JP2001116168A - Construction method for connecting pipe - Google Patents
Construction method for connecting pipeInfo
- Publication number
- JP2001116168A JP2001116168A JP29338399A JP29338399A JP2001116168A JP 2001116168 A JP2001116168 A JP 2001116168A JP 29338399 A JP29338399 A JP 29338399A JP 29338399 A JP29338399 A JP 29338399A JP 2001116168 A JP2001116168 A JP 2001116168A
- Authority
- JP
- Japan
- Prior art keywords
- pipe
- resin
- diameter
- outer diameter
- existing
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Branch Pipes, Bends, And The Like (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、既設管内に挿通し
てある径方向に折り畳み変形させた熱可塑性樹脂製の折
畳み管を、その折畳み管内に供給した加熱加圧流体で拡
径変形させた後、その拡径変形状態で冷却して、前記既
設管の内側に、その既設管の内径と略同径の外径を備え
た樹脂管を形成し、前記樹脂管と、その樹脂管の外径と
は異なる外径を備えた異径管とを、管接続体で一連に接
続する管接続工法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of expanding a radially-folded thermoplastic resin-made folding tube inserted into an existing tube by using a heated and pressurized fluid supplied into the folding tube. Thereafter, cooling is performed in the expanded and deformed state, and a resin pipe having an outer diameter that is substantially the same as the inner diameter of the existing pipe is formed inside the existing pipe. The present invention relates to a pipe connection method for connecting a different diameter pipe having an outer diameter different from the diameter in a series by a pipe connector.
【0002】[0002]
【従来の技術】従来の管接続工法では、図6に示すよう
に、例えば、既設管Aの内側に形成した樹脂管Bと熱可
塑性樹脂製の異径管Cとを熱可塑性樹脂製の管接続体D
で一連に接続する場合、樹脂管Bの外径に対応する樹脂
管用接続端部20と異径管Cの外径に対応する異径管用
接続端部21とを備えたレジューサなどの管接続体Dを
使用して、樹脂管用接続端部20に樹脂管Aの端部を挿
入して互いに熱融着するとともに、異径管用接続端部2
1に異径管Cの端部を挿入して互いに熱融着して、樹脂
管Bと異径管Cとを管接続体Dで一連に接続している。2. Description of the Related Art In a conventional pipe connection method, as shown in FIG. 6, for example, a resin pipe B formed inside an existing pipe A and a thermoplastic resin different diameter pipe C are formed of a thermoplastic resin pipe. Connection D
, A pipe connector such as a reducer having a resin pipe connection end 20 corresponding to the outer diameter of the resin pipe B and a different diameter pipe connection end 21 corresponding to the outer diameter of the different diameter pipe C. D, the ends of the resin pipes A are inserted into the connection ends 20 for resin pipes, and are thermally fused to each other.
The resin tube B and the different-diameter pipe C are connected in series by a pipe connector D.
【0003】[0003]
【発明が解決しようとする課題】この為、樹脂管の外径
に対応する樹脂管用接続端部と、異径管の外径に対応す
る異径管用接続端部とを備えた管接続体を、樹脂管の外
径や異径管の外径に応じてその都度入手する必要があ
り、接続コストが高くなる欠点がある。本発明は上記実
情に鑑みてなされたものであって、樹脂管と、その樹脂
管の外径と異なる外径の異径管とを安い接続コストで接
続できるようにすることを目的とする。For this reason, a pipe connector having a connecting end for a resin pipe corresponding to the outer diameter of the resin pipe and a connecting end for a different diameter pipe corresponding to the outer diameter of the different diameter pipe is provided. In addition, it is necessary to obtain each time according to the outer diameter of the resin pipe or the outer diameter of the different diameter pipe, and there is a disadvantage that the connection cost is increased. The present invention has been made in view of the above circumstances, and an object of the present invention is to make it possible to connect a resin pipe and a different-diameter pipe having an outer diameter different from the outer diameter of the resin pipe at a low connection cost.
