JP2012237360A - Implement for pipe traction and method of arranging new pipe in existing pipe by using the same - Google Patents

Implement for pipe traction and method of arranging new pipe in existing pipe by using the same Download PDF

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JP2012237360A
JP2012237360A JP2011106048A JP2011106048A JP2012237360A JP 2012237360 A JP2012237360 A JP 2012237360A JP 2011106048 A JP2011106048 A JP 2011106048A JP 2011106048 A JP2011106048 A JP 2011106048A JP 2012237360 A JP2012237360 A JP 2012237360A
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pipe
new pipe
outer diameter
sleeve
guide means
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JP5872793B2 (en
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Masakazu Taguchi
正和 田口
Hideki Fujisawa
秀樹 藤澤
Masayoshi Yamagata
正義 山縣
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Hatano Factory Ltd
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Abstract

PROBLEM TO BE SOLVED: To provide an implement for pipe traction which when connected to a new pipe to be installed, can prevent the new pipe from being deformed and expanded into a larger diameter, and firmly connects the new pipe and a connection means and can smoothly draw the new pipe into the existing pipe.SOLUTION: The implement 1 for pipe traction includes: a long-size traction guiding means 2; a cylindrical sleeve 3 which is fitted onto an end part of the pipe 90 to be installed; and a connection means 4 which has an insertion part 12 inserted and fitted into an inner space of the end part of the pipe 90 on one end part and has a connection part 13 for performing connection to the traction guiding means 2 on the other end side, wherein the outer diameter of the sleeve 3 is equal to the outer diameter of the pipe 90 or is smaller than the outer diameter of the pipe 90.

Description

本発明は、設置対象の新配管の一端部に取り付けられて該新配管を既設配管内に配設するのに用いられる配管牽引用治具及び該配管牽引用治具を利用して新配管を既設配管内に配設する方法に関する。   The present invention relates to a pipe pulling jig that is attached to one end of a new pipe to be installed and used to arrange the new pipe in an existing pipe, and a new pipe using the pipe pulling jig. The present invention relates to a method of disposing in existing piping.

例えば浴槽等に湯水を供給するための配管設備としては、サヤ管と呼ばれる保護管の中に、湯水供給用の配管を挿通配置せしめた構成のものが知られている。配管が経年により劣化等した場合には、保護管内の経年配管を新しい配管に交換する(保護管内から経年配管を引き抜いた後に該保護管内に新しい配管を挿通配置する)。   For example, as a piping facility for supplying hot water to a bathtub or the like, there is known a configuration in which a hot water supply pipe is inserted and disposed in a protective pipe called a Saya pipe. When the piping deteriorates due to aging, the aged piping in the protective tube is replaced with a new piping (after the aged piping is pulled out from the protective tube, the new piping is inserted and arranged in the protective tube).

既設保護管内に新しい配管を挿通配置する方法としては、コネクターの一面側のインナーコア部(外周面にスクリューねじが刻設されている)に湯水供給用パイプを外嵌すると共に該コネクターの他面側の凸部に案内用パイプ(既設保護管内に挿通された状態の案内用パイプ)の一端部を装着し、コネクターのインナーコア部の先端部から案内用パイプの先端部(他端部)まで貫通させた芯線によりコネクターと案内用パイプとを連結させることによって、湯水供給用パイプに案内用パイプを連結せしめ、次いで案内用パイプの他端部を牽引することによって新しい湯水供給用パイプを既設保護管内に引き込んで挿通配置する方法が知られている(特許文献1参照)。   As a method for inserting and arranging a new pipe in the existing protective pipe, a hot water supply pipe is externally fitted to the inner core portion (screw screw is engraved on the outer peripheral surface) on one side of the connector and the other side of the connector. Attach one end of the guide pipe (the guide pipe inserted into the existing protective pipe) to the convex part on the side, from the tip of the inner core part of the connector to the tip of the guide pipe (the other end) Connect the guide pipe to the hot water supply pipe by connecting the connector and the guide pipe with the core wire penetrated, and then pull the other end of the guide pipe to protect the new hot water supply pipe A method is known in which it is drawn into the tube and inserted and disposed (see Patent Document 1).

特許第3424051号公報Japanese Patent No. 3424051

ところで、浴槽等に湯水を供給するための配管設備としては、保護管を使用することなく供給用配管をそのまま地面下や床下に配設している場合がある(即ち保護管の中に供給用配管が挿通配置された2重管構造を採用していない場合がある)。また、前記2重管構造を採用していても、経年により供給用配管を交換する際に該配管の硬化や膨張変形等により、保護管内から経年配管を引き抜く(取り出す)ことができないことがある。   By the way, as piping equipment for supplying hot water to a bathtub or the like, there is a case in which a supply pipe is arranged as it is below the ground or under the floor without using a protective pipe (that is, for supply in the protective pipe). (There is a case where a double pipe structure in which piping is inserted and arranged is not adopted). Even when the double pipe structure is adopted, when replacing the supply pipe over time, the pipe may not be pulled out (taken out) from the protection pipe due to hardening or expansion deformation of the pipe. .

従来は、上記いずれの場合も、新しい配管を設置するためには、地面を掘り起こして経年配管を除去して新配管を配設したり、床を剥がして床下の経年配管を除去して新配管を配設しなければならず、非常に大掛かりな工事を要して工期が長くなる上に高コストであるという問題があった。   Conventionally, in any of the above cases, in order to install a new pipe, a new pipe can be installed by digging up the ground and removing the aged pipe to install a new pipe, or by stripping the floor and removing the aged pipe under the floor. There is a problem that a very large-scale construction is required, the construction period is long, and the cost is high.

そこで、本発明者は、地面下や床下等を掘り起こして新たに再施工をするのではなく、経年配管の内部に新しい配管を挿通配置する手法を着想した。このように経年配管内に新しい配管を挿通配置する場合には、新しい配管の内径が小さくなると圧力損失により流量が低下することから、極力内径を大きくした新配管を用いることが重要である。従って、新配管の外径は、経年既設配管の内径より小さいが極力これに近い大きさに設定することが求められる。   Therefore, the present inventor has conceived a method of inserting and arranging a new pipe inside an aged pipe, instead of digging under the ground or under the floor and newly reconstructing it. In this way, when a new pipe is inserted and disposed in an aged pipe, it is important to use a new pipe having a larger inner diameter as much as possible because the flow rate decreases due to pressure loss when the inner diameter of the new pipe decreases. Therefore, it is required that the outer diameter of the new pipe is set to a size as close as possible to the inner diameter of the existing pipe.

