JP2011153704A - Sealing material with separation preventing function and separation-preventing pipe fitting - Google Patents

Sealing material with separation preventing function and separation-preventing pipe fitting Download PDF

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JP2011153704A
JP2011153704A JP2010101568A JP2010101568A JP2011153704A JP 2011153704 A JP2011153704 A JP 2011153704A JP 2010101568 A JP2010101568 A JP 2010101568A JP 2010101568 A JP2010101568 A JP 2010101568A JP 2011153704 A JP2011153704 A JP 2011153704A
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sealing material
claw
insertion port
peripheral surface
outer peripheral
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JP5489843B2 (en
Inventor
Keita Kaneko
啓太 兼子
Takatoshi Ochi
孝敏 越智
Hisashi Ikuno
寿 行野
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Kubota Corp
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Kubota Corp
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Priority to JP2010101568A priority Critical patent/JP5489843B2/en
Priority to PCT/JP2010/061003 priority patent/WO2011043113A1/en
Priority to CN201080044882.1A priority patent/CN102575799B/en
Priority to SA110310750A priority patent/SA110310750B1/en
Publication of JP2011153704A publication Critical patent/JP2011153704A/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16LPIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
    • F16L37/00Couplings of the quick-acting type
    • F16L37/08Couplings of the quick-acting type in which the connection between abutting or axially overlapping ends is maintained by locking members
    • F16L37/084Couplings of the quick-acting type in which the connection between abutting or axially overlapping ends is maintained by locking members combined with automatic locking
    • F16L37/0845Couplings of the quick-acting type in which the connection between abutting or axially overlapping ends is maintained by locking members combined with automatic locking by means of retaining members associated with the packing member

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Quick-Acting Or Multi-Walled Pipe Joints (AREA)
  • Joints With Sleeves (AREA)
  • Joints Allowing Movement (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sealing material with separation preventing function capable of conducting the pipe joining work easily and quickly, and free of a risk to damage the outer peripheral surface of an insertion sleeve with pawl(s) of a lock when the insertion sleeve is inserted into a socket for joining together two pipes. <P>SOLUTION: The sealing material 7 to be set in a sealing material accommodation groove 6 of the socket 3 is configured so that the lock 10 for precluding separation is embedded in the body 9 of the sealing material which has resilience and can be compressed, wherein the lock 10 is furnished with pawls 10a and 10b which bite into the outer peripheral surface of the insertion sleeve 5 when the insertion sleeve 5 is going to slip off from the socket 3, while the sealing material is furnished with a resilient piece 11 for rotation to abut to the outer peripheral surface of the insertion sleeve 5 at its being inserted and rotate the lock 10 in the direction that the pawl 10b goes apart from the outer peripheral surface of the insertion sleeve 5. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

本発明は、互いに接続した管同士が離脱することを防止する離脱防止管継手に用いる離脱防止機能付きシール材、および離脱防止管継手に関するものである。   The present invention relates to a seal member with a detachment preventing function and a detachment prevention pipe joint used for a detachment prevention pipe joint that prevents the pipes connected to each other from detaching.

地中に敷設される水道管路などとして、ダクタイル鋳鉄管などの管を複数接続して管路を構成することは既に広く知られている。この種の管路において、曲管やT字管などの異形管を用いる場合には、この異形管の曲がり部分や分岐部分(すなわち、水の流れ方向が変更される箇所)で水圧によって管を移動させようとする力(不平均力)が作用するため、このような不平均力が作用しても管同士が互いに離脱することを防止する離脱防止機能を付加している。   It is already widely known that pipes are configured by connecting a plurality of pipes such as ductile cast iron pipes as water pipes laid in the ground. In this type of pipe, when using a deformed pipe such as a curved pipe or a T-shaped pipe, the pipe is connected by water pressure at a bent portion or a branched portion (that is, a location where the water flow direction is changed). Since a force (non-average force) to be moved acts, a separation preventing function for preventing the pipes from separating from each other even when such an unbalanced force is applied is added.

従来の管の離脱防止構造の1つとしては、図23に示すように、異形管(図23においては曲管)51と、この異形管51に接続された管52、53との接合部(継手部)54とにわたって、コンクリートブロック55で覆う構造(コンクリートブロック構造と称す)が用いられており、このように管52、53と異形管51とをコンクリートブロック55で一体化して、管52、53と異形管51との離脱を防止している。また、別の管の離脱防止構造として、図24、図25に示すように、管61、62の受口63の内周面と挿口64の外周面とに、ロックリング65を配設するロックリング収容溝66、67を形成し、これらの溝66、67にわたって周方向1つ割りのロックリング65を配設するとともに、管61、62の接合後に、ロックリング65を、受口63を管径方向に貫通するセットボルト68により管径方向内側に押圧して、ロックリング65の拡径を阻止し、これにより、ロックリング65を介して管61、62の離脱を防止する構造がある。   As one of the conventional tube separation preventing structures, as shown in FIG. 23, a joint portion (a curved tube 51 in FIG. 23) and a joint 52 (53, 53) connected to the deformed tube 51 ( A structure (referred to as a concrete block structure) covered with a concrete block 55 is used over the joint portion) 54, and the pipes 52 and 53 and the deformed pipe 51 are integrated with the concrete block 55 in this way, 53 and the deformed pipe 51 are prevented from separating. As another pipe detachment prevention structure, as shown in FIGS. 24 and 25, a lock ring 65 is provided on the inner peripheral surface of the receiving port 63 and the outer peripheral surface of the insertion port 64 of the tubes 61 and 62. The lock ring receiving grooves 66 and 67 are formed, and the lock ring 65 divided in the circumferential direction is arranged over the grooves 66 and 67. After the pipes 61 and 62 are joined, the lock ring 65 is connected to the receiving port 63. There is a structure in which a set bolt 68 penetrating in the tube diameter direction is pressed inward in the tube diameter direction to prevent the lock ring 65 from being expanded, thereby preventing the pipes 61 and 62 from being detached via the lock ring 65. .

しかし、図23に示すようなコンクリートブロック構造を用いる場合には、コンクリートブロック55を完全に硬化させてから、地中に配設しなければならないので、コンクリートが硬化するまでに多くの時間を要する。したがって、道路を早期に復旧させる必要がある場合には、図23に示すようなコンクリートブロック構造は採用されず、図25に示すようなロックリング65を用いた構造が採用される。   However, when a concrete block structure as shown in FIG. 23 is used, since the concrete block 55 must be completely cured and then placed in the ground, it takes a long time for the concrete to cure. . Therefore, when it is necessary to restore the road at an early stage, the concrete block structure as shown in FIG. 23 is not adopted, and the structure using the lock ring 65 as shown in FIG. 25 is adopted.

ところが、図25に示すようなロックリング構造を用いた場合には、ロックリング65を縮径させながら受口61の溝64に嵌め込む際に、縮径用の治具や設備を必要として設備費などのコストの増加を招いたり、この嵌め込み作業に多くの時間を要したりする欠点を生じてしまう。   However, when the lock ring structure as shown in FIG. 25 is used, when the lock ring 65 is fitted into the groove 64 of the receiving port 61 while the diameter of the lock ring 65 is reduced, a tool or equipment for reducing the diameter is required. This leads to a disadvantage of increasing costs such as costs, or requiring a lot of time for the fitting work.

このような欠点を改善可能な離脱防止管継手として、図26〜図30に示すような離脱防止機能を付与したシール材(以下、離脱防止機能付きシール材、或いは単にシール材と称す)70を離脱防止管継手に設けることが提案されている。すなわち、受口71の内周面に形成したシール材収容溝72に、弾性を有するシール材本体78を配設させているだけでなく、このシール材本体78に、内周部に爪部73a、73bが形成されたロック体73を埋設する。そして、前記不平均力などによって、図30に示すように、管同士が離脱方向に移動しようとした際(つまり、受口71に対して、相対的に挿口75がc方向に移動しようとして、受口71から挿口75が離脱しようとした際)には、ロック体73が、受口71のシール材収容溝72に形成した受口内面突部76に当接しながらa方向に回転して、ロック体73の爪部73a、73bが挿口75の外周面に食い込み、この結果、管同士の離脱を阻止する(つまり、受口71から挿口75が離脱することを阻止する)よう構成されている。   As a detachment prevention pipe joint that can improve such a defect, a seal material (hereinafter referred to as a seal material with a detachment prevention function or simply referred to as a seal material) 70 provided with a detachment prevention function as shown in FIGS. It has been proposed to be provided in a detachment prevention pipe joint. That is, not only the sealing material main body 78 having elasticity is disposed in the sealing material accommodating groove 72 formed on the inner peripheral surface of the receiving port 71, but also the claw portion 73a on the inner peripheral portion of the sealing material main body 78. , 73b is embedded. Then, as shown in FIG. 30, when the tubes are about to move in the separation direction due to the non-average force or the like (that is, the insertion port 75 tries to move in the c direction relative to the reception port 71). When the insertion port 75 is about to be detached from the receiving port 71), the lock body 73 rotates in the direction a while abutting against the receiving port inner protrusion 76 formed in the sealing material accommodation groove 72 of the receiving port 71. Thus, the claw portions 73a and 73b of the lock body 73 bite into the outer peripheral surface of the insertion port 75, and as a result, the separation of the tubes is prevented (that is, the insertion port 75 is prevented from being detached from the receiving port 71). It is configured.

なお、ロック体73における外周部には、受口71のシール材収容溝72に形成した受口内面突部76に当接する湾曲溝部73cが窪んだ形状で形成されている。そして、挿口挿入時(管接合時)には、図28、図29に示すように、受口71のシール材収容溝72に形成した受口内面突部76に、ロック体73に形成した湾曲溝部73cが摺接し、かつ、ロック体73の爪部73bが挿口75の外周面に強く当接した状態で、挿口75が押し込まれる。そして、挿口75の挿入力によって、ロック体73の爪部73aが挿口75の外周面より外側に押し退けられるように、シール材本体78を変形させながらロック体73全体をd方向に回転させることで、ロック体73の内側への挿口75の挿入を許容するよう構成されている。   In addition, a curved groove 73 c that comes into contact with the receiving port inner protrusion 76 formed in the sealing material receiving groove 72 of the receiving port 71 is formed in a recessed shape on the outer peripheral portion of the lock body 73. Then, when the insertion port is inserted (at the time of pipe joining), as shown in FIGS. 28 and 29, the lock body 73 is formed on the receiving port inner surface protrusion 76 formed in the sealing material receiving groove 72 of the receiving port 71. The insertion slot 75 is pushed in such a state that the curved groove 73c is in sliding contact and the claw 73b of the lock body 73 is in strong contact with the outer peripheral surface of the insertion slot 75. Then, the entire lock body 73 is rotated in the d direction while deforming the sealing material main body 78 so that the claw portion 73a of the lock body 73 is pushed outward from the outer peripheral surface of the insertion opening 75 by the insertion force of the insertion opening 75. Thus, the insertion of the insertion opening 75 inside the lock body 73 is allowed.

この離脱防止管継手構造を用いることで、離脱防止のための必要な作業として、前記ロック体73を埋設した離脱防止機能付きシール材70を予め準備しておき、受口71内にシール材70を配設するだけで済む。したがって、縮径用の治具や設備などが不要となるとともに、ロックリングの縮径作業が不要であるので、この縮径作業を行う手間や時間を省くことができる。   By using this detachment prevention pipe joint structure, as a necessary work for detachment prevention, a seal material 70 with a detachment prevention function in which the lock body 73 is embedded is prepared in advance, and the seal material 70 is placed in the receiving port 71. All you need to do is arrange. This eliminates the need for a diameter reduction jig and equipment, and also eliminates the need for a diameter reduction operation of the lock ring, thereby saving labor and time for the diameter reduction operation.

なお、図26〜図30に示す離脱防止管継手と類似した構造の離脱防止管継手が、特許文献1に開示されている。   Note that a separation preventing pipe joint having a structure similar to that of the separation preventing pipe joint shown in FIGS.

特開平6−221478号公報JP-A-6-221478

しかしながら、図26〜図30に示す離脱防止管継手や特許文献1に開示された離脱防止管継手では、挿口75を受口71に挿入して管同士を接合させる際に、ロック体73の爪部73bが挿口75の外周面に比較的大きな押圧力をかけながら直接接触した状態で、挿口75からロック体73に大きな力を与えてロック体73を回転させる構造であるので、この際に挿口75の外周面に爪部73bとの接触部分で傷がつき、通水時などに、この傷がついたところから腐食するおそれがあるという課題がある。   However, in the detachment prevention pipe joint shown in FIGS. 26 to 30 and the detachment prevention pipe joint disclosed in Patent Document 1, when the insertion port 75 is inserted into the receiving port 71 and the tubes are joined to each other, Since the claw portion 73b is configured to rotate the lock body 73 by applying a large force to the lock body 73 from the insertion opening 75 in a state in which the claw portion 73b is in direct contact with the outer peripheral surface of the insertion opening 75 while applying a relatively large pressing force. At this time, there is a problem that the outer peripheral surface of the insertion opening 75 is damaged at the contact portion with the claw portion 73b and may corrode from the damaged position when passing water.