【0004】[0004]
【課題を解決するための手段】請求項1記載の発明の特
徴構成は、既設管内に挿通してある径方向に折り畳み変
形させた熱可塑性樹脂製の折畳み管を、その折畳み管内
に供給した加熱加圧流体で拡径変形させた後、その拡径
変形状態で冷却して、前記既設管の内側に、その既設管
の内径と略同径の外径を備えた樹脂管を形成し、前記樹
脂管と、その樹脂管の外径とは異なる外径を備えた異径
管とを、管接続体で一連に接続する管接続工法であっ
て、前記異径管の外径と略同径の内径を備えた整形用筒
部材を、前記既設管の端部に着脱自在に固定し、前記既
設管と前記筒部材とに亘って挿通した前記折畳み管を前
記加熱加圧流体で拡径変形させた後、その拡径変形状態
で冷却して、前記既設管の内側に前記樹脂管を形成する
とともに、前記筒部材の内側に前記異径管の外径と略同
径の外径を備えた樹脂管接続部を形成し、前記筒部材を
撤去して露出させた前記樹脂管接続部と前記異径管とを
前記管接続体で一連に接続する点にある。 〔作用〕整形用筒部材を既設管の端部に着脱自在に固定
し、折畳み管を既設管と筒部材とに亘って挿通して、加
熱加圧流体で拡径変形させた後、その拡径変形状態で冷
却して、既設管の内側に樹脂管を形成するとともに、筒
部材の内側に異径管の外径と略同径の外径を備えた樹脂
管接続部を形成し、筒部材を撤去して露出させた樹脂管
接続部と異径管とを管接続体で一連に接続する。 〔効果〕樹脂管の外径に対応する樹脂管用接続端部と、
異径管の外径に対応する異径管用接続端部とを備えた管
接続体を、樹脂管の外径や異径管の外径に応じてその都
度入手することなく、既設管の内側の樹脂管に一体形成
した樹脂管接続部と異径管とを管接続体で一連に接続で
きるので、樹脂管と、その樹脂管の外径と異なる外径の
異径管とを安い接続コストで接続できる。A feature of the invention according to claim 1 is that a folding pipe made of a thermoplastic resin, which is inserted into an existing pipe and is radially folded and deformed, is supplied to the inside of the folding pipe. After being expanded and deformed by the pressurized fluid, it is cooled in the expanded and deformed state, and inside the existing pipe, a resin pipe having an outer diameter substantially equal to the inner diameter of the existing pipe is formed. A pipe connection method in which a resin pipe and a different-diameter pipe having an outer diameter different from the outer diameter of the resin pipe are connected in series by a pipe connector, the diameter being substantially the same as the outer diameter of the different-diameter pipe. The shaping tubular member having the inner diameter of the above is detachably fixed to the end of the existing pipe, and the folded pipe inserted through the existing pipe and the tubular member is expanded and deformed by the heated pressurized fluid. Then, cooling is performed in the expanded and deformed state to form the resin pipe inside the existing pipe, and A resin pipe connection portion having an outer diameter substantially the same as the outer diameter of the different diameter pipe is formed inside, and the resin pipe connection portion and the different diameter pipe in which the cylindrical member is removed and exposed are formed. The point is that the pipes are connected in series. [Operation] The shaping tubular member is detachably fixed to the end of the existing pipe, and the folded pipe is inserted through the existing pipe and the tubular member, expanded and deformed by heating and pressurizing fluid, and then expanded. Cooling in the radially deformed state, forming a resin pipe inside the existing pipe, and forming a resin pipe connection portion having an outer diameter substantially equal to the outer diameter of the different diameter pipe inside the cylindrical member, The resin pipe connection part and the different diameter pipe, which are removed by exposing the member, are connected in series by a pipe connection body. [Effect] A resin pipe connection end corresponding to the outer diameter of the resin pipe,
A pipe connector having a connection end for a different diameter pipe corresponding to the outer diameter of a different diameter pipe can be obtained inside the existing pipe without having to obtain it each time according to the outer diameter of the resin pipe or the outer diameter of the different diameter pipe. The resin pipe connection part and the different diameter pipe that are integrally formed on the resin pipe can be connected in series by a pipe connector, so the connection cost between the resin pipe and the different diameter pipe with an outer diameter different from the outer diameter of the resin pipe is low. Can be connected.
