JPH0115988Y2 - - Google Patents

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Publication number
JPH0115988Y2
JPH0115988Y2 JP2227084U JP2227084U JPH0115988Y2 JP H0115988 Y2 JPH0115988 Y2 JP H0115988Y2 JP 2227084 U JP2227084 U JP 2227084U JP 2227084 U JP2227084 U JP 2227084U JP H0115988 Y2 JPH0115988 Y2 JP H0115988Y2
Authority
JP
Japan
Prior art keywords
socket
composite pipe
wall thickness
spigot
fiber
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.)
Expired
Application number
JP2227084U
Other languages
Japanese (ja)
Other versions
JPS60133288U (en
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed filed Critical
Priority to JP2227084U priority Critical patent/JPS60133288U/en
Publication of JPS60133288U publication Critical patent/JPS60133288U/en
Application granted granted Critical
Publication of JPH0115988Y2 publication Critical patent/JPH0115988Y2/ja
Granted legal-status Critical Current

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Description

【考案の詳細な説明】 本考案は複合管の連結部構造に関するものであ
る。
[Detailed Description of the Invention] The present invention relates to a joint structure of a composite pipe.

例えば送電ケーブルなどを保護する複合管は、
その一端に形成した受け口に他端の差し口を差し
込むという連結部構造を利用して直線状に配設さ
れる。ところで地震などにより地盤にき裂が発生
したとき、前記複合管群に剪断力や引張り力が作
用する。その際に剪断力には充分耐えるが、引張
り力には特に連結部構造において弱い。すなわち
連結部に例えば鋸歯状係合などの係合構造を採用
していたとしても、引張りと同時に発生する曲げ
によつて受け口や差し口に径変化が生じることか
ら、該係合構造が簡単に外れてしまう。
For example, composite pipes that protect power transmission cables, etc.
It is arranged in a straight line using a connection structure in which a socket at one end is inserted into a socket at the other end. By the way, when a crack occurs in the ground due to an earthquake or the like, shearing force or tensile force acts on the composite pipe group. In this case, it can withstand shearing forces well, but it is weak against tensile forces, especially in the connecting part structure. In other words, even if an engagement structure such as a serrated engagement is adopted for the connection part, the diameter change will occur in the receptacle or spigot due to the bending that occurs at the same time as tension, so the engagement structure can be easily changed. It will come off.

本考案の目的とするところは、引張り力や曲げ
力に充分に耐えて常に連結状態を維持し得る複合
管の連結部構造を提供する点にある。
An object of the present invention is to provide a joint structure for composite pipes that can sufficiently withstand tensile force and bending force and always maintain a connected state.

上記目的を達成するために本考案における複合
管の連結部構造は、複合管の一端に繊維強化樹脂
製の受け口を形成すると共に、他端に繊維強化樹
脂製の差し口を形成し、この差し口の外端外面に
Oリングを配設し、そして受け口の内面と差し口
の外面とに夫々環状凹部を形成すると共に、これ
ら凹部間に亘つて、内側リング部と外側リング部
とを連結一体化した断面V状の環状ばね材を、そ
の連結部が差し口において外端側に位置すべく配
設し、複合管の胴部肉厚に対して、差し口部の肉
厚ならびに受け口の肉厚を大に設定して構成して
いる。
In order to achieve the above object, the joint structure of the composite pipe in the present invention is such that a fiber-reinforced resin socket is formed at one end of the composite pipe, and a fiber-reinforced resin socket is formed at the other end. An O-ring is disposed on the outer surface of the outer end of the spout, and annular recesses are formed on the inner surface of the receptacle and the outer surface of the spigot, respectively, and the inner ring part and the outer ring part are connected and integrated between these recesses. An annular spring material with a V-shaped cross section is arranged so that its connection part is located on the outer end side of the spigot, and the thickness of the spigot part and the thickness of the socket are smaller than the body thickness of the composite pipe. The thickness is set to large.

かかる本考案構成によると、受け口ならびに差
し口が繊維強化樹脂製であることと、これらの肉
厚が胴部肉厚よりも大であることとにより、該受
け口ならびに差し口が径変化することを阻止し
得、以つて環状ばね材を介しての連結を、引張り
力や曲げ力が作用したとしても確実に維持し得
る。
According to the configuration of the present invention, since the socket and the spigot are made of fiber-reinforced resin and their wall thickness is larger than the thickness of the body, it is possible to prevent the socket and the spigot from changing in diameter. Thus, the connection via the annular spring member can be reliably maintained even when tensile forces or bending forces are applied.