本発明は上記課題を解決するもので、管の接合作業を容易かつ短時間で行うことができ、しかも、挿口を受口に挿入して管同士を接合させるときに、ロック体の爪部により挿口の外周面を傷つけることのない離脱防止管継手および離脱防止機能付きシール材を提供することを目的とするものである。   The present invention solves the above-mentioned problems, and can perform the joining operation of the tubes easily and in a short time, and when inserting the insertion port into the receiving port to join the tubes together, the claw portion of the lock body It is an object of the present invention to provide a separation preventing pipe joint and a sealing material with a separation preventing function that do not damage the outer peripheral surface of the insertion opening.

上記課題を解決するために、本発明の離脱防止機能付きシール材は、互いに接合される一方の管の端部に形成された受口の内部に、他方の管の端部に形成された挿口が挿入される離脱防止管継手に用いられ、受口の内周に形成されたシール材収容溝に配設されて、受口と挿口との間で圧縮されることで挿口受口間のシールを行うシール材であって、弾性を有して圧縮可能な環状のシール材本体に、離脱防止用のロック体が埋設されており、前記ロック体に、受口に対して挿口が抜け出ようとする際に挿口の外周面に食い込む爪部が形成されており、当該シール材に、挿口の挿入時に挿口の外周面に当接して前記爪部が挿口の外周面から離反する方向にロック体を回転させる回転用弾性体が設けられていることを特徴とする。なお、ロック体において爪部を管軸心方向に対して複数形成し、受口開口端寄りの爪部近傍に、回転用弾性体を設けると好適である。   In order to solve the above-mentioned problems, the sealing material with a detachment preventing function of the present invention has an insertion formed at the end of the other tube inside the receiving port formed at the end of one of the tubes joined together. Used in a detachment prevention pipe joint into which a port is inserted, and disposed in a seal material accommodation groove formed on the inner periphery of the receiving port, and compressed between the receiving port and the inserting port. A seal member for sealing between the elastic seal member and a lock body for preventing detachment is embedded in an elastic and compressible annular seal member body, and the lock member is inserted into the receiving port. A claw portion that bites into the outer peripheral surface of the insertion opening is formed when the plug is about to come out, and the claw portion comes into contact with the outer peripheral surface of the insertion opening when the insertion opening is inserted into the sealing material. An elastic body for rotation that rotates the lock body in a direction away from the rotation body is provided. It is preferable that a plurality of claw portions are formed in the lock body in the tube axis direction, and an elastic body for rotation is provided in the vicinity of the claw portion near the opening of the receiving opening.

上記構成により、管同士を接合すべく、一方の管の端部に形成された受口の内部に、他方の管の端部に形成された挿口を挿入すると、当該シール材に設けた回転用弾性体が挿口の外周面に当接して、ロック体が、このロック体の爪部を挿口の外周面から離反する方向に回転する。したがって、挿口を受口に挿入して管同士を接合させるときに、ロック体の爪部が挿口の外周面から離反し、この結果、爪部により挿口の外周面を傷つけることを防止できる。   With the above configuration, when the insertion port formed at the end of the other tube is inserted into the receiving port formed at the end of one tube to join the tubes, the rotation provided in the sealing material The elastic body for contact comes into contact with the outer peripheral surface of the insertion port, and the lock member rotates in a direction away from the claw portion of the lock member from the outer peripheral surface of the insertion port. Therefore, when the insertion port is inserted into the receiving port and the tubes are joined together, the claw portion of the lock body is separated from the outer peripheral surface of the insertion port, and as a result, the claw portion prevents the outer peripheral surface of the insertion port from being damaged. it can.

また、本発明の離脱防止機能付きシール材の回転用弾性体は、ロック体における爪部の少なくとも一部が除かれた箇所において、管径方向内側に突出するように配設されていることを特徴とする。   Further, the elastic body for rotation of the sealing material with a separation preventing function of the present invention is disposed so as to protrude inward in the pipe radial direction at a place where at least a part of the claw portion of the lock body is removed. Features.

この構成により、回転用弾性体が配設されている箇所では爪部の少なくとも一部が除かれているので、爪部が設けられたまま(残されたまま)で回転用弾性体が配設されているような不具合を生じることが無く、挿口の挿入時にロック体を回転させて、爪部を挿口の外周面から離反させることができる。つまり、爪部が設けられたままで、この爪部や爪部の近傍に被せられるように回転用弾性体が配設されている場合には、挿口の挿入時に、爪部によって回転用弾性体が切断されてしまって、爪部が挿口の外周面に接触して傷が生じてしまったり、回転用弾性体が爪部と挿口の外周面との間から逃げてしまい、ロック体を良好に回転させることができなくなって、爪部が挿口の外周面に接触して傷が生じてしまったり、挿口の挿入時の力として極めて大きくなって、作業性の低下を招いたりする不具合を生じるが、本発明によればこのような不具合が生じない。   With this configuration, at least a part of the claw portion is removed at the place where the rotation elastic body is disposed, so that the rotation elastic body is disposed with the claw portion remaining (remaining). Therefore, the lock body can be rotated when the insertion opening is inserted, and the claw portion can be separated from the outer peripheral surface of the insertion opening. That is, when the claw portion is provided and the rotation elastic body is disposed so as to cover the claw portion or the vicinity of the claw portion, the claw portion causes the rotation elastic body to be inserted when the insertion opening is inserted. Is cut off, and the claw part comes into contact with the outer peripheral surface of the insertion slot, causing scratches, or the rotating elastic body escapes from between the claw part and the outer peripheral surface of the insertion slot, It becomes impossible to rotate well, the claw part comes into contact with the outer peripheral surface of the insertion slot, and scratches are generated, or the force during insertion of the insertion slot becomes extremely large, resulting in a decrease in workability. Although the problem occurs, according to the present invention, such a problem does not occur.

回転用弾性体は、その断面形状がシール材本体の内周面部から管軸方向奥側ほど管径方向内側への突出量が一定量ずつ増加する傾斜面部と、この傾斜面部の管軸方向奥端側に厚肉平面形状となって続く厚肉平面部とを有するように構成してもよいが、好ましくは、回転用弾性体が、その断面形状が管軸方向奥側ほど管径方向内側への突出増加量が大きくなるように増加して湾曲形状に傾斜する湾曲傾斜面部と、この湾曲傾斜面部の管軸方向奥側端部の厚肉部分に滑らかに続く厚肉平面部とを有する形状とし、挿口挿入時に挿口先端部がまず湾曲傾斜面部の薄肉突出部分に当接するよう配設するとよい。   The rotating elastic body has an inclined surface portion whose cross-sectional shape increases by a certain amount from the inner peripheral surface portion of the seal material main body toward the inner side in the tube axial direction, and a deeper portion in the tube axial direction of the inclined surface portion. Although it may be configured to have a thick flat surface portion that continues to be a thick flat shape on the end side, it is preferable that the rotating elastic body has a cross-sectional shape on the inner side in the tube diameter direction toward the rear side in the tube axis direction. A curved inclined surface portion that is inclined so as to increase in the amount of increase in protrusion to the curved shape, and a thick flat surface portion that smoothly follows the thick-walled portion of the curved inclined surface portion on the inner side in the tube axis direction. It is good to arrange | position and arrange | position so that an insertion port front-end | tip part may contact | abut to the thin protrusion part of a curved inclined surface part first at the time of insertion insertion.

このような離脱防止管継手では、挿口挿入時にシール材を変形させることによりロック体を回転させて挿口の挿入を許容させる構造であるため、挿口挿入時に比較的大きな力が必要となる。そして、回転用弾性体を設けたことで、挿口挿入時に、爪部により挿口の外周面を傷つけることを防止できるが、挿口挿入時に挿口外周面に回転用弾性体が当接することでさらに大きな力を要することとなる。しかし、上記のように、回転用弾性体に、その断面形状が、シール材本体の内周面部から、管軸方向奥側ほど管径方向内側への突出増加量が大きくなるように増加する湾曲傾斜面部を形成し、挿口挿入時に挿口先端部がまず湾曲傾斜面部の薄肉突出部分に当接するよう配設することにより、この際の挿口の挿入力の増加を最小限に抑えることができる。また、回転用弾性体の湾曲傾斜面部の断面形状が湾曲形状であるので、挿口挿入時に挿口を挿入し続けると、回転用弾性体の突出量に応じてシール材を滑らかに変形させてロック体を良好に回転させ、最終的には、挿口が回転用弾性体の厚肉平面部に接触して、ロック体の爪部が外周面より離反され、爪部により挿口の外周面を傷つけることをより確実に防止できる。   Such a detachment prevention pipe joint has a structure that allows the insertion of the insertion opening by rotating the lock body by deforming the seal material during insertion of the insertion opening, and therefore requires a relatively large force when inserting the insertion opening. . By providing the rotation elastic body, it is possible to prevent the outer peripheral surface of the insertion opening from being damaged by the claw when inserting the insertion opening, but the rotation elastic body abuts on the outer peripheral surface of the insertion opening during insertion. This will require even greater power. However, as described above, the curved shape of the rotating elastic body increases such that the cross-sectional shape increases from the inner peripheral surface portion of the sealing material main body toward the inner side in the tube radial direction toward the inner side in the tube axial direction. By forming the inclined surface and arranging the tip of the insertion port so as to first contact the thin protruding portion of the curved inclined surface during insertion of the insertion port, the increase in insertion force of the insertion port at this time can be minimized. it can. In addition, since the cross-sectional shape of the curved inclined surface portion of the elastic body for rotation is a curved shape, if the insertion port is continuously inserted when the insertion port is inserted, the sealing material is smoothly deformed according to the protruding amount of the rotation elastic body. The lock body is rotated satisfactorily. Eventually, the insertion port comes into contact with the thick flat surface portion of the elastic body for rotation, and the claw portion of the lock body is separated from the outer peripheral surface. Can be more reliably prevented.

また、本発明の離脱防止機能付きシール材は、爪部における先端部に続く受口端部側の面に、挿口の挿入時に、回転用弾性体により回転されたロック体において、このロック体の爪部が挿口の外周面に当接することを阻止または当接する力を軽減させる保護材が配設されていることを特徴とする。   Further, the sealing material with a detachment preventing function of the present invention is a lock body that is rotated by an elastic body for rotation at the time of insertion of the insertion opening on the surface of the receiving end portion side following the tip portion of the claw portion. A protective material is provided that prevents the claw portion from abutting against the outer peripheral surface of the insertion opening or reduces the abutting force.

上記構成において、ロック体に回転用弾性体を設けただけであると、回転用弾性体によって挿口の挿入時に爪部が挿口の外周面から離反する方向にロック体が回転されたにもかかわらず、挿口外周面と受口との間の間隔が極めて小さいなどの理由により、挿口の挿入時に爪部が挿口外周面に接触して傷つく恐れがある場合があるが、上記のように、ロック体に保護材を設けることで、ロック体の爪部が挿口の外周面に当接することを阻止または当接する力を軽減させることができる。したがって、挿口の挿入時に爪部により挿口の外周面に傷がつくことを一層確実に防止したり、最小限に抑えたりすることができる。   In the above configuration, when the rotation elastic body is only provided on the lock body, the lock body is rotated in the direction in which the claw portion is separated from the outer peripheral surface of the insertion opening when the insertion opening is inserted by the rotation elastic body. Regardless of the reason that the gap between the outer periphery of the insertion port and the receiving port is very small, there is a possibility that the claw may come into contact with the outer surface of the insertion port and be damaged when the insertion port is inserted. As described above, by providing a protective member on the lock body, it is possible to reduce or prevent the contact of the claw portion of the lock body against the outer peripheral surface of the insertion slot. Therefore, it is possible to more reliably prevent or minimize the damage to the outer peripheral surface of the insertion opening due to the claw when inserting the insertion opening.

なお、保護材としては、対応する爪部の管径方向内側の面に、ほぼ一定厚みの薄肉状に形成させてもよいが、必要に応じて、保護材が配設されている爪部の先端部近傍箇所における管径方向内側の面に厚肉部を設け、前記保護材の厚肉部を、前記爪部よりも狭く小さい領域に形成してもよい。また、保護材を、対応する爪部との間に隙間を有する状態で形成してもよい。   The protective material may be formed on the inner surface of the corresponding nail portion in the tube radial direction in a thin shape with a substantially constant thickness, but if necessary, the nail portion on which the protective material is disposed. A thick part may be provided on the inner surface in the pipe radial direction in the vicinity of the tip part, and the thick part of the protective material may be formed in an area narrower and smaller than the claw part. Moreover, you may form a protective material in the state which has a clearance gap between corresponding claw parts.