【0005】請求項2記載の発明の特徴構成は、前記異
径管が前記樹脂管の外径よりも大径の外径を備えている
点にある。 〔作用〕既設管の内側に形成する樹脂管の外径よりも大
きな内径の整形用筒部材を使用して、樹脂管の外径より
も大きな外径の樹脂管接続部を形成することになるの
で、樹脂管の外径よりも小さな外径の樹脂管接続部を形
成する場合に比べて、樹脂管接続部の外周面に皺寄りが
生じにくい。 〔効果〕樹脂管接続部を筒状の管接続体に挿入して、樹
脂管と異径管とを接続する場合に、樹脂管接続部の外周
面を管接続体の筒状内面に密着させ易く、樹脂管接続部
と管接続体とを流体漏れが生じにくい状態で接続でき
る。A feature of the invention according to claim 2 is that the different diameter pipe has an outer diameter larger than the outer diameter of the resin pipe. [Operation] By using a shaping tubular member having an inner diameter larger than the outer diameter of the resin pipe formed inside the existing pipe, a resin pipe connection portion having an outer diameter larger than the outer diameter of the resin pipe is formed. Therefore, wrinkling is less likely to occur on the outer peripheral surface of the resin pipe connection portion than when a resin pipe connection portion having an outer diameter smaller than the outer diameter of the resin pipe is formed. [Effect] When the resin pipe connecting portion is inserted into the tubular pipe connecting body and the resin pipe is connected to the different diameter pipe, the outer peripheral surface of the resin pipe connecting portion is brought into close contact with the cylindrical inner surface of the pipe connecting body. It is easy to connect the resin pipe connection part and the pipe connection body in a state where fluid leakage hardly occurs.
【0006】請求項3記載の発明の特徴構成は、前記折
畳み管を拡径変形状態で冷却して形成したあとの樹脂管
接続部の内側に硬質の筒体を嵌合する点にある。 〔作用〕折畳み管を拡径変形状態で冷却して形成した樹
脂管接続部の径方向での収縮を、その内側に嵌合した筒
体で規制できる。 〔効果〕樹脂管接続部を、異径管の外径と略同径の外径
に精度良く形成できる。A characteristic feature of the invention according to claim 3 is that a hard cylinder is fitted inside the resin pipe connecting portion after the folded pipe is formed by cooling in a state of being expanded and deformed. [Operation] The radial contraction of the resin pipe connecting portion formed by cooling the folded pipe in the expanded and deformed state can be restricted by the cylindrical body fitted inside. [Effect] It is possible to accurately form the resin pipe connecting portion with an outer diameter substantially equal to the outer diameter of the different diameter pipe.
【0007】[0007]
【発明の実施の形態】以下に本発明の実施の形態を図面
に基づいて説明する。尚、図面において従来例と同一の
符号で表示した部分は、同一又は相当の部分を示してい
る。図1は、地中に埋設してある鋳鉄製のガス供給用配
管(以下、既設管という)Aの内側に、その既設管Aの内
径と略同径の外径を備えたポリエチレン樹脂(熱可塑性
樹脂の一例)製の樹脂管Bを設け、その樹脂管Bと、既
設管Aの外径よりも大きな外径を備えたポリエチレン樹
脂(熱可塑性樹脂の一例)製の新設の異径管Cとを、管接
続体としての筒状の管継手Dで同芯状の一連に連通接続
してある管接続構造を示す。前記樹脂管Bは、古くなっ
た既設管Aを更新する為にその内側に形成したもので、
異径管Cの外径と略同径の外径を備えた樹脂管接続部E
を、既設管Aの端部から露出させて、樹脂管Bの端部に
一体形成し、その樹脂管接続部Eを管継手Dの一端側に
同芯状に挿入して、管継手Dに接続してある。Embodiments of the present invention will be described below with reference to the drawings. In the drawings, portions denoted by the same reference numerals as those of the conventional example indicate the same or corresponding portions. FIG. 1 shows a polyethylene resin having a substantially same outer diameter as the existing pipe A inside a cast iron gas supply pipe (hereinafter referred to as an existing pipe) A buried underground. A resin tube B made of a plastic resin) is provided, and the resin tube B and a newly formed pipe C made of a polyethylene resin (an example of a thermoplastic resin) having an outer diameter larger than that of the existing tube A are provided. And a pipe connection structure in which a pipe connection D as a pipe connection body is connected and connected in a concentric series. The resin pipe B is formed inside the old pipe A to replace the old pipe A.