しかるに、経年既設配管の内部に新しい配管(外径は経年既設配管の内径より小さいが極力これに近い大きさを有する新配管)を挿通配置するのに、上記従来の方法を用いた場合には、コネクターのインナーコア部の外周面のスクリューねじが新配管の一端部内に螺合されることによってコネクターと新配管とが連結されるものであるから、経年既設配管内への牽引中にコネクターと新配管とが離脱しないように強固に連結するためにはインナーコア部の外径を大きく設計しなければならず、そうすると前記螺合接続の際に新配管の一端部が径大に変形膨張し、このために新配管を経年既設配管内に挿通することが困難になるという問題があった。   However, when the above conventional method is used to insert a new pipe (a new pipe whose outer diameter is smaller than the inner diameter of an aged existing pipe but with a size as close as possible) inside the existing aged pipe, The connector and the new pipe are connected by screwing the screw screw on the outer peripheral surface of the inner core part of the connector into one end of the new pipe. In order to firmly connect the new pipe so as not to be detached, the inner core must be designed to have a large outer diameter, and one end of the new pipe will be deformed and expanded to a large diameter during the screw connection. For this reason, there is a problem that it becomes difficult to insert the new pipe into the existing pipe over time.

本発明は、かかる技術的背景に鑑みてなされたものであって、設置対象の新配管に連結した際に新配管が径大に変形膨張することを防止できると共に新配管と連結手段とを強固に連結できて、既設配管内に新配管をスムーズに引き込むことができる配管牽引用治具及び該配管牽引用治具を用いて新配管を既設配管内に配設する方法を提供することを目的とする。   The present invention has been made in view of such technical background, and can prevent the new pipe from being deformed and expanded to a large diameter when connected to the new pipe to be installed, and can firmly connect the new pipe and the connecting means. It is possible to provide a pipe pulling jig that can be connected to the existing pipe and smoothly draw the new pipe into the existing pipe, and a method for arranging the new pipe in the existing pipe using the pipe pulling jig. And

前記目的を達成するために、本発明は以下の手段を提供する。   In order to achieve the above object, the present invention provides the following means.

[1]長尺の牽引案内手段と、
設置対象の配管の端部に外嵌される円筒状のスリーブと、
一端側に前記配管の端部の内部空間に挿入嵌合される挿嵌部を有すると共に他端側に前記牽引案内手段に連結するための連結部を有する連結手段とを備え、
前記スリーブの外径は、前記配管の外径と同一である又は前記配管の外径より小さいことを特徴とする配管牽引用治具。
[1] a long traction guide means;
A cylindrical sleeve fitted around the end of the pipe to be installed;
A connecting means having an insertion part inserted into and fitted into the internal space of the end of the pipe on one end side and a connecting part for connecting to the traction guide means on the other end side;
An outer diameter of the sleeve is the same as the outer diameter of the pipe or smaller than the outer diameter of the pipe.

[2]前記連結手段は、略円盤状板部の一方の面に前記挿嵌部が突設され、該略円盤状板部の他方の面に前記連結部が突設されてなり、
前記略円盤状板部の外径は、前記スリーブの外径と同一であることを特徴とする前項1に記載の配管牽引用治具。
[2] The connecting means has the insertion portion protruding from one surface of the substantially disk-shaped plate portion, and the connection portion protruding from the other surface of the approximately disk-shaped plate portion,
2. The piping pulling jig according to claim 1, wherein an outer diameter of the substantially disk-shaped plate portion is the same as an outer diameter of the sleeve.

[3]前記挿嵌部は、軸体の外周面にねじ山が形成されてなる前項1または2に記載の配管牽引用治具。   [3] The pipe pulling jig according to item 1 or 2, wherein the insertion portion is formed with a thread on the outer peripheral surface of the shaft body.

[4]前記牽引案内手段がワイヤーである前項1〜3のいずれか1項に記載の配管牽引用治具。   [4] The pipe pulling jig according to any one of items 1 to 3, wherein the pulling guide means is a wire.

[5]長尺の牽引案内手段と、設置対象の新配管の外径と同一の又は該新配管の外径より小さい外径を有した円筒状のスリーブと、一端側に前記新配管の端部の内部空間に挿入嵌合される挿嵌部を有すると共に他端側に前記牽引案内手段に連結するための連結部を有した連結手段と、を備えてなる配管牽引用治具を用いて、前記新配管を既設配管内に配設する方法であって、
前記新配管の一端部に該新配管の略軸線方向に沿って切り込みを形成した後、該新配管の一端部の外径を縮径させ、この縮径状態にある一端部の外周面に、前記スリーブを外嵌する工程(スリーブ外嵌工程)と、
前記新配管におけるスリーブが外嵌された一端部の内部空間に前記連結手段の挿嵌部を挿入嵌合する工程(挿入嵌合工程)と、
前記既設配管の内部空間に該既設配管の一端側から他端側にかけて前記牽引案内手段を挿通配置する工程(牽引案内手段挿通工程)と、
前記牽引案内手段の一端部を前記連結手段の連結部に連結する工程(連結工程)と、
前記牽引案内手段の他端部を牽引することによって、前記既設配管の内部空間に前記新配管を挿通配置する工程(新配管挿通工程)と、を含むことを特徴とする新配管を既設配管内に配設する方法。
[5] A long traction guide means, a cylindrical sleeve having an outer diameter equal to or smaller than the outer diameter of the new pipe to be installed, and an end of the new pipe on one end side A pipe pulling jig comprising: a fitting means having an insertion fitting part inserted into and fitted into the internal space of the part and a connecting part for connecting to the pulling guide means on the other end side; , A method of arranging the new pipe in an existing pipe,
After forming a cut along the substantially axial direction of the new pipe at one end of the new pipe, the outer diameter of the one end of the new pipe is reduced, and the outer peripheral surface of the one end in the reduced diameter state, A step of externally fitting the sleeve (sleeve externally fitting step);
A step (insertion fitting step) of inserting and fitting the insertion portion of the connecting means into the internal space of the one end portion where the sleeve in the new pipe is fitted;
A step of inserting and arranging the traction guide means from one end side to the other end side of the existing pipe in the internal space of the existing pipe (traction guide means insertion step);
Connecting one end of the traction guide means to the connecting portion of the connecting means (connecting process);
A step of inserting and arranging the new pipe in the internal space of the existing pipe by pulling the other end portion of the traction guide means (new pipe insertion process). Method to arrange in.

