, and a connecting flange portion 61c that extends radially outward from the outer peripheral portion of the cylindrical portion 61b. I have.
Specifically, the coupling flange portion 61c and the coupling flange between the valve mounting port portion 6 in a state where the cylindrical portion 61b is fitted in the annular concave groove 6c of the valve mounting port portion 6 via a seal member (not shown). The part 6b is connected and fixed by a bolt 12 and a nut 13.
Thereby, the valve mounting opening 6 can be sealed in a state in which the perforated port 2 is sealed with the inner plug 60 and further in a state of surrounding the inner plug 60.

よって、密封工程において、仕切弁7を撤去することができるので、当該仕切弁7を他の施工現場で使用でき施工コストの低減を図ることができるとともに、穿孔口2を形成した箇所の配管構成のシンプル化を図ることができる。   Therefore, since the gate valve 7 can be removed in the sealing process, the gate valve 7 can be used at other construction sites, and the construction cost can be reduced. Can be simplified.

〔別実施形態〕
(A)上記実施形態では、挿入ガイド筒22の先端部に、挿入ガイド筒22の外径側部位22eよりも内径側部位22fが先端側に突出形成された段部22Aを設け、当接姿勢において、挿入ガイド筒22が、段部22Aの外径側部位22eの少なくとも一部が外面側周縁部2aに当接し且つ内径側部位22fの少なくとも一部が穿孔口2に内嵌した状態となるように構成したが、その他の構成を採用することができる。
例えば、図13に示すように、上記段部22Aを省略して、挿入ガイド筒22の筒壁部22aを、内径及び外径が分岐管部Bの軸芯Yに沿う方向で一定(厚みが一定)となるように構成することができる。そして、この筒壁部22aの外径を、穿孔口2の内径よりも大径で且つ仕切弁7の筒状部7aの内径及び弁装着口部6の管部6aの内径よりも小径に構成し、筒壁部22aの内径を、軸芯調整筒部材50の外径よりも大径で且つ穿孔口2の内径よりも小径に構成して、筒軸30と共に挿入ガイド筒22が密閉ケース20内及び分岐管部B内を分岐管部Bの軸芯Yに沿って移動することで、挿入ガイド筒22の先端面22Pが、穿孔口2の外面側周縁部2aに当接する当接姿勢となるように構成することもできる。
この当接姿勢では、挿入ガイド筒22の筒壁部22aの内面は、穿孔口2の内面よりも内側(分岐管部Bの軸芯Y側)に位置しているので、管内流路3への閉塞バッグ4の挿入の際、閉塞バッグ4が穿孔口2に接触することはない。
なお、挿入ガイド筒22の筒壁部22aの内径を、穿孔口2の内径と同径に構成してもよい。
[Another embodiment]
(A) In the above-described embodiment, the stepped portion 22A in which the inner diameter side portion 22f projects from the outer diameter side portion 22e of the insertion guide tube 22 to the distal end side is provided at the distal end portion of the insertion guide tube 22, and the contact posture , The insertion guide tube 22 is in a state in which at least a part of the outer diameter side portion 22e of the step portion 22A abuts the outer surface side peripheral edge portion 2a and at least a part of the inner diameter side portion 22f is fitted into the perforation port 2. Although configured as described above, other configurations can be adopted.
For example, as shown in FIG. 13, the step portion 22A is omitted, and the cylindrical wall portion 22a of the insertion guide tube 22 has a constant inner diameter and outer diameter in the direction along the axis Y of the branch pipe portion B (thickness is reduced). (Constant). The outer diameter of the cylindrical wall portion 22a is larger than the inner diameter of the perforation port 2 and smaller than the inner diameter of the cylindrical portion 7a of the gate valve 7 and the inner diameter of the pipe portion 6a of the valve mounting port portion 6. Then, the inner diameter of the cylindrical wall portion 22 a is configured to be larger than the outer diameter of the shaft adjusting cylinder member 50 and smaller than the inner diameter of the perforation port 2, and the insertion guide cylinder 22 is sealed together with the cylindrical shaft 30. A contact posture in which the distal end surface 22P of the insertion guide tube 22 contacts the outer peripheral edge 2a of the perforation port 2 by moving along the axis Y of the branch tube portion B in the inner tube and the branch tube portion B. It can also be configured.
