JP7281721B2 - Fittings for synthetic resin pipes - Google Patents

Fittings for synthetic resin pipes Download PDF

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JP7281721B2
JP7281721B2 JP2019117613A JP2019117613A JP7281721B2 JP 7281721 B2 JP7281721 B2 JP 7281721B2 JP 2019117613 A JP2019117613 A JP 2019117613A JP 2019117613 A JP2019117613 A JP 2019117613A JP 7281721 B2 JP7281721 B2 JP 7281721B2
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synthetic resin
guide
engaging
locking
flange
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JP2021004624A (en
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駿太 高松
恭平 小川
亮二 大内
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Noritz Corp
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Noritz Corp
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Description

本発明は、給湯システム等に使用される合成樹脂配管を接続するための継手に関する。 The present invention relates to a joint for connecting synthetic resin pipes used in hot water supply systems and the like.

従来から、給湯システムに使用される湯水配管は、水圧に応じて高圧箇所には金属管が使用され、低圧箇所には合成樹脂管が使用されている。給湯システムの構成機器に接続する合成樹脂管は施工現場で長さが調整され、この合成樹脂管を接続するための合成樹脂管用継手は、施工現場で容易に接続できるように構成されている。 2. Description of the Related Art Conventionally, hot water pipes used in hot water supply systems have used metal pipes at high pressure points and synthetic resin pipes at low pressure points depending on the water pressure. The length of the synthetic resin pipes connected to the components of the hot water supply system is adjusted at the construction site, and the synthetic resin pipe joints for connecting the synthetic resin pipes are configured so that they can be easily connected at the construction site.

合成樹脂管用継手は、挿入された合成樹脂管を係止部材によって係止状態にして、合成樹脂管が抜けないようにする。例えば特許文献1のように、合成樹脂管を継手に差し込んだ状態でリングカバーを締め込むことにより、テーパ形状のスリーブが合成樹脂管の外周に当接するグリップリングを縮径させ、グリップリングを合成樹脂管に食い込ませて接続する合成樹脂管用継手が知られている。 In the synthetic resin pipe joint, an inserted synthetic resin pipe is locked by a locking member so that the synthetic resin pipe does not come off. For example, as in Patent Document 1, by tightening the ring cover with the synthetic resin pipe inserted into the joint, the tapered sleeve reduces the diameter of the grip ring that contacts the outer circumference of the synthetic resin pipe, thereby synthesizing the grip ring. Joints for synthetic resin pipes are known that are made to bite into and connect to resin pipes.

しかし、特許文献1の合成樹脂管用継手は、グリップリングを開く機構が無いので、合成樹脂管の接続のやり直しが容易ではない。それ故、既に本出願人は、合成樹脂管を容易に着脱可能に構成した合成樹脂管用継手を提案している(特願2018-84128号)。この合成樹脂管用継手は、合成樹脂管を係止するための複数のグリップ部材(係止部材)を環状に配設し、これらを径方向に移動させることによって合成樹脂管の係止及び係止解除を行う。 However, since the synthetic resin pipe joint of Patent Document 1 does not have a mechanism for opening the grip ring, it is not easy to reconnect the synthetic resin pipe. Therefore, the applicant of the present application has already proposed a joint for synthetic resin pipes that is configured to allow easy attachment and detachment of synthetic resin pipes (Japanese Patent Application No. 2018-84128). In this synthetic resin pipe joint, a plurality of grip members (locking members) for locking a synthetic resin pipe are arranged in an annular shape, and by moving these grip members in a radial direction, the synthetic resin pipe can be locked and locked. cancel.