[6]長尺の牽引案内手段と、設置対象の新配管の外径と同一の又は該新配管の外径より小さい外径を有した円筒状のスリーブと、前記新配管の端部の内部空間に挿入嵌合される挿嵌部が略円盤状板部の一方の面に突設されると共に前記牽引案内手段に連結するための連結部が前記略円盤状板部の他方の面に突設されてなる連結手段と、を備え、前記略円盤状板部の外径が前記スリーブの外径と同一となされた配管牽引用治具を用いて、前記新配管を既設配管内に配設する方法であって、
前記新配管の一端部に該新配管の略軸線方向に沿って切り込みを形成した後、該新配管の一端部の外径を縮径させ、この縮径状態にある一端部の外周面に、前記スリーブを外嵌する工程(スリーブ外嵌工程)と、
前記新配管におけるスリーブが外嵌された一端部の内部空間に前記連結手段の挿嵌部を挿入嵌合して、前記スリーブの先端面全体を前記連結手段の略円盤状板部で覆う工程(挿入嵌合工程)と、
前記既設配管の内部空間に該既設配管の一端側から他端側にかけて前記牽引案内手段を挿通配置する工程(牽引案内手段挿通工程)と、
前記牽引案内手段の一端部を前記連結手段の連結部に連結する工程(連結工程)と、
前記牽引案内手段の他端部を牽引することによって、前記既設配管の内部空間に前記新配管を挿通配置する工程(新配管挿通工程)と、を含むことを特徴とする新配管を既設配管内に配設する方法。
[6] A long traction guide means, a cylindrical sleeve having an outer diameter equal to or smaller than the outer diameter of the new pipe to be installed, and the inside of the end of the new pipe An insertion portion to be inserted and fitted into the space protrudes from one surface of the substantially disk-shaped plate portion, and a connecting portion for connecting to the traction guide means protrudes from the other surface of the substantially disk-shaped plate portion. The new pipe is disposed in the existing pipe using a pipe pulling jig in which the outer diameter of the substantially disk-shaped plate portion is the same as the outer diameter of the sleeve. A way to
After forming a cut along the substantially axial direction of the new pipe at one end of the new pipe, the outer diameter of the one end of the new pipe is reduced, and the outer peripheral surface of the one end in the reduced diameter state, A step of externally fitting the sleeve (sleeve externally fitting step);
A step of inserting and fitting the insertion portion of the connection means into an internal space of one end portion of the new pipe to which the sleeve is externally fitted, and covering the entire tip end surface of the sleeve with the substantially disk-shaped plate portion of the connection means ( Insertion fitting process),
A step of inserting and arranging the traction guide means from one end side to the other end side of the existing pipe in the internal space of the existing pipe (traction guide means insertion step);
Connecting one end of the traction guide means to the connecting portion of the connecting means (connecting process);
A step of inserting and arranging the new pipe in the internal space of the existing pipe by pulling the other end portion of the traction guide means (new pipe insertion process). Method to arrange in.

なお、前記[5]及び[6]の発明において、スリーブ外嵌工程は挿入嵌合工程の前に実施することを要し、新配管挿通工程は挿入嵌合工程の後に実施することを要するが、牽引案内手段挿通工程及び連結工程は、いずれも、新配管挿通工程の前に実施するものであればいかなる工程順次で実施してもよいし、また牽引案内手段挿通工程と連結工程の互いの実施の前後関係も特に限定されない。例えば、連結工程、牽引案内手段挿通工程、スリーブ外嵌工程、挿入嵌合工程、新配管挿通工程の順に実施してもよいし、牽引案内手段挿通工程、スリーブ外嵌工程、挿入嵌合工程、連結工程、新配管挿通工程の順に実施してもよい。   In the inventions of [5] and [6], the sleeve external fitting process needs to be performed before the insertion fitting process, and the new pipe insertion process needs to be performed after the insertion fitting process. The traction guide means insertion step and the connection step may be performed in any order as long as they are performed before the new pipe insertion step. The context of implementation is not particularly limited. For example, the connecting step, the traction guide means insertion step, the sleeve external fitting step, the insertion fitting step, and the new pipe insertion step may be performed in this order, or the traction guide means insertion step, the sleeve external fitting step, the insertion fitting step, You may implement in order of a connection process and a new piping insertion process.

[1]の発明に係る配管牽引用治具では、設置対象の配管(新配管)の端部に外嵌される円筒状のスリーブの外径は、新配管の外径と同一又は新配管の外径より小さいから、配管におけるスリーブが外嵌された端部に連結手段の挿嵌部を挿入嵌合して連結することにより、新配管の該端部が径大に変形膨張することを防止できると共に新配管と連結手段とを強固に連結できる(配管牽引中に新配管から連結手段が離脱しない)。従って、既設配管内に挿通配置した牽引案内手段の一端部を連結手段の連結部に連結した状態で該牽引案内手段の他端部を牽引することにより、既設配管内に新配管をスムーズに引き込むことができる。また、スリーブの利用により新配管と連結手段とを強固に連結できるので、その分連結手段の挿嵌部の長さを短く設定することができ、このように挿嵌部の長さを短く設定した場合には新配管が既設配管の曲がり部を通過する際の連結手段(の挿嵌部)による抵抗をより小さくできる。   In the pipe pulling jig according to the invention of [1], the outer diameter of the cylindrical sleeve fitted to the end of the pipe to be installed (new pipe) is the same as the outer diameter of the new pipe or the new pipe. Since it is smaller than the outer diameter, the end of the new pipe is prevented from deforming and expanding to a larger diameter by inserting and connecting the insertion section of the connecting means to the end of the pipe where the sleeve is fitted. In addition, the new pipe and the connecting means can be firmly connected (the connecting means is not detached from the new pipe during pipe pulling). Accordingly, by pulling the other end portion of the traction guide means while the one end portion of the traction guide means inserted and arranged in the existing pipe is connected to the connection portion of the connection means, the new pipe is smoothly drawn into the existing pipe. be able to. In addition, since the new pipe and the connecting means can be firmly connected by using the sleeve, the length of the inserting portion of the connecting means can be set shorter, and thus the length of the inserting portion can be set shorter. In this case, the resistance due to the connecting means (insertion portion) when the new pipe passes through the bent portion of the existing pipe can be further reduced.

[2]の発明では、連結手段は、略円盤状板部の一方の面に挿嵌部が突設され、該略円盤状板部の他方の面に連結部が突設されてなり、略円盤状板部の外径はスリーブの外径と同一である構成が採用されているから、新配管におけるスリーブが外嵌された端部に連結手段の挿嵌部を挿入嵌合して連結した際に、スリーブの先端面全体が連結手段の略円盤状板部で適合状態に覆われるものとなり、従って既設配管内に新配管を引き込んで該新配管が既設配管の曲がり部を通過する際にスリーブの先端周縁が曲がり部の内周面に引っ掛かることを十分に防止できて、既設配管内に新配管をよりスムーズに挿通させることができる。加えて、新配管に連結手段を連結した際にスリーブの先端面全体が連結手段の略円盤状板部で適合状態に覆われるので、既設配管内に新配管を引き込む操作中に新配管の内部に異物等が侵入するのを十分に防止できる。   In the invention of [2], the connecting means has an insertion portion protruding from one surface of the substantially disk-shaped plate portion, and a connecting portion protruding from the other surface of the substantially disk-shaped plate portion. Since the outer diameter of the disc-shaped plate portion is the same as the outer diameter of the sleeve, the insertion portion of the connecting means is inserted and connected to the end portion where the sleeve in the new pipe is fitted. In this case, the entire front end surface of the sleeve is covered with the substantially disk-shaped plate portion of the connecting means so that the new pipe is drawn into the existing pipe and the new pipe passes through the bent portion of the existing pipe. It is possible to sufficiently prevent the peripheral edge of the sleeve from being caught on the inner peripheral surface of the bent portion, and the new pipe can be more smoothly inserted into the existing pipe. In addition, when the connecting means is connected to the new pipe, the entire tip end surface of the sleeve is covered with the substantially disk-shaped plate portion of the connecting means in a conforming state, so that the inside of the new pipe can be used during the operation of drawing the new pipe into the existing pipe. It is possible to sufficiently prevent foreign matter and the like from entering.