In this abutting posture, the inner surface of the cylindrical wall portion 22a of the insertion guide tube 22 is located on the inner side (on the axis Y side of the branch pipe portion B) than the inner surface of the perforation port 2, so When the closed bag 4 is inserted, the closed bag 4 does not come into contact with the perforation port 2.
Note that the inner diameter of the cylindrical wall portion 22 a of the insertion guide cylinder 22 may be configured to be the same as the inner diameter of the perforation port 2.

(B)上記実施形態では、水道管1の外周面に穿孔装置により穿孔口(分岐口の一例)2を穿孔し、当該穿孔口2を介して閉塞バッグ4を挿入する構成としたが、水道管1の外周面に予め形成されている分岐口2を介して閉塞バッグ4を挿入する構成としてもよい。
例えば、図14に示すように、水道管1の外周面に予め形成された分岐口2に連通する状態で、弁装着口部(装着口部の一例)6を水道管1に一体形成し、当該分岐口2を介して閉塞バッグ4を挿入する構成としてもよい。
(B) In the above embodiment, a perforation port (an example of a branch port) 2 is perforated on the outer peripheral surface of the water pipe 1 by a perforation device, and the closure bag 4 is inserted through the perforation port 2. It is good also as a structure which inserts the obstruction | occlusion bag 4 through the branch port 2 currently formed in the outer peripheral surface of the pipe | tube 1. As shown in FIG.
For example, as shown in FIG. 14, the valve mounting port portion (an example of the mounting port portion) 6 is formed integrally with the water pipe 1 in a state where it communicates with the branch port 2 formed in advance on the outer peripheral surface of the water pipe 1. It is good also as a structure which inserts the obstruction | occlusion bag 4 through the said branch port 2. FIG.

具体的には、仕切弁(弁部材の一例)7は、仕切弁7の筒状部7aの上流側端部を、Oリング(図示せず)を介して弁装着口部6の環状凹溝6cに係合させた水密状態で、ボルト10・ナット11により仕切弁7の上流側の連結フランジ部7Aが弁装着口部6の管部6aの連結フランジ部6bに締付連結される。なお、弁装着口部6及び仕切弁7が分岐管部Bとして機能する。
そして、内径及び外径が分岐管部Bの軸芯Yに沿う方向で一定(厚みが一定)となるように構成された挿入ガイド筒22の筒壁部22aは、外径が仕切弁7の筒状部7aの内径よりも若干小径に形成され、内径が軸心調整筒部50の筒壁部50bの外径よりも若干大径に形成されており、筒軸30を分岐管部Bの軸芯Yに沿って摺動させると、筒軸30は、密閉ケース20に対して相対移動し且つ挿入ガイド筒22に対しては相対移動しない状態で、挿入ガイド筒22と共に移動し、挿入ガイド筒22の先端部の少なくとも一部が弁装着口部6の環状凹溝6cに当接する当接姿勢となる。ここで、挿入ガイド筒22の先端部が環状凹溝6cに当接する箇所は、当該環状凹溝6cにおいて仕切弁7の筒状部7aの上流側端部が当接する箇所よりも径方向内方側に位置する箇所となっており、当該箇所が弁装着口部6に形成された被当接部として機能する。即ち、環状凹溝6cは、弁装着口部6の管部6aの径方向で、仕切弁7の筒状部7a及び挿入ガイド筒22の先端部を当接支持可能な幅を備えるように構成されている。なお、本別実施形態では、挿入ガイド筒22の先端部が環状凹溝6cに当接した当接姿勢では、挿入ガイド筒22の内面22aが若干弁装着口部6の管部6aの内径よりも若干小径となるように配設され、軸芯調整筒部材50の外面は挿入ガイド筒22の内面22aに摺接可能に配設されている。
また、挿入ガイド筒22が当接姿勢にある状態で、筒軸30を分岐管部Bの軸芯Yに沿って管内流路3側に向かって更に摺動させると、閉塞バッグ4は管内流路3において所期の管内流路閉塞位置に位置し、軸芯調整筒部材50は、水道管1の径方向において分岐口2に対応する箇所(軸芯調整筒部材50が水道管1の管軸芯X方向に沿って移動すると分岐口2の内周面に当接する箇所)に位置し、軸芯調整筒部50の先端と分岐口2における水道管1の径方向内方側端とが、水道管1の径方向において同一位置に位置する。
なお、本別実施形態では、弁装着口部6に形成された被当接部を、挿入ガイド筒22の先端部が弁装着口部6の環状凹溝6cに当接する箇所として構成したが、当該被当接部としては、弁装着口部6に形成され且つ挿入ガイド筒22の先端部の少なくとも一部が当接する箇所であれば、その他の構成を採用することができる。例えば、弁装着口部6の管部6aの内面から径方向内方側に突出形成された突起部(例えば、周方向に2箇所)の上面を、当該被当接部として構成することもできる。
Specifically, the gate valve (an example of a valve member) 7 is configured such that the upstream end of the tubular portion 7a of the gate valve 7 is connected to the annular groove of the valve mounting port 6 via an O-ring (not shown). In the watertight state engaged with 6c, the connecting flange portion 7A on the upstream side of the gate valve 7 is tightened and connected to the connecting flange portion 6b of the pipe portion 6a of the valve mounting port 6 by the bolt 10 and the nut 11. The valve mounting port 6 and the gate valve 7 function as the branch pipe portion B.