A resin pipe connection portion E having an outer diameter substantially the same as the outer diameter of the different diameter pipe C
Is exposed from the end of the existing pipe A, is integrally formed with the end of the resin pipe B, and the resin pipe connection portion E is coaxially inserted into one end of the pipe joint D, and is connected to the pipe joint D. Connected.
【0008】前記管継手Dは、樹脂管Bと異径管Cとに
対して熱融着自在なポリエチレン樹脂(熱可塑性樹脂の
一例)で、樹脂管接続部Eの外周面と異径管Cの外周面
とに同芯状に外嵌するように密着する密着面1を備えた
継手接続部2を左右に一体成形した筒状に形成してあ
り、各密着面1毎に対応して電熱体としての電熱線3を
その密着面1近くに沿って埋設してある。そして、各密
着面1毎に対応する電熱線3どうしを直列に接続して、
これらの電熱線3に対する通電用の端子3aを継手接続
部2の外周側に突設し、電熱線3への通電で発生するジ
ュール熱で対応する密着面1を加熱して、樹脂管接続部
Eの外周面と異径管Cの外周面とに全周に亘って熱融着
してある。The pipe joint D is made of a polyethylene resin (an example of a thermoplastic resin) which can be thermally fused to the resin pipe B and the different diameter pipe C. A joint connecting portion 2 provided with a contact surface 1 that is closely fitted to the outer peripheral surface of the joint so as to be fitted in a concentric manner is formed into a tubular shape integrally formed on the left and right sides. A heating wire 3 as a body is buried near the contact surface 1. Then, the heating wires 3 corresponding to each of the contact surfaces 1 are connected in series,
Terminals 3a for supplying electricity to these heating wires 3 are protrudingly provided on the outer peripheral side of the joint connection portion 2, and the corresponding contact surface 1 is heated by Joule heat generated when the heating wire 3 is supplied with electricity. The outer peripheral surface of E and the outer peripheral surface of the different diameter tube C are heat-sealed over the entire circumference.
【0009】以下、前記樹脂管Bと異径管Cとを管継手
Dで同芯状に連通接続する管接続工法を、図2〜図5を
参照しながら説明する。図3(イ)に示すように、既設管
Aの途中箇所に発進ピットF1を掘削し、既設管Aの終
端箇所に到達ピットF2を掘削して、各ピットF1,F
2内の既設管Aを開口させ、到達ピットF2内に開口す
る既設管Aの端部に、異径管Cの外径と略同径の内径を
備えた鋼製の整形用筒部材4をボルト5で着脱自在に同
芯状に固定する。前記筒部材4は、図2(イ),(ロ)に示
すように、連結用フランジ6を周方向両端部に備えた2
個の半割筒部材7をボルト・ナット8で着脱自在に筒状
に連結して構成してあり、各半割筒部材7の筒軸方向一
端部に筒周方向と筒軸方向とに間隔を隔てて螺合した複
数のボルト5の先端を既設管Aの外周面に押し付けて、
その既設管Aに同芯状に固定するようにしてある。Hereinafter, a pipe connection method for concentrically connecting the resin pipe B and the different-diameter pipe C with a pipe joint D will be described with reference to FIGS. As shown in FIG. 3 (a), a starting pit F1 is excavated at an intermediate position of the existing pipe A, and a reaching pit F2 is excavated at an end point of the existing pipe A, and the pits F1, F
2, a steel shaping tubular member 4 having an inner diameter substantially the same as the outer diameter of the different-diameter pipe C is attached to the end of the existing pipe A that opens into the arrival pit F2. It is detachably fixed concentrically with bolts 5. As shown in FIGS. 2A and 2B, the cylindrical member 4 has connecting flanges 6 at both ends in the circumferential direction.