[3]の発明では、連結手段の挿嵌部は、軸体の外周面にねじ山が形成されてなるものであるから、配管におけるスリーブが外嵌された端部に連結手段の挿嵌部を挿入嵌合する時に、新配管端部の内周面に挿嵌部を螺合することで嵌合できるので、新配管と連結手段とをより強固に連結できる。   In the invention of [3], since the insertion portion of the connecting means is formed by forming a screw thread on the outer peripheral surface of the shaft body, the insertion portion of the connecting means is attached to the end portion of the pipe in which the sleeve is externally fitted. Can be fitted by screwing the insertion part into the inner peripheral surface of the end part of the new pipe, so that the new pipe and the connecting means can be connected more firmly.

[4]の発明では、牽引案内手段としてワイヤーが用いられているから、既設配管に曲がり部や狭小部が存在する場合であっても、既設配管内に新配管をよりスムーズに引き込むことができる。   In the invention of [4], since the wire is used as the traction guide means, the new pipe can be drawn more smoothly into the existing pipe even if the existing pipe has a bent part or a narrow part. .

[5]及び[6]の発明に係る、新配管を既設配管内に配設する方法によれば、新配管の一端部に該新配管の略軸線方向に沿って切り込みを形成した後、該新配管の一端部の外径を縮径させ、この縮径状態にある一端部の外周面に、新配管の外径と同一の又は該新配管の外径より小さい外径を有した円筒状のスリーブを外嵌し、次いで新配管におけるスリーブが外嵌された一端部の内部空間に連結手段の挿嵌部を挿入嵌合して連結するので、新配管が径大に変形膨張することを防止できると共に新配管と連結手段とを強固に連結できる(配管牽引中に新配管から連結手段が離脱しない)。従って、既設配管内に挿通配置した牽引案内手段の一端部を連結手段の連結部に連結した状態で該牽引案内手段の他端部を牽引することによって、既設配管内に新配管をスムーズに挿通配置することができる。   According to the method of disposing the new pipe in the existing pipe according to the inventions of [5] and [6], after forming a cut along the substantially axial direction of the new pipe at one end of the new pipe, The outer diameter of one end of the new pipe is reduced, and the outer peripheral surface of the one end in the reduced diameter state has a cylindrical shape having an outer diameter that is the same as or smaller than the outer diameter of the new pipe. The outer pipe is then fitted, and then the insertion section of the connecting means is inserted into the inner space of one end where the sleeve in the new pipe is fitted, and the new pipe is deformed and expanded to a large diameter. In addition to preventing this, it is possible to firmly connect the new pipe and the connecting means (the connecting means is not detached from the new pipe while the pipe is being pulled). Therefore, by pulling the other end portion of the traction guide means while one end portion of the traction guide means inserted and arranged in the existing pipe is connected to the connection portion of the connection means, the new pipe is smoothly inserted into the existing pipe. Can be arranged.

[6]の発明では、連結手段の略円盤状板部の外径がスリーブの外径と同一であるから、新配管におけるスリーブが外嵌された一端部の内部空間に連結手段の挿嵌部を挿入嵌合した際に、スリーブの先端面全体を連結手段の略円盤状板部で適合状態に覆うことができるので、既設配管内に新配管を引き込んで該新配管が既設配管の曲がり部を通過する際にスリーブの先端周縁が曲がり部の内周面に引っ掛かることを十分に防止できて、既設配管内に新配管をよりスムーズに挿通させることができる。加えて、新配管に連結手段を連結した際にスリーブの先端面全体を連結手段の略円盤状板部で適合状態に覆うことができるので、既設配管内に新配管を引き込んでいる時に新配管の内部に異物等が侵入するのを十分に防止できる。   In the invention of [6], since the outer diameter of the substantially disk-shaped plate portion of the connection means is the same as the outer diameter of the sleeve, the insertion portion of the connection means is inserted into the internal space of one end portion where the sleeve in the new pipe is externally fitted. When the sleeve is inserted and fitted, the entire tip end surface of the sleeve can be covered with the substantially disk-shaped plate portion of the connecting means so that the new pipe is drawn into the existing pipe, and the new pipe is bent to the existing pipe. It is possible to sufficiently prevent the peripheral edge of the sleeve from being caught on the inner peripheral surface of the bent portion when passing through the pipe, and the new pipe can be more smoothly inserted into the existing pipe. In addition, when the connecting means is connected to the new pipe, the entire tip end surface of the sleeve can be covered with the substantially disk-shaped plate portion of the connecting means in a conforming state, so the new pipe can be used when the new pipe is drawn into the existing pipe. It is possible to sufficiently prevent foreign matter and the like from entering the interior of the housing.

(a)は連結手段の一実施形態を示す斜視図、(b)はスリーブの一実施形態を示す斜視図である。(A) is a perspective view which shows one Embodiment of a connection means, (b) is a perspective view which shows one Embodiment of a sleeve. 牽引案内手段の一実施形態を示す斜視図である。It is a perspective view which shows one Embodiment of a traction guide means. (a)は新配管の一端部に切り込みを形成した状態を示す側面図、(b)は該新配管の一端部を縮径させた状態を示す側面図、(c)新配管における縮径状態の端部にスリーブを外嵌した状態を示す側面図、(d)は(c)におけるX−X線の断面を拡大して示す断面図である。(A) is a side view showing a state in which a cut is formed in one end of a new pipe, (b) is a side view showing a state in which one end of the new pipe is reduced in diameter, and (c) a reduced diameter state in the new pipe. The side view which shows the state which fitted the sleeve to the edge part of this, (d) is sectional drawing which expands and shows the cross section of the XX line in (c). (a)は新配管におけるスリーブが外嵌された一端部内に連結手段の挿嵌部を挿入嵌合している途中状態を示す側面図、(b)は挿入嵌合して新配管に連結手段を連結した状態を示す側面図、(c)は新配管に連結された連結手段の連結部に牽引案内手段の一端部を連結した状態を示す側面図である。(A) is a side view showing a halfway state in which the insertion portion of the connecting means is inserted and fitted into one end portion of the new pipe in which the sleeve is externally fitted, and (b) is a means for connecting to the new pipe after being inserted and fitted. FIG. 5C is a side view showing a state in which one end portion of the traction guide means is connected to a connecting portion of the connecting means connected to the new pipe. (a)は連結手段の他の実施形態を示す側面図、(b)は該連結手段の挿嵌部を、新配管におけるスリーブが外嵌された一端部内に挿入嵌合した状態を示す側面図である。(A) is a side view showing another embodiment of the connecting means, (b) is a side view showing a state in which the insertion portion of the connecting means is inserted and fitted into one end portion of the new pipe to which the sleeve is fitted. It is. 連結手段のさらに他の実施形態を示す側面図である。It is a side view which shows other embodiment of a connection means.

本発明に係る配管牽引用治具1は、連結手段4と、円筒状のスリーブ3と、長尺の牽引案内手段2と、を備えてなる。前記連結手段4の一実施形態を図1(a)に示し、前記スリーブ3の一実施形態を図1(b)に示し、前記牽引案内手段2の一実施形態を図2に示す。   A pipe pulling jig 1 according to the present invention includes a connecting means 4, a cylindrical sleeve 3, and a long pulling guide means 2. An embodiment of the connecting means 4 is shown in FIG. 1 (a), an embodiment of the sleeve 3 is shown in FIG. 1 (b), and an embodiment of the traction guide means 2 is shown in FIG.

