JP5283517B2 - Water control valve installation device and water control valve installation method - Google Patents

Water control valve installation device and water control valve installation method Download PDF

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JP5283517B2
JP5283517B2 JP2009007968A JP2009007968A JP5283517B2 JP 5283517 B2 JP5283517 B2 JP 5283517B2 JP 2009007968 A JP2009007968 A JP 2009007968A JP 2009007968 A JP2009007968 A JP 2009007968A JP 5283517 B2 JP5283517 B2 JP 5283517B2
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control valve
water control
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JP2010164160A (en
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直樹 金田
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Cosmo Koki Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a gate valve installation apparatus that facilitates the insertion of a gate valve into a casing and facilitates approach to an installation position irrespective of the direction of installation of the gate valve. <P>SOLUTION: The gate valve installation apparatus, which has the casing 2 that has an on-off valve 2a and encloses an existing fluid pipe P in a watertight manner, a pipe cutting device that cuts away a cutout part K of the existing fluid pipe P in the casing 2, and the gate valve 42 that has a valve casing 42a having a valve element therein, and a valve stem part 43b connected to the valve element and projected out from the valve casing 42a, and that is inserted into the casing 2 via the on-off valve 2a and positioned in the cutout part K, and which serves to install the gate valve 42 under an uninterrupted flow, includes a gate valve turning means 71 for turning movable split thimbles R connected to the gate valve 42 circumferentially of the existing fluid pipe P to a desired installation position after the casing 2 is removed. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

本発明は、分割構造を有するとともに開閉可能な開口部を備え、既設流体管を水密に囲繞する筐体と、該筐体内で既設流体管の所定箇所を切除する管切除手段と、内部に弁体を備えた弁筐体、及び該弁体に接続され弁筐体の外方に突出した弁軸部を有し、開口部を介して筐体内に挿入され、既設流体管を切除した箇所に配置される制水弁と、から少なくとも構成され、不断流状態で制水弁を設置する制水弁設置装置と制水弁設置方法に関する。   The present invention includes a casing having a split structure and an openable / closable opening, and surrounding an existing fluid pipe in a watertight manner, a tube excision means for excising a predetermined portion of the existing fluid pipe in the casing, and a valve inside. A valve housing provided with a body, and a valve shaft connected to the valve body and projecting outward from the valve housing; inserted into the housing through the opening; The present invention relates to a water control valve installation device and a water control valve installation method, which are configured at least from a water control valve to be installed and install the water control valve in an uninterrupted state.

従来の制水弁設置装置を用いて設置される制水弁には、遮断装置を取り付けることにより、地震等が発生した緊急時には、遮断装置のウエイトが重力降下し、この重力降下に伴うトルクが弁軸部に伝達することで、弁体が自動的に回動して閉状態にするものがある。(例えば、特許文献1参照)。   By installing a shutoff device on a water control valve installed using a conventional water control valve installation device, the weight of the shutoff device will drop due to gravity in an emergency such as an earthquake, and the torque associated with this gravity drop will be reduced. In some cases, the valve body automatically turns to a closed state by transmitting to the valve stem. (For example, refer to Patent Document 1).

特開平9−26049号公報(第3頁、第5図)JP-A-9-26049 (page 3, FIG. 5)

特許文献1に記載の制水弁にあっては、緊急時に重力降下する遮断装置のウエイトにより制水弁が遮断するように、制水弁の回動軸を略水平方向に向けて制水弁を設置する必要があり、制水弁の設置の向きが限定されるため、このように限定された向きの制水弁を筐体内に挿入し設置箇所に向けてアプローチし難いという問題がある。   In the water control valve described in Patent Document 1, the water control valve is directed so that the rotation shaft of the water control valve is directed substantially in the horizontal direction so that the water control valve is shut off by the weight of the shut-off device that drops due to gravity in an emergency. Since the installation direction of the water control valve is limited, there is a problem that it is difficult to approach the installation location by inserting the water control valve in such a limited direction into the housing.

本発明は、このような問題点に着目してなされたもので、制水弁の設置の向きに関わらず、制水弁を容易に筐体内に挿入し、設置箇所に向けてアプローチし易い制水弁設置装置及び制水弁設置方法を提供することを目的とする。   The present invention has been made paying attention to such a problem. Regardless of the installation direction of the water control valve, the water control valve can be easily inserted into the housing and easily controlled toward the installation location. An object is to provide a water valve installation device and a water control valve installation method.

前記課題を解決するために、本発明の請求項1に記載の制水弁設置装置は、
分割構造を有するとともに開閉可能な開口部を備え、既設流体管を水密に囲繞する筐体と、
該筐体内で前記既設流体管の所定箇所を切除する管切除手段と、
内部に弁体を備えた弁筐体、及び該弁体に接続され前記弁筐体の外方に突出した弁軸部を有し、前記開口部を介して前記筐体内に挿入され、前記既設流体管を切除した箇所に配置される制水弁と、
から少なくとも構成され、不断流状態で前記制水弁を設置する制水弁設置装置であって、
前記筐体を取外した後に、前記制水弁を、所望の設置位置に向けて前記既設流体管の管軸回りに回動させる制水弁回動手段が設けられており、
前記制水弁回動手段は、前記既設流体管に対して固定的に取付けられる本体部と、該本体部と前記制水弁とに間に相対移動を与えて前記制水弁を前記既設流体管の管軸回りに回動させる駆動部と、を少なくとも備えることを特徴としている。
この特徴によれば、内部に弁体を備えた弁筐体、及び該弁体に接続され弁筐体の外方に突出した弁軸部を有し、開口部を介して筐体内に挿入され、既設流体管を切除した箇所に配置された制水弁を、制水弁回動手段により所望の設置位置に向けて既設流体管の周方向に回動させることで、弁筐体の外方に突出した弁軸部を、例えば軸方向に開口部に挿入し、制水弁を設置した後に、異なる所望の方向に回動することができるため、弁軸部の設置方向が限定される制水弁であっても、制水弁の挿入の際に挿入方向の自由度が高く、制水弁を設置箇所に向けて挿入し易いばかりか、開口部及び筐体を小型化することができる。また、制水弁の両側に位置する既設流体管に固定に取付けた本体部を反力として利用して、この本体部に設けられた駆動部を駆動するだけで、制水弁を管軸回りに回動することができる。
In order to solve the above-mentioned problem, a water control valve installation device according to claim 1 of the present invention provides:
A housing having a split structure and an openable / closable opening, and watertightly surrounding an existing fluid pipe;
A tube ablation means for ablating a predetermined portion of the existing fluid tube該筐body,
Valve housing having a valve body therein, and is connected to the valve body has a valve shaft portion projecting outwardly of said valve housing, is inserted into the housing through the opening, the existing A water control valve disposed at a location where the fluid pipe is cut off;
From at least configured, a water control valve installation apparatus for installing the gate valve at constant flow state,
After removing the housing, a water control valve rotating means is provided for rotating the water control valve around a tube axis of the existing fluid pipe toward a desired installation position ,
The water control valve rotating means includes a main body portion fixedly attached to the existing fluid pipe and a relative movement between the main body portion and the water control valve so that the water control valve is moved to the existing fluid pipe. And a drive unit that rotates around the tube axis of the tube .
According to this feature, it has a valve housing having a valve body inside, and a valve shaft portion that is connected to the valve body and protrudes outward from the valve housing, and is inserted into the housing through the opening. The water control valve arranged at the location where the existing fluid pipe is cut off is rotated in the circumferential direction of the existing fluid pipe toward the desired installation position by the water control valve rotating means. For example, after the valve shaft protruding into the opening is inserted into the opening in the axial direction and the water control valve is installed, the valve shaft can be rotated in a different desired direction, so that the installation direction of the valve shaft is limited. Even if it is a water valve, the degree of freedom in the insertion direction is high when the water control valve is inserted, it is easy to insert the water control valve toward the installation location, and the opening and the housing can be downsized. . Also, by using the main body fixedly attached to the existing fluid pipes located on both sides of the water control valve as a reaction force, the water control valve can be rotated around the pipe axis simply by driving the drive section provided on the main body. Can be rotated.

本発明の請求項に記載の制水弁設置装置は、請求項に記載の制水弁設置装置であって、
前記制水弁回動手段は、前記本体部及び前記制水弁に着脱可能に架設される架設片をさらに備え、前記本体部は、前記駆動部により所定の直線方向に進退する進退部を有し、前記架設片は、前記進退部及び前記制水弁に着脱可能に架設されることを特徴としている。
この特徴によれば、駆動部により、進退部を所定の直線方向に進退させるだけで、進退部に架設した架設片とともに、制水弁を容易に回動できる。
The water control valve installation device according to claim 2 of the present invention is the water control valve installation device according to claim 1 ,
The water control valve rotating means further includes an installation piece that is detachably mounted on the main body part and the water control valve, and the main body part has an advance / retreat part that advances and retreats in a predetermined linear direction by the drive part. The installation piece is detachably installed on the advance / retreat section and the water control valve.
According to this feature, the water control valve can be easily rotated together with the installation piece erected on the advance / retreat portion only by moving the advance / retreat portion in the predetermined linear direction by the drive portion.

本発明の請求項に記載の制水弁設置装置は、請求項に記載の制水弁設置装置であって、
前記制水弁回動手段は、前記架設片を前記進退部及び前記制水弁に架設し、前記駆動部により前記進退部を順方向に進行させる進行操作と、前記架設片の架設を取外し、前記駆動部により前記進退部を逆方向に退行させる退行操作と、を繰り返すことで、前記制水弁を前記既設流体管の管軸回りに回動させるようになっていることを特徴としている。
この特徴によれば、架設片を進退部及び制水弁に架設し、駆動部により進退部を順方向に進行させる進行操作と、架設片の架設を取外し、駆動部により進退部を逆方向に退行させる退行操作と、を繰り返すことで、制水弁を既設流体管の管軸回りに回動させるようになっていることにより、直線方向に進退する進退部の延長を大きくすることなく、制水弁を自在に回動できる。
The water control valve installation device according to claim 3 of the present invention is the water control valve installation device according to claim 2 ,
The water control valve rotating means is configured to install the installation piece on the advancement / retraction unit and the water control valve, to advance the advancement / retraction unit in the forward direction by the drive unit, and to remove the installation of the installation piece, by repeating the regression operation to regress the forward and reverse part in the opposite direction by the drive unit, is characterized by being adapted to rotate the system water valve to the tube axis of the existing fluid pipe.
According to this feature, the installation piece is installed on the advancing / retreating part and the water control valve, the driving unit advances the advancing / retreating part in the forward direction, the installation of the installation piece is removed, and the advancing / retreating part is reversed by the driving part. By repeating the retraction operation to retreat, the water control valve is rotated around the pipe axis of the existing fluid pipe, so that the extension of the advancing and retreating part that advances and retreats in the linear direction is not increased. The water valve can be rotated freely.

本発明の請求項に記載の制水弁設置装置は、請求項1ないしのいずれかに記載の制水弁設置装置であって、
前記制水弁を前記既設流体管の管軸回りに回動可能に支持する回動支持部が設けられていることを特徴としている。
この特徴によれば、回動支持部が、制水弁を既設流体管の管軸回りに回動可能に支持するため、制水弁の回動がし易い。
The water control valve installation device according to claim 4 of the present invention is the water control valve installation device according to any one of claims 1 to 3 ,
Is characterized in that rotation support portion for rotatably supported is provided the system water valve to the tube axis of the existing fluid pipe.
According to this feature, since the rotation support portion supports the water control valve so as to be rotatable around the tube axis of the existing fluid pipe, the water control valve can be easily rotated.

本発明の請求項に記載の制水弁設置装置は、請求項1ないしのいずれかに記載の制水弁設置装置であって、
前記筐体を取外すときに、前記既設流体管を切除した箇所に配置された前記制水弁を吊持する吊持部が設けられていることを特徴としている。
この特徴によれば、筐体を取外しても、既設流体管を切除した箇所に設置した制水弁の重量負荷を、両側の既設流体管により片持ちで受けることなく、吊持部により受けることができる。
The water control valve installation device according to claim 5 of the present invention is the water control valve installation device according to any one of claims 1 to 4 ,
Wherein when removing the cabinet, hanging portion for hanging the system water valve arranged at a location excised the existing fluid tube is characterized in that is provided.
According to this feature, even if the housing is removed, the weight load of the water control valve installed at the location where the existing fluid pipe is removed is received by the suspension part without being cantilevered by the existing fluid pipes on both sides. Can do.