And the cylindrical wall part 22a of the insertion guide cylinder 22 comprised so that an internal diameter and an outer diameter may become constant (thickness is constant) in the direction along the axial center Y of the branch pipe part B, the outer diameter of the gate valve 7 The inner diameter of the cylindrical portion 7a is slightly smaller than the outer diameter of the cylindrical wall portion 50b of the shaft adjusting cylinder portion 50, and the cylindrical shaft 30 is connected to the branch pipe portion B. When slid along the axis Y, the cylinder shaft 30 moves with the insertion guide cylinder 22 in a state of moving relative to the sealing case 20 and not relative to the insertion guide cylinder 22, so that the insertion guide At least a part of the distal end portion of the tube 22 is in a contact posture in contact with the annular concave groove 6 c of the valve mounting port portion 6. Here, the location where the distal end portion of the insertion guide cylinder 22 contacts the annular groove 6c is radially inward from the location where the upstream end of the tubular portion 7a of the gate valve 7 contacts the annular groove 6c. It is a location located on the side, and this location functions as a contacted portion formed in the valve mounting opening 6. In other words, the annular groove 6c is configured to have a width capable of abutting and supporting the tubular portion 7a of the gate valve 7 and the distal end portion of the insertion guide tube 22 in the radial direction of the tube portion 6a of the valve mounting port portion 6. Has been. In the other embodiment, the inner surface 22a of the insertion guide tube 22 is slightly more than the inner diameter of the tube portion 6a of the valve mounting port 6 in the contact posture in which the distal end portion of the insertion guide tube 22 contacts the annular groove 6c. Also, the outer surface of the shaft adjusting cylinder member 50 is slidably contacted with the inner surface 22 a of the insertion guide cylinder 22.
Further, when the tube shaft 30 is further slid along the axis Y of the branch pipe portion B toward the in-tube flow path 3 side in a state where the insertion guide tube 22 is in the abutting posture, the blocking bag 4 flows into the in-tube flow. In the channel 3, the axial core adjusting cylinder member 50 is located at a desired position in the pipe flow path blocking position, and the axial core adjusting cylinder member 50 corresponds to the branch port 2 in the radial direction of the water pipe 1 (the axial core adjusting cylinder member 50 is a pipe of the water pipe 1. The position where the tip of the shaft core adjusting cylinder portion 50 and the radially inner side end of the water pipe 1 at the branch port 2 are located at a position where the tip moves along the axis X direction and contacts the inner peripheral surface of the branch port 2. The water pipe 1 is located at the same position in the radial direction.
In the other embodiment, the contacted portion formed in the valve mounting port portion 6 is configured as a location where the distal end portion of the insertion guide cylinder 22 contacts the annular groove 6c of the valve mounting port portion 6. Other configurations can be adopted as the contacted portion as long as the portion is formed in the valve mounting opening 6 and at least a part of the distal end portion of the insertion guide tube 22 contacts. For example, the upper surfaces of protrusions (for example, two places in the circumferential direction) formed to protrude radially inward from the inner surface of the tube portion 6a of the valve mounting port portion 6 can be configured as the contacted portion. .

(C)上記実施形態では、流体管として、流体としての上水Qが通流する水道管1を例示したが、流体としては液体や気体であってもよく、流体管としては液体や気体が通流できる管であってもよい。 (C) In the above embodiment, the water pipe 1 through which the clean water Q as a fluid flows is exemplified as the fluid pipe. However, the fluid may be liquid or gas, and the fluid pipe may be liquid or gas. The pipe | tube which can flow may be sufficient.