以下に本考案の一実施例を図面に基づいて説明
する。1は複合管で、繊維強化樹脂外層2とモル
タル中間層3と繊維強化樹脂内層4との積層体に
より構成される。この複合管1の一端には、前記
外層2と同質の繊維強化樹脂製の受け口5が形成
され、また他端にも外層2と同質の繊維強化樹脂
製の差し口6が盛り上がり状に形成されている。
なお差し口6を形成するに際し、ガラス短繊維
(チヨツプドストランド)を混入し、そしてナイ
ロン、ポリエチレン、モルタルなどを任意の混入
したものを外層2上に積層してもよい。ここで複
合管1の胴部肉厚T1に対して、差し口6部の肉
厚T2ならびに受け口5の肉厚T3を大に、すなわ
ちT1<T2≒T3に設定してある。前記差し口6の
先端外面には、環状凹部7を介してOリング8が
配設され、このOリング8はシールの役目を成
す。さらに差し口6のOリング8を配設した位置
よりも内方には、その外面に所定間隔を置いた状
態で2条の環状凹部9が形成され、そして両環状
凹部9に対向するように、受け口5の内面には2
条の環状凹部10が形成されている。相対向する
環状凹部9,10間に亘つて、ナイロンやポリエ
チレンなどからなる環状ばね材11が配設してあ
る。この環状ばね材11は、内側リング部11A
と外側リング部11Bとを連結一体化した断面V
状であつて、その外側リング部11Bはスリツト
12によつて周方向において複数に分割してあ
る。そして環状ばね材11は、その連結部11C
が差し口6において外端側に位置すべく、さらに
内側リング部11Aが環状凹部9内に嵌入すると
共に、外側リング部11Bが環状凹部10内に嵌
入する状態で配設される。
An embodiment of the present invention will be described below based on the drawings. Reference numeral 1 denotes a composite pipe, which is composed of a laminate of a fiber-reinforced resin outer layer 2, a mortar intermediate layer 3, and a fiber-reinforced resin inner layer 4. A socket 5 made of fiber-reinforced resin of the same quality as the outer layer 2 is formed at one end of the composite pipe 1, and a raised socket 6 made of fiber-reinforced resin of the same quality as the outer layer 2 is formed at the other end. ing.
Note that when forming the spout 6, short glass fibers (chopped strands) may be mixed therein, and a mixture of nylon, polyethylene, mortar, etc. may be laminated on the outer layer 2. Here, with respect to the body wall thickness T 1 of the composite pipe 1, the wall thickness T 2 of the spigot 6 and the wall thickness T 3 of the socket 5 are set to be large, that is, T 1 < T 2 ≒ T 3 . be. An O-ring 8 is disposed on the outer surface of the tip of the spigot 6 via an annular recess 7, and this O-ring 8 serves as a seal. Furthermore, two annular recesses 9 are formed on the outer surface of the spigot 6 at a predetermined distance apart from the position where the O-ring 8 is disposed, and the two annular recesses 9 are opposed to each other. , 2 on the inner surface of socket 5
A striped annular recess 10 is formed. An annular spring material 11 made of nylon, polyethylene, etc. is disposed between the opposing annular recesses 9 and 10. This annular spring material 11 has an inner ring portion 11A.
A cross section V in which the outer ring portion 11B and the outer ring portion 11B are connected and integrated.
The outer ring portion 11B is divided into a plurality of parts by slits 12 in the circumferential direction. The annular spring material 11 has a connecting portion 11C.
Further, the inner ring portion 11A is fitted into the annular recess 9, and the outer ring portion 11B is fitted into the annular recess 10 so that the inner ring portion 11A is positioned on the outer end side of the spigot 6.

2本の複合管1の連結を行なうに際して、先ず
差し口6の環状凹部7にOリング8を配設すると
共に、両環状凹部9,9に夫々環状ばね材11を
配設する。その際に環状ばね材11の配設は、第
2図実線で示すテープ状のものを、第2図仮想線
に示すように環状凹部9内に巻回しながら行な
う。その後において、差し口6を受け口5内に差
し込むのであるが、差し込みは外側リング部11
Bが弾性変形することから容易に行なわれ、また
完全に差し込んだ状態において外側リング部11
Bは弾性復帰して環状凹部10に係合する。この
ような連結状態において両複合管1間に引張り力
や曲げ力が作用したとき、胴部肉厚T1に対して
差し口6部の肉厚T2や受け口5の肉厚T3が大で
あることから、胴部に伸びや曲げが生じたとして
も差し口6や受け口5には発生せず、したがつて
環状ばね材11を介しての連結(係合)は維持さ
れる。
When connecting the two composite pipes 1, first an O-ring 8 is placed in the annular recess 7 of the spigot 6, and annular spring members 11 are placed in both the annular recesses 9, 9, respectively. At this time, the annular spring material 11 is disposed by winding a tape-shaped material shown by solid lines in FIG. 2 into the annular recess 9 as shown by phantom lines in FIG. After that, the socket 6 is inserted into the socket 5, but the insertion is done through the outer ring part 11.
This is easy because B is elastically deformed, and the outer ring portion 11 is fully inserted.
B elastically returns to engage with the annular recess 10. When tensile force or bending force is applied between both composite pipes 1 in such a connected state, the wall thickness T 2 of the spigot 6 and the wall thickness T 3 of the socket 5 are larger than the body wall thickness T 1 . Therefore, even if the body section is stretched or bent, it will not occur at the socket 6 or the socket 5, and therefore the connection (engagement) via the annular spring material 11 will be maintained.