前記課題を解決するために、本発明の請求項に記載の制水弁設置方法は、
分割構造を有するとともに開閉可能な開口部を備えた筐体を用い、既設流体管を水密に囲繞する筐体囲繞工程と、
管切除手段を用い、前記筐体内で前記既設流体管の所定箇所を切除する管切除工程と、
内部に弁体を備えた弁筐体、及び該弁体に接続され前記弁筐体の外方に突出した弁軸部を有した制水弁を、前記開口部を介して前記筐体内に挿入し、前記既設流体管を切除した箇所に配置する制水弁配置工程と、
前記筐体を取外した後に、制水弁回動手段の本体部を前記既設流体管に対して固定的に取付ける本体部取付工程と、
次に、前記本体部と前記制水弁との間に相対移動を与える駆動部を位置させ、前記駆動部の駆動により、前記制水弁を前記既設流体管の管軸回りに回動させて所望の設置位置に向ける制水弁回動工程と、から構成されていることを特徴としている。
この特徴によれば、内部に弁体を備えた弁筐体、及び該弁体に接続され弁筐体の外方に突出した弁軸部を有し、制水弁配置工程において開口部を介して筐体内に挿入され、既設流体管を切除した箇所に配置された制水弁を、制水弁回動工程において制水弁回動手段により所望の設置位置に向けて既設流体管の周方向に回動させることで、弁筐体の外方に突出した弁軸部を、例えば軸方向に開口部に挿入し、制水弁を設置した後に、異なる所望の方向に回動することができるため、弁軸部の設置方向が限定される制水弁であっても、制水弁の挿入の際に挿入方向の自由度が高く、制水弁を設置箇所に向けて挿入し易いばかりか、開口部及び筐体を小型化することができる。また、制水弁の両側に位置する既設流体管に固定に取付けた本体部を反力として利用して、この本体部に設けられた駆動部を駆動するだけで、制水弁を管軸回りに回動することができる。
In order to solve the above-described problem, a water control valve installation method according to claim 6 of the present invention includes:
A housing surrounding step for watertightly surrounding an existing fluid pipe using a housing having a split structure and an opening that can be opened and closed,
A tube ablation process using a tube excision means to excise a predetermined portion of the existing fluid pipe by said housing,
Insert valve housing having a valve body therein, and a gate valve having a valve shaft portion projecting outwardly of the connected the valve housing to the valve body, in the housing through the opening and a water control valve arrangement step of arranging the portion formed by cutting the existing fluid pipe,
After removing the housing, a main body part attaching step for fixedly attaching the main body part of the water control valve rotating means to the existing fluid pipe;
Next, a drive unit that provides relative movement is positioned between the main body unit and the water control valve, and the water control valve is rotated around the pipe axis of the existing fluid pipe by driving the drive unit. It is characterized by comprising a water control valve rotating step directed to a desired installation position .
According to this feature, it has a valve housing provided with a valve body inside, and a valve shaft portion that is connected to the valve body and protrudes outward from the valve housing. In the circumferential direction of the existing fluid pipe, the water control valve placed in the location where the existing fluid pipe is removed is moved toward the desired installation position by the water control valve turning means in the water control valve turning process. The valve shaft protruding outward from the valve housing can be inserted into the opening in the axial direction, for example, and installed in the water control valve, and then rotated in a different desired direction. Therefore, even in the case of a water control valve that restricts the installation direction of the valve stem, the degree of freedom in the insertion direction is high when the water control valve is inserted, and it is easy to insert the water control valve toward the installation location. The opening and the housing can be reduced in size. Also, by using the main body fixedly attached to the existing fluid pipes located on both sides of the water control valve as a reaction force, the water control valve can be rotated around the pipe axis simply by driving the drive section provided on the main body. Can be rotated.

既設流体管に移動割継輪が取付けられた状態を示す正面図である。It is a front view which shows the state by which the movement split ring was attached to the existing fluid pipe | tube. 下部ケースが既設流体管を囲繞して取付けられた状態を示す正面図である。It is a front view which shows the state in which the lower case was attached surrounding the existing fluid pipe | tube. 移動部材が取付座に取付けられた状態を示す一部断面図である。It is a partial cross section figure which shows the state in which the moving member was attached to the attachment seat. 上部ケースが既設流体管を囲繞して取付けられている状態を示す正面図である。It is a front view which shows the state in which the upper case is attached surrounding the existing fluid pipe | tube. 管切除装置が切除部に配置された状態を示す一部断面図である。It is a partial sectional view showing a state where a tube excision device is arranged in an excision part. 管切除装置を示す一部断面図である。It is a partial sectional view showing a tube excision device. 管切除装置を示す一部側断面図である。It is a partial sectional side view which shows a tube excision apparatus. 管切除装置が仮置台に載置された状態を示す一部側断面図である。It is a partial sectional side view which shows the state in which the tube excision apparatus was mounted in the temporary mounting base. 管切除装置が引上げられた状態を示す一部断面図である。It is a partial sectional view showing the state where the tube excision device was pulled up. 制水弁が仮置台に載置された状態を示す一部断面図である。It is a partial cross section figure which shows the state in which the water control valve was mounted in the temporary mounting base. 油圧移動手段により移動割継輪が制水弁に向けて移動している状態を示す一部断面図である。It is a partial cross section figure which shows the state which the movement split wheel is moving toward the water control valve by the hydraulic movement means. 挿入ロッドが引上げられている状態を示す一部断面図である。It is a partial cross section figure which shows the state by which the insertion rod is pulled up. 架設部材及びチェーンブロックにより制水弁が吊持された状態を示す正面図である。It is a front view which shows the state by which the water control valve was suspended by the construction member and the chain block. (a)は、ジャッキを示す正面図であり、(b)は、支持ユニットを示す一部断面図である。(A) is a front view which shows a jack, (b) is a partial cross section figure which shows a support unit. 制水弁回動手段が移動割継輪に設けられた状態を示す正面図である。It is a front view which shows the state by which the water control valve rotation means was provided in the movement split wheel. (a)は、図15のA−A断面図であり、(b)は、(a)の状態から制水弁回動手段が進行操作された状態を示す断面図である。(A) is AA sectional drawing of FIG. 15, (b) is sectional drawing which shows the state by which the water control valve rotation means was advanced from the state of (a). (a)は、図15の状態から30°回動した制水弁の側面図であり、(b)は、図15の状態から60°回動した制水弁の側面図であり、(c)は、図15の状態から90°回動した制水弁の側面図である。(A) is a side view of the water control valve rotated 30 ° from the state of FIG. 15, (b) is a side view of the water control valve rotated 60 ° from the state of FIG. FIG. 16 is a side view of the water control valve rotated 90 ° from the state of FIG. 15. (a)は、制水弁に遮断装置が設けられた状態を示す正面図であり、(b)は、同じく側面図である。(A) is a front view which shows the state by which the cutoff device was provided in the water control valve, (b) is a side view similarly. 変形例の制水弁回動手段が移動割継輪に設けられた状態を示す正面図である。It is a front view which shows the state by which the water control valve rotation means of the modification was provided in the movement split wheel.

本発明に係る制水弁設置装置及び制水弁設置方法を実施するための形態を実施例に基づいて以下に説明する。   EMBODIMENT OF THE INVENTION The form for implementing the water control valve installation apparatus and water control valve installation method which concern on this invention is demonstrated below based on an Example.

本発明の実施例を図1〜図18に基づいて説明する。以下、図15の紙面手前側を制水弁回動手段及び制水弁の正面側とし、図15の紙面左右側を制水弁回動手段及び制水弁の左右側として説明する。   An embodiment of the present invention will be described with reference to FIGS. In the following description, the front side of the sheet of FIG. 15 is the front side of the water control valve rotating means and the water control valve, and the left and right sides of FIG. 15 are the left and right sides of the water control valve rotating means and the water control valve.

一般に、地中に埋設され内部を上水が流れる既設流体管において、水の流れを制御するために既設流体管の所定箇所を切除して該所定箇所に緊急用の制水弁が不断水状態で配置される。このような制水弁は、例えば地震等の緊急時に、自動で制水弁の遮断状態に制御される遮断装置を備えている。この種の遮断装置は重力を利用することにより制水弁を遮断状態にするものであり、制水弁の配置状況によっては、配置した制水弁の向きを変更した後に遮断装置を取付けなければならない。本実施例は、不断水状態で配置した制水弁に遮断装置を取付けるまでの一連の工程から成る制水弁設置方法及び該制水弁設置方法を行う制水弁設置装置について説明する。   In general, in an existing fluid pipe that is buried in the ground and in which clean water flows inside, a predetermined portion of the existing fluid tube is excised to control the flow of water, and an emergency water control valve is in an undisturbed state at the predetermined location. It is arranged with. Such a water control valve includes a shut-off device that is automatically controlled to shut off the water control valve in an emergency such as an earthquake. This type of shut-off device uses gravity to place the water control valve in a shut-off state. Depending on the arrangement of the water control valve, the shut-off device must be installed after changing the direction of the water control valve. Don't be. A present Example demonstrates the water control valve installation method which performs the water control valve installation method which consists of a series of processes until it attaches a cutoff device to the water control valve arrange | positioned in an unaltered water state, and this water control valve installation method.

図1の符号Pは、土壌に埋設され内部を流れる流体が上水である既設流体管であって、先ず、既設流体管Pの清掃後、既設流体管Pを、H鋼及びコンクリートによる固定部材101,101にて補強及び固定する。   1 is an existing fluid pipe in which the fluid embedded in the soil and flowing through the inside is clean water. First, after cleaning the existing fluid pipe P, the existing fluid pipe P is fixed to H steel and concrete. Reinforce and fix at 101,101.

次いで、既設流体管Pの切除箇所である切除部Kの上流側及び下流側における既設流体管Pの外周に、制水弁42の端部42c,42d及び既設流体管Pの切断部Z,Z(図10参照)に水密に架設される継輪としての2つ割リング構造の移動割継輪R,Rを周方向に沿って夫々取付ける。この移動割継輪R,Rは、内周面にパッキンが配設されており、後述のように制水弁42が切除部Kに設置された後、制水弁42と既設流体管Pとに水密に架設されるようになっている(図15参照)。   Next, the end portions 42c and 42d of the water control valve 42 and the cut portions Z and Z of the existing fluid pipe P are provided on the outer periphery of the existing fluid pipe P on the upstream side and the downstream side of the cut portion K, which is the cut portion of the existing fluid pipe P. (Refer to FIG. 10) The split split rings R and R having a split ring structure as the joints that are watertightly installed are attached along the circumferential direction. The movable split wheels R, R are provided with packing on the inner peripheral surface, and after the water control valve 42 is installed in the excision part K as described later, the water control valve 42 and the existing fluid pipe P It is constructed in a watertight manner (see FIG. 15).

尚、後述する油圧移動手段にて移動割継輪R,Rを既設流体管Pの管軸方向に潤滑に移動させるために、パッキン及び既設流体管Pの外周面に予め滑剤を塗布しておく。   Note that a lubricant is applied in advance to the outer peripheral surface of the packing and the existing fluid pipe P in order to lubricate and move the moving split wheels R, R in the direction of the pipe axis of the existing fluid pipe P by hydraulic movement means described later. .

そして、移動割継輪R,Rを既設流体管Pの外面に周方向に沿って夫々取付けた後、移動割継輪R,Rの水圧テストを行う。水圧テストは、移動割継輪R,Rの間に、図示しない水圧テスト用の二分割構造の夫々の押輪を、移動割継輪R,Rに取付けて移動割継輪R,Rの内部を密封状態にするとともに、移動割継輪R,Rの中央位置(図示沈みプラグRaの取付位置)に図示しない水圧計を取付け、移動割継輪R,Rに所定の水圧をかけ、漏水の有無を確認する。   Then, after attaching the moving split wheels R, R to the outer surface of the existing fluid pipe P along the circumferential direction, a water pressure test of the moving split wheels R, R is performed. In the water pressure test, a two-split structure for water pressure test (not shown) is attached between the moving split wheels R and R to the moving split wheels R and R so that the inside of the moving split wheels R and R is installed. A water pressure gauge (not shown) is attached to the central position of the moving split wheels R, R (the mounting position of the sinking plug Ra shown), and a predetermined water pressure is applied to the moving split wheels R, R to check for leakage. Confirm.

この水圧テストで漏水の無いことを確認した後、水圧計を取外し、該水圧計を取外した位置に沈みプラグRaを取付けた後に、移動割継輪R,Rの一端部に形成されたフランジRb,Rbに前記油圧移動手段を構成する後述の移動部材64(図3参照)を取付けるための取付座Rcをボルト等にて取付ける。   After confirming that there is no water leakage in this water pressure test, after removing the water pressure gauge and attaching the sink plug Ra to the position where the water pressure gauge was removed, the flange Rb formed at one end of the moving splice wheels R, R , Rb, a mounting seat Rc for mounting a moving member 64 (see FIG. 3), which will be described later, constituting the hydraulic moving means is mounted with a bolt or the like.