(D)上記実施形態では、軸芯調整部としての軸芯調整筒部材50を、挿入ガイド筒22内に位置する筒軸30の先端部30Bに固設したが、挿入ガイド筒22内に位置する閉塞バッグ4の基端部位(例えば、口金部材4Aのバッグ外取付部材4f)に固設することもできる。
軸芯調整部としては有底筒状の軸芯調整筒部材50ではなく、挿入ガイド筒22の内面に摺接可能な形状の部材であれば、その他の構成を採用することができる。
(D) In the above embodiment, the shaft adjusting cylinder member 50 as the shaft adjusting portion is fixed to the distal end portion 30 </ b> B of the tube shaft 30 located in the insertion guide tube 22, but is positioned in the insertion guide tube 22. It can also be fixed to the base end portion of the closing bag 4 (for example, the bag outer mounting member 4f of the cap member 4A).
Other configurations can be adopted as the shaft core adjusting portion as long as it is not a bottomed cylindrical shaft core adjusting tube member 50 but a member having a shape capable of sliding contact with the inner surface of the insertion guide tube 22.

(E)上記実施形態では、押込み操作手段40として、レバーブロックを採用したが、管内流路3からの流体圧に抗して筒軸30を押込み操作することできる構成であれば、その他の構成を採用することができる。 (E) In the above embodiment, a lever block is employed as the pushing operation means 40. However, any other configuration can be used as long as it can push the cylindrical shaft 30 against the fluid pressure from the pipe flow path 3. Can be adopted.

(F)上記実施形態では、密閉ケース20が、挿入ガイド筒22と挿入ガイド筒22内から移動した状態の閉塞バッグ4とを収容可能な長さを有する内部空間21を備え、筒軸30の挿入位置規制凸部30Dの下面が挿入ガイド筒22の底壁部22bの外面に当接した状態で、当該挿入位置規制凸部30Dの上面が密閉ケース20の底壁部20bの内面に当接すると、閉塞バッグ4の先端が密閉ケース20の内部空間21内において連結フランジ部20Aと略同位置に位置した状態で、挿入ガイド筒22及び閉塞バッグ4の全体が密閉ケース20の内部空間21に完全に収容されるように構成したが、密閉ケース20の長さは適宜変更することができる。
例えば、密閉ケース20の長さを、密閉ケース20の内部空間21に挿入ガイド筒22と挿入ガイド筒22内から移動した状態の閉塞バッグ4とを収容した際、筒軸30の挿入位置規制凸部30Dの下面が挿入ガイド筒22の底壁部22bの外面に当接し、且つ、当該挿入位置規制凸部30Dの上面が密閉ケース20の底壁部20bの内面に当接した状態で、閉塞バッグ4の先端(一部)が密閉ケース20の内部空間21から突出する長さに形成することができる。即ち、閉塞バッグ4が内部空間21内に完全に収容されないように形成することもできる。
また、例えば、密閉ケース20の長さを、密閉ケース20の内部空間21に挿入ガイド筒22と挿入ガイド筒22内から移動した状態の閉塞バッグ4とを収容した際、筒軸30の挿入位置規制凸部30Dの下面が挿入ガイド筒22の底壁部22bの外面に当接し、且つ、当該挿入位置規制凸部30Dの上面が密閉ケース20の底壁部20bの内面に当接すると、閉塞バッグ4の先端が密閉ケース20の内部空間21内において連結フランジ部20Aよりも底壁部20b側に偏倚した位置に位置した状態で、挿入ガイド筒22及び閉塞バッグ4の全体が密閉ケース20の内部空間21に完全に収容される長さに形成することもできる。
(F) In the above-described embodiment, the sealed case 20 includes the internal space 21 having a length capable of accommodating the insertion guide cylinder 22 and the closed bag 4 in a state moved from the insertion guide cylinder 22. With the lower surface of the insertion position restricting convex portion 30D in contact with the outer surface of the bottom wall portion 22b of the insertion guide cylinder 22, the upper surface of the insertion position restricting convex portion 30D contacts the inner surface of the bottom wall portion 20b of the sealing case 20. Then, the insertion guide tube 22 and the entire closure bag 4 are placed in the internal space 21 of the sealed case 20 in a state in which the front end of the closed bag 4 is positioned at substantially the same position as the connecting flange portion 20 </ b> A in the internal space 21 of the sealed case 20. Although configured to be completely accommodated, the length of the sealed case 20 can be changed as appropriate.