例えば、保護材を設けた爪部を尖らせて形成して、挿口が離脱しようとした際に爪部が挿口へ確実に係止するよう構成した場合などに、保護材として、対応する爪部の内側の面に、ほぼ一定厚みの薄肉状に形成させただけであると、保護材による保護機能が不十分となって、爪部により挿口の外周面を傷つけることがある。これに対処すべく、保護材をほぼ一定厚みの厚肉状に形成すると、爪部により挿口の外周面を傷つけることは防止できるが、挿口挿入時に保護材が挿口外周面により強く当接して、さらに大きな力を要することとなる。これに対して、上記のように、保護材の厚肉部を、前記爪部よりも狭く小さい領域だけに形成すると、爪部により挿口の外周面を傷つけることを防止できながら、厚肉部が比較的小さな力で変形し易くなるので、挿口挿入時での挿口の必要な挿入力の増加を最小限に抑えることができる。また、保護材を、対応する爪部の先端部や先端部近傍まで形成すると、場合によっては、挿口の挿入時に、爪部と挿口の外周面との間に、保護材が入り込み、保護材が切断される場合があり、このときには、挿口の挿入に大きな力が必要となることがある。これに対して、爪部と保護材との間に隙間を有するように保護材を形成することで、挿口の挿入時に、爪部と挿口の外周面との間に保護材が入り込むことを防止でき、挿口の挿入において必要な力を減少できる。   For example, when a claw part provided with a protective material is sharpened and formed so that the claw part is securely locked to the insertion port when the insertion port is about to be detached, the protection material can be used. If the inner surface of the claw portion is simply formed in a thin shape with a substantially constant thickness, the protective function by the protective material becomes insufficient, and the outer peripheral surface of the insertion opening may be damaged by the claw portion. In order to cope with this, if the protective material is formed with a substantially constant thickness, it is possible to prevent the outer peripheral surface of the insertion slot from being damaged by the claw, but the protective material is more strongly applied to the outer peripheral surface of the insertion opening during insertion. In contact, it will require even greater power. On the other hand, as described above, if the thick part of the protective material is formed only in a region that is narrower and smaller than the claw part, it is possible to prevent the claw part from damaging the outer peripheral surface of the insertion opening, Since it becomes easy to deform | transform with comparatively small force, the increase in the insertion force required for insertion at the time of insertion insertion can be suppressed to the minimum. In addition, if the protective material is formed up to the tip of the corresponding nail part or near the tip part, the protective material may enter between the nail part and the outer peripheral surface of the insertion opening to protect the case. The material may be cut, and in this case, a large force may be required to insert the insertion opening. In contrast, by forming the protective material so that there is a gap between the claw portion and the protective material, the protective material enters between the claw portion and the outer peripheral surface of the insertion port when the insertion port is inserted. Can be prevented, and the force required to insert the insertion opening can be reduced.

なお、回転用弾性体や保護材の配置構成としては、回転用弾性体を、ロック体における管の周方向に沿うロック体の幅方向に対する両端部にそれぞれ配設し、保護材が設けられた爪部を、前記回転用弾性体の間に形成させたり、回転用弾性体を、ロック体における管の周方向に沿うロック体の幅方向に対する中央部に配設し、保護材が設けられた爪部を、ロック体の幅方向に対する両端部にそれぞれ配設したりすればよい。   In addition, as an arrangement configuration of the elastic body for rotation and the protective material, the elastic body for rotation is disposed at both ends with respect to the width direction of the lock body along the circumferential direction of the tube in the lock body, and the protective material is provided. A claw portion is formed between the elastic bodies for rotation, or the elastic body for rotation is disposed at a central portion with respect to the width direction of the lock body along the circumferential direction of the tube in the lock body, and a protective material is provided. What is necessary is just to arrange | position a nail | claw part to the both ends with respect to the width direction of a lock body, respectively.

また、回転用弾性体として、シール材本体と同じ材料、またはシール材本体と同じ硬度の材料で形成することで、シール材本体と回転用弾性体とを一体形成することが可能となる。   Further, by forming the rotating elastic body from the same material as the sealing material body or a material having the same hardness as the sealing material body, the sealing material body and the rotating elastic body can be integrally formed.

また、回転用弾性体として、回転用弾性体は、シール材本体と異なる材料、またはシール材本体と異なる硬度の材料で形成してもよい。   Further, as the elastic body for rotation, the elastic body for rotation may be formed of a material different from that of the sealing material body or a material having a hardness different from that of the sealing material body.

以上のように本発明によれば、挿口の挿入時に挿口の外周面に当接して爪部が挿口の外周面から離反する方向にロック体を回転させる回転用弾性体を設けたことにより、挿口の挿入時に、前記回転用弾性体によりロック体が回転して、ロック体の爪部が挿口の外周面から離反する方向に回転し、爪部により挿口の外周面を傷つけることを防止できる。この結果、管の接合作業を容易かつ短時間で行うことができながら、挿口の外周面に傷がつかないので、このシール材を有する管継手を水道管路などとして用いた場合でも、通水時などにおける腐食の可能性を最小限に抑えることができて、良好な信頼性を維持できる。   As described above, according to the present invention, the rotating elastic body that rotates the lock body in the direction in which the claw portion separates from the outer peripheral surface of the insertion opening by contacting the outer peripheral surface of the insertion opening when the insertion opening is inserted is provided. Accordingly, when the insertion port is inserted, the lock body is rotated by the rotating elastic body, the claw portion of the lock body is rotated in a direction away from the outer peripheral surface of the insertion port, and the outer peripheral surface of the insertion port is damaged by the claw portion. Can be prevented. As a result, the pipe can be joined easily and in a short time, and the outer peripheral surface of the insertion port is not damaged. Therefore, even when the pipe joint having this sealing material is used as a water pipe, etc. The possibility of corrosion during water and the like can be minimized, and good reliability can be maintained.

また、本発明によれば、回転用弾性体を、ロック体における爪部の少なくとも一部が除かれた箇所に配設することで、爪部により挿口の外周面を傷つけることを防止する機能を一層確実に得ることができる。   According to the present invention, the function of preventing the outer peripheral surface of the insertion opening from being damaged by the claw portion by disposing the elastic body for rotation in a place where at least a part of the claw portion of the lock body is removed. Can be obtained more reliably.

また、回転用弾性体に、管軸方向奥側ほど管径方向内側への突出増加量が大きくなるように増加する湾曲傾斜面部を形成し、挿口挿入時に挿口先端部がまず湾曲傾斜面部の薄肉突出部分に当接するよう構成することにより、爪部により挿口の外周面を傷つけることを防止できると同時に、挿口挿入時での挿口の挿入力の増加を最小限に抑えることができる。したがって、挿口挿入時での挿口の挿入力が極めて大きくなると、特殊な接合用治具が必要となることがあるが、上記のように構成することで、特殊な接合用治具を用いなくても済み、接合作業の作業性の向上や設備費の低減を図ることができる。   In addition, a curved inclined surface portion that increases so that the amount of increase in protrusion in the tube radial direction increases toward the inner side in the tube axis direction is formed on the elastic body for rotation, and the distal end portion of the insertion port is first curved inclined surface portion when the insertion port is inserted. It is possible to prevent the claw portion from damaging the outer peripheral surface of the insertion port, and at the same time minimize the increase in insertion force of the insertion port when inserting the insertion port. it can. Therefore, if the insertion force of the insertion opening becomes extremely large when inserting the insertion opening, a special joining jig may be required. It is not necessary, and the workability of the joining work can be improved and the equipment cost can be reduced.

また、本発明によれば、爪部における先端部に続く受口端部側の面に、挿口の挿入時にロック体の爪部が挿口の外周面に当接することを阻止または当接する力を軽減させる保護材を設けることで、挿口の挿入時に爪部により挿口の外周面に傷がつくことをさらに確実に防止したり、最小限に抑えたりすることができて、信頼性をさらに向上させることができる。   Further, according to the present invention, the force that prevents or abuts the claw portion of the lock body from abutting on the outer peripheral surface of the insertion port when the insertion port is inserted, on the surface of the claw portion on the receiving end portion side following the tip portion. By providing a protective material that reduces the damage, it is possible to more reliably prevent or minimize the damage to the outer peripheral surface of the insertion slot due to the claw when inserting the insertion slot. Further improvement can be achieved.

また、保護材が配設されている爪部の先端部近傍箇所における管径方向内側の面に厚肉部を設け、前記保護材の厚肉部を、前記爪部よりも狭く小さい領域に形成することにより、爪部により挿口の外周面を傷つけることをより確実に防止できながら、挿口挿入時での挿口の必要な挿入力の増加を最小限に抑えることができる。また、爪部と保護材との間に隙間を有するように保護材を形成することで、挿口の挿入時に、爪部と挿口の外周面との間に保護材が入り込むことを防止でき、挿口の挿入において必要な力を減少できて作業能率を向上させることができる。   In addition, a thick portion is provided on the inner surface in the pipe radial direction in the vicinity of the tip of the claw portion where the protective material is disposed, and the thick portion of the protective material is formed in a narrower and smaller area than the claw portion. By doing so, it is possible to more reliably prevent the outer peripheral surface of the insertion slot from being damaged by the claw portion, while minimizing the increase in insertion force required for insertion at the time of insertion. In addition, by forming the protective material so that there is a gap between the claw portion and the protective material, it is possible to prevent the protective material from entering between the claw portion and the outer peripheral surface of the insertion port when the insertion port is inserted. Therefore, it is possible to reduce the force required for insertion of the insertion opening and improve the work efficiency.