前記スリーブ3は、設置対象の新配管90の端部に外嵌されて使用される。前記スリーブ3の素材としては、例えば金属等の硬質材料が挙げられる。   The sleeve 3 is used by being fitted around the end of a new pipe 90 to be installed. Examples of the material of the sleeve 3 include a hard material such as metal.

前記スリーブ3の外径は、前記設置対象の新配管90の外径と同一に設定されている。なお、前記スリーブ3の外径は、前記設置対象の新配管90の外径より小さいものとなされていてもよい。この場合、前記スリーブ3の外径は、前記設置対象の新配管90の外径の80%以上100%未満に設定されているのが好ましい。   The outer diameter of the sleeve 3 is set to be the same as the outer diameter of the new pipe 90 to be installed. The outer diameter of the sleeve 3 may be smaller than the outer diameter of the new pipe 90 to be installed. In this case, it is preferable that the outer diameter of the sleeve 3 is set to be 80% or more and less than 100% of the outer diameter of the new pipe 90 to be installed.

前記連結手段4は、前記新配管90の端部と前記牽引案内手段2の端部とを連結するのに用いられる。前記連結手段4の素材としては、例えば金属等の硬質材料が挙げられる。前記連結手段4は、一端側に前記新配管90の端部の内部空間に挿入嵌合される挿嵌部12を備え、他端側に前記牽引案内手段2に連結するための連結部13を備える。   The connecting means 4 is used to connect the end of the new pipe 90 and the end of the traction guide means 2. Examples of the material of the connecting means 4 include hard materials such as metals. The connecting means 4 is provided with an insertion fitting portion 12 inserted and fitted into the inner space of the end portion of the new pipe 90 on one end side, and a connecting portion 13 for connecting to the traction guide means 2 on the other end side. Prepare.

本実施形態では、前記連結手段4は、前記挿嵌部12及び前記連結部13に加えて略円盤状板部11を備えている。即ち、本実施形態では、前記連結手段4は、図1(a)に示すように、略円盤状板部11の一方の面に前記挿嵌部12が突設され、該略円盤状板部11の他方の面に前記連結部13が突設されてなる。   In the present embodiment, the connecting means 4 includes a substantially disk-shaped plate portion 11 in addition to the insertion portion 12 and the connecting portion 13. That is, in this embodiment, as shown in FIG. 1A, the connecting means 4 has the insertion portion 12 protruding from one surface of the substantially disk-shaped plate portion 11, and the substantially disk-shaped plate portion. The connecting portion 13 protrudes from the other surface of 11.

前記挿嵌部12は、軸体15の外周面にねじ山16が形成されてなる。前記連結部13に連結用孔が設けられている。前記挿嵌部12及び前記連結部13は、いずれも設置対象の新配管90の外径より小さい。また、前記挿嵌部12及び前記連結部13は、いずれもスリーブ3の外径より小さいのが好ましい。   The insertion portion 12 has a thread 16 formed on the outer peripheral surface of the shaft body 15. A connecting hole is provided in the connecting portion 13. The insertion part 12 and the connection part 13 are both smaller than the outer diameter of the new pipe 90 to be installed. Moreover, it is preferable that both the insertion part 12 and the connection part 13 are smaller than the outer diameter of the sleeve 3.

前記略円盤状板部11の周側面は、前記挿嵌部12が設けられた側から前記連結部13が設けられた側に向けて内向きに傾斜した傾斜面に形成されている。また、前記傾斜面は外方に向けて膨らむ曲面に形成されている。前記略円盤状板部11の外径は、前記スリーブ3の外径と同一である。即ち、前記略円盤状板部11の挿嵌部12が設けられた一方の面の外径は、前記スリーブ3の外径と同一である。前記挿嵌部12及び前記連結部13は、前記略円盤状板部11の外径より小さい。   A peripheral side surface of the substantially disk-shaped plate portion 11 is formed as an inclined surface inclined inward from the side where the insertion portion 12 is provided toward the side where the connecting portion 13 is provided. The inclined surface is formed as a curved surface that bulges outward. The outer diameter of the substantially disk-shaped plate portion 11 is the same as the outer diameter of the sleeve 3. That is, the outer diameter of one surface of the substantially disk-shaped plate portion 11 where the insertion portion 12 is provided is the same as the outer diameter of the sleeve 3. The insertion part 12 and the connection part 13 are smaller than the outer diameter of the substantially disk-shaped plate part 11.

前記牽引案内手段2としては、既設配管内に容易に挿通できる可撓性の細線体であれば特に限定されず、例えば金属ワイヤー等のワイヤーを例示できる。本実施形態では、前記牽引案内手段2として、金属ワイヤーが用いられている(図2参照)。前記金属ワイヤーは、樹脂製の被覆材で被覆されていてもよいし、被覆材で被覆されていない構成であってもよい。   The traction guide means 2 is not particularly limited as long as it is a flexible thin wire that can be easily inserted into existing piping, and examples thereof include a wire such as a metal wire. In the present embodiment, a metal wire is used as the traction guide means 2 (see FIG. 2). The metal wire may be coated with a resin coating material or may be configured not to be coated with a coating material.

前記牽引案内手段2の一端部に、連結用孔を有した連結部50が形成されている。この連結部50は、前記連結手段4と連結するのに用いられる。   A connecting portion 50 having a connecting hole is formed at one end of the traction guide means 2. The connecting portion 50 is used for connecting to the connecting means 4.

次に、前記配管牽引用治具1を用いて新配管(設置対象の配管)90を既設配管(地面下、床下等に既に設置されている経年既設配管等)内に配設する方法の一例について説明する。   Next, an example of a method for arranging a new pipe (installed pipe) 90 in an existing pipe (an aged existing pipe already installed under the ground, under the floor, etc.) using the pipe pulling jig 1. Will be described.

設置対象の新配管90は、例えば湯水供給用配管(浴槽への湯水供給用配管等)として用いられるものであり、前記既設配管の内部に挿通配置されて使用される。例えば、前記既設配管が経年劣化等した際に本配設方法を適用することができる。   The new pipe 90 to be installed is used as, for example, a hot water supply pipe (pipe for supplying hot water to a bathtub, etc.), and is inserted into the existing pipe and used. For example, this arrangement method can be applied when the existing piping has deteriorated over time.

前記新配管90の外径は、通常は、既設配管の内径より小さいが該内径に近似した大きさに設定される。中でも、前記新配管90の外径は、既設配管の内径より1mm〜2mm小さい大きさに設定されるのが好ましい。この場合には、より大きな流量を確保できる。   The outer diameter of the new pipe 90 is usually smaller than the inner diameter of the existing pipe, but is set to a size approximate to the inner diameter. In particular, the outer diameter of the new pipe 90 is preferably set to a size that is 1 mm to 2 mm smaller than the inner diameter of the existing pipe. In this case, a larger flow rate can be secured.