特許第4424809号公報Japanese Patent No. 4424809

上記の提案した合成樹脂管用継手は、係止部材を径方向に案内するために係止部材のガイド突起が係合するガイド溝を備えたガイド部材を有している。合成樹脂管用継手を組み立てる際には、このガイド部材の上に係止部材を載置して操作部材を取り付ける。このとき、ガイド部材には係止部材の径方向の移動を規制する構造がないため、係止部材が径方向にずれて落下する場合や、その位置ずれによって操作部材をスムーズに取り付けることができない場合があり、合成樹脂管用継手の組み立て性に改善の余地があった。 The synthetic resin pipe joint proposed above has a guide member with a guide groove in which the guide protrusion of the locking member engages in order to guide the locking member in the radial direction. When assembling the joint for synthetic resin pipes, the locking member is placed on the guide member and the operating member is attached. At this time, since the guide member does not have a structure for restricting the radial movement of the locking member, if the locking member is displaced in the radial direction and falls, or if the positional displacement occurs, the operating member cannot be smoothly mounted. Therefore, there is room for improvement in the ease of assembly of joints for synthetic resin pipes.

また、係止部材の円滑な移動のためにガイド溝とガイド突起の間には隙間があり、この隙間によって係止部材が搖動可能である。それ故、係止解除の状態の合成樹脂管用継手を合成樹脂管の挿入方向から見たときに、搖動により位置がずれて係止部材の係合歯が見える状態になる場合がある(図12参照)。この状態では、合成樹脂管の挿入時及び引抜き時に、位置がずれた係止部材の係合歯に合成樹脂管が接触し、合成樹脂管の外周部に漏水の原因になり得る筋状の傷がつく、係合歯が破損する等の不具合が発生する虞があった。 In addition, there is a gap between the guide groove and the guide projection for smooth movement of the locking member, and the locking member can swing due to this clearance. Therefore, when the synthetic resin pipe joint in the unlocked state is viewed from the direction in which the synthetic resin pipe is inserted, the position may shift due to the rocking movement, and the engaging teeth of the locking member may be visible (Fig. 12). reference). In this state, when the synthetic resin pipe is inserted and pulled out, the synthetic resin pipe comes into contact with the engaging teeth of the locking member that are misaligned, and streak-like damage is caused on the outer periphery of the synthetic resin pipe, which may cause water leakage. There is a possibility that problems such as sticking and breakage of the engaging teeth may occur.

本発明の目的は、係止部材の位置ずれ抑制構造を備えた合成樹脂管を容易に着脱可能な合成樹脂管用継手を提供することである。 SUMMARY OF THE INVENTION An object of the present invention is to provide a joint for a synthetic resin pipe, which has a structure for suppressing displacement of a locking member, and which allows easy attachment and detachment of a synthetic resin pipe.

請求項1の発明の合成樹脂管用継手は、円筒状の本体部と、前記本体部の一端部に形成されたフランジ部と、前記フランジ部側から前記本体部に挿入された合成樹脂管を係止するために前記フランジ部に取り付けられた複数の係止部材と、前記係止部材を係止状態と解除状態に切替えるために前記フランジ部に前記本体部の軸心と同軸状に取り付けられた操作部材を備えた合成樹脂管用継手において、複数の前記係止部材は、前記操作部材側に突出した突起部と、前記フランジ部側に突出したガイド突起と、内周側の合成樹脂管に係合させる複数の係合歯を夫々有して環状に配設され、前記フランジ部には、前記本体部の径方向に延びたガイド溝に前記ガイド突起を係合させて、複数の前記係止部材を前記径方向に案内するガイド部が設けられ、前記操作部材は、前記軸心周りの回動操作に応じて前記突起部を前記径方向に移動させる円孔溝を有し、その回動操作によって複数の前記係止部材の前記係止状態と前記解除状態が切替えられ、前記ガイド部は、複数の前記係止部材の前記径方向の移動を規制するために、前記ガイド溝から離隔させて形成された複数の規制溝を備え、複数の前記係止部材は、対応する前記規制溝に係合する規制突起を夫々有することを特徴としている。 A joint for synthetic resin pipes according to the first aspect of the invention comprises a cylindrical main body, a flange formed at one end of the main body, and a synthetic resin pipe inserted into the main body from the flange side. a plurality of locking members attached to the flange portion for locking, and a plurality of locking members mounted on the flange portion coaxially with the axis of the body portion for switching the locking members between a locked state and a released state. In the joint for synthetic resin pipes provided with an operation member, the plurality of locking members include projections projecting toward the operation member, guide projections projecting toward the flange, and engaging the synthetic resin pipe on the inner peripheral side. The flange portion has a plurality of engaging teeth for engaging with each other and is arranged in an annular shape. A guide portion for guiding the member in the radial direction is provided, and the operation member has a circular hole groove for moving the projection portion in the radial direction in accordance with a rotation operation about the axis. The locking state and the unlocking state of the plurality of locking members are switched by operation, and the guide portion is separated from the guide groove to restrict movement of the plurality of locking members in the radial direction. a plurality of restricting grooves formed in the same manner as above, and the plurality of locking members each have a restricting projection that engages with the corresponding restricting groove.