次いで、筐体2を用いて既設流体管Pを水密に囲繞する筐体囲繞工程を行う(図5及び図11参照)。ここで、筐体2の構造について説明すると、図5に示されるように、筐体2は、分割構造であって、主に、2分割構造の上部ケース2d及び下部ケース2eと、内部に弁体2bを備えた開閉弁2aと、から構成されている。   Next, a housing surrounding step is performed in which the existing fluid pipe P is surrounded in a watertight manner using the housing 2 (see FIGS. 5 and 11). Here, the structure of the housing 2 will be described. As shown in FIG. 5, the housing 2 has a split structure, and mainly includes an upper case 2d and a lower case 2e having a split structure, and a valve inside. And an on-off valve 2a provided with a body 2b.

図5に示されるように、上部ケース2dは、下部ケース2eとにより既設流体管Pをその外周面に沿って囲繞するものであり、図2に示されるように、下部ケース2eには、ジャッキ75により支持され、下部ケース2eの図示前後方向に突出する支持部材Wが形成されている。   As shown in FIG. 5, the upper case 2d surrounds the existing fluid pipe P along the outer peripheral surface by the lower case 2e. As shown in FIG. A support member W that is supported by 75 and protrudes in the front-rear direction of the lower case 2e is formed.

また、図10に示されるように、上部ケース2d及び下部ケース2eの側方開口部には、夫々既設流体管Pの外面付近の片側で4箇所(両側で8箇所)において、油圧移動手段を構成する延長ロッド66の外径と略同径の内径を有するロッドガイドLが、筐体2の内方に向かって管軸方向に延設されている。   Further, as shown in FIG. 10, hydraulic movement means are provided at the side openings of the upper case 2 d and the lower case 2 e at four locations on one side (eight locations on both sides) near the outer surface of the existing fluid pipe P, respectively. A rod guide L having an inner diameter that is substantially the same as the outer diameter of the extension rod 66 that is formed extends in the tube axis direction toward the inside of the housing 2.

図5に示されるように、開閉弁2aは、内部に弁体2bを備え、上部ケース2dの上部に取外可能に設けられており、この開閉弁2aが、本発明の開閉可能な開口部を構成している。   As shown in FIG. 5, the on-off valve 2 a includes a valve body 2 b inside, and is detachably provided on the upper part of the upper case 2 d. The on-off valve 2 a is an opening that can be opened and closed according to the present invention. Is configured.

更に、図8に示されるように、開閉弁2aの上部には、管切除手段としての管切除装置1及び制水弁42を仮置きするための作業筒11が取外可能に設けられ、この作業筒11には、上部ケース2d、下部ケース2e、開閉弁2a、及び作業筒11を密封する蓋部12が取外し可能に設けられる(図5及び図10参照)。蓋部12には、作業筒11内の空気を抜く空気抜きコック120,120が備えられている。   Further, as shown in FIG. 8, a work cylinder 11 for temporarily placing the tube excision device 1 as the tube excision means and the water control valve 42 is detachably provided at the upper part of the on-off valve 2a. The work cylinder 11 is provided with an upper case 2d, a lower case 2e, an on-off valve 2a, and a lid 12 that seals the work cylinder 11 so as to be removable (see FIGS. 5 and 10). The lid portion 12 is provided with air vent cocks 120 and 120 that vent the air inside the work cylinder 11.

作業筒11には、制水弁42及び管切除装置1を仮置きするための仮受台55,55と、作業筒11内に残留する上水を排水する排水用コック110,110と、が図示左右に複数設けられており、仮受台55は、図示左右方向に進退移動可能な移動部材56と、移動部材56を収容する収容部57と、収容部57に嵌挿され、移動部材56の進退移動を操作するための操作部58と、から構成されている(図10参照)。   The work cylinder 11 has temporary receiving bases 55 and 55 for temporarily placing the water control valve 42 and the tube cutting device 1, and drain cocks 110 and 110 for draining clean water remaining in the work cylinder 11. A plurality of provisional pedestals 55 are provided on the left and right sides of the drawing, and the temporary receiving base 55 is fitted into the moving portion 56, the holding portion 57 that holds the moving member 56, and the receiving portion 57. And an operation unit 58 for operating the forward / backward movement (see FIG. 10).

次に、筐体囲繞工程について説明すると、図2に示されるように、先ず、既設流体管Pを水密に囲繞する筐体2の下部ケース2e内に、筐体2内で既設流体管Pの切除部Kを切除する管切除装置1におけるガイド部4の下ガイド4b(図6参照)を支持した状態で、懸吊手段102にて下部ケース2e及び下ガイド4bを既設流体管Pの図示下側における外周面を囲繞するように配置し、複数のジャッキ75で下部ケース2eの支持部材Wを支持する。   Next, the casing surrounding process will be described. As shown in FIG. 2, first, in the lower case 2 e of the casing 2 that surrounds the existing fluid pipe P in a watertight manner, the existing fluid pipe P is formed in the casing 2. In the state where the lower guide 4b (see FIG. 6) of the guide part 4 in the tube excision apparatus 1 for excising the excision part K is supported, the lower case 2e and the lower guide 4b are shown below the existing fluid pipe P by the suspension means 102. It arrange | positions so that the outer peripheral surface in the side may be surrounded, and the supporting member W of the lower case 2e is supported with the some jack 75. FIG.

具体的には、ジャッキ75の先端凸部75aが、支持部材Wに形成された挿通孔に挿通して下部ケース2eを支持するとともに、下部ケース2eの上下位置が既設流体管Pの管軸に対し略平行となるように夫々のジャッキ75を調整し、下部ケース2eが位置決めされるようになっている。   Specifically, the tip convex portion 75a of the jack 75 is inserted into an insertion hole formed in the support member W to support the lower case 2e, and the vertical position of the lower case 2e is set to the tube axis of the existing fluid pipe P. Each jack 75 is adjusted so as to be substantially parallel to the lower case 2e so that the lower case 2e is positioned.

これら下部ケース2e及び下ガイド4bが配置された後に、既設流体管Pの外部に漏水を防止するパッキン69,69と、パッキン69の水密性を維持する押輪Q,Qと、ゴム輪68,68と、を切除部Kの上流側及び下流側における既設流体管Pの外周面に夫々配置する。   After the lower case 2e and the lower guide 4b are disposed, packings 69 and 69 for preventing water leakage outside the existing fluid pipe P, push rings Q and Q for maintaining the water tightness of the packing 69, and rubber rings 68 and 68 Are arranged on the outer peripheral surface of the existing fluid pipe P on the upstream side and the downstream side of the cut portion K, respectively.

次いで、図3に示されるように、前述した油圧移動手段を構成する移動部材64を図示下側の移動割継輪Rにおける取付座Rcに取付ける。具体的には、移動部材64は、主に延長ロッド66と油圧ジャッキ65から成り、延長ロッド66を前述した下部ケース2eのロッドガイドL内を嵌挿させて取付座Rcに取付けるとともに、ロッドガイドLの端面に固定的に油圧ジャッキ65のシリンダ65bを取付ける。   Next, as shown in FIG. 3, the moving member 64 that constitutes the hydraulic moving means described above is attached to the attachment seat Rc in the lower moving connecting wheel R in the drawing. Specifically, the moving member 64 mainly includes an extension rod 66 and a hydraulic jack 65, and the extension rod 66 is fitted into the rod guide L of the lower case 2e described above to be attached to the mounting seat Rc. The cylinder 65b of the hydraulic jack 65 is fixedly attached to the end face of L.

ここで、シリンダ65b内にはロッド65aが収容されており、このロッド65aが延長ロッド66の先端に接続され、シリンダ65b内に作動油が供給されることにより、ロッド65aが切除部Kに向かって移動するとともに、該ロッド65aに接続された延長ロッド66がロッド65aに追随して移動し、延長ロッド66に取付けられた取付座Rcに接続された移動割継輪Rが切除部K側に向かって移動可能になっている。尚、油圧移動手段は、移動部材64の他、後述の油圧ユニット63及び油圧ホースHから構成されている(図11参照)。   Here, a rod 65a is accommodated in the cylinder 65b. This rod 65a is connected to the tip of the extension rod 66, and hydraulic oil is supplied into the cylinder 65b, so that the rod 65a faces the cut portion K. The extension rod 66 connected to the rod 65a moves following the rod 65a, and the moving split ring R connected to the mounting seat Rc attached to the extension rod 66 is moved to the cut portion K side. It can move toward. The hydraulic movement means includes a hydraulic unit 63 and a hydraulic hose H, which will be described later, in addition to the moving member 64 (see FIG. 11).

移動割継輪Rの図示下側における取付座Rcに延長ロッド66及び油圧ジャッキ65を接続した後に、管切除装置1(図6参照)を配置し、前述した管切除工程を行う。   After connecting the extension rod 66 and the hydraulic jack 65 to the mounting seat Rc on the lower side of the moving split wheel R, the tube cutting device 1 (see FIG. 6) is arranged, and the above-described tube cutting step is performed.

ここで、管切除装置1の構造について説明すると、図6及び図7に示されるように、管切除装置1は、主に切除ユニット3、ガイド部4、及び駆動部5から成り、既設流体管Pの外側に水密的に密封された筐体2内において、ガイド部4を構成する2分割構造の上ガイド4a及び下ガイド4bが、既設流体管Pの外周面に固定保持される(図5参照)。   Here, the structure of the tube excision device 1 will be described. As shown in FIGS. 6 and 7, the tube excision device 1 mainly includes an excision unit 3, a guide unit 4, and a drive unit 5. In the casing 2 watertightly sealed on the outside of P, the upper guide 4a and the lower guide 4b that constitute the guide portion 4 are fixedly held on the outer peripheral surface of the existing fluid pipe P (FIG. 5). reference).

尚、上ガイド4a及び下ガイド4bの周方向に沿って設けられた複数のボルト28が、内径方向に螺挿され既設流体管Pの外周面に当接することにより、上ガイド4a及び下ガイド4bが既設流体管Pに対し位置決めして固定されるようになっている。また、上ガイド4a及び下ガイド4bには、前述した作業筒11の仮受台55に支持される支持部29が設けられている。   A plurality of bolts 28 provided along the circumferential direction of the upper guide 4a and the lower guide 4b are screwed in the inner diameter direction and come into contact with the outer peripheral surface of the existing fluid pipe P, whereby the upper guide 4a and the lower guide 4b. Is positioned and fixed with respect to the existing fluid pipe P. Further, the upper guide 4a and the lower guide 4b are provided with a support portion 29 that is supported by the temporary receiving base 55 of the work cylinder 11 described above.

ガイド部4の上部には、後述の駆動モータ6と、駆動モータ6が取付けられる駆動長軸106と、駆動長軸106に対して取外し可能に連結される伸縮継手部107と、伸縮継手部107に固定に連結される駆動軸7’と、駆動軸7’の先端部に設けられた歯車7a’と噛合する歯車7aを有する駆動軸7と、駆動モータ6により駆動長軸106、伸縮継手部107、及び駆動軸7’を介して駆動力が付与される駆動軸7の両端に設けられた一対の駆動スプロケット8と、から成る駆動部5が連結されており、駆動モータ6は筐体2外部に突出して駆動部5に取外し可能に配設されるようになっている(図5参照)。   On the upper portion of the guide portion 4, a drive motor 6 described later, a drive long shaft 106 to which the drive motor 6 is attached, an expansion joint portion 107 detachably connected to the drive long shaft 106, and an expansion joint portion 107 A drive shaft 7 ′ fixedly connected to the drive shaft 7, a drive shaft 7 having a gear 7 a meshing with a gear 7 a ′ provided at the tip of the drive shaft 7 ′, a drive long shaft 106 and an expansion joint portion by the drive motor 6. 107 and a pair of drive sprockets 8 provided at both ends of the drive shaft 7 to which drive force is applied via the drive shaft 7 'are connected to each other, and the drive motor 6 is connected to the housing 2 It protrudes outside and is detachably disposed on the drive unit 5 (see FIG. 5).

ガイド部4の両端部には、上下2分割構造の上部スプロケット9a及び下部スプロケット9bから成り、既設流体管Pの外周方向に回転自在な一対の従動スプロケット9が配設されている。   A pair of driven sprockets 9 that are composed of an upper sprocket 9a and a lower sprocket 9b having an upper and lower split structure and are rotatable in the outer peripheral direction of the existing fluid pipe P are disposed at both ends of the guide portion 4.