図3(a)に示すように、新配管90の一端部に該新配管90の略軸線方向に沿って切り込み31を形成する。この切り込み31の長さは、前記スリーブ3の長さ(軸線方向の長さ)よりも大きくする。中でも、前記切り込み31の長さは、前記スリーブ3の長さ(軸線方向の長さ)よりも1〜20mm長くするのが好ましい。なお、前記新配管90としては、通常は、可撓性を有する配管が用いられる。前記可撓性を有する配管としては、特に限定されるものではないが、例えばフッ素系樹脂製配管等を例示できる。   As shown in FIG. 3A, a cut 31 is formed at one end of the new pipe 90 along the substantially axial direction of the new pipe 90. The length of the notch 31 is larger than the length of the sleeve 3 (length in the axial direction). In particular, the length of the cut 31 is preferably 1 to 20 mm longer than the length of the sleeve 3 (length in the axial direction). As the new pipe 90, a flexible pipe is usually used. Although it does not specifically limit as said flexible piping, For example, a fluorine resin piping etc. can be illustrated.

しかる後、図3(b)に示すように、切り込み31を利用して新配管90の一端部において管壁に重なり部32を形成せしめることによって、新配管90の一端部の外径を縮径させた状態にする(新配管90の一端部の外径を新配管90の他端部の外径よりも縮径させた状態にする)。前記重なり部32は、例えば、新配管90の一端部(切り込み31が形成された端部)を人の手の指で強く挟み込むことによって形成させることができる。   Thereafter, as shown in FIG. 3B, the outer diameter of one end portion of the new pipe 90 is reduced by forming an overlapping portion 32 on the pipe wall at one end portion of the new pipe 90 using the notch 31. (The outer diameter of one end of the new pipe 90 is made smaller than the outer diameter of the other end of the new pipe 90). The overlapping portion 32 can be formed, for example, by strongly sandwiching one end portion (the end portion where the cut 31 is formed) of the new pipe 90 with fingers of a human hand.

次いで、図3(c)(d)に示すように、新配管90の縮径状態にある一端部の外周面に、スリーブ3を外嵌する。この時、新配管90の先端面とスリーブ3の先端面を略一致させるのが好ましい。   Next, as shown in FIGS. 3 (c) and 3 (d), the sleeve 3 is externally fitted on the outer peripheral surface of one end portion of the new pipe 90 in a reduced diameter state. At this time, it is preferable to make the front end surface of the new pipe 90 substantially coincide with the front end surface of the sleeve 3.

次に、図4(a)に示すように、新配管90におけるスリーブ3が外嵌された一端部の内部に、連結手段4の挿嵌部12を挿入して螺合していく。   Next, as shown in FIG. 4A, the insertion portion 12 of the connecting means 4 is inserted and screwed into one end portion of the new pipe 90 where the sleeve 3 is externally fitted.

前記挿嵌部12の挿入螺合を更に進めることによって、図4(b)に示すように、新配管90におけるスリーブ3が外嵌された一端部の内部に連結手段4の挿嵌部12を挿入嵌合して、スリーブ3の先端面全体を連結手段4の略円盤状板部11で覆う。この時、連結手段4の略円盤状板部11の周縁部がスリーブ3の先端に当接するように(図4(b)参照)又は近接するように挿入嵌合するのが好ましい。   By further advancing the insertion screwing of the insertion portion 12, as shown in FIG. 4B, the insertion portion 12 of the connecting means 4 is inserted into one end of the new pipe 90 where the sleeve 3 is externally fitted. The whole end face of the sleeve 3 is covered with the substantially disk-shaped plate portion 11 of the connecting means 4 by being inserted and fitted. At this time, it is preferable to insert and fit the peripheral portion of the substantially disk-shaped plate portion 11 of the connecting means 4 so as to be in contact with the tip of the sleeve 3 (see FIG. 4B) or close thereto.

このように新配管90におけるスリーブ(新配管の外径と同一の又は該新配管の外径より小さい外径を有したスリーブ)3が外嵌された一端部の内部に連結手段4の挿嵌部12を挿入嵌合するので、新配管90が径大に変形膨張することを防止できると共に新配管90と連結手段4とを強固に連結できる。   In this way, the connecting means 4 is inserted into one end of the new pipe 90 where the sleeve (sleeve having the same outer diameter as the new pipe or smaller than the outer diameter) 3 is fitted. Since the portion 12 is inserted and fitted, the new pipe 90 can be prevented from deforming and expanding to a large diameter, and the new pipe 90 and the connecting means 4 can be firmly connected.

次に、既設配管の内部空間に該既設配管の一端側から他端側にかけて牽引案内手段2を挿通配置する。次いで、図4(c)に示すように、牽引案内手段2(既設配管の内部に挿通配置した状態にある牽引案内手段2)の一端の連結部50を連結手段4の連結部13に連結する。即ち、連結手段4の連結部13の連結用孔に針金40の一端を挿通して折り返すと共に、牽引案内手段2の連結部50の連結用孔に前記針金40の他端を挿通して折り返すことによって、連結手段4と牽引案内手段2とを連結する。   Next, the traction guide means 2 is inserted and arranged in the internal space of the existing pipe from one end side to the other end side of the existing pipe. Next, as shown in FIG. 4C, the connecting portion 50 at one end of the traction guide means 2 (the traction guide means 2 in a state of being inserted and arranged inside the existing pipe) is connected to the connection portion 13 of the connection means 4. . That is, one end of the wire 40 is inserted through the connecting hole of the connecting portion 13 of the connecting means 4 and folded back, and the other end of the wire 40 is inserted through the connecting hole of the connecting portion 50 of the traction guide means 2 and folded back. Thus, the connecting means 4 and the traction guide means 2 are connected.

しかる後、既設配管の他端開口部から出ている牽引案内手段2の他端部51を既設配管から離れる方向に牽引することにより、既設配管の内部に新配管90をスムーズに引き込んで既設配管内に新配管90を挿通配置せしめることができる。   Thereafter, the new pipe 90 is smoothly drawn into the existing pipe by pulling the other end 51 of the traction guide means 2 protruding from the other end opening of the existing pipe in a direction away from the existing pipe. The new pipe 90 can be inserted and arranged inside.

上記実施形態では、スリーブ3の先端面全体を連結手段4の略円盤状板部11で適合状態に覆った状態になっているから、既設配管内に新配管90を引き込んで該新配管90が既設配管の曲がり部を通過する際にスリーブ3の先端周縁が該曲がり部の内周面に引っ掛かることを十分に防止できて既設配管内に新配管90をよりスムーズに挿通させることができると共に、既設配管内に新配管90を引き込み挿通している時に新配管90の内部に異物等が侵入するのを十分に防止できる。   In the above embodiment, since the entire distal end surface of the sleeve 3 is covered with the substantially disk-shaped plate portion 11 of the connecting means 4 in a conforming state, the new pipe 90 is drawn into the existing pipe and the new pipe 90 is While it is possible to sufficiently prevent the peripheral edge of the sleeve 3 from being caught on the inner peripheral surface of the bent portion when passing through the bent portion of the existing pipe, the new pipe 90 can be more smoothly inserted into the existing pipe. It is possible to sufficiently prevent foreign matter and the like from entering the inside of the new pipe 90 when the new pipe 90 is drawn into and inserted into the existing pipe.