The half cylinder members 7 are detachably connected to each other by bolts and nuts 8 in the form of a cylinder, and one half of each half cylinder member 7 in the cylinder axis direction has an interval in the cylinder circumferential direction and the cylinder axis direction. By pressing the tips of the plurality of bolts 5 screwed across the outer tube A to the outer peripheral surface of the existing pipe A,
It is fixed to the existing pipe A concentrically.
【0010】次に、図3(ロ)に示すように、発進ピット
F1の入り口近くに、径方向に折り畳み変形させたポリ
エチレン樹脂(熱可塑性樹脂の一例)製の折畳み管9を巻
き取ってあるドラム10と、その折畳み管9の巻き取り
側基部から、折畳み管9の内側に、スチーム供給管11
を通して加熱加圧流体の一例としての加熱加圧蒸気を供
給するボイラ12とを待機させるとともに、到達ピット
F2の入り口近くに、ウインチ13を待機させ、既設管
Aと筒部材4とに亘って挿通した牽引用のワイヤWの一
端側を折畳み管9の繰り出し端部に連結し、他端側をウ
インチ13に連結しておく。尚、折畳み管9の繰り出し
側端部は予め密閉してある。前記折畳み管9は、既設管
Aの内径と略同径の外径を備えたポリエチレン樹脂製の
樹脂管を一旦成形してから、その樹脂管を加熱軟化させ
て横断面形状がハート形になるように径方向に折り畳み
変形させてある。Next, as shown in FIG. 3B, a folding tube 9 made of a polyethylene resin (an example of a thermoplastic resin) that has been folded and deformed in the radial direction is wound near the entrance of the starting pit F1. From the drum 10 and the winding side base of the folding tube 9, a steam supply pipe 11 is inserted inside the folding tube 9.
And a boiler 12 that supplies heated and pressurized steam as an example of a heated and pressurized fluid, and a winch 13 near the entrance of the arrival pit F2, and is inserted between the existing pipe A and the tubular member 4. One end of the towed wire W is connected to the feeding end of the folded tube 9, and the other end is connected to the winch 13. The end of the folding tube 9 on the feeding side is sealed in advance. The folded pipe 9 is formed by temporarily molding a resin pipe made of polyethylene resin having an outer diameter substantially the same as the inner diameter of the existing pipe A, and then heating and softening the resin pipe to form a heart-shaped cross section. It is folded and deformed in the radial direction.
【0011】次に、ドラム10に巻き取ってある折畳み
管9内に加熱蒸気を送り込んで、その折畳み管9が軟化
するまで加熱した後、ウインチ13を駆動して、その軟
化した折畳み管9をワイヤWで既設管A内に引き込み、
図4(ハ)に示すように、既設管Aと筒部材4とに亘って
挿通する。次に、折畳み管9の発進ピットF1側を切断
して、その切断端部をバーナ等で加熱して軟化させなが
ら拡径治具で拡径変形させ、図4(ニ)に示すように、ス
チーム供給管14を接続したゴム製の塞ぎ部材15を装
着して、そのスチーム供給管14で折畳み管9内に加熱
加圧蒸気を供給し、折畳み管9を既設管Aの内周面に沿
うように膨らませて拡径変形させた後、その拡径変形状
態で冷却させて、既設管Aの内周面に沿う形状の樹脂管
Bを既設管Aの内側に形成するとともに、異径管Cの外
径と略同径の外径を備えた樹脂管接続部Eを筒部材4の
内側に形成する。従って、樹脂管接続部Eは、折畳み管
9をその外径が折り畳み変形前の樹脂管の外径よりも大
きくなるように強制的に膨らまして形成してある。Next, heating steam is fed into the folded tube 9 wound around the drum 10 and heated until the folded tube 9 is softened. Then, the winch 13 is driven to remove the softened folded tube 9. Wire W is pulled into existing pipe A,
As shown in FIG. 4 (c), it is inserted over the existing pipe A and the tubular member 4. Next, the starting pit F1 side of the folding tube 9 is cut, and the cut end is heated and softened by a burner or the like and expanded and deformed by a diameter expanding jig. As shown in FIG. A rubber closing member 15 to which the steam supply pipe 14 is connected is mounted, and the pressurized steam is supplied into the folded pipe 9 by the steam supply pipe 14 so that the folded pipe 9 follows the inner peripheral surface of the existing pipe A. After expanding and deforming the pipe, the resin is cooled in the expanded and deformed state to form the resin pipe B along the inner peripheral surface of the existing pipe A inside the existing pipe A, A resin tube connecting portion E having an outer diameter substantially equal to the outer diameter of the cylindrical member is formed inside the tubular member 4. Therefore, the resin tube connecting portion E is formed by forcibly expanding the folded tube 9 so that the outer diameter thereof becomes larger than the outer diameter of the resin tube before the folding deformation.