For example, when the length of the sealing case 20 is accommodated in the internal space 21 of the sealing case 20 with the insertion guide cylinder 22 and the closing bag 4 moved from the insertion guide cylinder 22, the insertion position restriction projection of the cylinder shaft 30 is accommodated. In the state where the lower surface of the portion 30D is in contact with the outer surface of the bottom wall portion 22b of the insertion guide cylinder 22 and the upper surface of the insertion position regulating convex portion 30D is in contact with the inner surface of the bottom wall portion 20b of the sealing case 20. The front end (part) of the bag 4 can be formed so as to protrude from the internal space 21 of the sealed case 20. That is, the closure bag 4 can be formed so as not to be completely accommodated in the internal space 21.
Further, for example, when the length of the sealed case 20 is stored in the internal space 21 of the sealed case 20 with the insertion guide tube 22 and the closed bag 4 moved from the insertion guide tube 22, the insertion position of the tube shaft 30 is stored. When the lower surface of the restricting convex portion 30D comes into contact with the outer surface of the bottom wall portion 22b of the insertion guide cylinder 22, and the upper surface of the insertion position restricting convex portion 30D comes into contact with the inner surface of the bottom wall portion 20b of the sealing case 20, the blocking With the front end of the bag 4 positioned in a position that is biased to the bottom wall portion 20b side of the connecting flange portion 20A in the internal space 21 of the sealed case 20, the entire insertion guide tube 22 and the closed bag 4 are It is also possible to form a length that is completely accommodated in the internal space 21.

以上説明したように、流体管の管内流路における流体の通流を維持した不断流状態において、管内流路に挿入する閉塞バッグの挿入の容易化及び破損の防止を図り、更に、管内流路を確実に閉止できる不断流式の流路閉塞装置を提供することができる。   As described above, in the continuous flow state in which the fluid flow in the in-tube flow path of the fluid pipe is maintained, the insertion of the closing bag inserted into the in-tube flow path is facilitated and the breakage is prevented. It is possible to provide a continuous flow type flow path closing device that can reliably close the channel.

1 水道管(流体管)
1a 外周面
2 穿孔口(分岐口)
2a 外面側周縁部
3 管内流路
4 閉塞バッグ
4i 環状シール部
4A 口金部材
4f バッグ外取付部材(口金部材)
6 弁装着口部(装着口部)
6c 環状凹溝(被当接部)
7 仕切弁(弁部材、分岐管部)
7C 弁体
20 密閉ケース
21 内部空間
22 挿入ガイド筒
22c 内面
22e 外径側部位(段部)
22f 内径側部位(段部)
22A 段部
30 筒軸(軸)
30A 通流路
30B 先端部
30D 挿入位置規制凸部(挿入位置規制手段)
40 押込み操作手段
50 軸芯調整筒部材(軸芯調整部)
50a 内面
A 流路閉塞装置
B 分岐管部
P 拡径用流体
Q 上水(流体)
X 管軸芯
Y 軸芯
1 Water pipe (fluid pipe)
1a Outer peripheral surface 2 Perforated port (branch port)
2a Outer surface side peripheral edge part 3 In-pipe flow path 4 Closure bag 4i Annular seal part 4A Base member 4f Bag outer mounting member (base member)
6 Valve mounting port (mounting port)
6c Annular groove (contacted part)
7 Gate valve (valve member, branch pipe)
7C Valve body 20 Sealed case 21 Internal space 22 Insertion guide cylinder 22c Inner surface 22e Outer diameter side part (step part)
22f inner diameter side part (step)
22A Stepped portion 30 Tube shaft (shaft)
30A Flow path 30B Tip part 30D Insertion position control convex part (insertion position control means)
40 Push-in operation means 50 Shaft core adjusting cylinder member (shaft core adjusting section)
50a Inner surface A Channel blockage device B Branch pipe part P Diameter expansion fluid Q Water supply (fluid)
X tube axis Y axis

Claims (9)

流体管に形成されている分岐口を介して前記流体管内に挿入され、拡径側に膨張変形して前記流体管の管内流路を閉止する閉塞バッグを備えた不断流式の流路閉塞装置であって、
前記分岐口に連通し弁部材を有する分岐管部に着脱自在に接続される密閉ケースと、
前記密閉ケース内に内嵌される挿入ガイド筒と、