一対の従動スプロケット9は、図7に示されるように、上部の一対の駆動スプロケット8と巻回された無端チェーン10を介してそれぞれ接続されている。前述した駆動モータ6を作動することで駆動軸7’,7を介して駆動スプロケット8が駆動され、この駆動により回転力が従動スプロケット9に付与され、従動スプロケット9が既設流体管Pの外周を周回する。   As shown in FIG. 7, the pair of driven sprockets 9 are connected to the upper pair of drive sprockets 8 via an endless chain 10 that is wound. By actuating the drive motor 6 described above, the drive sprocket 8 is driven via the drive shafts 7 ′, 7. By this drive, rotational force is applied to the driven sprocket 9, and the driven sprocket 9 moves around the outer circumference of the existing fluid pipe P. Go around.

また、一対の従動スプロケット9の外面には、切除ユニット3が等間隔に4箇所ずつ固着配設され、従動スプロケット9の回転とともに既設流体管Pの外周を回転可能となり、切除ユニット3に設けられた切削バイト19により既設流体管Pを外周回りに切除できるようになっている。   Further, the ablation units 3 are fixedly arranged at four positions on the outer surfaces of the pair of driven sprockets 9 at equal intervals, and the outer periphery of the existing fluid pipe P can be rotated along with the rotation of the driven sprockets 9. The existing fluid pipe P can be cut around the outer periphery by the cutting tool 19.

切除ユニット3は、前述した切削バイト19と、切削バイト19を固定に支持する支持部材18と、支持部材18に螺合する受動回転体21と、を有している。   The cutting unit 3 includes the cutting tool 19 described above, a support member 18 that supports the cutting tool 19 in a fixed manner, and a passive rotating body 21 that is screwed into the support member 18.

また、既設流体管Pの外周回りを回転する切除ユニット3の切断経路近傍には、キッカー部30が上ガイド4aの外側面に固定配設されており、キッカー部30にはキッカー片31が受動回転体21を回動可能に突設されている。   Further, in the vicinity of the cutting path of the excision unit 3 that rotates around the outer periphery of the existing fluid pipe P, a kicker portion 30 is fixedly disposed on the outer surface of the upper guide 4a, and a kicker piece 31 is passively disposed on the kicker portion 30. The rotating body 21 is provided so as to be rotatable.

すなわち、既設流体管Pの外周を回転動作する切除ユニット3がキッカー部30の近傍を通過する際に、受動回転体21の回転羽根21aが、キッカー片31と当接係合し、切除ユニット3がキッカー部30の近傍を通過し終えて、係合が解除されるまで回転羽根21aが所定量回転することになる。   That is, when the cutting unit 3 that rotates around the outer periphery of the existing fluid pipe P passes through the vicinity of the kicker portion 30, the rotary blade 21 a of the passive rotating body 21 comes into contact with and engages with the kicker piece 31. Has passed through the vicinity of the kicker portion 30, and the rotating blade 21a rotates a predetermined amount until the engagement is released.

したがって、切除ユニット3が既設流体管Pの外周を回転してキッカー部30を通過するたびに、受動回転体21の回転羽根21aがキッカー片31と当接係合して所定量回転し、受動回転体21に螺合した支持部材18に固定に支持された切削バイト19が単位あたり量ずつ内径方向に移動動作することにより、切削バイト19の先端刃が既設流体管Pの外周壁を一定量ずつ切削しながら外周を回転し、既設流体管Pを切断するようになっている。   Therefore, every time the excision unit 3 rotates on the outer periphery of the existing fluid pipe P and passes through the kicker section 30, the rotary blade 21a of the passive rotating body 21 abuts and engages with the kicker piece 31 and rotates by a predetermined amount. The cutting bite 19 fixedly supported by the support member 18 screwed to the rotating body 21 moves in the inner diameter direction by an amount per unit, so that the tip blade of the cutting bite 19 moves the outer peripheral wall of the existing fluid pipe P by a certain amount. The outer periphery is rotated while cutting each time, and the existing fluid pipe P is cut.

次に、管切除装置の配置について説明すると、図4に示されるように、駆動部5の一部構成部材と、ガイド部4の上ガイド4aと、を下ガイド4bに取付け、かつ上ガイド4a及び下ガイド4bに設けられたボルト28(図6参照)を螺入してガイド部4を既設流体管Pに固定する。   Next, the arrangement of the tube excision device will be described. As shown in FIG. 4, a part of the drive member 5 and the upper guide 4a of the guide unit 4 are attached to the lower guide 4b, and the upper guide 4a. And the bolt 28 (refer FIG. 6) provided in the lower guide 4b is screwed in, and the guide part 4 is fixed to the existing fluid pipe P. As shown in FIG.

そして、既設流体管Pの図示上側を囲繞するように筐体2の上部ケース2dを下部ケース2eの上部に取付け、両ケース2d,2eを既設流体管Pに固定する。そして、前述したパッキン69,69と、押輪Q,Qと、ゴム輪68,68を上部ケース2d及び下部ケース2eの側方開口部に夫々取付け、側方開口部を密封する。図5に示されるように、前述と同様に、図示上側の移動割継輪Rの取付座Rcに移動部材64を取付ける。   Then, the upper case 2d of the housing 2 is attached to the upper part of the lower case 2e so as to surround the upper side of the existing fluid pipe P in the figure, and both cases 2d and 2e are fixed to the existing fluid pipe P. The packings 69 and 69, the push wheels Q and Q, and the rubber wheels 68 and 68 are attached to the side openings of the upper case 2d and the lower case 2e, respectively, and the side openings are sealed. As shown in FIG. 5, the moving member 64 is attached to the mounting seat Rc of the moving split wheel R on the upper side in the same manner as described above.

次いで、開閉弁2aを上部ケース2dの上部に取付ける。そして、筐体2内、すなわち上部ケース2d、下部ケース2e、及び開閉弁2a内に水を張り所定の水圧をかけ、筐体2内の水圧テストを行う。水圧テストの後、筐体2内の水を排水し、開閉弁2aの上部に作業筒11を取付け、更に作業筒11の上部に蓋部12を取付ける。そして、駆動長軸106を、その上端側が作業筒11の外方に露出し、かつ筐体2の内部は密封状態になるように蓋部12を貫通して、伸縮継手部107に取付けるとともに、この駆動長軸106の上端にモータ台108を取付け、かつこのモータ台108を蓋部12に取付ける。   Next, the on-off valve 2a is attached to the upper part of the upper case 2d. Then, water is applied to the inside of the housing 2, that is, the upper case 2d, the lower case 2e, and the on-off valve 2a, and a predetermined water pressure is applied, and a water pressure test inside the housing 2 is performed. After the water pressure test, the water in the housing 2 is drained, the work cylinder 11 is attached to the upper part of the on-off valve 2 a, and the lid 12 is attached to the upper part of the work cylinder 11. Then, the drive long shaft 106 is attached to the expansion joint portion 107 through the lid portion 12 so that the upper end side thereof is exposed to the outside of the work cylinder 11 and the inside of the housing 2 is sealed. A motor base 108 is attached to the upper end of the drive long shaft 106, and the motor base 108 is attached to the lid portion 12.

管切除工程について説明すると、図5の状態において、懸吊手段102により懸吊された駆動モータ6をモータ台108に連結し、駆動モータ6を作動させて駆動長軸106を介し駆動トルクを伸縮継手部107に伝達することで、切除ユニット3に設けられた切削バイト19(図6参照)が既設流体管Pの外周面を切削しながら回動することになる。切除部Kにおいて、2箇所の切断面で既設流体管Pが切断され、すなわち切断面間の管片P1が既設流体管Pから分断されることになる。   The tube cutting process will be described. In the state of FIG. 5, the drive motor 6 suspended by the suspension means 102 is connected to the motor base 108, and the drive motor 6 is operated to expand and contract the drive torque via the drive long shaft 106. By transmitting to the joint portion 107, the cutting tool 19 (see FIG. 6) provided in the cutting unit 3 rotates while cutting the outer peripheral surface of the existing fluid pipe P. In the excision part K, the existing fluid pipe P is cut at two cut surfaces, that is, the pipe piece P1 between the cut surfaces is separated from the existing fluid pipe P.

既設流体管Pの切断が終了した後に、管切除装置1を管片P1とともに引上げる。先ずモータ台108に連結された駆動モータ6を外した後に、管切除装置1と下部ケース2eとの固定を解除し、ガイド部4(図6参照)に取付けられた支持部29が仮受台55の移動部材56よりも高い位置になるように管切除装置1を引上げる(図8参照)。   After the cutting of the existing fluid pipe P is completed, the pipe excision device 1 is pulled up together with the pipe piece P1. First, after the drive motor 6 connected to the motor base 108 is removed, the tube cutting device 1 and the lower case 2e are released from being fixed, and the support portion 29 attached to the guide portion 4 (see FIG. 6) is a temporary support base. The tube excision device 1 is pulled up so as to be higher than the moving member 56 of 55 (see FIG. 8).

次いで、仮受台55の操作部58を操作することで移動部材56を作業筒11の内方に向かって移動させる。そして、引上げた管切除装置1を下降させて、図8に示されるように、この移動部材56に支持部29を載置することにより、管切除装置1を仮受台55に仮置きし、開閉弁2aを閉状態にする。尚、管切除装置1を引上げるまでは開閉弁2aを開状態にしているため、上水により作業筒11内が浸水されており、この閉状態にした後に、作業筒11に残留する上水を排水用コック110から排水する。   Next, the moving member 56 is moved toward the inside of the work cylinder 11 by operating the operation unit 58 of the temporary support base 55. Then, the pulled tube excision device 1 is lowered and, as shown in FIG. 8, by placing the support portion 29 on the moving member 56, the tube excision device 1 is temporarily placed on the temporary support base 55, The on-off valve 2a is closed. In addition, since the on-off valve 2a is in an open state until the tube excision device 1 is pulled up, the work cylinder 11 is submerged by the clean water, and the water remaining in the work cylinder 11 after the closed state is obtained. Is drained from the drain cock 110.

排水用コック110からの排水後、図9に示されるように、駆動長軸106を伸縮継手部107から取外す。次いで、蓋部12を作業筒11から取外し、管切除装置1を引上げることで管切除装置1とともに管片P1を外方に取出す。そして、作業筒11を取外し、開閉弁2aの上部に図示しない吸引具が嵌挿されたスイーパ蓋を取付けて、開閉弁2aを開状態とし、切除部Kの切除面付近に既設流体管Pの切除の際に発生した切粉を吸引具から吸引して外部に排出する。切粉の排出後、吸引具を引上げるとともに、開閉弁2aを閉状態として前記スイーパ蓋を開閉弁2aから取外し、開閉弁2aの上部に作業筒11を取付ける。   After draining from drain cock 110, drive long shaft 106 is removed from expansion joint 107 as shown in FIG. Next, the lid 12 is removed from the working cylinder 11 and the tube excision device 1 is pulled up to take out the tube piece P1 together with the tube excision device 1. Then, the work cylinder 11 is removed, a sweeper lid in which a suction tool (not shown) is inserted is attached to the upper part of the on-off valve 2a, the on-off valve 2a is opened, and the existing fluid pipe P is located near the excision surface of the excision part K. The chips generated at the time of excision are sucked from the suction tool and discharged to the outside. After discharging the chips, the suction tool is pulled up, the open / close valve 2a is closed, the sweeper lid is removed from the open / close valve 2a, and the work cylinder 11 is attached to the upper part of the open / close valve 2a.

この作業筒11の取付け後、制水弁42を切除部Kに配置する制水弁配置工程を行う。ここで、制水弁42の構造について説明すると、図10及び図17(a)に示されるように、制水弁42は、内部に弁体43を備えた弁筐体42a、及び該弁体43に接続され弁筐体42aの外方に突出した弁軸部43bを有しており、開閉弁2aを介して筐体2内に挿入され、切除部Kに配置される。   After the work cylinder 11 is attached, a water control valve arranging step of arranging the water control valve 42 in the cut portion K is performed. Here, the structure of the water control valve 42 will be described. As shown in FIGS. 10 and 17A, the water control valve 42 includes a valve housing 42a having a valve body 43 therein, and the valve body. 43, and has a valve shaft portion 43b protruding outward from the valve housing 42a. The valve shaft portion 43b is inserted into the housing 2 through the on-off valve 2a and disposed in the excision portion K.