【0012】そして、筒部材4を撤去して、図5(イ)に
示すように、樹脂管接続部Eを露出させるとともに不要
部分を切除して、硬質の筒体としての鋼製筒体16を樹
脂管接続部Eの内側に嵌合する。前記筒体16は、樹脂
管接続部Eの内側に嵌合する筒部17と、樹脂管接続部
Eの端面に接当する鍔部18とを備え、鍔部18は樹脂
管接続部Eの厚みより狭い幅で環状に形成してある。Then, the tubular member 4 is removed, and as shown in FIG. 5 (a), the resin pipe connecting portion E is exposed and unnecessary portions are cut off to form a steel tubular body 16 as a hard tubular body. Is fitted inside the resin pipe connection portion E. The tubular body 16 includes a tubular portion 17 fitted inside the resin tube connecting portion E, and a flange portion 18 in contact with an end surface of the resin tube connecting portion E. It is formed in an annular shape with a width smaller than the thickness.
【0013】次に、既設管Aの到達ピットF2側前方を
開削して、異径管Cを樹脂管接続部Eと同芯状に新たに
埋設し、図5(ロ)に示すように、その異径管Cに予め挿
通してある管継手Dをスライド移動させて、樹脂管接続
部Eと異径管Cとに跨るように外嵌する。尚、異径管C
の端部内側にも、樹脂管接続部Eと同様に、筒体16を
嵌合しておく。次に、所定時間に亘る電熱線3への通電
で、各密着面1を樹脂管接続部Eの外周面と異径管Cの
外周面と共に加熱して、管継手Dの各密着面1を樹脂管
接続部Eの外周面と異径管Cの外周面とに気密に熱融着
する。Next, the front of the arrival pit F2 of the existing pipe A is cut and cut, and a different-diameter pipe C is newly buried concentrically with the resin pipe connection portion E, as shown in FIG. The pipe joint D previously inserted through the different diameter pipe C is slid and fitted so as to straddle the resin pipe connecting portion E and the different diameter pipe C. In addition, different diameter pipe C
The tubular body 16 is fitted to the inner side of the end portion, similarly to the resin pipe connection portion E. Next, by energizing the heating wire 3 for a predetermined time, each of the contact surfaces 1 is heated together with the outer peripheral surface of the resin pipe connection portion E and the outer peripheral surface of the different-diameter tube C, and the respective adhesive surfaces 1 of the pipe joint D are heated. The outer peripheral surface of the resin pipe connection portion E and the outer peripheral surface of the different-diameter tube C are heat-sealed airtightly.
【0014】このとき、樹脂管接続部Eと異径管Cとが
加熱されて変形し易くなり、かつ、冷却時に径方向に収
縮変形し易くなるが、樹脂管接続部Eの内側にも、異径
管Cの端部内側にも、筒体16を嵌合してあるので、樹
脂管接続部Eも異径管Cも変形しにくく、全周に亘って
確実に熱融着することができる。そして、その後、融着
部を自然冷却して、図1に示したように、樹脂管Bと異
径管Cとを管継手Dで同芯状の一連に連通接続する。At this time, the resin pipe connection portion E and the different-diameter pipe C are easily heated and deformed, and are easily shrunk and deformed in the radial direction during cooling. Since the cylindrical body 16 is also fitted to the inside of the end of the different-diameter pipe C, both the resin pipe connecting portion E and the different-diameter pipe C are hardly deformed, so that the heat welding can be reliably performed over the entire circumference. it can. Then, the fused portion is naturally cooled, and the resin pipe B and the different-diameter pipe C are connected in series in a concentric manner by a pipe joint D as shown in FIG.