本発明の実施の形態に係る離脱防止機能付きシール材を備えた離脱防止管継手の断面図である。It is sectional drawing of the separation prevention pipe joint provided with the sealing material with a separation prevention function which concerns on embodiment of this invention. 同離脱防止管継手の離脱防止機能付きシール材の断面図で、ロック体が設けられていない箇所を示している。It is sectional drawing of the sealing material with the removal prevention function of the separation prevention pipe joint, and the location where the lock body is not provided is shown. (a)および(b)は、同離脱防止機能付きシール材のロック体、回転用弾性体および保護材を、斜め下方から見た斜視図および下方から見た下面図である。(A) And (b) is the perspective view which looked at the locking body, the elastic body for rotation, and the protective material of the sealing material with the same separation prevention function from diagonally downward, and the bottom view which looked from the downward direction. (a)および(b)は、同離脱防止機能付きシール材のロック体、回転用弾性体および保護材の、図3(b)におけるIVa-IVa線矢視断面図およびIVb-IVb線矢視断面図である。(A) and (b) are the sectional view taken along the line IVa-IVa and the line IVb-IVb in FIG. It is sectional drawing. (a)および(b)は、それぞれ同離脱防止管継手の要部拡大断面図で、挿口を挿入する直前の状態を示す。(A) And (b) is a principal part expanded sectional view of the said separation prevention pipe joint, respectively, and shows the state just before inserting an insertion port. (a)および(b)は、それぞれ同離脱防止管継手の要部拡大断面図で、挿口の先端部を挿入しつつある状態を示す。(A) And (b) is a principal part expanded sectional view of the same separation prevention pipe joint, and shows the state which is inserting the front-end | tip part of an insertion port. (a)および(b)は、それぞれ同離脱防止管継手の要部拡大断面図で、挿口を挿入した状態を示す。(A) And (b) is the principal part expanded sectional view of the said separation prevention pipe joint, and shows the state which inserted the insertion opening. 同離脱防止管継手の要部拡大断面図で、挿口が受口から離脱しようとした際の状態を示す。It is a principal part expanded sectional view of the same detachment prevention pipe joint, and shows a state when the insertion port is about to detach from the receiving port. 同離脱防止管継手の離脱防止機能付きシール材の正面図である。It is a front view of the sealing material with a separation prevention function of the separation prevention pipe joint. (a)〜(c)は、それぞれ、比較例としての同離脱防止管継手における離脱防止機能付きシール材のロック体および回転用弾性体の要部拡大断面図である。(A)-(c) is the principal part expanded sectional view of the lock body and elastic body for rotation of the sealing material with a separation prevention function in the separation prevention pipe joint as a comparative example, respectively. (a)および(b)は、それぞれ、本発明の実施の形態に係る離脱防止管継手の断面図で、受口と挿口との間の隙間が広い(大きい)場合を示す。(A) And (b) is sectional drawing of the separation prevention pipe joint which concerns on embodiment of this invention, respectively, and shows the case where the clearance gap between a receiving port and an insertion port is wide (large). (a)および(b)は、本発明の他の実施の形態に係る離脱防止機能付きシール材のロック体、回転用弾性体および保護材を、斜め下方から見た斜視図および下方から見た下面図である。(A) And (b) is the perspective view which looked at the lock body, the elastic body for rotation, and the protective material of the sealing material with a removal prevention function which concerns on other embodiment of this invention from diagonally downward, and it looked from the downward direction It is a bottom view. (a)、(b)および(c)は、同離脱防止機能付きシール材のロック体、回転用弾性体および保護材の、図12(b)におけるXIIIa-XIIIa線矢視断面図、XIIIb-XIIIb線矢視断面図およびXIIIc-XIIIc線矢視断面図である。(A), (b) and (c) are cross-sectional views taken along the line XIIIa-XIIIa in FIG. They are XIIIb arrow sectional drawing and XIIIc-XIIIc arrow sectional drawing. (a)、(b)および(c)は、それぞれ同離脱防止管継手の要部拡大断面図で、挿口を挿入する直前の状態を示す。(A), (b), and (c) are the principal part expanded sectional views of the said removal prevention pipe joint, respectively, and show the state just before inserting an insertion port. (a)、(b)および(c)は、それぞれ同離脱防止管継手の要部拡大断面図で、挿口の先端部を挿入しつつある状態を示す。(A), (b) and (c) are the principal part expanded sectional views of the said separation prevention pipe joint, respectively, and show the state which is inserting the front-end | tip part of an insertion port. (a)、(b)および(c)は、それぞれ同離脱防止管継手の要部拡大断面図で、挿口を挿入した状態を示す。(A), (b) and (c) are the principal part expanded sectional views of the said separation prevention pipe joint, respectively, and show the state which inserted the insertion slot. (a)および(b)は、本発明のさらに他の実施の形態に係る離脱防止機能付きシール材のロック体、回転用弾性体および保護材を、斜め下方から見た斜視図および下方から見た下面図である。(A) And (b) is the perspective view which looked at the lock body, the elastic body for rotation, and the protective material of the sealing material with a removal prevention function which concerns on other embodiment of this invention from diagonally downward, and sees from the downward | lower direction. FIG. (a)、(b)および(c)は、同離脱防止機能付きシール材のロック体、回転用弾性体および保護材の、図17(b)におけるXVIIIa-XVIIIa線矢視断面図、XVIIIb-XVIIIb線矢視断面図およびXVIIIc-XVIIIc線矢視断面図である。(A), (b) and (c) are cross-sectional views taken along the line XVIIIa-XVIIIa in FIG. FIG. 8 is a cross-sectional view taken along line XVIIIb and a cross-sectional view taken along line XVIIIc-XVIIIc. (a)、(b)および(c)は、それぞれ同離脱防止管継手の要部拡大断面図で、挿口を挿入する直前の状態を示す。(A), (b), and (c) are the principal part expanded sectional views of the said removal prevention pipe joint, respectively, and show the state just before inserting an insertion port. (a)、(b)および(c)は、それぞれ同離脱防止管継手の要部拡大断面図で、挿口の先端部を挿入しつつある状態を示す。(A), (b) and (c) are the principal part expanded sectional views of the said separation prevention pipe joint, respectively, and show the state which is inserting the front-end | tip part of an insertion port. (a)、(b)および(c)は、それぞれ同離脱防止管継手の要部拡大断面図で、挿口を挿入した状態を示す。(A), (b) and (c) are the principal part expanded sectional views of the said separation prevention pipe joint, respectively, and show the state which inserted the insertion slot. 図12から図16に示す離脱防止管継手において保護材が入り込んだ状態を示す要部拡大断面図である。FIG. 17 is an enlarged cross-sectional view of a main part illustrating a state in which a protective material has entered the separation preventing pipe joint illustrated in FIGS. 12 to 16. 従来の管の離脱防止構造を概略的に示す図である。It is a figure which shows schematically the conventional detachment | leave prevention structure of a pipe | tube. 他の従来の離脱防止構造としての同離脱防止管継手の外観を示す図である。It is a figure which shows the external appearance of the separation prevention pipe joint as another conventional separation prevention structure. 同従来の離脱防止管継手の断面図である。It is sectional drawing of the same conventional detachment prevention pipe joint. さらに他の従来の離脱防止管継手の断面図である。It is sectional drawing of other conventional detachment prevention pipe joints. 同従来の離脱防止管継手の要部拡大断面図で、挿口を挿入する直前の状態を示す。It is a principal part expanded sectional view of the conventional separation prevention pipe joint, and shows the state just before inserting an insertion slot. 同従来の離脱防止管継手の要部拡大断面図で、挿口を挿入しつつある状態を示す。It is a principal part expanded sectional view of the conventional separation prevention pipe joint, and shows the state which is inserting the insertion slot. 同従来の離脱防止管継手の要部拡大断面図で、挿口を挿入した状態を示す。The principal part expanded sectional view of the conventional disconnection prevention pipe joint shows the state which inserted the insertion slot. 同従来の離脱防止管継手の要部拡大断面図で、挿口が受口から離脱しようとした際の状態を示す。It is a principal part expanded sectional view of the conventional separation prevention pipe joint, and shows the state at the time of an insertion port trying to detach | leave from a receptacle.

以下、本発明の実施の形態に係る離脱防止機能付きシール材を備えた離脱防止管継手を図面に基づき説明する。なお、図1、図5〜図8は、本発明の実施の形態に係る離脱防止機能付きシール材を備えた離脱防止管継手の断面図で、図5は挿口を挿入する直前の状態を示し、図6は挿口の先端部を挿入しつつある状態を示し、図7は挿口を挿入した状態を示し、図8は挿口が受口から離脱しようとした際の状態を示す。また、図3(a)および(b)は、同離脱防止機能付きシール材のロック体、回転用弾性体および保護材を、斜め下方から見た斜視図および下方から見た下面図、図4(a)および(b)は、同離脱防止機能付きシール材のロック体、回転用弾性体および保護材の、図3(b)におけるIVa-IVa線矢視断面図およびIVb-IVb線矢視断面図である。   Hereinafter, a separation preventing pipe joint including a sealing material with a separation preventing function according to an embodiment of the present invention will be described with reference to the drawings. 1 and 5 to 8 are cross-sectional views of the separation preventing pipe joint provided with the sealing material with a separation preventing function according to the embodiment of the present invention, and FIG. 5 shows a state immediately before the insertion port is inserted. 6 shows a state in which the distal end portion of the insertion opening is being inserted, FIG. 7 shows a state in which the insertion opening is inserted, and FIG. 8 shows a state in which the insertion opening is about to be detached from the receiving opening. 3 (a) and 3 (b) are a perspective view of the locking body, the elastic body for rotation, and the protective material of the sealing material with the function of preventing detachment as seen obliquely from below and a bottom view as seen from below. (A) and (b) are the sectional view taken along the line IVa-IVa and the line IVb-IVb in FIG. It is sectional drawing.

図1に示すように、本発明の実施の形態に係る離脱防止管継手1は、互いに接合される一方の管2の端部に形成された受口3の内部に、他方の管4の端部に形成された挿口5が挿入され、受口3の内周(詳しくは、受口3の管端面3aよりも奥側の部分の内周)に形成されたシール材収容溝6に環状のシール材7が配設され、受口3と挿口5との間でシール材7が圧縮されることで挿口受口間のシールが行われる。なお、図1における5aは挿口5の先端部外周に形成されて先端ほど細くなる挿口5の傾斜面である。   As shown in FIG. 1, a detachment prevention pipe joint 1 according to an embodiment of the present invention has a receiving port 3 formed at an end portion of one pipe 2 to be joined to the end of the other pipe 4. The insertion port 5 formed in the section is inserted, and the ring is formed in the seal material accommodation groove 6 formed in the inner periphery of the receiving port 3 (specifically, the inner periphery of the portion on the back side of the tube end surface 3a of the receiving port 3). The sealing material 7 is disposed, and the sealing material 7 is compressed between the receiving port 3 and the insertion port 5, whereby the insertion port is sealed. In addition, 5a in FIG. 1 is the inclined surface of the insertion port 5 formed in the outer periphery of the front-end | tip part of the insertion port 5, and becomes thin as the front-end | tip.

ここで、本発明の実施の形態に係る離脱防止管継手1に備えられているシール材7は、後述するように、互いに接続した管2、4同士が離脱することを防止する離脱防止機能を有している。なお、管2、4は例えばダクタイル鋳鉄製とされているが、これに限るものではない。   Here, as will be described later, the sealing material 7 provided in the separation preventing pipe joint 1 according to the embodiment of the present invention has a separation preventing function for preventing the mutually connected tubes 2 and 4 from separating. Have. The pipes 2 and 4 are made of, for example, ductile cast iron, but are not limited thereto.

以下、シール材(離脱防止機能付きシール材)7と、このシール材7が配設される受口3のシール材収容溝6の構造などについて詳しく説明する。図2などに示すように、シール材7は、シール材7をシール材収容溝6内の所定位置に保持させるヒール部(踵部)7aと、挿口受口間のシールを行うバルブ部7bとを一体化した形状とされ、バルブ部7bは、外力を受けていない状態では断面略円形(または断面略楕円形)とされている。また、これに対応して、シール材収容溝6にもシール材7のヒール部7aが嵌め込まれてシール材7を係止する嵌め込み溝6aと、シール材7のバルブ部7bが収容されるバルブ部収容溝6bとが形成されている。   Hereinafter, the structure of the sealing material (sealing material with a separation preventing function) 7 and the sealing material accommodation groove 6 of the receiving port 3 in which the sealing material 7 is disposed will be described in detail. As shown in FIG. 2 and the like, the sealing material 7 includes a heel portion (a collar portion) 7a that holds the sealing material 7 at a predetermined position in the sealing material accommodation groove 6 and a valve portion 7b that performs a seal between the insertion port. And the valve portion 7b has a substantially circular cross section (or a substantially elliptical cross section) in a state where no external force is applied. Correspondingly, a fitting groove 6a in which the heel portion 7a of the sealing material 7 is fitted into the sealing material accommodation groove 6 to lock the sealing material 7, and a valve in which the valve portion 7b of the sealing material 7 is accommodated. A part receiving groove 6b is formed.

また、受口3のシール材収容溝6における嵌め込み溝6aとバルブ部収容溝6bとの間には、内側(管径方向内側)に突出する受口内面突部8が形成されており、シール材7にも受口内面突部8に摺接する湾曲溝部7cが形成されている。なお、この実施の形態では受口内面突部8の端部は断面略半円形状とされているが、この形状に限るものではない。   Further, between the fitting groove 6a and the valve portion housing groove 6b in the sealing material housing groove 6 of the receiving port 3, there is formed a receiving port inner surface protruding portion 8 that protrudes inward (inner side in the pipe diameter direction). The material 7 is also formed with a curved groove portion 7c that is slidably in contact with the receiving port inner surface protruding portion 8. In this embodiment, the end portion of the receiving-portion inner surface protruding portion 8 has a substantially semicircular cross section, but is not limited to this shape.

図1〜図4などに示すように、シール材7は、弾性を有して圧縮可能なゴム製などからなる環状のシール材本体9に、金属片などの剛性の大きな材料で形成された離脱防止用のロック体10が、図9に示すように周方向に間隔をおいて複数埋設された構成とされている。なお、この実施の形態では、8つのロック体10が周方向に等間隔で配設されている場合を図示しているが、ロック体10の数を増減させたり、これに応じて配設する間隔を変更させたりしてもよい。   As shown in FIG. 1 to FIG. 4 and the like, the sealing material 7 is detached from an annular sealing material main body 9 made of rubber having elasticity and compressible, and made of a material having high rigidity such as a metal piece. As shown in FIG. 9, a plurality of prevention locking bodies 10 are embedded in the circumferential direction at intervals. In this embodiment, the case where the eight lock bodies 10 are arranged at equal intervals in the circumferential direction is illustrated, but the number of the lock bodies 10 is increased or decreased, and the lock bodies 10 are arranged accordingly. The interval may be changed.

ロック体10には、図8に示すように、受口3に対して挿口5が抜け出ようとする際、すなわち、管2、4同士が互いに離脱方向に移動しようとする際に、挿口5の外周面に食い込む爪部10a、10bと、図1および図5〜図7に示すように、挿口5が受口3に挿入されて管2、4同士が接合された際に、受口3のシール材収容溝6において受口内面突部8に摺接可能な湾曲溝部10cなどが形成されている。   As shown in FIG. 8, the lock body 10 has an insertion port when the insertion port 5 is about to come out of the receiving port 3, that is, when the tubes 2 and 4 are about to move away from each other. 5 and 7, the claw portions 10 a and 10 b that bite into the outer peripheral surface of the tube 5, and when the insertion port 5 is inserted into the reception port 3 and the tubes 2 and 4 are joined to each other, as shown in FIGS. In the sealing material accommodation groove 6 of the port 3, a curved groove portion 10 c that can be slidably contacted with the receiving-portion inner surface protruding portion 8 is formed.

図3〜図7に示すように、爪部10a、10bは、ロック体10よりシール材7の内側、より詳しくは、受口3の奥側および管径方向内側に斜めに突出するように形成され、この実施の形態では、各ロック体10に管軸心方向に対して2つの爪部10a、10bが並ぶように形成されている場合を示している。なお、図示しないが、爪部10a、10bを管軸心方向に対して3つ以上並ぶように形成してもよい。   As shown in FIGS. 3 to 7, the claw portions 10 a and 10 b are formed so as to protrude obliquely from the lock body 10 to the inner side of the sealing material 7, more specifically to the inner side of the receiving port 3 and the inner side in the pipe diameter direction. In this embodiment, a case is shown in which each lock body 10 is formed so that two claw portions 10a and 10b are arranged in the tube axis direction. Although not shown, three or more claw portions 10a and 10b may be arranged in the tube axis direction.