具体的には、制水弁42は、緊急時に弁体43の回動で管路を遮断可能であって、制水弁42の両端部43c,43dには、移動割継輪R,Rと接続するための接続フランジ部41,41が形成されており、図10に示されるように、弁軸部43bの図下上部には、連結具42bが設けられており、この連結具42bにボルト・ナットVにて挿入ロッド109が取外し可能に連結されるようになっている。   Specifically, the water control valve 42 can shut off the pipe line by turning the valve body 43 in an emergency, and both end portions 43c and 43d of the water control valve 42 are connected to the moving split wheels R and R. Connection flange portions 41, 41 for connection are formed, and as shown in FIG. 10, a connecting tool 42b is provided at the upper lower portion of the valve shaft portion 43b, and a bolt is provided on the connecting tool 42b. The insertion rod 109 is detachably connected with the nut V.

更に、制水弁42の図示中央部には、支持部材42fが取付けられており、この支持部材42fに外方に突出した突出部42eが設けられている。管切除装置1と同様に、仮受台55の移動部材56(図8参照)が作業筒11の内方に向かって移動した状態で、この突出部42eを移動部材56に載置することで、制水弁42を仮置きすることができるようになっている。   Further, a support member 42f is attached to the central portion of the water control valve 42 in the figure, and a protruding portion 42e protruding outward is provided on the support member 42f. Similar to the tube excision device 1, the projecting portion 42 e is placed on the moving member 56 in a state where the moving member 56 (see FIG. 8) of the temporary support base 55 is moved inward of the work cylinder 11. The water control valve 42 can be temporarily placed.

次に、制水弁配置工程について説明すると、図10において、先ず図示しない前述した仮受台の移動部材を作業筒11の内方に向かって移動させて、この移動部材に制水弁42の突出部42eを載置することにより、制水弁42を仮受台に仮置きし、蓋部12を作業筒11の上部に取付ける。そして、蓋部12に挿入ロッド109を貫通させた状態で挿入ロッド109を連結具42bに連結する。   Next, the water control valve arranging step will be described. In FIG. 10, first, the moving member of the temporary receiving table (not shown) is moved inward of the work cylinder 11, and the water control valve 42 is moved to the moving member. By placing the projecting portion 42e, the water control valve 42 is temporarily placed on the temporary support base, and the lid portion 12 is attached to the upper portion of the work cylinder 11. And the insertion rod 109 is connected with the connection tool 42b in the state which made the insertion rod 109 penetrate the cover part 12. FIG.

次いで、懸吊手段102にて制水弁42を懸吊した状態で、前記仮受台の操作部を操作することで内方に移動した移動部材を作業筒11の外方に向かって前記仮受台の収容部に収納する。そして、図11に示されるように、開閉弁2aを開状態にし、制水弁42を下降して既設流体管Pの管軸と略同軸の位置に配置する。   Next, in a state in which the water control valve 42 is suspended by the suspension means 102, the moving member moved inward by operating the operation portion of the temporary support base is moved toward the outside of the work cylinder 11. Store in the receiving part of the cradle. Then, as shown in FIG. 11, the on-off valve 2 a is opened, and the water control valve 42 is lowered and arranged at a position substantially coaxial with the pipe axis of the existing fluid pipe P.

制水弁42を下降した後に、制水弁42の端部42c,42d及び既設流体管Pの切断部Z,Zに移動割継輪R,Rを架設する継輪架設工程を行う。作動油を供給する油圧ユニット63と油圧ジャッキ65のシリンダ65b間に油圧ホースHを連結し、油圧ユニット63を操作して、作動油をシリンダ65b内に供給することで、移動割継輪R,Rを、移動割継輪R,RのフランジRb,Rbが制水弁42の接続フランジ部41,41と当接するまで切除部Kに向かって(図示白抜矢印参照)移動させる。これにより、図12に示されるように、移動割継輪R,Rが制水弁42の端部42c,42d及び既設流体管Pの切断部Z,Zに架設される。   After lowering the water control valve 42, a joint erection process is performed in which the moving split wheels R, R are installed at the ends 42 c, 42 d of the water control valve 42 and the cutting parts Z, Z of the existing fluid pipe P. A hydraulic hose H is connected between the hydraulic unit 63 for supplying hydraulic oil and the cylinder 65b of the hydraulic jack 65, and the hydraulic unit 63 is operated to supply hydraulic oil into the cylinder 65b. R is moved toward the cut portion K (see the white arrow in the figure) until the flanges Rb, Rb of the moving split wheels R, R come into contact with the connection flange portions 41, 41 of the water control valve 42. Accordingly, as shown in FIG. 12, the moving split wheels R, R are installed on the end portions 42c, 42d of the water control valve 42 and the cut portions Z, Z of the existing fluid pipe P.

継輪架設工程が終了した後に、筐体2内、すなわち上部ケース2d、下部ケース2e、及び開閉弁2a内の水を排水する。そして、ボルト・ナットVを取外すことで挿入ロッド109を、連結具42bとの連結を解除して筐体2の外部に懸吊手段102にて引抜き、蓋部12、作業筒11、及び開閉弁2aを取外す。そして、移動割継輪R,RのフランジRb,Rbと制水弁42の接続フランジ部41,41とを夫々図示しないボルトにより締結し、上部ケース2d、上部ケース2d側に設けられた取付座Rc、上部ケース2dに設けられた油圧移動手段を構成する部材等の各種部材を取外す。   After the connection erection process is completed, the water in the housing 2, that is, the upper case 2d, the lower case 2e, and the on-off valve 2a is drained. Then, by removing the bolts and nuts V, the insertion rod 109 is released from the connection tool 42b and pulled out of the housing 2 by the suspension means 102, and the lid portion 12, the work cylinder 11, and the on-off valve Remove 2a. Then, the flanges Rb, Rb of the movable split wheels R, R and the connection flange portions 41, 41 of the water control valve 42 are fastened by bolts (not shown), respectively, and the mounting seats provided on the upper case 2d and the upper case 2d side. Rc, various members such as members constituting the hydraulic movement means provided in the upper case 2d are removed.

各種部材を取外した後に、下部ケース2eを取外すために、図13に示されるように、固定部材101,101の上端に設けられた夫々の支持台104,104に架設部材105を架設するとともに、架設部材105にチェーンブロック60を設ける。このチェーンブロック60のチェーン60aを支持部材42fの係合箇所に係合することで、切除部Kに配置された制水弁42をチェーンブロック60により吊持し、下部ケース2eを取外すことができるようになっている。また、これら架設部材105及びチェーンブロック60が、本発明の吊持部を構成している。   After removing the various members, in order to remove the lower case 2e, as shown in FIG. 13, the erection member 105 is constructed on the respective support bases 104, 104 provided at the upper ends of the fixing members 101, 101, and A chain block 60 is provided on the erection member 105. By engaging the chain 60a of the chain block 60 with the engaging portion of the support member 42f, the water control valve 42 disposed in the cut portion K can be suspended by the chain block 60 and the lower case 2e can be removed. It is like that. Further, the erection member 105 and the chain block 60 constitute a suspension part of the present invention.

このように、切除部Kに配置された制水弁42を吊持する架設部材105及びチェーンブロック60が構成されていることで、筐体2を構成する下部ケース2eを取外しても、切除部Kに配置した制水弁42の重量負荷を、両側の既設流体管Pにより片持ちで受けることなく、架設部材105及びチェーンブロック60により受けることができる。   As described above, the construction member 105 and the chain block 60 that suspend the water control valve 42 disposed in the excision part K are configured, so that the excision part can be removed even if the lower case 2e constituting the housing 2 is removed. The weight load of the water control valve 42 arranged at K can be received by the erection member 105 and the chain block 60 without being cantilevered by the existing fluid pipes P on both sides.

下部ケース2eを取外した後に、支持部材42fを制水弁42から取外し、制水弁42を回動させる制水弁回動工程を行うために、図15に示されるように、制水弁42を既設流体管Pの周方向に回動可能に支持する回動支持部76を接続フランジ部41と当接するようにその下方に載置する。   After removing the lower case 2e, the water control valve 42f is removed as shown in FIG. 15 in order to remove the support member 42f from the water control valve 42 and perform a water control valve rotation process for rotating the water control valve 42. Is mounted below the connecting flange portion 41 so as to be in contact with the connecting flange portion 41.

ここで、回動支持部76の構造について説明すると、図15に示されるように、回動支持部76は、前述したジャッキ75と、既設流体管Pの周方向に回動可能に支持する支持ユニット111と、から成っている。   Here, the structure of the rotation support portion 76 will be described. As shown in FIG. 15, the rotation support portion 76 supports the jack 75 and the existing fluid pipe P so as to be rotatable in the circumferential direction. Unit 111.

図14(a)に示されるように、ジャッキ75は、支持台75cとハンドル部75dとから成り、ハンドル部75dが支持台75cに螺合されており、ハンドル部75dを螺出及び螺入することで、ハンドル部75dの高さ位置が変更可能になっている。   As shown in FIG. 14A, the jack 75 includes a support base 75c and a handle portion 75d. The handle portion 75d is screwed to the support base 75c, and the handle portion 75d is screwed and screwed. Thus, the height position of the handle portion 75d can be changed.

図14(b)に示されるように、支持ユニット111は、ハンドル部75dの先端凸部75a側を嵌合する構造になっており、支持ユニット111をハンドル部75dの先端凸部75a側に嵌合し、支持ユニット111の図示左右に設けられたボルト111a,111aにて支持ユニット111がハンドル部75dに固定される。   As shown in FIG. 14 (b), the support unit 111 is structured to fit the tip convex portion 75a side of the handle portion 75d, and the support unit 111 is fitted to the tip convex portion 75a side of the handle portion 75d. The support unit 111 is fixed to the handle portion 75d by bolts 111a and 111a provided on the left and right sides of the support unit 111 in the figure.

また、支持ユニット111は、接続フランジ部41と当接するローラ111b,111bを有しており、このローラ111b,111bは、支持ユニット111に支持された軸部材111c,111cに枢支され、回動可能になっている。   The support unit 111 includes rollers 111b and 111b that come into contact with the connection flange portion 41. The rollers 111b and 111b are pivotally supported by the shaft members 111c and 111c supported by the support unit 111, and rotate. It is possible.

そして、図15に示されるように、回動支持部76を配置した後に、制水弁回動手段71を設置し、移動割継輪Rを介して既設流体管Pに接続された制水弁42を、弁軸部43bが水平方向を向く設置位置に向けて既設流体管Pの周方向に回動させる制水弁回動手段71を用いて制水弁回動工程を行う(図17(c)参照)。   And after FIG. 15 shows, after arrange | positioning the rotation support part 76, the water control valve rotation means 71 is installed, and the water control valve connected to the existing fluid pipe | tube P via the moving splice wheel R The water control valve rotating process is performed using the water control valve rotating means 71 that rotates 42 in the circumferential direction of the existing fluid pipe P toward the installation position where the valve shaft portion 43b faces in the horizontal direction (FIG. 17 ( c)).

ここで、制水弁回動手段71の構造について説明すると、図16(a)、(b)に示されるように、制水弁回動手段71は、略対称の2分割構造の分割部材73,73と、後述の進退部77及び移動割継輪Rに着脱可能に架設され、制水弁42とともに周方向に回動する架設片79と、から成る。   Here, the structure of the water control valve rotating means 71 will be described. As shown in FIGS. 16A and 16B, the water control valve rotating means 71 is a split member 73 having a substantially symmetrical two-part structure. 73, and a construction piece 79 that is detachably installed on an advancing / retreating portion 77 and a moving split wheel R, which will be described later, and that rotates together with the water control valve 42 in the circumferential direction.

各々の分割部材73は、既設流体管Pに対し固定に取付けられる本体部72と、該本体部72の図示上下の両端部に設けられる付属ユニット74と、から構成されている。   Each of the divided members 73 includes a main body portion 72 that is fixedly attached to the existing fluid pipe P, and accessory units 74 that are provided at both upper and lower ends of the main body portion 72 in the drawing.

付属ユニット74は、本体部72にボルトFにより取付けられている。また、図15及び図16(a)に示されるように、本体部72の外周面には、該本体部72を既設流体管Pに対し固定に取付けるためのボルトGが周方向に沿って所定間隔おきに設けられている。   The accessory unit 74 is attached to the main body 72 by bolts F. Further, as shown in FIGS. 15 and 16 (a), a bolt G for fixing the main body 72 to the existing fluid pipe P is fixed on the outer peripheral surface of the main body 72 along the circumferential direction. It is provided at intervals.

付属ユニット74,74は、本実施例では略水平方向の直線方向に進退する進退部77と、該進退部77を駆動する駆動部78と、進退部77を支持する回動支持部材80と、から構成されている。   In the present embodiment, the attached units 74 and 74 include an advancing / retreating portion 77 that advances / retreats in a substantially horizontal linear direction, a drive portion 78 that drives the advancing / retreating portion 77, a rotation support member 80 that supports the advancing / retreating portion 77, It is composed of

駆動部78は、摘み部78aと、摘み部78aから伸びるネジ部78bと、から成り、このネジ部78bが回動支持部材80の内部に収納された状態で、ネジ部78bの両端部が回動支持部材80に回動可能に支持されている。   The drive portion 78 includes a knob portion 78a and a screw portion 78b extending from the knob portion 78a. With the screw portion 78b housed inside the rotation support member 80, both ends of the screw portion 78b are rotated. The movable support member 80 is rotatably supported.