上記構成によれば、ガイド部が係止部材の移動を径方向に案内すると共にその径方向の移動を規制するので、合成樹脂管用継手の組み立ての際に、係止部材の落下や位置ずれを抑制して組み立て性を向上させることができる。また、解除状態において、係止部材の円滑な移動のためにガイド溝とガイド突起の間にある隙間によって係止部材が搖動することを、規制溝に規制突起を係合させることによって抑制できる。これにより、合成樹脂管の挿入時及び引抜き時に、搖動により位置がずれた係止部材の係合歯によって、合成樹脂管の外周部に筋状の傷がつくことや係合歯の破損等を防ぐことができる。 According to the above configuration, since the guide portion guides the movement of the locking member in the radial direction and restricts the radial movement, the locking member is prevented from falling or being displaced when the joint for synthetic resin pipes is assembled. It is possible to suppress it and improve the assemblability. Further, in the released state, the locking member can be prevented from swinging due to the gap between the guide groove and the guide projection for smooth movement of the locking member by engaging the regulation groove with the regulation projection. As a result, when the synthetic resin pipe is inserted and pulled out, the outer peripheral portion of the synthetic resin pipe is not streak-shaped and the engaging teeth are prevented from being damaged by the engaging teeth of the locking member that are displaced due to rocking motion. can be prevented.

請求項2の発明の合成樹脂管用継手は、請求項1の発明において、前記ガイド部には、前記ガイド溝に直交する方向に前記ガイド溝を挟むように1対の前記規制溝が形成され、前記係止部材には、1対の前記規制溝に対応する1対の前記規制突起が形成されたことを特徴としている。 A joint for synthetic resin pipes according to a second aspect of the invention is the joint for synthetic resin pipes according to the first aspect of the invention, in which a pair of regulation grooves are formed in the guide portion so as to sandwich the guide groove in a direction orthogonal to the guide groove, It is characterized in that the locking member is formed with a pair of the regulation protrusions corresponding to the pair of the regulation grooves.

上記構成によれば、1対の規制溝と対応する1対の規制突起によって係止部材の径方向の移動を規制するので、合成樹脂管用継手の組み立ての際に、係止部材の落下や位置ずれを一層抑制して組み立て性を向上させることができる。また、解除状態において、ガイド溝とガイド突起の間にある隙間によって係止部材が搖動することを、1対の規制溝と対応する1対の規制突起との係合及び係合部と円孔溝の係合の3箇所の係合によって一層抑制できる。 According to the above configuration, the radial movement of the engaging member is restricted by the pair of restricting grooves and the pair of restricting projections corresponding to each other. It is possible to further suppress the deviation and improve the ease of assembly. Further, in the released state, the engagement of the pair of regulation grooves with the corresponding pair of regulation projections and the engagement of the engagement portion with the circular hole are determined so that the locking member swings due to the gap between the guide groove and the guide projection. This can be further suppressed by engaging the grooves at three points.