【0015】〔その他の実施形態〕 1.本発明による管接続工法は、繊維などで補強してあ
る折畳み管を使用しても良い。 2.本発明による管接続工法は、樹脂管接続部と異径管
とを、管接続体としてのバルブで一連に接続しても良
い。 3.本発明による管接続工法は、樹脂管接続部と金属製
異径管とを管接続体で一連に接続しても良い。 4.本発明による管接続工法は、既設管の内側に形成し
た樹脂管の外径よりも小径の外径を備えた樹脂管接続部
を形成して、その樹脂管接続部と樹脂管の外径よりも小
径の外径を備えた異径管とを管接続体で一連に接続して
も良い。 5.本発明による管接続工法は、折畳み管を既設管の端
部から突出するように挿入してから、その突出部に整形
用筒部材を装着して、折畳み管を既設管と筒部材とに亘
って挿通するようにしても良い。 6.本発明による管接続工法は、既設管として、ガス供
給用配管だけでなく、既設の水道管や下水道管の内側に
形成した樹脂管と、それら既設管の外径とは異なる外径
を備えた異径管とを、管接続体で一連に接続しても良
い。 7.本発明による管接続工法は、ポリエチレン樹脂以外
の塩化ビニル樹脂等の熱可塑性樹脂製の折畳み管を使用
しても良い。[Other Embodiments] The pipe connection method according to the present invention may use a folded pipe reinforced with fibers or the like. 2. In the pipe connection method according to the present invention, the resin pipe connection portion and the different diameter pipe may be connected in series by a valve as a pipe connection body. 3. In the pipe connection method according to the present invention, the resin pipe connection portion and the metal different-diameter pipe may be connected in series by a pipe connection body. 4. The pipe connecting method according to the present invention forms a resin pipe connecting portion having an outer diameter smaller than the outer diameter of the resin pipe formed inside the existing pipe, and calculates the resin pipe connecting portion and the outer diameter of the resin pipe. May be connected in series with a different diameter pipe having a smaller outer diameter by a pipe connector. 5. In the pipe connection method according to the present invention, a folding pipe is inserted so as to protrude from an end of an existing pipe, and a shaping tubular member is attached to the protruding portion, so that the folding pipe extends over the existing pipe and the tubular member. May be inserted. 6. The pipe connection method according to the present invention includes, as an existing pipe, not only a gas supply pipe, but also a resin pipe formed inside an existing water pipe or a sewer pipe, and an outer diameter different from the outer diameter of the existing pipe. The different diameter pipes may be connected in series by a pipe connector. 7. The pipe connection method according to the present invention may use a folded tube made of a thermoplastic resin such as a vinyl chloride resin other than the polyethylene resin.
【図1】管接続構造を示す縦断面図FIG. 1 is a longitudinal sectional view showing a pipe connection structure.
【図2】要部の縦断面図(イ)と正面図(ロ)FIG. 2 is a longitudinal sectional view (a) and a front view (b) of a main part.
【図3】管接続工法の説明図FIG. 3 is an explanatory view of a pipe connection method.
【図4】管接続工法の説明図FIG. 4 is an explanatory view of a pipe connection method.
【図5】管接続工法の説明図FIG. 5 is an explanatory view of a pipe connection method.
【図6】従来の管接続工法の説明図FIG. 6 is an explanatory view of a conventional pipe connection method.