図16(a)、(b)に示されるように、進退部77は、ネジ部78bに螺合する螺合部材77aと、架設片79との相対位置を変更可能に架設片79に遊嵌する係合部材77cと、螺合部材77aと係合部材77cとに介設するネジ77bと、から成り、螺合部材77aは、そのネジ部78bを軸とする回動が規制された状態で回動支持部材80の内部に収納され、かつネジ部78bに沿って直線方向に移動可能になっている。   As shown in FIGS. 16A and 16B, the advancing / retreating portion 77 is loosely fitted to the installation piece 79 so that the relative position between the installation member 79 and the installation member 79 can be changed. Engaging member 77c and a screw 77b interposed between the screwing member 77a and the engaging member 77c. The screwing member 77a is in a state in which the rotation about the screw portion 78b is restricted. The rotary support member 80 is housed inside and is movable in a linear direction along the threaded portion 78b.

回動支持部材80は、螺合部材77aがネジ部78bを軸とする方向に移動可能に該螺合部材77aを収納する収納部として形成されている。   The rotation support member 80 is formed as a storage portion for storing the screwing member 77a so that the screwing member 77a can move in a direction about the screw portion 78b.

架設片79には、係合部材77cとの相対位置を変更可能に該係合部材77cが係合される長丸状の係合孔79aと、図15の図示左側の移動割継輪Rの他端部に形成されたフランジRdに固定に取付けられるための管軸を中心として周方向に沿った複数の挿通孔79bと、が形成されている。   In the installation piece 79, there is an oblong engagement hole 79a with which the engagement member 77c is engaged so that the relative position with the engagement member 77c can be changed, and the moving split ring R on the left side of FIG. A plurality of insertion holes 79b are formed along the circumferential direction around the tube axis that is fixedly attached to the flange Rd formed at the other end.

また、前記フランジRdには、複数の挿通孔79bに対応する複数の挿通孔が、管軸を中心として周方向に沿って複数組形成されており、螺合部材77aが摘み部78aと最も近接した状態において、該複数組のうちいずれか1組のフランジRdの複数の挿通孔と、架設片79の複数の挿通孔79bと、を一体的に複数のボルト61及びナット62により締結可能であり、この締結により架設片79,79が前記移動割継輪Rに対して固定に支持される(図15参照)。   A plurality of insertion holes corresponding to the plurality of insertion holes 79b are formed in the flange Rd along the circumferential direction about the tube axis, and the screwing member 77a is closest to the knob 78a. In this state, the plurality of insertion holes of any one of the plurality of sets of flanges Rd and the plurality of insertion holes 79b of the installation piece 79 can be integrally fastened by a plurality of bolts 61 and nuts 62. As a result of this fastening, the installation pieces 79 are fixedly supported to the moving split wheel R (see FIG. 15).

このように、螺合部材77aがネジ部78bを軸とする回動が規制された状態で回動支持部材80の内部に収納されており、螺合部材77aにネジ77bを介して接続される係合部材77cが、移動割継輪Rに対して固定に支持された架設片79,79の係合孔79aに遊嵌されるため、摘み部78aを回動操作することで、係合部材77cが係合孔79aとの係合位置を移動しながら螺合部材77aがネジ部78bに沿った略水平の直線方向に移動し、この螺合部材77aの移動により、係合部材77cと当接している係合孔79aを形成する周面が係合部材77cにより押圧されることで、架設片79,79、該架設片79,79に固定に支持される移動割継輪R、該移動割継輪Rに固定される制水弁42、及び制水弁42に固定される図15の右側の移動割継輪Rが既設流体管Pに対して回動するようになっている。すなわち上述したように、進退部77の直線方向の移動により、進退部77の係合部材77cに遊嵌し且つ移動割継輪Rに固定された架設片79が、移動割継輪Rとともに所定角度周方向に回動することになる。   Thus, the screwing member 77a is housed inside the rotation support member 80 in a state where the rotation about the screw portion 78b is restricted, and is connected to the screwing member 77a via the screw 77b. Since the engaging member 77c is loosely fitted into the engaging holes 79a of the installation pieces 79, 79 that are fixedly supported with respect to the moving split wheel R, the engaging member 77c is rotated to operate the engaging member. The screw 77c moves in the substantially horizontal linear direction along the threaded portion 78b while moving the engagement position with the engagement hole 79a. The movement of the screw 77b causes the engagement member 77c to contact the engagement member 77c. The peripheral surface forming the engaging hole 79a that is in contact is pressed by the engaging member 77c, so that the installation piece 79, 79, the moving split ring R that is fixedly supported by the installation piece 79, 79, the movement The water control valve 42 fixed to the split wheel R and the water control valve 42 are fixed. 15 move split Tsugiwa R the right side of the is adapted to pivot relative to existing fluid pipe P. That is, as described above, the erection piece 79 that is loosely fitted to the engaging member 77c of the advance / retreat portion 77 and is fixed to the move split wheel R by the movement of the advance / retreat portion 77 in the linear direction, together with the move split wheel R, is predetermined. It will rotate in the angular circumferential direction.

次に、制水弁回動工程について説明すると、図15及び図16(a)の状態において、図16(b)に示されるように、一点鎖線で示される螺合部材77aが摘み部78aと最も近接した位置から摘み部78aを回動して、螺合部材77aを、実線で示される螺合部材77aが摘み部78aと最も離間した位置に移動させることで、図17(a)に示されるように、回動支持部76のローラ111b,111bが制水弁42の接続フランジ部41と当接しながら回動して、制水弁42が30°回動する。   Next, the water control valve rotating process will be described. In the state shown in FIGS. 15 and 16A, as shown in FIG. 16B, the screwing member 77a indicated by the alternate long and short dash line is connected to the knob 78a. The knob 78a is rotated from the closest position, and the screw member 77a is moved to a position where the screw member 77a indicated by the solid line is farthest from the knob 78a, as shown in FIG. As described above, the rollers 111b and 111b of the rotation support portion 76 rotate while contacting the connection flange portion 41 of the water control valve 42, and the water control valve 42 rotates 30 °.

更に、制水弁42を回動するために、架設片79,79を移動割継輪Rから一旦取外し、摘み部78aを逆回動して螺合部材77aを図16(b)の位置(螺合部材77aが摘み部78aと最も離間した位置)から図16(a)の位置に戻した後に、前回と異なるフランジRdの複数の挿通孔と、架設片79の複数の挿通孔79bと、を一体的に複数のボルト61及びナット62により締結し、螺合部材77aを図16(a)の位置から図16(b)の位置に移動させる往復操作(図16(b)白抜矢印参照)を行うことで、図17(b)に示されるように、制水弁42が図15の状態から60°回動する。   Further, in order to rotate the water control valve 42, the installation pieces 79, 79 are once removed from the moving splice wheel R, the knob 78a is rotated in the reverse direction, and the screwing member 77a is moved to the position shown in FIG. After the screwing member 77a is returned to the position of FIG. 16A from the position farthest from the knob 78a, a plurality of insertion holes of the flange Rd different from the previous time, a plurality of insertion holes 79b of the installation piece 79, Is integrally fastened by a plurality of bolts 61 and nuts 62, and the screw member 77a is moved from the position of FIG. 16A to the position of FIG. 16B (see the white arrow in FIG. 16B). ), The water control valve 42 rotates 60 ° from the state of FIG. 15 as shown in FIG.

すなわち、制水弁回動手段71は、架設片79を進退部77の係合部材77c及び移動割継輪Rに架設し、駆動部78の摘み部78aにより進退部77の螺合部材77aを順方向に進行させる進行操作と、架設片79の架設を取外し、駆動部78の摘み部78aにより進退部77の螺合部材77aを逆方向に退行させる退行操作と、を繰り返すことで、制水弁42が既設流体管Pの周方向に回動する。   That is, the water control valve rotating means 71 has the installation piece 79 installed on the engaging member 77c of the advance / retreat portion 77 and the moving split wheel R, and the screwing member 77a of the advance / retreat portion 77 is moved by the knob 78a of the drive portion 78. By repeating the advancing operation to advance in the forward direction and the retreating operation in which the installation of the installation piece 79 is removed and the screwing member 77a of the advance / retreat part 77 is retracted in the reverse direction by the knob part 78a of the drive part 78, The valve 42 rotates in the circumferential direction of the existing fluid pipe P.

そして、図17(b)の状態から、再びこの該退行操作から該進行操作までの操作を繰り返すことで、図17(c)に示されるように、制水弁42が図15の状態から90°回動し、制水弁42が、弁軸部43bが水平方向を向く設置位置に設置される。   Then, by repeating the operations from the retreat operation to the advance operation again from the state of FIG. 17 (b), the water control valve 42 is moved from the state of FIG. 15 to 90% as shown in FIG. 17 (c). The water control valve 42 is installed at the installation position where the valve shaft portion 43b faces the horizontal direction.

このように、制水弁42の両側に位置する既設流体管Pに固定に取付けた本体部72を反力として利用して、この本体部72に設けられた駆動部78を駆動するだけで、架設片79に架設された制水弁42を周方向に回動することができる。   Thus, using the main body 72 fixedly attached to the existing fluid pipe P located on both sides of the water control valve 42 as a reaction force, the drive section 78 provided on the main body 72 is only driven. The water control valve 42 installed on the installation piece 79 can be rotated in the circumferential direction.

また、制水弁回動手段71の本体部72に設けられ直線方向に進退する進退部77の螺合部材77aを、駆動部78の摘み部78aでネジ部78bを回動して駆動し、駆動部78により、進退部77を直線方向に進退させるだけで、進退部77に架設した架設片79とともに、移動割継輪Rを介し制水弁42を周方向に容易に回動することができる。   Further, the screwing member 77a of the advancing / retreating portion 77 provided in the main body portion 72 of the water control valve rotating means 71 is driven by rotating the screw portion 78b with the knob 78a of the driving portion 78, and By simply moving the advance / retreat portion 77 in the linear direction by the drive portion 78, the water control valve 42 can be easily rotated in the circumferential direction via the moving connecting wheel R together with the installation piece 79 installed on the advance / retreat portion 77. it can.

また、架設片79,79を進退部77の係合部材77c及び移動割継輪Rに架設し、駆動部78により進退部77を順方向に進行させる進行操作と、架設片79,79の架設を取外し、駆動部78により進退部77を逆方向に退行させる退行操作と、を繰り返すことで、制水弁42を既設流体管Pの周方向に回動させるようになっていることにより、直線方向に進退する進退部77の延長を大きくすることなく、制水弁42を自在に回動できる。   Further, the installation pieces 79, 79 are installed on the engaging members 77c of the advancing / retreating portion 77 and the moving split wheel R, the driving operation 78 advances the advancing / retreating portion 77 in the forward direction, and the installation pieces 79, 79 are installed The water control valve 42 is rotated in the circumferential direction of the existing fluid pipe P by repeating the retraction operation in which the drive unit 78 retreats the advancing / retreating portion 77 in the reverse direction. The water control valve 42 can be freely rotated without increasing the extension of the advance / retreat portion 77 that advances and retreats in the direction.

更に、回動支持部76のローラ111bが、制水弁42を既設流体管Pの周方向に回動可能に支持するため、制水弁42の回動がし易い。   Furthermore, since the roller 111b of the rotation support part 76 supports the water control valve 42 so as to be rotatable in the circumferential direction of the existing fluid pipe P, the water control valve 42 is easy to rotate.

図17(c)において、制水弁回動工程を行うことにより、制水弁42は、図示左右水平方向の弁体43の弁軸部43b回りに回動し管路を開閉可能な弁体43が略水平方向を向いた開状態で配置され、通常は既設流体管P内を流体が流通可能となる。   In FIG. 17 (c), by performing the water control valve rotating step, the water control valve 42 rotates about the valve shaft portion 43b of the valve body 43 in the horizontal direction shown in the figure and can open and close the pipe line. 43 is arranged in an open state facing the substantially horizontal direction, and usually allows fluid to flow through the existing fluid pipe P.