前記密閉ケース及び前記挿入ガイド筒に亘って、密封状態を維持したまま前記分岐管部の軸芯に沿って摺動自在に貫設され、内部に通流路を備えた軸と、
前記挿入ガイド筒内に位置する前記軸の先端部に固設されて、前記通流路を介して供給される拡径用流体により拡径側に弾性膨張変形自在な前記閉塞バッグと、
前記流体管内の流体圧に抗して前記軸を押し込み移動させる押込み操作手段と、
前記挿入ガイド筒内に位置する前記軸の先端部又は前記閉塞バッグの基端部位に固設され、前記挿入ガイド筒の内面に摺接可能な軸芯調整部とを備え、
前記閉塞バッグが前記挿入ガイド筒内に縮小された状態で収容された前記挿入ガイド筒が、前記押込み操作手段により、前記挿入ガイド筒の先端部の少なくとも一部が前記流体管の外周面における前記分岐口の外面側周縁部に当接する当接姿勢となるまで、前記分岐管部の軸芯に沿って前記密閉ケース内及び前記分岐管部内を移動自在に構成され、
前記当接姿勢にある前記挿入ガイド筒内に収容された前記閉塞バッグが、前記押込み操作手段により、前記分岐管部の軸芯に沿って前記挿入ガイド筒内から前記分岐口を介して前記流体管の管内流路に挿入自在に構成されるとともに、前記閉塞バッグが所定の管内流路閉塞位置に位置している状態で、前記軸芯調整部が前記流体管の径方向において前記分岐口に対応する箇所に位置するように構成されている不断流式の流路閉塞装置。
A continuous flow type flow path closing device provided with a closed bag that is inserted into the fluid pipe through a branch port formed in the fluid pipe and expands and deforms toward the diameter expansion side to close the flow path in the fluid pipe. Because
A sealed case detachably connected to a branch pipe portion having a valve member communicating with the branch port;
An insertion guide tube fitted in the sealed case;
Over the sealing case and the insertion guide cylinder, a shaft that is slidably penetrated along the axis of the branch pipe portion while maintaining a sealed state, and has a passage provided inside,
The closed bag fixed at the tip of the shaft located in the insertion guide cylinder and elastically deformable to the diameter expansion side by the diameter expansion fluid supplied through the flow path; and
A pushing operation means for pushing and moving the shaft against the fluid pressure in the fluid pipe;
An axial center adjustment portion fixed to a distal end portion of the shaft located in the insertion guide tube or a proximal end portion of the closing bag and capable of sliding contact with an inner surface of the insertion guide tube;
The insertion guide cylinder accommodated in a state in which the closing bag is contracted in the insertion guide cylinder is configured such that at least a part of the distal end portion of the insertion guide cylinder is formed on the outer peripheral surface of the fluid pipe by the pushing operation means. It is configured to be movable in the sealed case and in the branch pipe portion along the axial center of the branch pipe portion until it comes into contact with the outer peripheral edge of the branch port.
The closing bag accommodated in the insertion guide cylinder in the abutting position is moved by the pushing operation means from the insertion guide cylinder through the branch port along the axis of the branch pipe portion. The axial core adjusting portion is connected to the branch port in the radial direction of the fluid pipe while being configured to be freely inserted into the pipe flow path of the pipe and in the state where the closing bag is located at a predetermined pipe flow path closing position. An uninterrupted flow path blocking device configured to be located at a corresponding location.
前記挿入ガイド筒の先端部には、前記挿入ガイド筒の外径側部位よりも内径側部位が先端側に突出形成された段部を備え、
前記当接姿勢にある前記挿入ガイド筒を、前記外径側部位の少なくとも一部を前記外面側周縁部に当接させ且つ前記内径側部位の少なくとも一部を前記分岐口に内嵌させた状態で位置決め可能に構成されている請求項1に記載の不断流式の流路閉塞装置。
The distal end portion of the insertion guide tube includes a stepped portion in which an inner diameter side portion protrudes from the outer diameter side portion of the insertion guide tube toward the distal end side,
The insertion guide tube in the abutting posture is in a state in which at least a part of the outer diameter side part is brought into contact with the outer peripheral edge and at least a part of the inner diameter side part is fitted in the branch port. The continuous flow type flow path closing device according to claim 1, wherein the flow path closing apparatus is configured to be capable of being positioned.