上記実施形態では、連結手段4は、挿嵌部12、連結部13及び略円盤状板部11を備えた構成が採用されているが、特にこのような構成に限定されるものではなく、例えば図5(a)に示すような構成を採用することもできる。   In the said embodiment, although the connection means 4 is employ | adopted as the structure provided with the insertion part 12, the connection part 13, and the substantially disc shaped board part 11, it is not limited to such a structure in particular, For example, A configuration as shown in FIG. 5A can also be adopted.

図5(a)に示す連結手段4は、挿嵌部22及び連結部23を備えた構成である。即ち、この連結手段4は、軸体25の外周面にねじ山26が形成されてなる挿嵌部22と、該挿嵌部22の基端に連接された連結部23とを備える。前記連結部23に連結用孔が設けられている。この連結手段4の挿嵌部22を、新配管90における前記スリーブ3が外嵌された一端部の内部に挿入嵌合した状態を図5(b)に示す。   The connection means 4 shown in FIG. 5A has a configuration including an insertion part 22 and a connection part 23. That is, the connecting means 4 includes an insertion part 22 in which a thread 26 is formed on the outer peripheral surface of the shaft body 25, and a connection part 23 connected to the base end of the insertion part 22. A connecting hole is provided in the connecting portion 23. FIG. 5B shows a state in which the insertion portion 22 of the connecting means 4 is inserted and fitted into one end portion of the new pipe 90 where the sleeve 3 is externally fitted.

また、上記実施形態では、連結手段4の挿嵌部12に形成されたねじ山16、26は、1重(1条)に構成されているが(図1(a)、図5(a)参照)、特にこのような構成に限定されるものではなく、例えば2重(2条)に構成されていてもよい。   Moreover, in the said embodiment, although the screw threads 16 and 26 formed in the insertion part 12 of the connection means 4 are comprised by single (1 item | strip) (FIG. 1 (a), FIG. 5 (a)). For example, the structure may be double (two).

また、上記実施形態では、連結手段4における挿嵌部12は、軸体15の外周面にねじ山16が形成されてなる構成であるが、前記挿嵌部は、特にこのような螺合しうる構成に限定されるものではない。例えば図6に示すように、連結手段4の挿嵌部34として、軸体35の外周面に1ないし複数本の突条36が設けられた構成を採用してもよい。この場合には、新配管90における前記スリーブ3が外嵌された一端部の内部空間に、該連結手段4の挿嵌部34の突条36をハンマー等を用いた叩き込みによって挿入嵌合すればよい。なお、図6において、33は、連結部(牽引案内手段2に連結するための連結部)である。   Moreover, in the said embodiment, although the insertion part 12 in the connection means 4 is a structure by which the screw thread 16 is formed in the outer peripheral surface of the shaft body 15, the said insertion part is especially such screwing. It is not limited to a possible configuration. For example, as shown in FIG. 6, a configuration in which one or a plurality of protrusions 36 are provided on the outer peripheral surface of the shaft body 35 may be employed as the insertion portion 34 of the connecting means 4. In this case, if the protrusion 36 of the insertion portion 34 of the connecting means 4 is inserted and fitted into the internal space of one end portion of the new pipe 90 where the sleeve 3 is externally fitted by using a hammer or the like. Good. In addition, in FIG. 6, 33 is a connection part (connection part for connecting with the traction guide means 2).

なお、上記配設方法は、その一例を説明したものに過ぎず、本発明の配設方法は、上記手法に特に限定されるものではない。   In addition, the said arrangement | positioning method is only what demonstrated the example, and the arrangement | positioning method of this invention is not specifically limited to the said method.

本発明に係る配管牽引用治具は、設置対象の新配管の一端部に取り付けられて該新配管を既設配管内に挿入配設するのに用いられる。   The pipe pulling jig according to the present invention is attached to one end of a new pipe to be installed, and is used to insert and arrange the new pipe into the existing pipe.

1…配管牽引用治具
2…牽引案内手段
3…スリーブ
4…連結手段
11…略円盤状板部
12、22、34…挿嵌部
13、23、33…連結部
15、25…軸体
16、26…ねじ山
31…切り込み
90…新配管
DESCRIPTION OF SYMBOLS 1 ... Pipe pulling jig | tool 2 ... Pulling guide means 3 ... Sleeve 4 ... Connection means 11 ... Substantially disk-shaped board part 12, 22, 34 ... Insertion part 13, 23, 33 ... Connection part 15, 25 ... Shaft body 16 26 ... Thread 31 ... Cut 90 ... New piping

Claims (6)