ここで、図3、図4などに示すように、受口3の開口端より奥側である爪部(奥側爪部とも称す)10aは、ロック体10の全幅(なお、ロック体10の幅方向とは、受口3などが形成されている管の周方向に沿う方向である)にわたって形成されている。しかし、受口3の開口端寄りの爪部(開口寄り爪部とも称す)10bは、ロック体10における幅方向の中央部だけ残るように形成されており、ロック体10における幅方向の両端部寄り箇所では前記開口寄り爪部10bがそれぞれ切削加工などにより除かれており、この削り取られた削除部分に、例えば、ゴム製などからなるシール材本体9と同様な材料で同様な弾力性を有する回転用弾性体11がシール材本体9とともに一体形成されている。なお、回転用弾性体11を形成する手法はどのような方法でもよく、シール材本体9と別体に作成して、前記開口寄り爪部10bに貼り付けてもよい。   Here, as shown in FIG. 3, FIG. 4, etc., the claw part (also referred to as the back claw part) 10 a on the back side from the opening end of the receiving port 3 is the full width of the lock body 10 (note that the lock body 10 The width direction is formed over the circumferential direction of the pipe in which the receiving port 3 and the like are formed. However, the claw portions (also referred to as opening claw portions) 10b near the opening end of the receiving port 3 are formed so as to remain only in the center portion in the width direction of the lock body 10, and both end portions of the lock body 10 in the width direction. The claw portions 10b near the opening are removed by cutting or the like at the side portions, and the removed portions that have been cut off have the same elasticity as the sealing material body 9 made of, for example, rubber. An elastic body 11 for rotation is integrally formed with the seal material main body 9. The rotating elastic body 11 may be formed by any method, and may be created separately from the sealing material body 9 and attached to the opening-side claw portion 10b.

この回転用弾性体11は、図5〜図7に示すように、挿口5の挿入時に挿口5の外周面に当接して、ロック体10を、その爪部10a、10bが挿口5の外周面から離反する方向に回転させる機能を有する。図3(a)、図4(a)などに示すように、回転用弾性体11は、開口寄り爪部10bよりも管径方向内側に突出する状態で設けられている。また、回転用弾性体11は、その形状が、外力が作用しない状態で、図3(a)に示すように、その断面形状がシール材本体9の内周面部9aから管軸方向奥側ほど管径方向内側への突出量が一定量ずつ増加して直線状に傾斜する傾斜面部11aと、この傾斜面部11aの管軸方向奥端側に厚肉平面形状となって続く厚肉平面部11bとを有する台形の断面形状に形成されている。なお、この実施の形態では、回転用弾性体11は上述したようにシール本体9と一体形成されているが、シール材本体9と合わせた厚みは、図4(a)などに示すように、ロック体10から管径方向内側に向けてほぼ同一厚みとなるように形成されている。   As shown in FIGS. 5 to 7, the rotating elastic body 11 abuts against the outer peripheral surface of the insertion opening 5 when the insertion opening 5 is inserted, and the claw portions 10 a and 10 b of the lock body 10 are inserted into the insertion opening 5. Has a function of rotating in a direction away from the outer peripheral surface of the. As shown in FIG. 3A, FIG. 4A, and the like, the rotating elastic body 11 is provided in a state of projecting inward in the tube diameter direction from the opening-side claw portion 10b. Moreover, the elastic body 11 for rotation is in the state where external force does not act, and the cross-sectional shape is from the inner peripheral surface part 9a of the sealing material body 9 to the far side in the tube axis direction as shown in FIG. The amount of protrusion inward in the tube diameter direction increases by a certain amount, and the inclined surface portion 11a that inclines in a straight line, and the thick flat surface portion 11b that follows the inclined surface portion 11a in the tube axis direction rear end side with a thick flat surface shape. Are formed in a trapezoidal cross-sectional shape. In this embodiment, the rotating elastic body 11 is integrally formed with the seal body 9 as described above, but the thickness combined with the seal material body 9 is as shown in FIG. The lock body 10 is formed to have substantially the same thickness toward the inside in the tube diameter direction.

さらに、図3(a),(b)、図4(b)などに示すように、ロック体10における開口寄り爪部10bが形成されている箇所の先端部に続く受口端側の面(管径方向内側に臨む面)には、挿口5の挿入時に、回転用弾性体11により回転されたロック体10の開口寄り爪部10bが挿口5の外周面に当接することを阻止または当接する力を軽減させる一定厚みの薄肉(例えば、厚さ1mm)のゴム板などからなる保護材12がシール材本体9とともに一体形成されている。なお、保護材12を形成する手法はどのような方法でもよく、保護材12をシール材本体9とは別体に作成し、開口寄り爪部10bに貼り付けてもよい。   Further, as shown in FIGS. 3 (a), 3 (b), 4 (b) and the like, the surface on the receiving end side following the distal end portion of the lock body 10 where the opening-side claw portion 10b is formed ( The surface facing the inner side in the pipe radial direction) prevents the claw portion 10b near the opening of the lock body 10 rotated by the rotating elastic body 11 from contacting the outer peripheral surface of the insertion opening 5 when the insertion opening 5 is inserted. A protective material 12 made of a thin rubber plate having a constant thickness (for example, a thickness of 1 mm) that reduces the abutting force is integrally formed with the seal material main body 9. Any method may be used to form the protective material 12, and the protective material 12 may be created separately from the seal material body 9 and attached to the opening-side claw portion 10 b.

上記構成において、管2、4同士がまだ接合されていない状態、すなわち、受口3に挿口5がまだ挿入されていない状態では、シール材7は、受口3のシール材収容溝6に装着されているだけの状態であるので、図2、図5に示すように、シール材7のバルブ部7bが管径方向の内側に大きく膨らんだ姿勢となっている。したがって、これに伴い、ロック体10も、後述する挿口5の挿入時と比べて、管径方向の内側(図2などにおける紙面の下方側)に寄った姿勢となって、爪部10a、10bが管径方向の内側に大きく突出している姿勢である。   In the above configuration, in a state where the tubes 2 and 4 are not yet joined, that is, in a state where the insertion port 5 is not yet inserted into the receiving port 3, the sealing material 7 is inserted into the sealing material accommodation groove 6 of the receiving port 3. 2 and 5, the valve portion 7b of the sealing material 7 is in a posture that swells greatly inward in the pipe diameter direction. Accordingly, the lock body 10 also has a posture closer to the inner side in the tube radial direction (lower side of the paper surface in FIG. 2 and the like) than when the insertion port 5 described later is inserted, and the claw portions 10a, 10b is the attitude | position which protrudes largely inside the pipe radial direction.

この状態から、管2、4同士を接合すべく、受口3に挿口5を挿入させていくと、図6に示すように、まず、挿口5の傾斜面5aにシール材7の内側(管径方向の内側部分)が接触し、さらには、図7に示すように、挿口5の外周面にシール材7の内側が接触する。ここで、シール材7の内側では、ロック体10の爪部10a、10bが突出しているが、さらにロック体10の爪部(開口寄り爪部)10bには、この爪部10bよりも突出する回転用弾性体11が設けられているので、この回転用弾性体11が挿口5の傾斜面5aや外周面に接触し、さらなる挿口5の挿入動作に伴って回転用弾性体11も挿口5の挿入方向に力を受ける。これにより、シール材7のロック体10は、湾曲溝部10cが受口内面突部8に摺接した状態で、e方向、すなわち、爪部10a、10bが挿口5の外周面から離反する方向に回転する。この結果、挿口5の挿入時に、爪部10a、10bが挿口5の外周面に接触することを防止できて、爪部10a、10bにより挿口5の外周面が傷つくことを防止できる。なお、この挿口5の挿入時には、ロック体10が回転される際にシール材本体9を圧縮して変形させる必要があるので、挿口5の挿入時に、ある程度の挿入力が必要である。   From this state, when the insertion port 5 is inserted into the receiving port 3 in order to join the tubes 2, 4, first, as shown in FIG. 6, first, the inner surface of the sealing material 7 is placed on the inclined surface 5 a of the insertion port 5. The inner side of the sealing material 7 contacts the outer peripheral surface of the insertion opening 5 as shown in FIG. Here, the claw portions 10a and 10b of the lock body 10 protrude inside the seal material 7, but the claw portion (opening claw portion) 10b of the lock body 10 protrudes further than the claw portion 10b. Since the rotating elastic body 11 is provided, the rotating elastic body 11 comes into contact with the inclined surface 5a and the outer peripheral surface of the insertion slot 5, and the rotating elastic body 11 is also inserted along with the insertion operation of the insertion slot 5. A force is applied in the insertion direction of the mouth 5. Thereby, the lock body 10 of the sealing material 7 is in the e direction, that is, the direction in which the claw portions 10 a and 10 b are separated from the outer peripheral surface of the insertion port 5 in a state where the curved groove portion 10 c is in sliding contact with the receiving port inner surface protruding portion 8. Rotate to. As a result, the claw portions 10a and 10b can be prevented from coming into contact with the outer peripheral surface of the insertion port 5 when the insertion port 5 is inserted, and the outer peripheral surface of the insertion port 5 can be prevented from being damaged by the claw portions 10a and 10b. When inserting the insertion slot 5, it is necessary to compress and deform the sealing material body 9 when the lock body 10 is rotated. Therefore, a certain amount of insertion force is required when inserting the insertion slot 5.

ただし、上記構成において、ロック体10に回転用弾性体11が設けられただけの構成である場合には、回転用弾性体11によって挿口5の挿入時に爪部10a、10bが挿口5の外周面から離反する方向にロック体10が回転されたにもかかわらず、挿口5の外周面と受口3との間の間隔が極めて小さい条件下であるなどの理由により、挿口5の挿入時に爪部10bが挿口5の外周面に接触する恐れがある。しかしながら、上記のように、ロック体10に回転用弾性体11を設けることに加えて、爪部10bの先端部に続く受口端部側の面に、薄板状の保護材12を設けたことにより、このような場合でも、挿口5の外周面には保護材12が接触し、これにより、ロック体10の爪部10a、10bが挿口5の外周面に当接することを阻止したり、あるいは当接する力を軽減させたりすることができる。したがって、挿口10の挿入時に爪部10a、10bによって挿口5の外周面に傷がつくことを一層確実に防止したり、最小限に抑えたりすることができる。   However, in the above configuration, when the lock elastic body 11 is simply provided with the rotation elastic body 11, the claw portions 10 a and 10 b of the insertion opening 5 are inserted when the insertion opening 5 is inserted by the rotation elastic body 11. Even though the lock body 10 is rotated in the direction away from the outer peripheral surface, the distance between the outer peripheral surface of the insertion port 5 and the receiving port 3 is very small. There is a possibility that the claw portion 10b may come into contact with the outer peripheral surface of the insertion slot 5 at the time of insertion. However, as described above, in addition to providing the elastic body 11 for rotation in the lock body 10, the protective material 12 in the form of a thin plate is provided on the surface on the receiving end portion side following the tip portion of the claw portion 10b. Thus, even in such a case, the protective material 12 contacts the outer peripheral surface of the insertion slot 5, thereby preventing the claw portions 10 a and 10 b of the lock body 10 from coming into contact with the outer peripheral surface of the insertion slot 5. Alternatively, the abutting force can be reduced. Therefore, it is possible to more reliably prevent or minimize the damage to the outer peripheral surface of the insertion slot 5 by the claw portions 10a and 10b when the insertion slot 10 is inserted.

また、上記構成によれば、回転用弾性体11が配設されている箇所では爪部(開口寄り爪部)10bが除かれているので、爪部10bが設けられたまま(残されたまま)の状態で回転用弾性体11が配設されているような不具合を生じることが無く、挿口5の挿入時にロック体10を良好に回転させて、爪部10a、10bを挿口5の外周面から離反させることができる。   Further, according to the above configuration, the claw portion (opening claw portion) 10b is removed at the place where the elastic body 11 for rotation is disposed, so that the claw portion 10b remains (is left). ), The lock body 10 is rotated well when the insertion slot 5 is inserted, and the claw portions 10a and 10b are inserted into the insertion slot 5. It can be separated from the outer peripheral surface.