制水弁回動工程が終了した後に、制水弁回動手段71を構成する部材及び回動支持部76を取外し、図18(a)、(b)に示されるように、移動割継輪R,RのフランジRb,Rbと、制水弁42の接続フランジ部41,41と、の結合状態を確認するとともに、移動割継輪R,Rの内周に図示しないシール材を嵌挿するとともに、フランジRd,Rdと、押輪のフランジを結合し、更に固定リングS,Sを取り付ける。そして、制水弁42を支持する支持台52を制水弁の下方に複数設ける。   After the water control valve rotation process is completed, the members constituting the water control valve rotation means 71 and the rotation support portion 76 are removed, and as shown in FIGS. While confirming the coupling state between the R and R flanges Rb and Rb and the connection flange portions 41 and 41 of the water control valve 42, a sealing material (not shown) is inserted into the inner periphery of the moving splice wheels R and R. At the same time, the flanges Rd, Rd and the flange of the push ring are coupled, and the fixing rings S, S are attached. A plurality of support bases 52 that support the water control valve 42 are provided below the water control valve.

次いで、遮断装置を構成する各種部材を制水弁42に取付ける。図18(b)に示されるように、弁体43の図示左側において、前述した弁軸部に回動力が伝達可能に遮断装置34を組み付ける。同様に、弁体43の図示右側において、前記弁軸部に回動力が伝達可能に遮断手動手段35に組み付ける。   Next, various members constituting the shut-off device are attached to the water control valve 42. As shown in FIG. 18B, on the left side of the valve body 43 in the figure, the shut-off device 34 is assembled to the above-described valve shaft portion so that the rotational force can be transmitted. Similarly, on the right side of the valve body 43 in the figure, it is assembled to the shut-off manual means 35 so that the rotational force can be transmitted to the valve shaft portion.

図18(a)、(b)に示されるように、遮断装置34は、後述する荷重体38、緩衝部39、ソレノイド49等の各部材が、基板36に組み付けられて構成されている。   As shown in FIGS. 18A and 18B, the blocking device 34 is configured by assembling members such as a load body 38, a buffer portion 39, and a solenoid 49, which will be described later, to the substrate 36.

より詳しくは、操作軸51に嵌着した図示しない軸部に回動アーム44の一端が取付けられ、回動アーム44の他端には、遮断装置34の所定重量を有する荷重体38が設けられている。回動アーム44は一端から他端に向かって斜め上方に延び、荷重体38が前記弁軸部よりも上方に位置した所定箇所で後述のように係止されている。   More specifically, one end of the rotation arm 44 is attached to a shaft portion (not shown) fitted to the operation shaft 51, and a load body 38 having a predetermined weight of the blocking device 34 is provided at the other end of the rotation arm 44. ing. The rotating arm 44 extends obliquely upward from one end to the other end, and the load body 38 is locked as described later at a predetermined position located above the valve shaft portion.

また、ピストン39bとシリンダ39aから成り、荷重体38の重力落下を緩衝する緩衝部39が、基板36に設けられた回動部39cに回動可能に枢支されるとともに、ピストン39bの先端部39dが回動アーム44の略中間部の適所に枢支されている。   Further, a buffer portion 39 comprising a piston 39b and a cylinder 39a and buffering the gravity drop of the load body 38 is pivotally supported by a turning portion 39c provided on the substrate 36, and the tip end portion of the piston 39b. 39 d is pivotally supported at an appropriate position in the substantially middle portion of the rotating arm 44.

遮断装置34の前記軸部に、略水平方向に配設された回動片45の一端が取付けられるとともに、回動片45の他端に、連動片46の一端が回動可能に枢支されている。同様に複数の連動片46が、隣接した互いの端部を枢支して順次連結されており、末端側の連動片46に、略90度の中心角を有する扇形状の係止片47が枢支されている。また、荷重体38が、その重量により回動アーム44及び前記軸部を介して前記弁軸部を回動する方向に付勢しており、これに伴って、回動片45及び複数の連動片46を介して、係止片47を図示左方向に回動する方向に付勢しているが、係止片47に、一端部が基板36に枢支され略水平に延びる保持レバー48の他端部が係止されている。このようにすることで、連動片46、回動片45及び回動アーム44を介し、荷重体38が、前記弁軸部よりも上方の図示の位置において拘束され、すなわち弁体43が開放状態で維持されている。   One end of a rotating piece 45 disposed in a substantially horizontal direction is attached to the shaft portion of the blocking device 34, and one end of an interlocking piece 46 is pivotally supported on the other end of the rotating piece 45. ing. Similarly, a plurality of interlocking pieces 46 are sequentially connected by pivoting adjacent end portions, and a fan-shaped locking piece 47 having a central angle of about 90 degrees is connected to the interlocking piece 46 on the end side. It is pivotally supported. Further, the load body 38 urges the valve shaft portion in the direction of rotating the rotating shaft 44 and the shaft portion due to its weight, and accordingly, the rotating piece 45 and a plurality of interlocking portions are coupled. The locking piece 47 is urged through the piece 46 in a direction to rotate in the left direction in the figure. The holding piece 48 is supported by the locking piece 47 and has one end pivotally supported by the substrate 36 and extending substantially horizontally. The other end is locked. By doing in this way, the load body 38 is restrained in the illustrated position above the valve shaft portion via the interlocking piece 46, the turning piece 45 and the turning arm 44, that is, the valve body 43 is in an open state. Is maintained at.

また、係止片47の上方において、信号線50に接続され、後述する既設流体管Pの特定状態において荷重体38を始動させるソレノイド49が基板36に止着されており、ソレノイド49本体から下方に延びるソレノイドバー49aの先端部が、係止片47に係止されている保持レバー48の他端部に連結している。   In addition, a solenoid 49 that is connected to the signal line 50 and starts the load body 38 in a specific state of an existing fluid pipe P, which will be described later, is fixed to the substrate 36 above the locking piece 47, and is downward from the solenoid 49 main body. The front end of the solenoid bar 49 a extending to the other end is connected to the other end of the holding lever 48 that is locked to the locking piece 47.

次に、弁体43の回動動作について説明すると、例えば地震等の非常時など既設流体管Pの特定状態において、信号線50の他端側に設けられた図示しない地震の感知装置からの電気信号が、ソレノイド49に送られることで、ソレノイドバー49aが上方のソレノイド49本体に向かって移動する。この移動に伴い、保持レバー48がその一端部周りに上方に回動し、他端部が係止片47から外れて、荷重体38が、前記軸部周りに下方に移動しようとする拘束が解かれ、重力落下するので、この荷重体38の重力落下とともに、回動アーム44及び前記軸部を介して前記弁軸部を略90度回動し、すなわち弁体43が閉塞状態となる。   Next, the rotation operation of the valve body 43 will be described. Electricity from an earthquake sensing device (not shown) provided on the other end side of the signal line 50 in a specific state of the existing fluid pipe P such as an emergency such as an earthquake. By sending a signal to the solenoid 49, the solenoid bar 49a moves toward the upper solenoid 49 body. Along with this movement, the holding lever 48 is rotated upward around one end thereof, the other end is disengaged from the locking piece 47, and the load body 38 is restrained to move downward around the shaft portion. When the load body 38 is dropped by gravity, the valve body is rotated by approximately 90 degrees through the rotating arm 44 and the shaft portion, that is, the valve body 43 is closed.

このように、遮断装置34の荷重体38を前記弁軸部の上方に設け、既設流体管Pの特定状態において重力落下することで、水平方向の前記弁軸部に直接に駆動力を付与することにより、特段のエネルギを用いずに前記弁軸部の上方に設けられた荷重体38の位置エネルギを利用して、安価且つ効率よく駆動力を前記弁軸部に付与することができる。   In this way, the load body 38 of the shut-off device 34 is provided above the valve shaft portion, and gravity is dropped in a specific state of the existing fluid pipe P, so that a driving force is directly applied to the valve shaft portion in the horizontal direction. Accordingly, the driving force can be applied to the valve shaft portion at low cost and efficiently by using the potential energy of the load body 38 provided above the valve shaft portion without using special energy.

尚、上述した既設流体管Pの特定状態とは、必ずしも地震の発生により既設流体管Pに作用する外力に限られず、例えば、管路の増水や断水の発生等による既設流体管P内の流速、流量、若しくは圧力等の変動であってもよく、既設流体管Pの特定状態の検知手段として、流量計あるいは圧力計などを設置してもよい。   The specific state of the existing fluid pipe P described above is not necessarily limited to the external force that acts on the existing fluid pipe P due to the occurrence of an earthquake. For example, the flow velocity in the existing fluid pipe P due to water increase or water breakage in the pipeline The flow rate or the pressure may be varied, and a flow meter or a pressure gauge may be installed as a means for detecting the specific state of the existing fluid pipe P.

上記のように、荷重体38が重力落下することで閉塞動作した弁体43を、再び開放動作する場合は、遮断手動手段35のハンドル35aを手動で回動操作することで、図示しないギア及び操作軸51を介して弁体43を任意に開放動作でき、これに連動する荷重体38及び係止片47がもとの所定位置に回動したところで、保持レバー48を係止片47に係止させればよい。   As described above, when the valve body 43 that has been closed due to gravity drop of the load body 38 is opened again, the handle 35a of the shut-off manual means 35 is manually operated to rotate, and a gear (not shown) The valve body 43 can be arbitrarily opened through the operation shaft 51. When the load body 38 and the locking piece 47 interlocked therewith are rotated to their original positions, the holding lever 48 is engaged with the locking piece 47. You can stop it.

以上に説明したように、実施例の制水弁設置装置において、内部に弁体43を備えた弁筐体42a、及び弁体43に接続され弁筐体42aの外方に突出した弁軸部43bを有し、開閉弁2aを介して筐体2内に挿入され、既設流体管Pを切除した箇所に配置された制水弁42を、移動割継輪R,Rを介し、制水弁回動手段71により所望の設置位置に向けて既設流体管Pの周方向に回動させることで、弁筐体42aの外方に突出した弁軸部43bを、例えば軸方向に開閉弁2aに挿入し、制水弁42を設置した後に、異なる所望の方向に回動することができるため、弁軸部43bの設置方向が限定される制水弁42であっても、制水弁42の挿入の際に挿入方向の自由度が高く、制水弁42を設置箇所である切除部Kに向けて挿入し易いばかりか、開閉弁2a及び筐体2を小型化することができる。   As described above, in the water control valve installation device of the embodiment, the valve housing 42a provided with the valve body 43 therein, and the valve shaft portion that is connected to the valve body 43 and protrudes outward from the valve housing 42a. The water control valve 42 is inserted into the housing 2 through the on-off valve 2a and disposed at the location where the existing fluid pipe P is removed, and the water control valve R, R is connected to the water control valve 43a. By rotating in the circumferential direction of the existing fluid pipe P toward the desired installation position by the rotating means 71, the valve shaft portion 43b protruding outward from the valve housing 42a is, for example, axially turned into the on-off valve 2a. After the insertion and installation of the water control valve 42, the water control valve 42 can be rotated in a different desired direction. Therefore, even if the water control valve 42 has a limited installation direction of the valve shaft 43b, A case where the degree of freedom in the insertion direction is high during insertion and the water control valve 42 is easy to insert toward the excision K, which is the installation location. Or, an on-off valve 2a and the housing 2 can be miniaturized.

また、制水弁設置方法において、既設流体管Pを水密に囲繞する筐体囲繞工程と、管切除装置1を用い、筐体2内で既設流体管Pの切除部Kを切除する管切除工程と、内部に弁体43を備えた弁筐体42a、及び弁体43に接続され弁筐体42aの外方に突出した弁軸部43bを有した制水弁42を、開閉弁2aを介して筐体2内に挿入し、切除部Kに配置する制水弁配置工程と、筐体2を取外した後に、制水弁42に接続された移割割継輪Rを、制水弁回動手段71を用い、所望の設置位置に向けて既設流体管Pの周方向に回動させる制水弁回動工程を行うことで、上記と同様の効果が得られる。   Further, in the water control valve installation method, a housing surrounding step for water-tightly surrounding the existing fluid pipe P and a tube cutting step for cutting the cut portion K of the existing fluid pipe P in the housing 2 using the pipe cutting device 1. And a water control valve 42 having a valve housing 42a having a valve body 43 therein and a valve shaft portion 43b connected to the valve body 43 and projecting outward from the valve housing 42a. The water control valve is disposed in the housing 2 and placed in the excision part K. After the housing 2 is removed, the transfer split ring R connected to the water control valve 42 is connected to the water control valve. The same effect as described above can be obtained by using the moving means 71 to perform the water control valve rotating step of rotating in the circumferential direction of the existing fluid pipe P toward the desired installation position.

次に、本発明の変形例を以下に説明する。上述した実施例と重複する構成については、説明を省略する。   Next, modifications of the present invention will be described below. A description of the same configuration as that of the above-described embodiment is omitted.