流体管に形成されている分岐口を介して前記流体管内に挿入され、拡径側に膨張変形して前記流体管の管内流路を閉止する閉塞バッグを備えた不断流式の流路閉塞装置であって、
前記分岐口に連通する状態で前記流体管に一体形成される装着口部と前記装着口部に装着される弁部材とを有する前記分岐管部に着脱自在に接続される密閉ケースと、
前記密閉ケース内に内嵌される挿入ガイド筒と、
前記密閉ケース及び前記挿入ガイド筒に亘って、密封状態を維持したまま前記分岐管部の軸芯に沿って摺動自在に貫設され、内部に通流路を備えた軸と、
前記挿入ガイド筒内に位置する前記軸の先端部に固設されて、前記通流路を介して供給される拡径用流体により拡径側に弾性膨張変形自在な前記閉塞バッグと、
前記流体管内の流体圧に抗して前記軸を押し込み移動させる押込み操作手段と、
前記挿入ガイド筒内に位置する前記軸の先端部又は前記閉塞バッグの基端部位に固設され、前記挿入ガイド筒の内面に摺接可能な軸芯調整部とを備え、
前記閉塞バッグが前記挿入ガイド筒内に縮小された状態で収容された前記挿入ガイド筒が、前記押込み操作手段により、前記挿入ガイド筒の先端部の少なくとも一部が前記装着口部に形成された被当接部に当接する当接姿勢となるまで、前記分岐管部の軸芯に沿って前記密閉ケース内及び前記分岐管部内を移動自在に構成され、
前記当接姿勢にある前記挿入ガイド筒内に収容された前記閉塞バッグが、前記押込み操作手段により、前記分岐管部の軸芯に沿って前記挿入ガイド筒内から前記分岐口を介して前記流体管の管内流路に挿入自在に構成されるとともに、前記閉塞バッグが所定の管内流路閉塞位置に位置している状態で、前記軸芯調整部が前記流体管の径方向において前記分岐口に対応する箇所に位置するように構成されている不断流式の流路閉塞装置。
A continuous flow type flow path closing device provided with a closed bag that is inserted into the fluid pipe through a branch port formed in the fluid pipe and expands and deforms toward the diameter expansion side to close the flow path in the fluid pipe. Because
A sealed case detachably connected to the branch pipe portion having a mounting port portion integrally formed with the fluid pipe in a state of communicating with the branch port and a valve member mounted to the mounting port portion;
An insertion guide tube fitted in the sealed case;
Over the sealing case and the insertion guide cylinder, a shaft that is slidably penetrated along the axis of the branch pipe portion while maintaining a sealed state, and has a passage provided inside,
The closed bag fixed at the tip of the shaft located in the insertion guide cylinder and elastically deformable to the diameter expansion side by the diameter expansion fluid supplied through the flow path; and
A pushing operation means for pushing and moving the shaft against the fluid pressure in the fluid pipe;
An axial center adjustment portion fixed to a distal end portion of the shaft located in the insertion guide tube or a proximal end portion of the closing bag and capable of sliding contact with an inner surface of the insertion guide tube;
In the insertion guide cylinder accommodated in a state where the closure bag is contracted in the insertion guide cylinder, at least a part of the distal end portion of the insertion guide cylinder is formed in the mounting opening by the pushing operation means. It is configured to be movable in the sealed case and the branch pipe part along the axis of the branch pipe part until it comes into a contact posture to contact the contacted part,
The closing bag accommodated in the insertion guide cylinder in the abutting position is moved by the pushing operation means from the insertion guide cylinder through the branch port along the axis of the branch pipe portion. The axial core adjusting portion is connected to the branch port in the radial direction of the fluid pipe while being configured to be freely inserted into the pipe flow path of the pipe and in the state where the closing bag is located at a predetermined pipe flow path closing position. An uninterrupted flow path blocking device configured to be located at a corresponding location.