つまり、図10(a)に示すように、爪部(開口寄り爪部)10bが設けられたままで、この爪部10bの先端部に回転用弾性体11を被せるように配設させると、挿口5の挿入時に、爪部10bによって回転用弾性体11が切断されてしまって爪部10bが露出し、これにより爪部10bが挿口5の外周面に接触して傷が生じてしまう。なお、爪部10bによって切断されることがないように回転用弾性体11として、厚いゴムなどの弾性体や硬い弾性体を用いると、挿口5が受口3から離脱する際に、爪部10bが挿口5の外周面に引っ掛からず、離脱防止機能が不良となる。   That is, as shown in FIG. 10A, when the claw portion (opening claw portion) 10b is provided and the tip of the claw portion 10b is disposed so as to cover the rotating elastic body 11, the insertion is performed. When the mouth 5 is inserted, the elastic body 11 for rotation is cut by the claw portion 10b, so that the claw portion 10b is exposed. As a result, the claw portion 10b comes into contact with the outer peripheral surface of the insertion port 5 to cause scratches. If an elastic body such as thick rubber or a hard elastic body is used as the rotating elastic body 11 so as not to be cut by the claw section 10b, the claw section is removed when the insertion port 5 is detached from the receiving port 3. 10b is not caught on the outer peripheral surface of the insertion slot 5, and the separation preventing function becomes defective.

また、図10(b)に示すように、爪部(開口寄り爪部)10bが設けられたままで、この爪部10bが形成されている箇所の先端部に続く受口端部側の面(管径方向内側に臨む面)に回転用弾性体11が被せられるように配設させると、挿口5の挿入時に、回転用弾性体11が前記爪部10bの受口端部側の面に沿ってf方向(管径方向外側)に移動して(逃げて)しまい、ロック体10が回転せず、これにより爪部10bが挿口5の外周面に接触して傷が生じてしまう。   Further, as shown in FIG. 10B, the surface on the receiving end side (following the tip of the portion where the claw portion 10b is formed, with the claw portion (opening claw portion) 10b being provided ( When the rotation elastic body 11 is placed on the surface facing the inner side in the pipe diameter direction), the rotation elastic body 11 is placed on the surface on the receiving end side of the claw portion 10b when the insertion opening 5 is inserted. And moves in the f direction (outward in the radial direction of the tube) (escapes), the lock body 10 does not rotate, and the claw portion 10b comes into contact with the outer peripheral surface of the insertion slot 5 to cause scratches.

さらに、図10(c)に示すように、爪部(開口寄り爪部)10bが設けられたままで、回転用弾性体11を、爪部10bが形成されている箇所の先端部に続く受口端部側の面(管径方向内側に臨む面)から爪部10bの先端部まで突出可能な姿勢で配設すると、挿口5の挿入時に、回転用弾性体11が爪部10bと挿口5の外周面との間にくさび状に食い込んでいき、挿口5の挿入時に、挿口5を極めて大きな力を付加しなければ、挿入できなくなり、特有の治具を必要として別途に高額な設備費を要したり、作業時間が多大となるなど作業性が低下したりする不具合を生じる。   Further, as shown in FIG. 10 (c), with the claw portion (opening claw portion) 10b being provided, the rotating elastic body 11 is connected to the tip of the tip portion where the claw portion 10b is formed. If it arrange | positions with the attitude | position which can protrude from the surface by the side of an edge part (surface which faces a pipe radial direction inner side) to the front-end | tip part of the nail | claw part 10b, the elastic body 11 for rotation will be inserted into the nail | claw part 10b and an insertion port at the time of insertion. If the insert 5 is inserted into the wedge 5 in the shape of a wedge and an extremely large force is not applied when the insert 5 is inserted, the insert 5 cannot be inserted, and a special jig is required and expensive. Inconveniences such as reduction in workability such as cost of equipment and a long work time occur.

このように、爪部(開口寄り爪部)10bが設けられたままで回転用弾性体11を設けると、上述したような不具合を生じるが、本発明の実施の形態では、回転用弾性体11が配設されている箇所では爪部10bが除かれているので、上記不具合を生じることが無くなり、挿口5の挿入時にロック体10を良好に回転させて、爪部10a、10bを挿口5の外周面から離反させることができる。   As described above, if the rotating elastic body 11 is provided with the claw portion (opening claw portion) 10b being provided, the above-described problems occur. However, in the embodiment of the present invention, the rotating elastic body 11 is Since the claw portion 10b is removed at the place where it is disposed, the above-mentioned problems do not occur, and the lock body 10 is rotated well when the insertion port 5 is inserted, and the claw portions 10a, 10b are inserted into the insertion port 5. It is possible to move away from the outer peripheral surface.

また、本実施の形態においては、図3、図4などに示すように、回転用弾性体11を、ロック体10の爪部(開口寄り爪部)10bに対応する箇所における管2、4の周方向に沿うロック体10の幅方向に対する両端部にそれぞれ配設し、保護材12が設けられた爪部10bを、回転用弾性体11の間に形成させているので、挿口5の挿入時には、回転用弾性体11が爪部10bの両側方で挿口5の外周面に良好に接触してロック体10が回転し、爪部10bが挿口5の外周面に接触して傷が生じることを良好に防止できる。一方、管2、4同士が離脱方向に移動しようとして、受口3から挿口5が離脱しようとした際には、図8に示すように、挿口5に伴って、回転用弾性体11が受口開口端側へ移動することにより、ロック体10がg方向に回転して、ロック体10の爪部10bが挿口5の外周面に食い込み、この結果、管同士の離脱を阻止されて、受口3から挿口5が離脱することが阻止される。   Further, in the present embodiment, as shown in FIGS. 3 and 4, the elastic body 11 for rotation is attached to the tubes 2 and 4 at locations corresponding to the claw portions (opening claw portions) 10 b of the lock body 10. Since the claw portions 10b, which are respectively disposed at both ends of the lock body 10 along the circumferential direction and are provided with the protective material 12, are formed between the elastic bodies 11 for rotation, the insertion of the insertion port 5 Sometimes, the elastic body 11 for rotation is in good contact with the outer peripheral surface of the insertion slot 5 on both sides of the claw portion 10b and the lock body 10 is rotated, and the claw portion 10b is in contact with the outer peripheral surface of the insertion slot 5 and is scratched. This can be prevented well. On the other hand, when the tubes 2 and 4 are about to move away from each other and the insertion port 5 is about to be separated from the receiving port 3, as shown in FIG. Is moved to the receiving opening end side, the lock body 10 rotates in the g direction, and the claw portion 10b of the lock body 10 bites into the outer peripheral surface of the insertion opening 5, thereby preventing the pipes from being separated from each other. Thus, the insertion port 5 is prevented from being detached from the receiving port 3.

なお、受口3と挿口5との間の隙間が広い(大きい)場合には、図11(a)に示すように、管同士が離脱方向に移動しようとして受口3から挿口5が離脱しようとした際には、図11(a)に示すように、挿口5に伴って回転用弾性体11が受口開口端側へ移動してロック体10がh方向に回転した際に、ロック体10の開口寄り爪部10bではなくて、奥側爪部10aが挿口5の外周面に食い込み、管2、4同士の離脱を阻止される。ここで、ロック体10において、奥側爪部10aに対応する箇所では回転用弾性体11や保護材12が設けられていないため、このように受口3と挿口5との間の隙間が広い(大きい)場合において、管2、4同士を接合すべく、受口3に挿口5が挿入される際には、図11(b)に示すように、ロック体10の奥側爪部10aが挿口5の外周面に接触する。しかしながら、この際は、ロック体10のi方向への回転角度(回転量)が小さくて済むとともに、シール材7(シール材本体9)の圧縮量が小さいため、挿口5の外周面には傷はつかない。このように、挿口5の外周面への傷の発生を防止することについて考慮しなければならないのは、受口3と挿口5との間の隙間が狭い場合に挿口5の外周面に接触する可能性のある開口寄り爪部10bだけでよい(爪部が3つ以上ある場合も同様である)。   In addition, when the clearance gap between the receiving port 3 and the insertion port 5 is wide (large), as shown to Fig.11 (a), the insertion port 5 is the insertion port 5 from the receiving port 3 trying to move to a detachment | leave direction. When attempting to detach, as shown in FIG. 11 (a), when the elastic body 11 for rotation moves with the insertion port 5 toward the receiving opening end side and the lock body 10 rotates in the h direction. The rear claw portion 10a bites into the outer peripheral surface of the insertion slot 5 instead of the opening-side claw portion 10b of the lock body 10, and the separation of the tubes 2, 4 is prevented. Here, in the lock body 10, the elastic body 11 for rotation and the protective material 12 are not provided in the portion corresponding to the back claw portion 10 a, and thus there is a gap between the receiving port 3 and the insertion port 5. When the insertion port 5 is inserted into the receiving port 3 in order to join the tubes 2 and 4 in a wide (large) case, as shown in FIG. 10 a contacts the outer peripheral surface of the insertion slot 5. However, at this time, the rotation angle (rotation amount) of the lock body 10 in the i direction may be small and the compression amount of the sealing material 7 (sealing material body 9) is small. There is no scratch. As described above, it should be considered that the outer peripheral surface of the insertion port 5 is prevented from being damaged when the gap between the receiving port 3 and the insertion port 5 is narrow. It is only necessary to have the claw portion 10b near the opening that may come into contact with the same (the same applies when there are three or more claw portions).

また、上記実施の形態では、回転用弾性体11として、その断面でシール材本体9の内周面部9aから、管軸方向奥側ほど管径方向内側への突出量が一定量ずつ増加する(すなわち直線状に増加する)傾斜面部11aを有する場合を述べたが、これに限るものではない。図12(a)、(b)、図13(a)〜(c)は、他の実施の形態に係る回転用弾性体11を示すもので、この実施の形態では、回転用弾性体11を、図12(a)に示すように、その断面でシール材本体9の内周面部分から管軸方向奥側ほど管径方向内側への突出増加量が大きくなるように増加する(すなわち、管軸方向開口側は突出量および突出増加量がわずかであるとともに、管軸方向奥側ほど突出量および突出増加量が大きくなった)ことにより湾曲形状(より詳しくは、中央部がロック体10に近接するように窪む形状で湾曲する湾曲形状)に傾斜する湾曲傾斜面部11cと、この湾曲傾斜面部11cの管軸方向奥側端部の厚肉部分に滑らかに続く厚肉平面部11bとを有する略台形の断面形状に形成している。そして、図14(a)、図15(a)、図16(a)に示すように、挿口挿入時に挿口5の先端部がまず湾曲傾斜面部11cの薄肉突出部分(湾曲傾斜面部11cの外側寄り部分)に当接するよう構成されている。なお、回転用弾性体11はシール本体9と一体形成されているが、図13(a)に示すように、シール材本体9と合わせた厚みが、ロック体10から管径方向内側に向けて、湾曲傾斜面部11cの中央部分で最も薄肉となり、厚肉面部11bの箇所で厚肉となるように形成されている。   Moreover, in the said embodiment, as the elastic body 11 for rotation, the protrusion amount to the pipe radial inside increases from the inner peripheral surface part 9a of the sealing material main body 9 in the cross section to the inner side in the pipe radial direction by a certain amount ( In other words, the case where the inclined surface portion 11a (which increases linearly) is described, but the present invention is not limited to this. 12 (a), 12 (b), and 13 (a) to 13 (c) show an elastic body 11 for rotation according to another embodiment. In this embodiment, the elastic body 11 for rotation is shown. As shown in FIG. 12 (a), the cross section increases from the inner peripheral surface portion of the sealing material body 9 toward the inner side in the tube axis direction so that the amount of increase in the protrusion inward in the tube diameter direction increases (that is, the tube The axial opening side has a slight amount of protrusion and a large amount of increase in protrusion, and has a curved shape (more specifically, the center portion is formed on the lock body 10 as the protrusion amount and the protrusion increase amount increase toward the rear side in the tube axis direction). A curved sloping surface portion 11c that is slanted into a curved shape that is concaved so as to be close to each other, and a thick flat surface portion 11b that smoothly follows the thick-walled portion of the curved slanted surface portion 11c at the end in the tube axis direction. It has a substantially trapezoidal cross-sectional shape. 14 (a), 15 (a), and 16 (a), the distal end portion of the insertion opening 5 is first a thin protruding portion (the curved inclined surface portion 11c of the curved inclined surface portion 11c) when the insertion opening is inserted. It is configured to contact the outer side portion). Although the elastic body 11 for rotation is integrally formed with the seal body 9, as shown in FIG. 13 (a), the thickness combined with the seal body 9 is directed from the lock body 10 toward the inside in the radial direction. In addition, it is formed so as to be thinnest at the central portion of the curved inclined surface portion 11c and thick at the portion of the thick surface portion 11b.