本発明の合成樹脂管用継手によれば、合成樹脂管を容易に着脱可能な合成樹脂管用継手の係止部材の位置ずれを抑えることができるので、合成樹脂管用継手の組み立て性が向上し、合成樹脂管の着脱時の不具合を防ぐことができる。 According to the joint for synthetic resin pipes of the present invention, it is possible to suppress the positional deviation of the locking member of the joint for synthetic resin pipes that allows easy attachment and detachment of the synthetic resin pipe. It is possible to prevent troubles when attaching and detaching the resin pipe.

本発明の実施例に係る合成樹脂管用継手の斜視図である。1 is a perspective view of a joint for synthetic resin pipes according to an embodiment of the present invention; FIG. 合成樹脂管用継手の要部分解斜視図である。Fig. 2 is an exploded perspective view of a main part of a joint for synthetic resin pipes; 図1のIII-III線断面図である。2 is a cross-sectional view taken along line III-III of FIG. 1; FIG. 図3の合成樹脂管用継手に合成樹脂管を係止したときの断面図である。FIG. 4 is a cross-sectional view when a synthetic resin pipe is locked to the synthetic resin pipe joint of FIG. 3 ; 挿入検知部材の斜視図である。It is a perspective view of an insertion detection member. 操作部材の内部を示す図である。It is a figure which shows the inside of an operation member. 環状係止部材をガイド部材側から見た図である。It is the figure which looked at the cyclic|annular locking member from the guide member side. 本体部の規制部の説明図である。FIG. 4 is an explanatory diagram of a restricting portion of the main body; 操作部材の係合部の説明図である。FIG. 4 is an explanatory diagram of an engaging portion of an operating member; 解除状態の合成樹脂管用継手を管挿入方向から見た図である。Fig. 2 is a view of the joint for synthetic resin pipes in a released state, viewed from the pipe insertion direction; 規制部に係合部が係合した状態を示す図である。It is a figure which shows the state which the engaging part engaged with the control part. 従来の解除状態の合成樹脂管用継手を管挿入方向から見た図である。Fig. 2 is a view of a conventional joint for synthetic resin pipes in a released state, viewed from the pipe insertion direction;

以下、本発明を実施するための形態について実施例に基づいて説明する。 EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing this invention is demonstrated based on an Example.

給湯システムを構成する機器に接続される合成樹脂管(例えばポリエチレン管、ポリブデン管)は、施工現場でその機器の内部配管の端部に配設されている合成樹脂管用継手1に接続される。図1~図4に示すように、合成樹脂管用継手1は、例えば内部配管Uの端部に固定される円筒状の本体部2と、本体部2の一端部(内部配管Uと反対側の端部)に形成されたフランジ部3と、本体部2の軸心Cと同軸状に且つフランジ部3に外嵌するように取り付けられた操作部材10を備えている。合成樹脂管Tは、軸心Cに沿うように操作部材10を介してフランジ部3側から本体部2に挿入される。 Synthetic resin pipes (for example, polyethylene pipes and polybutene pipes) connected to equipment constituting a hot water supply system are connected to synthetic resin pipe joints 1 arranged at the ends of the internal pipes of the equipment at the construction site. As shown in FIGS. 1 to 4, the synthetic resin pipe joint 1 includes, for example, a cylindrical main body 2 fixed to the end of the internal pipe U, and one end of the main body 2 (on the opposite side of the internal pipe U). and an operation member 10 mounted coaxially with the axis C of the main body 2 so as to fit onto the flange 3 . The synthetic resin pipe T is inserted into the body portion 2 from the flange portion 3 side through the operation member 10 along the axis C. As shown in FIG.