4 筒部材 9 折畳み管 16 筒体 A 既設管 B 樹脂管 C 異径管 D 管接続体 E 樹脂管接続部 4 Tube member 9 Folded tube 16 Tube A A Existing tube B Resin tube C Different diameter tube D Pipe connection E Resin pipe connection
Claims (3)
み変形させた熱可塑性樹脂製の折畳み管を、その折畳み
管内に供給した加熱加圧流体で拡径変形させた後、その
拡径変形状態で冷却して、前記既設管の内側に、その既
設管の内径と略同径の外径を備えた樹脂管を形成し、 前記樹脂管と、その樹脂管の外径とは異なる外径を備え
た異径管とを、管接続体で一連に接続する管接続工法で
あって、 前記異径管の外径と略同径の内径を備えた整形用筒部材
を、前記既設管の端部に着脱自在に固定し、 前記既設管と前記筒部材とに亘って挿通した前記折畳み
管を前記加熱加圧流体で拡径変形させた後、その拡径変
形状態で冷却して、前記既設管の内側に前記樹脂管を形
成するとともに、前記筒部材の内側に前記異径管の外径
と略同径の外径を備えた樹脂管接続部を形成し、 前記筒部材を撤去して露出させた前記樹脂管接続部と前
記異径管とを前記管接続体で一連に接続する管接続工
法。1. A radially folded thermoplastic resin-made folding tube inserted through an existing tube is expanded and deformed by a heated and pressurized fluid supplied into the folded tube, and then expanded. Cooling in a state, forming a resin pipe having an outer diameter substantially the same as the inner diameter of the existing pipe inside the existing pipe, wherein the outer diameter of the resin pipe is different from the outer diameter of the resin pipe. A pipe connecting method for connecting a series of different diameter pipes with a pipe connector, wherein a shaping tubular member having an inner diameter substantially the same as the outer diameter of the different diameter pipe, After being fixed to an end portion in a detachable manner, the folded pipe inserted through the existing pipe and the tubular member is expanded and deformed by the heating and pressurized fluid, and then cooled in the expanded and deformed state. The resin pipe is formed inside an existing pipe, and the outside diameter of the different diameter pipe is substantially the same as the outside diameter of the different diameter pipe inside the cylindrical member. A pipe connection method in which a resin pipe connection part is formed, and the resin pipe connection part and the different diameter pipe, which are exposed by removing the tubular member, are connected in series by the pipe connection body.
径の外径を備えている請求項1記載の管接続工法。2. The pipe connection method according to claim 1, wherein the different diameter pipe has an outer diameter larger than an outer diameter of the resin pipe.
形成したあとの樹脂管接続部の内側に硬質の筒体を嵌合
する請求項1又は2記載の管接続工法。3. The pipe connecting method according to claim 1, wherein a hard cylinder is fitted inside the resin pipe connecting portion after the folded pipe is formed by cooling in an expanded deformation state.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP29338399A JP2001116168A (en) | 1999-10-15 | 1999-10-15 | Construction method for connecting pipe |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP29338399A JP2001116168A (en) | 1999-10-15 | 1999-10-15 | Construction method for connecting pipe |
Publications (1)
Publication Number | Publication Date |
---|---|
JP2001116168A true JP2001116168A (en) | 2001-04-27 |
Family
ID=17794070
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP29338399A Pending JP2001116168A (en) | 1999-10-15 | 1999-10-15 | Construction method for connecting pipe |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2001116168A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2006046592A (en) * | 2004-08-06 | 2006-02-16 | Sekisui Chem Co Ltd | Duct line renovating connecting method and sealing unit used in the same |
KR100945378B1 (en) | 2008-09-30 | 2010-03-08 | 창원대학교 산학협력단 | Device for shrink-fit using the hydrostatic effect |
JP2015190486A (en) * | 2014-03-27 | 2015-11-02 | 積水化学工業株式会社 | Pipe connection method |
-
1999
- 1999-10-15 JP JP29338399A patent/JP2001116168A/en active Pending
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2006046592A (en) * | 2004-08-06 | 2006-02-16 | Sekisui Chem Co Ltd | Duct line renovating connecting method and sealing unit used in the same |
JP4603312B2 (en) * | 2004-08-06 | 2010-12-22 | 積水化学工業株式会社 | Sealing unit used for pipe rehabilitation connection method |
KR100945378B1 (en) | 2008-09-30 | 2010-03-08 | 창원대학교 산학협력단 | Device for shrink-fit using the hydrostatic effect |
JP2015190486A (en) * | 2014-03-27 | 2015-11-02 | 積水化学工業株式会社 | Pipe connection method |
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