ところで、この離脱防止管継手1では、挿口5の挿入時に、シール材7を変形させることによりロック体10を回転させて挿口5の挿入を許容させる構造であるため、挿口5の挿入時に比較的大きな力が必要となる。そして、回転用弾性体11を設けたことで、挿口挿入時に、爪部10a、10bにより挿口5の外周面を傷つけることを防止できるが、挿口挿入時に挿口5の外周面に回転用弾性体11が当接することでさらに大きな力を要することとなる。すなわち、図4(a)などに示すように、回転用弾性体11として、その断面でシール材本体9の内周面部分から、管軸方向奥側ほど突出量が一定量ずつ増加する傾斜面部11aを有する場合には、挿口5の先端部が回転用弾性体11の傾斜面部11aに当接したときの、回転用弾性体11の突出増加量が比較的大きいため、挿口挿入時での挿口5の挿入力として大きな力が必要となり、作業能率が低下したり、場合によっては、特殊な接合用治具が必要となったりすることがあった。   By the way, in this detachment prevention pipe joint 1, when the insertion port 5 is inserted, the seal member 7 is deformed to rotate the lock body 10 and allow the insertion port 5 to be inserted. Sometimes a relatively large force is required. By providing the elastic body 11 for rotation, it is possible to prevent the outer peripheral surface of the insertion port 5 from being damaged by the claw portions 10a and 10b when the insertion port is inserted, but the outer peripheral surface of the insertion port 5 is rotated when the insertion port is inserted. A larger force is required by the contact of the elastic body 11 for use. That is, as shown in FIG. 4A and the like, as the elastic body 11 for rotation, an inclined surface portion whose protruding amount increases by a certain amount from the inner peripheral surface portion of the seal material main body 9 in the cross section toward the inner side in the tube axis direction. 11a, when the distal end portion of the insertion slot 5 comes into contact with the inclined surface portion 11a of the rotation elastic body 11, the amount of increase in the protrusion of the rotation elastic body 11 is relatively large. A large force is required as the insertion force of the insertion slot 5, and the work efficiency may be lowered, or in some cases, a special joining jig may be required.

これに対して、上記のように、回転用弾性体11における爪部(開口寄り爪部)10bの内側(管径方向内側)に位置する面に、その断面形状が管軸方向奥側ほど管径方向内側への突出増加量が大きくなるように増加して湾曲形状に傾斜する湾曲傾斜面部11cを形成したことにより、図15(a)に示すように、挿口挿入時に挿口5の先端部がまず回転用弾性体11における湾曲傾斜面部11cの薄肉突出部分(湾曲傾斜面部11cの外側寄り部分)に当接するとともにこの箇所の突出量が少なく、その後滑らかに突出量が増加するため、この際の挿口5の挿入力の増加を最小限に抑えることができる。したがって、挿口5を挿入する際の作業性を向上させることができるとともに、特殊な接合用治具を必要とせず、一般の接合用治具ですますことができるので設備費を低減することもできる。   On the other hand, as described above, on the surface located on the inner side (the inner side in the pipe radial direction) of the claw part (opening side claw part) 10b in the elastic body 11 for rotation, the cross-sectional shape is closer to the inner side in the pipe axis direction. As shown in FIG. 15 (a), the distal end of the insertion opening 5 is inserted when the insertion opening is inserted by forming the curved inclined surface portion 11c that is inclined so as to increase in the amount of protrusion inward in the radial direction. Since the portion first comes into contact with the thin protruding portion of the curved inclined surface portion 11c of the rotating elastic body 11 (the portion closer to the outside of the curved inclined surface portion 11c), the protruding amount of this portion is small, and then the protruding amount increases smoothly. An increase in the insertion force of the insertion slot 5 can be minimized. Therefore, the workability at the time of inserting the insertion slot 5 can be improved, and a special joining jig is not required and a general joining jig can be used, so that the equipment cost can be reduced. it can.

なお、回転用弾性体11における湾曲傾斜面部11cが設けられている箇所の断面形状が湾曲形状であり、この湾曲傾斜面部11cが厚肉面部11bに滑らかに続くように形成されているので、挿口挿入時に挿口5を挿入し続けると、滑らかに挿入できながら、最終的には、厚肉面部11bが挿口に接触して、爪部10a、10bにより挿口5の外周面を傷つけることをより確実に防止できる。   The section of the rotating elastic body 11 where the curved inclined surface portion 11c is provided has a curved cross-sectional shape, and the curved inclined surface portion 11c is formed so as to smoothly follow the thick wall surface portion 11b. If the insertion slot 5 is continuously inserted at the time of mouth insertion, the thick wall surface portion 11b eventually comes into contact with the insertion slot and the outer peripheral surface of the insertion slot 5 is damaged by the claw portions 10a and 10b while being smoothly inserted. Can be prevented more reliably.

また、図3〜図7に示す上記実施の形態では、保護材12として、対応する爪部(開口寄り爪部)10bの内側(管径方向内側)の面に、ほぼ一定厚みの薄肉状に形成した場合を述べたが、これに限るものではない。図12〜図16は、他の実施の形態を示すもので、この実施の形態では、保護材12における、この保護材12が配設されている爪部(開口寄り爪部)10bの先端部近傍箇所における内側(管径方向内側)の面に厚肉部12aを設け、この保護材12の厚肉部12aを、前記爪部10bよりも幅が狭く小さい領域(短い長さの寸法)だけに形成している。なお、この実施の形態では、保護材12における厚肉部12aと薄肉部12bとが滑らかに続くように形成した場合を示しているが、これに限るものではない。   Moreover, in the said embodiment shown in FIGS. 3-7, it forms in the thin shape of substantially constant thickness on the surface (inner diameter direction inner side) of the corresponding nail | claw part (opening side nail | claw part) 10b as the protective material 12. FIG. Although the case where it formed was described, it is not restricted to this. 12 to 16 show other embodiments. In this embodiment, the tip of the claw portion (opening claw portion) 10b in which the protection material 12 is disposed in the protection material 12 is shown. A thick portion 12a is provided on the inner surface (inner side in the pipe radial direction) in the vicinity, and the thick portion 12a of the protective material 12 is narrower and smaller than the claw portion 10b (a short length dimension). Is formed. In this embodiment, the case where the thick part 12a and the thin part 12b of the protective material 12 are formed so as to continue smoothly is shown, but the present invention is not limited to this.

保護材12として単に一定厚みの薄肉状に形成させた構造のものを用いると、爪部10bの形状によっては、保護材12による保護機能が不十分となって、挿口挿入時に爪部10bにより挿口5の外周面を傷つけることがある。これに対処すべく、保護材12全体を厚肉状に形成すると、爪部10bにより挿口5の外周面を傷つけることは防止できるが、挿口挿入時に保護材12が挿口外周面により強く当接するため、極めて大きな力を要することとなる。これに対して、本実施の形態では、保護材12の厚肉部12aを、前記爪部10bよりも狭く小さい寸法で形成することにより、爪部10bにより挿口5の外周面を傷つけることを防止できるだけでなく、厚肉部12aを形成した領域が小さいので、厚肉部12aが比較的小さな力で変形し易くなり、挿口挿入時での挿口5の必要な挿入力の増加を最小限に抑えることができる。   If a protective material 12 having a structure having a simple thickness is used, depending on the shape of the claw portion 10b, the protective function of the protective material 12 may be insufficient, and the claw portion 10b may be inserted during insertion. The outer peripheral surface of the insertion slot 5 may be damaged. In order to cope with this, if the entire protective member 12 is formed thick, it is possible to prevent the outer peripheral surface of the insertion slot 5 from being damaged by the claw portion 10b, but the protective member 12 is stronger than the outer peripheral surface of the insertion opening during insertion. Since it abuts, an extremely large force is required. On the other hand, in this embodiment, the outer peripheral surface of the insertion opening 5 is damaged by the claw portion 10b by forming the thick portion 12a of the protective material 12 with a narrower and smaller dimension than the claw portion 10b. Not only can this be prevented, but since the region where the thick portion 12a is formed is small, the thick portion 12a is easily deformed with a relatively small force, and the increase in the required insertion force of the insertion port 5 during insertion is minimized. To the limit.

したがって、この構成によっても、挿口5を挿入する際の作業能率を向上させることができるとともに、特殊な接合用治具を必要とせず、一般の接合用治具ですますことができるので設備費を低減することができる。   Therefore, even with this configuration, the work efficiency when inserting the insertion slot 5 can be improved, and a special joining jig is not required, and a general joining jig can be used. Can be reduced.

また、図1〜図9や図11〜図16に示す実施の形態では、保護材12が、爪部(開口寄り爪部)10bのほぼ先端部近傍まで設けられている場合を述べたが、これに限るものではない。図17〜図21は、さらに他の実施の形態を示すもので、この実施の形態では、爪部(開口寄り爪部)10bの先端部近傍箇所には、保護材12が設けられておらず、図17(c)などに示すように、保護材12は、爪部10bと保護材12との間に隙間を有する状態で形成されている。   In the embodiments shown in FIG. 1 to FIG. 9 and FIG. 11 to FIG. 16, the case where the protective material 12 is provided almost to the vicinity of the tip of the claw portion (opening claw portion) 10 b is described. This is not a limitation. FIGS. 17 to 21 show still another embodiment. In this embodiment, the protective material 12 is not provided in the vicinity of the tip of the claw portion (opening claw portion) 10b. As shown in FIG. 17C and the like, the protective material 12 is formed with a gap between the claw portion 10b and the protective material 12.

なお、図17〜図21では、保護材12の厚肉部12aに対応する箇所のみ、保護材12が設けられていない場合を示したが、これに限るものではなく、爪部10bが設けられている箇所の全幅の領域(すなわち、保護材12の厚肉部12aとこの厚肉部12aの両側方の薄肉部12bに対応する箇所)において、爪部10bの先端部近傍箇所に保護材12を設けずに、爪部10bと保護材12との間に隙間が形成されるように構成してもよい。   In addition, in FIGS. 17-21, although the case where the protective material 12 was not provided only in the location corresponding to the thick part 12a of the protective material 12 was not restricted to this, the nail | claw part 10b is provided. In the region of the full width of the part (that is, the part corresponding to the thick part 12a of the protective material 12 and the thin part 12b on both sides of the thick part 12a), the protective material 12 is provided near the tip of the claw part 10b. It may be configured such that a gap is formed between the claw portion 10b and the protective material 12 without providing a gap.

図11〜図16に示す実施の形態のように、保護材12(図11〜図16に示す場合は保護材12の厚肉部12a)が爪部(開口寄り爪部)10bの先端部まで設けられていると、図22に示すように、場合によっては、挿口5の挿入時に、爪部10bと挿口5の外周面との間に、保護材12における爪部10bの先端部近傍部分12’が入り込み、保護材12の前記先端部近傍部分12’が切断される場合がある。このときには、保護材12により、爪部10bが挿口5の外周面を傷つけることを防止できるが、挿口5の挿入時に、爪部10bと挿口5の外周面との間に保護材12の前記先端部近傍部分12’が入り込んだ場合には、保護材12の前記先端部近傍部分12’を切断しようとする力が必要となるとともに、切断されつつある保護材12の挿口外周面との接触部分である前記先端部近傍部分12’が強く当接しながら引きずられるので、挿口5の挿入に大きな力が必要となることがある。   As in the embodiment shown in FIGS. 11 to 16, the protective material 12 (in the case shown in FIGS. 11 to 16, the thick portion 12 a of the protective material 12) extends to the tip of the claw portion (opening claw portion) 10 b. If provided, as shown in FIG. 22, in some cases, when the insertion slot 5 is inserted, between the claw part 10 b and the outer peripheral surface of the insertion slot 5, in the vicinity of the tip of the claw part 10 b in the protective material 12. The portion 12 ′ may enter, and the tip portion vicinity portion 12 ′ of the protective material 12 may be cut. At this time, the claw portion 10 b can be prevented from damaging the outer peripheral surface of the insertion slot 5 by the protective material 12, but the protective material 12 is interposed between the claw portion 10 b and the outer peripheral surface of the insertion slot 5 when the insertion port 5 is inserted. When the tip vicinity portion 12 ′ of the protective member 12 enters, a force to cut the tip vicinity portion 12 ′ of the protective material 12 is required, and the outer peripheral surface of the insertion opening of the protective material 12 being cut Since the tip portion vicinity portion 12 ′ that is a contact portion with the tip is dragged while strongly contacting, a large force may be required to insert the insertion slot 5.

これに対して、爪部10bと保護材12との間に隙間Sを有するように保護材12を形成することで、挿口5の挿入時に、爪部10bと挿口5の外周面との間に保護材12が入り込むことを防止でき、挿口5の挿入において必要な力を減少できて作業能率を向上させることができる。   On the other hand, by forming the protective material 12 so as to have a gap S between the claw portion 10b and the protective material 12, when the insertion port 5 is inserted, the claw portion 10b and the outer peripheral surface of the insertion port 5 It is possible to prevent the protective material 12 from entering between them, reduce the force required to insert the insertion slot 5, and improve the work efficiency.

なお、上記実施の形態では、回転用弾性体11を、ロック体10の幅方向両端部にそれぞれ配設し、保護材12が設けられた爪部(開口寄り爪部)10bを、これらの回転用弾性体11の間に形成させている場合を述べたが、これに限るものではなく、回転用弾性体11を、ロック体10における幅方向中央部に配設し、保護材12が設けられた爪部(開口寄り爪部)10bを、ロック体10の幅方向両端部にそれぞれ配設してもよい。   In the above embodiment, the elastic body 11 for rotation is disposed at both ends in the width direction of the lock body 10, and the claw portion (opening claw portion) 10b provided with the protective material 12 is rotated. The case where the elastic member 11 is formed between the elastic members 11 has been described. However, the present invention is not limited to this. The rotating elastic member 11 is disposed in the center of the lock member 10 in the width direction, and the protective member 12 is provided. You may arrange | position the nail | claw part (opening side claw part) 10b in the width direction both ends of the lock body 10, respectively.