本体部2の合成樹脂管Tを挿入する部分は、フランジ部3側の内径が大きい大径部2aと、大径部2aよりも内径が小さい管挿入方向奥側の小径部2b(内奥部)を有する。この小径部2bの管挿入方向奥側で、小径部2bよりも内径が小さい連通路2cを介して内部配管Uの接続部2dに連通している。この本体部2の内部には、円筒状のインナー部材4が軸心Cと同軸状に組み込まれ、且つ合成樹脂管Tの挿入を検知するための環状の挿入検知部材5とシール部材6がインナー部材4に対して外嵌状に収容されている。フランジ部3にはガイド部材30と環状係止部材20と操作部材10が装着されている。 The portion of the main body 2 into which the synthetic resin pipe T is inserted consists of a large-diameter portion 2a having a larger inner diameter on the flange portion 3 side and a small-diameter portion 2b (inner innermost portion) having a smaller inner diameter than the large-diameter portion 2a. ). The small diameter portion 2b communicates with the connection portion 2d of the internal pipe U through a communicating passage 2c having an inner diameter smaller than that of the small diameter portion 2b on the inner side of the small diameter portion 2b in the pipe insertion direction. Inside the main body 2, a cylindrical inner member 4 is incorporated coaxially with the axis C, and an annular insertion detection member 5 and a seal member 6 for detecting the insertion of the synthetic resin pipe T are installed in the inner portion. It is fitted over the member 4 . A guide member 30 , an annular locking member 20 and an operation member 10 are attached to the flange portion 3 .

インナー部材4の管挿入方向奥側の端部には、インナーフランジ部4aが形成されている。インナーフランジ部4aは本体部2の小径部2bに外嵌されるように、且つ小径部2bの管挿入方向奥側壁部に当接させた状態で収容され、インナー部材4のインナーフランジ部4aと反対側の端部は、軸心Cの方向にフランジ部3よりも外側まで延びている。 An inner flange portion 4a is formed at the end portion of the inner member 4 on the far side in the pipe insertion direction. The inner flange portion 4a is accommodated so as to be fitted onto the small diameter portion 2b of the main body portion 2 and in contact with the rear side wall portion of the small diameter portion 2b in the tube insertion direction. The opposite end portion extends outside the flange portion 3 in the direction of the axis C. As shown in FIG.

シール部材6は、インナー部材4に対して離隔して外嵌するように、且つ本体部2の大径部2aに外嵌されるように収容される。このシール部材6は、大径部2aの軸心Cの方向の長さに合せて、複数のバックアップリング6aと複数のシールリング6bが交互に並べられ、バックアップリング6aによってシールリング6bを挟持するように形成されている。 The seal member 6 is accommodated so as to be spaced apart from the inner member 4 and fitted over the large-diameter portion 2 a of the body portion 2 . The seal member 6 has a plurality of backup rings 6a and a plurality of seal rings 6b arranged alternately in accordance with the length of the large diameter portion 2a in the direction of the axis C, and the seal ring 6b is sandwiched between the backup rings 6a. is formed as

挿入検知部材5は、インナーフランジ部4aとシール部材6の間の小径部2bに収容されている。この挿入検知部材5は、図2,図5に示すように、リング部5aと、リング部5aから管挿入方向奥側に向かって延び且つ先端部が鉤状になった複数の爪部5bを有している。爪部5bの先端部は径方向外側に向かって突出し、この突出した部分は管挿入方向奥側ほど突出量が少なくなるように傾斜させている、又は丸められている。尚、本実施例では、先端部が径方向外方に向かって突出して鉤状になった3つの爪部5bを備えているが、爪部の数はこれに限られず、先端部の突出方向もこれに限られるものではない。 The insertion detection member 5 is accommodated in the small diameter portion 2b between the inner flange portion 4a and the seal member 6. As shown in FIG. As shown in FIGS. 2 and 5, the insertion detection member 5 includes a ring portion 5a and a plurality of claw portions 5b extending from the ring portion 5a toward the inner side in the pipe insertion direction and having hooked ends. have. The tip portion of the claw portion 5b protrudes radially outward, and this protruding portion is inclined or rounded so that the amount of protrusion decreases toward the inner side in the pipe insertion direction. In this embodiment, the tip portion is provided with three claw portions 5b protruding radially outward and forming a hook shape, but the number of claw portions is not limited to this, and the projection direction of the tip portion is is not limited to this.