上記構成の本考案における複合管の連結部構造
によると、受け口ならびに差し口が繊維強化樹脂
製であることと、これら受け口ならびに差し口の
肉厚が胴部肉厚よりも大であることとにより、複
合管に引張り力や曲げ力が作用したとき、胴部に
伸びや曲げが生じるが受け口や差し口は何んら変
化せず、したがつて環状ばね材を介しての連結は
確実に行なうことができる。これにより地震など
に強い連結部構造を提供できる。
According to the composite pipe connection structure of the present invention having the above configuration, the socket and the spigot are made of fiber-reinforced resin, and the wall thickness of the socket and the spigot is larger than the thickness of the body. When tensile force or bending force is applied to the composite pipe, the body stretches or bends, but the socket and spigot do not change at all, so the connection via the annular spring material is ensured. be able to. This makes it possible to provide a connection structure that is strong against earthquakes.

【図面の簡単な説明】[Brief explanation of the drawing]

図面は本考案の一実施例を示し、第1図は要部
の縦断側面図、第2図は環状ばね材の説明図であ
る。 1……複合管、2……繊維強化樹脂外層、3…
…モルタル中間層、4……繊維強化樹脂内層、5
……受け口、6……差し口、7……環状凹部、8
……Oリング、9,10……環状凹部、11……
環状ばね材、11A……内側リング部、11B…
…外側リング部、11C……連結部、12……ス
リツト。
The drawings show an embodiment of the present invention, with FIG. 1 being a longitudinal cross-sectional side view of the main parts, and FIG. 2 being an explanatory diagram of an annular spring member. 1... Composite pipe, 2... Fiber reinforced resin outer layer, 3...
... Mortar intermediate layer, 4 ... Fiber reinforced resin inner layer, 5
...Socket, 6...Socket, 7...Annular recess, 8
... O-ring, 9, 10 ... Annular recess, 11 ...
Annular spring material, 11A...Inner ring part, 11B...
...outer ring part, 11C...connecting part, 12...slit.

Claims (1)

【実用新案登録請求の範囲】[Scope of utility model registration request] 複合管の一端に繊維強化樹脂製の受け口を形成
すると共に、他端に繊維強化樹脂製の差し口を形
成し、この差し口の外端外面にOリングを配設
し、そして受け口の内面と差し口の外面とに夫々
環状凹部を形成すると共に、これら凹部間に亘つ
て、内側リング部と外側リング部とを連結一体化
した断面V状の環状ばね材を、その連結部が差し
口において外端側に位置すべく配設し、複合管の
胴部肉厚に対して、差し口部の肉厚ならびに受け
口の肉厚を大に設定したことを特徴とする複合管
の連結部構造。
A socket made of fiber-reinforced resin is formed at one end of the composite pipe, and a socket made of fiber-reinforced resin is formed at the other end, an O-ring is arranged on the outer surface of the outer end of the socket, and An annular recess is formed on the outer surface of the spout, and an annular spring member with a V-shaped cross section is connected and integrated between the inner ring part and the outer ring part between these recesses, and the connecting part is placed on the spout. A joint structure for a composite pipe, which is arranged to be located on the outer end side, and is characterized in that the wall thickness of the spout part and the wall thickness of the socket are set larger than the wall thickness of the body part of the composite pipe.
JP2227084U 1984-02-17 1984-02-17 Composite pipe connection structure Granted JPS60133288U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2227084U JPS60133288U (en) 1984-02-17 1984-02-17 Composite pipe connection structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2227084U JPS60133288U (en) 1984-02-17 1984-02-17 Composite pipe connection structure

Publications (2)

Publication Number Publication Date
JPS60133288U JPS60133288U (en) 1985-09-05
JPH0115988Y2 true JPH0115988Y2 (en) 1989-05-11

Family

ID=30514411

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2227084U Granted JPS60133288U (en) 1984-02-17 1984-02-17 Composite pipe connection structure

Country Status (1)

Country Link
JP (1) JPS60133288U (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0759385B2 (en) * 1989-01-24 1995-06-28 積水化学工業株式会社 Method for manufacturing resin composite pipe with socket

Also Published As

Publication number Publication date
JPS60133288U (en) 1985-09-05

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