また、回転用弾性体11や保護材12は、シール材本体9と同じ材料、またはシール材本体9と同じ硬度の材料で形成するように構成すると、シール材7を一体成形で形成することができる利点があり、シール材7の製作が容易となる。しかし、これに限るものではなく、回転用弾性体11や保護材12を、シール材本体9と異なる硬度のものや、異なる材料、例えば樹脂で形成してもよい。このように、回転用弾性体11や保護材12を、シール材本体9と異なる硬度のものや、異なる材料で形成する場合には、回転用弾性体11や保護材12の形状をより自由に決めることができて、最適設計が可能になる利点や、場合によっては、同一材料で形成する場合よりも安く生産できる利点もある。   Further, when the elastic body for rotation 11 and the protective material 12 are formed of the same material as the sealing material body 9 or a material having the same hardness as the sealing material body 9, the sealing material 7 can be formed by integral molding. There is an advantage that can be made, and the manufacture of the sealing material 7 becomes easy. However, the present invention is not limited to this, and the rotating elastic body 11 and the protective material 12 may be formed of a material having a hardness different from that of the seal material body 9 or a different material such as a resin. Thus, when the elastic body 11 for rotation and the protective material 12 are made of a material having a hardness different from that of the seal material main body 9 or a different material, the shape of the elastic body for rotation 11 and the protective material 12 can be freely set. There is an advantage that it can be determined and an optimum design is possible, and in some cases, there is an advantage that it can be produced at a lower cost than the case of forming the same material.

1 離脱防止管継手
2、4 管
3 受口
5 挿口
6 シール材収容溝
7 シール材
9 シール材本体
10 ロック体
10a 爪部(奥側爪部)
10b 爪部(開口寄り爪部)
11 回転用弾性体
11a 傾斜面部
11b 厚肉平面部
11c 湾曲傾斜面部
12 保護材
12a 厚肉部
12b 薄肉部
S 隙間
DESCRIPTION OF SYMBOLS 1 Detachment prevention pipe joint 2, 4 Pipe 3 Receptacle 5 Insertion 6 Seal material accommodation groove 7 Seal material 9 Seal material body 10 Lock body 10a Claw part (back claw part)
10b Claw part (opening claw part)
DESCRIPTION OF SYMBOLS 11 Elastic body for rotation 11a Inclined surface part 11b Thick plane part 11c Curved inclined surface part 12 Protective material 12a Thick part 12b Thin part S Crevice

Claims (14)

互いに接合される一方の管の端部に形成された受口の内部に、他方の管の端部に形成された挿口が挿入される離脱防止管継手に用いられ、受口の内周に形成されたシール材収容溝に配設されて、受口と挿口との間で圧縮されることで挿口受口間のシールを行うシール材であって、
弾性を有して圧縮可能な環状のシール材本体に、離脱防止用のロック体が埋設されており、
前記ロック体に、受口に対して挿口が抜け出ようとする際に挿口の外周面に食い込む爪部が形成されており、
当該シール材に、挿口の挿入時に挿口の外周面に当接して前記爪部が挿口の外周面から離反する方向にロック体を回転させる回転用弾性体が設けられている
ことを特徴とする離脱防止機能付きシール材。
Used in an anti-separation fitting where an insertion port formed at the end of the other pipe is inserted into the receiving port formed at the end of one of the pipes that are joined together. A sealing material that is disposed in the formed sealing material receiving groove and seals between the insertion port and receiving port by being compressed between the receiving port and the insertion port,
A lock body for preventing detachment is embedded in an annular seal material body that has elasticity and can be compressed.
The lock body is formed with a claw portion that bites into the outer peripheral surface of the insertion port when the insertion port is about to come out of the receiving port,
The sealing material is provided with a rotating elastic body that abuts the outer peripheral surface of the insertion port when the insertion port is inserted and rotates the lock body in a direction in which the claw portion is separated from the outer peripheral surface of the insertion port. Sealing material with a function to prevent separation.
ロック体において爪部が管軸心方向に対して複数形成され、受口開口端寄りの爪部近傍に、回転用弾性体が設けられていることを特徴とする請求項1記載の離脱防止機能付きシール材。   2. The disengagement preventing function according to claim 1, wherein a plurality of claw portions are formed in the lock body with respect to the axial direction of the tube, and an elastic body for rotation is provided in the vicinity of the claw portion near the opening of the receiving opening. Seal material with. 回転用弾性体は、ロック体における爪部の少なくとも一部が除かれた箇所において管径方向内側に突出するように配設されていることを特徴とする請求項1または2に記載の離脱防止機能付きシール材。   3. The separation prevention according to claim 1, wherein the rotating elastic body is disposed so as to protrude inward in the tube radial direction at a location where at least a part of the claw portion of the lock body is removed. Functional sealing material. 回転用弾性体が、その断面形状がシール材本体の内周面部から管軸方向奥側ほど管径方向内側への突出量が一定量ずつ増加する傾斜面部と、この傾斜面部の管軸方向奥端側に厚肉平面形状となって続く厚肉平面部とを有することを特徴とする請求項3に記載の離脱防止機能付きシール材。   The rotating elastic body has an inclined surface portion whose cross-sectional shape increases from the inner peripheral surface portion of the seal material main body in the tube axial direction toward the inner side in the tube radial direction by a fixed amount, and the inclined surface portion in the tube axial direction. The sealing material with a separation preventing function according to claim 3, further comprising a thick flat surface portion that continues in a thick flat shape on an end side. 回転用弾性体が、その断面形状が管軸方向奥側ほど管径方向内側への突出増加量が大きくなるように増加して湾曲形状に傾斜する湾曲傾斜面部と、この湾曲傾斜面部の管軸方向奥側端部の厚肉部分に滑らかに続く厚肉平面部とを有する形状とされ、挿口挿入時に挿口先端部がまず湾曲傾斜面部の薄肉突出部分に当接するよう配設されていることを特徴とする請求項3に記載の離脱防止機能付きシール材。   An elastic body for rotation has a curved inclined surface portion that is inclined so as to increase in the amount of protrusion inward in the tube radial direction toward the inner side in the tube axis direction, and the tube axis of the curved inclined surface portion. It has a shape having a thick flat surface portion that smoothly follows a thick portion at the back end portion in the direction, and when the insertion port is inserted, the distal end portion of the insertion port is first disposed so as to contact the thin protruding portion of the curved inclined surface portion. The sealing material with a separation preventing function according to claim 3. 爪部における先端部に続く受口端部側の面に、挿口の挿入時に、回転用弾性体により回転されたロック体において、このロック体の爪部が挿口の外周面に当接することを阻止または当接する力を軽減させる保護材が配設されていることを特徴とする請求項1〜5の何れか1項に記載の離脱防止機能付きシール材。   In the lock body rotated by the elastic body for rotation when the insertion port is inserted, the claw portion of the lock body abuts on the outer peripheral surface of the insertion port on the surface of the receiving end portion side following the tip of the claw portion. The sealing material with a separation preventing function according to any one of claims 1 to 5, wherein a protective material for reducing a force to prevent or abut is provided. 保護材は、対応する爪部の受口端部側の面に、ほぼ一定厚みの薄肉状に形成されていることを特徴とする請求項6に記載の離脱防止機能付きシール材。   The sealing material with a separation preventing function according to claim 6, wherein the protective material is formed in a thin shape with a substantially constant thickness on the surface of the corresponding claw portion on the receiving end side. 保護材に、この保護材が配設されている爪部の先端部近傍箇所における管径方向内側の面に厚肉部が設けられ、前記保護材の厚肉部が、前記爪部よりも狭く小さい領域に形成されていることを特徴とする請求項6に記載の離脱防止機能付きシール材。   The protective material is provided with a thick portion on the inner surface in the pipe radial direction at the vicinity of the tip of the claw portion where the protective material is disposed, and the thick portion of the protective material is narrower than the claw portion. The sealing material with a separation preventing function according to claim 6, wherein the sealing material is formed in a small region. 保護材は、対応する爪部との間に隙間を有する状態で形成されていることを特徴とする請求項6に記載の離脱防止機能付きシール材。   The protective material according to claim 6, wherein the protective material is formed in a state having a gap between the corresponding claw portions. ロック体は、環状のシール材本体に対して、管の周方向に間隔をあけて複数配設され、回転用弾性体は、当該シール材における管の周方向に沿うロック体の幅方向に対する両端部対応箇所にそれぞれ配設され、保護材が設けられた爪部が、前記回転用弾性体の間に形成されていることを特徴とする請求項6〜9の何れか1項に記載の離脱防止機能付きシール材。   A plurality of the lock bodies are disposed with a space in the circumferential direction of the pipe with respect to the annular seal material body, and the elastic body for rotation has both ends in the width direction of the lock body along the circumferential direction of the pipe in the seal material. 10. The detachment according to any one of claims 6 to 9, wherein a claw portion provided at each of the corresponding portions and provided with a protective material is formed between the elastic bodies for rotation. Sealing material with prevention function. ロック体は、環状のシール材本体に対して、管の周方向に間隔をあけて複数配設され、回転用弾性体は、当該シール材における管の周方向に沿うロック体の幅方向に対する中央部対応箇所に配設され、保護材が設けられた爪部が、ロック体の幅方向に対する両端部にそれぞれ配設されていることを特徴とする請求項6〜9の何れか1項に記載の離脱防止機能付きシール材。   A plurality of lock bodies are arranged at intervals in the circumferential direction of the pipe with respect to the annular seal material body, and the elastic body for rotation is the center of the seal material in the width direction of the lock body along the circumferential direction of the pipe The nail | claw part arrange | positioned by the part corresponding location and provided with the protective material is each arrange | positioned by the both ends with respect to the width direction of a lock body, The any one of Claims 6-9 characterized by the above-mentioned. Sealing material with anti-separation function. 回転用弾性体は、シール材本体と同じ材料、またはシール材本体と同じ硬度の材料で形成されていることを特徴とする請求項1〜11の何れか1項に記載の離脱防止機能付きシール材。   The elastic member for rotation is formed of the same material as the seal material body or a material having the same hardness as the seal material body, The seal with a separation preventing function according to any one of claims 1 to 11 Wood. 回転用弾性体は、シール材本体と異なる材料、またはシール材本体と異なる硬度の材料で形成されていることを特徴とする請求項1〜11の何れか1項に記載の離脱防止機能付きシール材。   The elastic member for rotation is formed of a material different from the seal material body or a material having a hardness different from that of the seal material body, The seal with a separation preventing function according to any one of claims 1 to 11 Wood. 請求項1〜13の何れか1項に記載の離脱防止機能付きシール材を備えていることを特徴とする離脱防止管継手。   A separation preventing pipe joint comprising the sealing material with a separation preventing function according to any one of claims 1 to 13.
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CN201080044882.1A CN102575799B (en) 2009-10-07 2010-06-29 Seal part with detachment prevention function and detachment prevention pipe joint
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CN104006236A (en) * 2014-05-04 2014-08-27 安徽涌畅铸件有限公司 Sliding-in type anti-disengaging connecting pipe
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CN107863163A (en) * 2017-10-21 2018-03-30 肇庆鼎湖檀树电子科技有限公司 Suitable for the cooling device of nuclear power station
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WO1982003440A1 (en) * 1981-03-30 1982-10-14 Georg Seiler Sealed coupling of plastic material pipes resisting to thrust forces
FR2621376B1 (en) * 1987-10-01 1989-12-22 Pont A Mousson SEALING FOR TELESCOPIC LOCKED GASKETS
FR2649176B1 (en) * 1989-06-30 1994-03-25 Pont A Mousson Sa SEALING FOR SEALED LOCKED SEALS
FR2655705B1 (en) * 1989-12-11 1992-05-29 Pont A Mousson COMPOSITE SEALING FOR LOCKED ASSEMBLY OF MALE-TIP PIPES AND INTERLOCKING.
GB2272264B (en) * 1992-11-04 1995-12-06 Victaulic Plc Pipe joints and gaskets therefor
US5464228A (en) * 1992-11-04 1995-11-07 United States Pipe And Foundry Company Restraining element for pressure pipe joints
FR2765658B1 (en) * 1997-07-07 1999-08-20 Pont A Mousson LOCKING DEVICE FOR ASSEMBLY OF TWO PIPE ELEMENTS, AND ASSEMBLY OF PIPE ELEMENTS INCLUDING APPLICATION
FR2875888B1 (en) * 2004-09-24 2006-12-01 Saint Gobain Pam Sa SEAL TRIM AND CORRESPONDING ASSEMBLY

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