本発明の制水弁回動手段の変形例を図面に基づいて説明すると、図19は、変形例の制水弁回動手段が移動割継輪に設けられた状態を示す正面図である。   If the modification of the water control valve rotation means of this invention is demonstrated based on drawing, FIG. 19 is a front view which shows the state in which the water control valve rotation means of the modification was provided in the movement split wheel.

図19に示されるように、変形例の制水弁回動手段71’は、制水弁42の両端側に夫々設けられており、制水弁回動手段71’を構成する2分割構造の分割部材73,73’と、進退部77及び移動割継輪Rに着脱可能に架設され、制水弁42とともに周方向に回動する架設片79と、から成っている。   As shown in FIG. 19, the water control valve rotating means 71 ′ of the modified example is provided on both ends of the water control valve 42, and has a two-part structure constituting the water control valve rotating means 71 ′. It consists of split members 73 and 73 ′, and an erected piece 79 that is detachably mounted on the advance / retreat portion 77 and the moving split wheel R and rotates in the circumferential direction together with the water control valve 42.

また、分割部材73は、前記実施例と同様構成であるが、分割部材73’は、付属ユニット74が設けられず、更に、分割部材73’には架設片79も設けられない構造になっている。   The split member 73 has the same configuration as that of the above embodiment, but the split member 73 ′ is not provided with the accessory unit 74, and further, the split member 73 ′ is not provided with the installation piece 79. Yes.

このように、分割部材73’側には、付属ユニット74や架設片79を設けない構成することにより、制水弁回動手段71’を構成する部品点数を少なくすることができるばかりか、制水弁回動手段71’は、制水弁42の両端側に夫々設けられることで、制水弁回動手段71’,71’の架設片79が移動割継輪R,Rを夫々架設して駆動部の駆動により制水弁42を周方向に回動するため、制水弁42の回動中において制水弁42における回動軸がずれることなく制水弁42を所望の方向に容易に回動することができる。   Thus, by not providing the accessory unit 74 or the installation piece 79 on the divided member 73 ′ side, not only can the number of parts constituting the water control valve rotating means 71 ′ be reduced, but also the control. The water valve turning means 71 ′ is provided on both ends of the water control valve 42, respectively, so that the installation pieces 79 of the water control valve turning means 71 ′ and 71 ′ install the moving split wheels R and R, respectively. Since the water control valve 42 is rotated in the circumferential direction by driving the drive unit, the water control valve 42 can be easily moved in a desired direction without the rotation axis of the water control valve 42 being shifted during the rotation of the water control valve 42. Can be rotated.

尚、制水弁42の両端側に夫々設けた制水弁回動手段71’,71’同士を、図示しない連結チェーン等により単一の駆動部を介して連結する構造にしてもよく、この構造によれば、単一の駆動部を駆動することで両方の制水弁回動手段71’,71’を同期して回動させることができる。   In addition, you may make it the structure which connects the water control valve rotation means 71 'and 71' each provided in the both ends of the water control valve 42 via a single drive part by the connection chain etc. which are not shown in figure. According to the structure, both the water control valve rotating means 71 ′ and 71 ′ can be rotated in synchronization by driving a single drive unit.

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

例えば、前記実施例及び変形例では、既設流体管Pの内部を流れる流体が上水であるが、流体は必ずしも上水に限らず、例えば工業用水であってもよいし、また気体や気液混合状態の流体が流れる流体管にも適用可能である。   For example, in the above-described embodiments and modifications, the fluid flowing inside the existing fluid pipe P is clean water, but the fluid is not necessarily limited to clean water, and may be industrial water, or may be gas or gas-liquid. The present invention can also be applied to a fluid pipe through which a mixed fluid flows.

また、前記実施例では、制水弁回動手段71が制水弁42の一端部側のみに設けられているが、例えば、制水弁回動手段が制水弁の両端部側に夫々設けられてもよい。また、前記変形例では、付属ユニット74及び架設片79を1つずつ有する制水弁回動手段71’が制水弁42の両端部側に夫々設けられているが、例えば、この制水弁回動手段を制水弁42の一端部側のみに設けられてもよい。   In the above embodiment, the water control valve rotating means 71 is provided only on one end side of the water control valve 42. For example, the water control valve rotating means is provided on both ends of the water control valve. May be. In the modification, the water control valve rotating means 71 ′ having one accessory unit 74 and one installation piece 79 is provided on each end of the water control valve 42. For example, the water control valve The rotating means may be provided only on one end side of the water control valve 42.

また、前記実施例では、制水弁設置方法は、遮断装置34を設置する工程を含んでいるが、例えば、制水弁設置方法は、制水弁回動工程で終了するものであってもよい。   Moreover, in the said Example, although the water control valve installation method includes the process of installing the interruption | blocking apparatus 34, for example, the water control valve installation method may be complete | finished by the water control valve rotation process. Good.

また、前記実施例では、架設片79が、移動割継輪Rを介し、本体部72及び制水弁42に架設されているが、必ずしも移動割継輪が介在するものに限られず、例えば架設片が、本体部及び制水弁に直接に架設されるものであってもよい。   Moreover, in the said Example, although the installation piece 79 was installed in the main-body part 72 and the water control valve 42 via the movement split ring R, it is not necessarily restricted to what a movement split ring interposes, for example, installation bridge The piece may be constructed directly on the main body and the water control valve.

更に、前記実施例では、本体部72に設けられた所定の直線方向に進退する進退部77の移動により、制水弁42が周方向に回動するように構成されているが、制水弁を周方向に回動させる構造であれば、必ずしも直線方向の移動によるものに限られず、例えばウォームギア等により構成された駆動部が本体部に設けられ、この駆動部の駆動操作により、制水弁が回動するものであっても構わない。   Furthermore, in the said Example, although the water control valve 42 rotates in the circumferential direction by the movement of the advancing / retreating part 77 which is provided in the main-body part 72 and advances / retreats, the water control valve is comprised. Is not necessarily limited to a movement in a linear direction. For example, a drive unit constituted by a worm gear or the like is provided in the main body, and the water control valve is operated by a drive operation of the drive unit. May rotate.

1 管切除装置(管切除手段)
2 筐体
2a 開閉弁(開口部)
42 制水弁
42a 弁筐体
42c,42d 端部
43 弁体
43b 弁軸部
60 チェーンブロック(吊持部)
71 制水弁回動手段
72 本体部
76 回動支持部
77 進退部
78 駆動部
79 架設片
105 架設部材(吊持部)
P 既設流体管
Z 切断部
R 移動割継輪
1 Tube excision device (tube excision means)
2 Housing 2a Open / close valve (opening)
42 Water Control Valve 42a Valve Housings 42c, 42d End 43 Valve Body 43b Valve Shaft 60 Chain Block (Hanging Part)
71 Water Control Valve Rotating Means 72 Main Body 76 Rotation Supporting Section 77 Advance / Retreat Section 78 Drive Section 79 Installation Piece 105 Installation Member (Hanging Section)
P Existing fluid pipe Z Cutting part R Moving split wheel

Claims (6)

分割構造を有するとともに開閉可能な開口部を備え、既設流体管を水密に囲繞する筐体と、
該筐体内で前記既設流体管の所定箇所を切除する管切除手段と、
内部に弁体を備えた弁筐体、及び該弁体に接続され前記弁筐体の外方に突出した弁軸部を有し、前記開口部を介して前記筐体内に挿入され、前記既設流体管を切除した箇所に配置される制水弁と、
から少なくとも構成され、不断流状態で前記制水弁を設置する制水弁設置装置であって、
前記筐体を取外した後に、前記制水弁を、所望の設置位置に向けて前記既設流体管の管軸回りに回動させる制水弁回動手段が設けられており、
前記制水弁回動手段は、前記既設流体管に対して固定的に取付けられる本体部と、該本体部と前記制水弁とに間に相対移動を与えて前記制水弁を前記既設流体管の管軸回りに回動させる駆動部と、を少なくとも備えることを特徴とする制水弁設置装置。
A housing having a split structure and an openable / closable opening, and watertightly surrounding an existing fluid pipe;
A tube ablation means for ablating a predetermined portion of the existing fluid tube該筐body,
Valve housing having a valve body therein, and is connected to the valve body has a valve shaft portion projecting outwardly of said valve housing, is inserted into the housing through the opening, the existing A water control valve disposed at a location where the fluid pipe is cut off;
From at least configured, a water control valve installation apparatus for installing the gate valve at constant flow state,
After removing the housing, a water control valve rotating means is provided for rotating the water control valve around a tube axis of the existing fluid pipe toward a desired installation position ,
The water control valve rotating means includes a main body portion fixedly attached to the existing fluid pipe and a relative movement between the main body portion and the water control valve so that the water control valve is moved to the existing fluid pipe. A water control valve installation device comprising at least a drive unit that rotates around a tube axis of the tube .
前記制水弁回動手段は、前記本体部及び前記制水弁に着脱可能に架設される架設片をさらに備え、前記本体部は、前記駆動部により所定の直線方向に進退する進退部を有し、前記架設片は、前記進退部及び前記制水弁に着脱可能に架設されることを特徴とする請求項に記載の制水弁設置装置。 The water control valve rotating means further includes an installation piece that is detachably mounted on the main body part and the water control valve, and the main body part has an advance / retreat part that advances and retreats in a predetermined linear direction by the drive part. and said bridging pieces, water control valve installation system of claim 1, characterized in that it is detachably bridged the reciprocating portion and the system water valve. 前記制水弁回動手段は、前記架設片を前記進退部及び前記制水弁に架設し、前記駆動部により前記進退部を順方向に進行させる進行操作と、前記架設片の架設を取外し、前記駆動部により前記進退部を逆方向に退行させる退行操作と、を繰り返すことで、前記制水弁を前記既設流体管の管軸回りに回動させるようになっていることを特徴とする請求項に記載の制水弁設置装置。 The water control valve rotating means is configured to install the installation piece on the advancement / retraction unit and the water control valve, to advance the advancement / retraction unit in the forward direction by the drive unit, and to remove the installation of the installation piece, by repeating the regression operation to regress the forward and reverse part in the opposite direction by the driving unit, wherein, characterized in that is adapted to rotate the system water valve to the tube axis of the existing fluid pipe Item 3. A water control valve installation device according to item 2 . 前記制水弁を前記既設流体管の管軸回りに回動可能に支持する回動支持部が設けられていることを特徴とする請求項1ないしのいずれかに記載の制水弁設置装置。 Water control valve installation device according to any one of claims 1 to 3, characterized in that the rotation supporting portion for rotatably supported is provided the system water valve to the tube axis of the existing fluid pipe . 前記筐体を取外すときに、前記既設流体管を切除した箇所に配置された前記制水弁を吊持する吊持部が設けられていることを特徴とする請求項1ないしのいずれかに記載の制水弁設置装置。 When removing the housing, to any one of claims 1 to 4 that is characterized in that lifting unit for lifting the disposed locations were excised existing fluid pipe said system water valve is provided The control valve installation apparatus of description. 分割構造を有するとともに開閉可能な開口部を備えた筐体を用い、既設流体管を水密に囲繞する筐体囲繞工程と、
管切除手段を用い、前記筐体内で前記既設流体管の所定箇所を切除する管切除工程と、
内部に弁体を備えた弁筐体、及び該弁体に接続され前記弁筐体の外方に突出した弁軸部を有した制水弁を、前記開口部を介して前記筐体内に挿入し、前記既設流体管を切除した箇所に配置する制水弁配置工程と、
前記筐体を取外した後に、制水弁回動手段の本体部を前記既設流体管に対して固定的に取付ける本体部取付工程と、
次に、前記本体部と前記制水弁との間に相対移動を与える駆動部を位置させ、前記駆動部の駆動により、前記制水弁を前記既設流体管の管軸回りに回動させて所望の設置位置に向ける制水弁回動工程と、から構成されていることを特徴とする制水弁設置方法。
A housing surrounding step for watertightly surrounding an existing fluid pipe using a housing having a split structure and an opening that can be opened and closed,
A tube ablation process using a tube excision means to excise a predetermined portion of the existing fluid pipe by said housing,
Insert valve housing having a valve body therein, and a gate valve having a valve shaft portion projecting outwardly of the connected the valve housing to the valve body, in the housing through the opening and a water control valve arrangement step of arranging the portion formed by cutting the existing fluid pipe,
After removing the housing, a main body part attaching step for fixedly attaching the main body part of the water control valve rotating means to the existing fluid pipe;
Next, a drive unit that provides relative movement is positioned between the main body unit and the water control valve, and the water control valve is rotated around the pipe axis of the existing fluid pipe by driving the drive unit. The water control valve installation method characterized by comprising the water control valve rotation process toward a desired installation position .
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