図3に示すように、爪部5bの先端側の部分は、リング部5aがシール部材6に当接又は近接した状態で、爪部5bに対応するようにインナーフランジ部4aに設けられた挿入孔4bに挿入され、挿入検知部材5の周方向の回転が規制されている。挿入孔4bには、爪部5bの先端部が突出する側に段差部4cが形成され、爪部5bの先端部の奥側への進入を規制している。ここでは、段差部4cは、管挿入方向奥側ほど軸心Cに近づくように傾斜し、その奥側端部が急激に軸心Cから遠ざかるように形成されているが、これに限られるものではない。 As shown in FIG. 3, the distal end portion of the claw portion 5b is provided on the inner flange portion 4a so as to correspond to the claw portion 5b when the ring portion 5a is in contact with or close to the seal member 6. It is inserted into the hole 4b, and rotation of the insertion detection member 5 in the circumferential direction is restricted. A stepped portion 4c is formed in the insertion hole 4b on the side from which the tip portion of the claw portion 5b protrudes, and restricts the tip portion of the claw portion 5b from entering the back side. Here, the stepped portion 4c is formed so as to be closer to the axis C as it goes deeper in the pipe insertion direction, and the far side end portion is formed so as to rapidly move away from the axis C, but this is not limitative. isn't it.

図2,図6に示すように、操作部材10は、円筒壁部11と底壁部12を有する有底円筒状に形成され、円筒壁部11の外周に複数の滑り止めの溝が設けられている。底壁部12の中央には、合成樹脂管Tを挿通するための開口13が設けられている。円筒壁部11の底壁部12と反対側の端部内壁には、フランジ部3に係合させるための1対の係合爪14が対向するように形成されている。底壁部12は、軸心C周りの回動操作時の応力に十分耐え得る強度を確保するためのリブを備えているが、底壁部12を厚く形成してもよい。 As shown in FIGS. 2 and 6, the operation member 10 is formed in a bottomed cylindrical shape having a cylindrical wall portion 11 and a bottom wall portion 12, and a plurality of non-slip grooves are provided on the outer circumference of the cylindrical wall portion 11. ing. An opening 13 for inserting the synthetic resin pipe T is provided in the center of the bottom wall portion 12 . A pair of engaging claws 14 for engaging with the flange portion 3 are formed on the inner wall of the end portion of the cylindrical wall portion 11 opposite to the bottom wall portion 12 so as to face each other. The bottom wall portion 12 has ribs for ensuring strength enough to withstand the stress during the pivoting operation around the axis C, but the bottom wall portion 12 may be formed thick.

図2,図4,図7に示すように、操作部材10の開口13を介してフランジ部3側から本体部2に挿入された合成樹脂管Tを係止するために、軸心Cと同軸状に配設された環状係止部材20がフランジ部3と操作部材10の底壁部12の間に配設されている。この環状係止部材20は、例えば周方向の長さが等しい2つの係止部材21を並べて環状に構成されている。尚、3つ以上の係止部材によって環状係止部材20が構成されていてもよい。 As shown in FIGS. 2, 4, and 7, in order to lock the synthetic resin tube T inserted into the body portion 2 from the flange portion 3 side through the opening 13 of the operation member 10, a shaft center C is provided. An annular locking member 20 is arranged between the flange portion 3 and the bottom wall portion 12 of the operating member 10 . The annular locking member 20 is formed in an annular shape by arranging, for example, two locking members 21 having the same length in the circumferential direction. Note that the annular locking member 20 may be composed of three or more locking members.

係止部材21は、挿入された合成樹脂管Tに臨む内周部に合成樹脂管Tに食い込むように形成された複数の係合歯22aを備えた金属製の薄板部材22と、薄板部材22を支持する例えば合成樹脂製の支持部材23によって構成されている。複数の係止部材21を径方向に互いに接近、離隔するように移動させることによって、挿通された合成樹脂管Tを抜けないように係止する係止状態と、合成樹脂管Tを係止しない解除状態を切替える。 The locking member 21 includes a metal thin plate member 22 having a plurality of engaging teeth 22a formed so as to bite into the synthetic resin pipe T on the inner periphery facing the inserted synthetic resin pipe T; is configured by a support member 23 made of synthetic resin, for example, for supporting the . By moving the plurality of locking members 21 toward and away from each other in the radial direction, a locked state in which the inserted synthetic resin pipe T is locked so as not to come off, and a locked state in which the synthetic resin pipe T is not locked. Toggle release state.