長尺の牽引案内手段と、
設置対象の配管の端部に外嵌される円筒状のスリーブと、
一端側に前記配管の端部の内部空間に挿入嵌合される挿嵌部を有すると共に他端側に前記牽引案内手段に連結するための連結部を有する連結手段とを備え、
前記スリーブの外径は、前記配管の外径と同一である又は前記配管の外径より小さいことを特徴とする配管牽引用治具。
A long traction guide means;
A cylindrical sleeve fitted around the end of the pipe to be installed;
A connecting means having an insertion part inserted into and fitted into the internal space of the end of the pipe on one end side and a connecting part for connecting to the traction guide means on the other end side;
An outer diameter of the sleeve is the same as the outer diameter of the pipe or smaller than the outer diameter of the pipe.
前記連結手段は、略円盤状板部の一方の面に前記挿嵌部が突設され、該略円盤状板部の他方の面に前記連結部が突設されてなり、
前記略円盤状板部の外径は、前記スリーブの外径と同一であることを特徴とする請求項1に記載の配管牽引用治具。
The connecting means has the insertion portion protruding from one surface of the substantially disk-shaped plate portion, and the connection portion protruding from the other surface of the substantially disk-shaped plate portion,
The pipe pulling jig according to claim 1, wherein an outer diameter of the substantially disk-shaped plate portion is the same as an outer diameter of the sleeve.
前記挿嵌部は、軸体の外周面にねじ山が形成されてなる請求項1または2に記載の配管牽引用治具。   3. The pipe pulling jig according to claim 1, wherein the insertion portion is formed with a screw thread on an outer peripheral surface of a shaft body. 4. 前記牽引案内手段がワイヤーである請求項1〜3のいずれか1項に記載の配管牽引用治具。   The pipe pulling jig according to any one of claims 1 to 3, wherein the pulling guide means is a wire. 長尺の牽引案内手段と、設置対象の新配管の外径と同一の又は該新配管の外径より小さい外径を有した円筒状のスリーブと、一端側に前記新配管の端部の内部空間に挿入嵌合される挿嵌部を有すると共に他端側に前記牽引案内手段に連結するための連結部を有した連結手段と、を備えてなる配管牽引用治具を用いて、前記新配管を既設配管内に配設する方法であって、
前記新配管の一端部に該新配管の略軸線方向に沿って切り込みを形成した後、該新配管の一端部の外径を縮径させ、この縮径状態にある一端部の外周面に、前記スリーブを外嵌する工程と、
前記新配管におけるスリーブが外嵌された一端部の内部空間に前記連結手段の挿嵌部を挿入嵌合する工程と、
前記既設配管の内部空間に該既設配管の一端側から他端側にかけて前記牽引案内手段を挿通配置する工程と、
前記牽引案内手段の一端部を前記連結手段の連結部に連結する工程と、
前記牽引案内手段の他端部を牽引することによって、前記既設配管の内部空間に前記新配管を挿通配置する工程と、を含むことを特徴とする新配管を既設配管内に配設する方法。
A long traction guide means, a cylindrical sleeve having an outer diameter equal to or smaller than the outer diameter of the new pipe to be installed, and the inside of the end of the new pipe on one end side A pipe pulling jig comprising a connecting means having an insertion fitting part inserted into the space and a connecting part for connecting to the pulling guide means on the other end side. A method of arranging piping in existing piping,
After forming a cut along the substantially axial direction of the new pipe at one end of the new pipe, the outer diameter of the one end of the new pipe is reduced, and the outer peripheral surface of the one end in the reduced diameter state, Externally fitting the sleeve;
Inserting and fitting the insertion portion of the connecting means into the internal space of the one end portion where the sleeve in the new pipe is externally fitted; and
A step of inserting and arranging the traction guide means from one end side to the other end side of the existing pipe in the internal space of the existing pipe;
Connecting one end of the traction guide means to the connecting portion of the connecting means;
And a step of inserting and arranging the new pipe in the internal space of the existing pipe by pulling the other end of the towing guide means.
長尺の牽引案内手段と、設置対象の新配管の外径と同一の又は該新配管の外径より小さい外径を有した円筒状のスリーブと、前記新配管の端部の内部空間に挿入嵌合される挿嵌部が略円盤状板部の一方の面に突設されると共に前記牽引案内手段に連結するための連結部が前記略円盤状板部の他方の面に突設されてなる連結手段と、を備え、前記略円盤状板部の外径が前記スリーブの外径と同一となされた配管牽引用治具を用いて、前記新配管を既設配管内に配設する方法であって、
前記新配管の一端部に該新配管の略軸線方向に沿って切り込みを形成した後、該新配管の一端部の外径を縮径させ、この縮径状態にある一端部の外周面に、前記スリーブを外嵌する工程と、
前記新配管におけるスリーブが外嵌された一端部の内部空間に前記連結手段の挿嵌部を挿入嵌合して、前記スリーブの先端面全体を前記連結手段の略円盤状板部で覆う工程と、
前記既設配管の内部空間に該既設配管の一端側から他端側にかけて前記牽引案内手段を挿通配置する工程と、
前記牽引案内手段の一端部を前記連結手段の連結部に連結する工程と、
前記牽引案内手段の他端部を牽引することによって、前記既設配管の内部空間に前記新配管を挿通配置する工程と、を含むことを特徴とする新配管を既設配管内に配設する方法。
Inserted into the internal space at the end of the new pipe, a long traction guide means, a cylindrical sleeve having an outer diameter equal to or smaller than the outer diameter of the new pipe to be installed The fitting portion to be fitted is projected on one surface of the substantially disk-shaped plate portion, and the connecting portion for coupling to the traction guide means is projected on the other surface of the substantially disk-shaped plate portion. A connection means, and a method of arranging the new pipe in an existing pipe using a pipe pulling jig in which the outer diameter of the substantially disk-shaped plate portion is the same as the outer diameter of the sleeve. There,
After forming a cut along the substantially axial direction of the new pipe at one end of the new pipe, the outer diameter of the one end of the new pipe is reduced, and the outer peripheral surface of the one end in the reduced diameter state, Externally fitting the sleeve;
Inserting and fitting the insertion portion of the connecting means into the internal space of one end portion of the new pipe to which the sleeve is externally fitted, and covering the entire distal end surface of the sleeve with the substantially disk-shaped plate portion of the connecting means; ,
A step of inserting and arranging the traction guide means from one end side to the other end side of the existing pipe in the internal space of the existing pipe;
Connecting one end of the traction guide means to the connecting portion of the connecting means;
And a step of inserting and arranging the new pipe in the internal space of the existing pipe by pulling the other end of the towing guide means.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109072792A (en) * 2016-04-19 2018-12-21 大陆汽车有限公司 Method and apparatus for adjusting the mass flow of exhaust-gas-recirculation valve
KR20200002291U (en) * 2019-04-10 2020-10-20 주식회사 동아아이디 Hose guide for kitchen faucet

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH058161U (en) * 1991-07-16 1993-02-05 日立金属株式会社 Flexible tube terminal structure
JPH07317955A (en) * 1994-05-26 1995-12-08 Buresuto Kogyo Kenkyusho:Kk Jig for guiding flexible pipe
JP2001311480A (en) * 2000-02-23 2001-11-09 Osaka Gas Co Ltd Pull up jig for plastic pipe
JP2003021264A (en) * 2001-07-06 2003-01-24 Furukawa Electric Co Ltd:The Traction device for plastic pipe
JP2003083471A (en) * 2001-09-11 2003-03-19 Sekisui Chem Co Ltd Water cut-off method for fitting pipe opening
JP2006283903A (en) * 2005-04-01 2006-10-19 Sekisui Chem Co Ltd New pipe installation method
JP2007169987A (en) * 2005-12-21 2007-07-05 Nippon Telegr & Teleph Corp <Ntt> Underground buried pipe repairing method

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH058161U (en) * 1991-07-16 1993-02-05 日立金属株式会社 Flexible tube terminal structure
JPH07317955A (en) * 1994-05-26 1995-12-08 Buresuto Kogyo Kenkyusho:Kk Jig for guiding flexible pipe
JP2001311480A (en) * 2000-02-23 2001-11-09 Osaka Gas Co Ltd Pull up jig for plastic pipe
JP2003021264A (en) * 2001-07-06 2003-01-24 Furukawa Electric Co Ltd:The Traction device for plastic pipe
JP2003083471A (en) * 2001-09-11 2003-03-19 Sekisui Chem Co Ltd Water cut-off method for fitting pipe opening
JP2006283903A (en) * 2005-04-01 2006-10-19 Sekisui Chem Co Ltd New pipe installation method
JP2007169987A (en) * 2005-12-21 2007-07-05 Nippon Telegr & Teleph Corp <Ntt> Underground buried pipe repairing method

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109072792A (en) * 2016-04-19 2018-12-21 大陆汽车有限公司 Method and apparatus for adjusting the mass flow of exhaust-gas-recirculation valve
CN109072792B (en) * 2016-04-19 2021-10-22 大陆汽车有限公司 Method and device for regulating the mass flow of an exhaust gas recirculation valve
KR20200002291U (en) * 2019-04-10 2020-10-20 주식회사 동아아이디 Hose guide for kitchen faucet
KR200492935Y1 (en) * 2019-04-10 2021-01-06 주식회사 동아아이디 Hose guide for kitchen faucet

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