前記軸芯調整部が、前記挿入ガイド筒の内径と略同径の外径に形成された軸芯調整筒部材により構成され、
前記閉塞バッグの基端部位には、前記通流路に連通する流体給排路を備え且つ前記軸芯調整筒部材の内面に摺接可能な外面を有する口金部材が設けられ、前記口金部材が、前記軸芯調整筒部材に内嵌するように配置されている請求項1〜3の何れか一項に記載の不断流式の流路閉塞装置。
The shaft core adjusting portion is configured by an shaft core adjusting cylinder member formed to have an outer diameter substantially the same as the inner diameter of the insertion guide cylinder,
A base end portion of the closure bag is provided with a base member that includes a fluid supply / discharge path communicating with the flow path and has an outer surface that can be slidably contacted with an inner surface of the shaft core adjusting cylinder member. The continuous flow type flow path closing device according to any one of claims 1 to 3, wherein the flow path closing apparatus is disposed so as to be fitted into the shaft adjusting cylinder member.
前記閉塞バッグが前記管内流路閉塞位置に位置している状態で、前記軸芯調整部の先端と前記分岐口における前記流体管の径方向内方側端とが、前記流体管の径方向において同一位置に位置するように構成されている請求項1〜4の何れか一項に記載の不断流式の流路閉塞装置。   In a state where the closing bag is located at the in-tube flow path closing position, the distal end of the shaft core adjustment portion and the radially inner side end of the fluid pipe at the branch port are in the radial direction of the fluid pipe. The continuous flow type flow path closing device according to any one of claims 1 to 4, which is configured to be positioned at the same position. 前記軸の外周面には、前記押込み操作手段による前記軸の押込み操作につれて、前記当接姿勢となった前記挿入ガイド筒における底部外面に当接して、前記閉塞バッグの前記流体管内への挿入状態が前記管内流路閉塞位置となるように規制する挿入位置規制手段が前記軸の径方向外方側に突出形成されている請求項1〜5の何れか一項に記載の不断流式の流路閉塞装置。   The outer circumferential surface of the shaft is brought into contact with the bottom outer surface of the insertion guide cylinder in the contact posture as the shaft is pushed by the pushing operation unit, and the closed bag is inserted into the fluid pipe. 6. An uninterruptible flow according to any one of claims 1 to 5, wherein an insertion position restricting means for restricting so as to be in the in-pipe flow path blocking position is formed to protrude radially outward of the shaft. Road closure device. 前記密閉ケースが、少なくとも前記挿入ガイド筒と前記挿入ガイド筒内から移動した状態の前記閉塞バッグとを収容可能な長さを有する内部空間を備えている請求項1〜6の何れか一項に記載の不断流式の流路閉塞装置。   The said airtight case is provided with the interior space which has the length which can accommodate the said obstruction | occlusion bag of the state which moved from the said insertion guide cylinder and the said insertion guide cylinder at least. The continuous flow type channel closing device as described. 前記閉塞バッグが、前記分岐管部の軸芯に沿って前記流体管の管内流路における前記管内流路閉塞位置に挿入された後、前記流体管の管軸芯方向及び径方向外方側に弾性膨張変形自在に構成されて、前記閉塞バッグが弾性膨張変形することにより、前記流体管の内周面における前記分岐口の内面側周縁部を閉塞する状態で、前記流体管の管内流路を閉止するように構成されている請求項1〜7の何れか一項に記載の不断流式の流路閉塞装置。   After the closing bag is inserted into the in-tube flow path closing position in the in-tube flow path of the fluid pipe along the axial center of the branch pipe portion, the closed side of the fluid pipe in the axial direction and the radially outward side The fluid pipe is configured so as to be elastically expandable and deformable, and in the state where the inner peripheral side of the branch port on the inner peripheral surface of the fluid pipe is closed, The continuous flow type flow path closing device according to any one of claims 1 to 7, which is configured to be closed. 前記閉塞バッグの外周面において、前記管軸芯方向における前記軸の両側に位置する箇所には、前記閉塞バッグが弾性膨張変形した際に、前記流体管の内周面に対して周方向の全周に亘って圧接して前記閉塞バッグを摩擦保持する環状シール部が突設されている請求項8に記載の不断流式の流路閉塞装置。   On the outer peripheral surface of the closing bag, the portions located on both sides of the shaft in the tube axis direction are all circumferentially with respect to the inner peripheral surface of the fluid pipe when the closing bag is elastically expanded and deformed. The continuous flow type flow path closing device according to claim 8, wherein an annular seal portion that presses the circumference and frictionally holds the closing bag is provided.
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