合成樹脂管用継手1は、操作部材10の底壁部12の内壁又は底壁部12に対向する複数の係止部材21の対向面部の何れか一方に設けられた突起部を他方に設けられた円孔溝に係合させたカム機構を有している。例えば、2つの係止部材21は、底壁部12に対向する対向面部の外周側周方向中央位置に、底壁部12側に突出した円柱状の突起部24を夫々備えている。そして、図6に示すように、それらの突起部24に対応するように操作部材10の底壁部12の内壁に係止部材21と同数の2つの弓状の円孔溝15が形成されている。 The synthetic resin pipe joint 1 is provided with projections provided on either the inner wall of the bottom wall portion 12 of the operating member 10 or the facing surface portions of the plurality of locking members 21 facing the bottom wall portion 12 on the other side. It has a cam mechanism engaged with the circular hole groove. For example, the two locking members 21 each have a columnar protrusion 24 protruding toward the bottom wall 12 at a central position in the circumferential direction on the outer peripheral side of the facing surface facing the bottom wall 12 . As shown in FIG. 6, two arcuate circular grooves 15 are formed in the inner wall of the bottom wall portion 12 of the operating member 10 so as to correspond to the projections 24, the same number as the locking members 21. there is

円孔溝15は、係止部材21側から見て時計回り方向に進むにつれて軸心Cからの距離(軸心Cが通る底壁部12の中心からの距離)が小さくなるように、突起部24が進入可能な幅で係止状態と解除状態を切替える回動操作に対応する操作部材10の回動角(例えば70度)に応じた長さに夫々形成されている。 The circular hole groove 15 is a protruding portion such that the distance from the axis C (the distance from the center of the bottom wall portion 12 through which the axis C passes) decreases as it progresses clockwise when viewed from the locking member 21 side. 24 is formed to have a length corresponding to the rotation angle (for example, 70 degrees) of the operation member 10 corresponding to the rotation operation for switching between the locked state and the unlocked state.

突起部24と円孔溝15の係合により構成されたカム機構は、操作部材10の回動操作によって突起部24が円孔溝15に沿って摺動して係止部材21が径方向に移動するように、操作部材10の回動を係止部材21の径方向の移動に変換する。合成樹脂管Tを挿入する側から見て、軸心Cを中心とした操作部材10の時計回りの回動操作が係止状態にする係止操作であり、反時計回りの回動操作が解除状態にする解除操作である。 The cam mechanism formed by engagement between the protrusion 24 and the circular hole groove 15 is such that when the operating member 10 is rotated, the protrusion 24 slides along the circular hole groove 15 and the locking member 21 moves radially. As it moves, the rotation of the operating member 10 is converted into radial movement of the locking member 21 . As seen from the side where the synthetic resin tube T is inserted, the clockwise turning operation of the operation member 10 about the axis C is the locking operation for locking, and the counterclockwise turning operation is the releasing operation. This is an operation to cancel the state.

フランジ部3と複数の係止部材21の間には、フランジ部3と係止部材21の何れか一方に設けられたガイド突起を他方に設けられた径方向に延びるガイド溝に係合させたガイド機構が夫々設けられている。このガイド機構は、ガイド溝に係合させたガイド突起をガイド溝に沿って摺動させて係止部材21の径方向の移動を案内し、係止部材21の径方向以外の移動を規制する。 Between the flange portion 3 and the plurality of locking members 21, guide projections provided on one of the flange portion 3 and the locking members 21 are engaged with radially extending guide grooves provided on the other. A guide mechanism is provided for each. This guide mechanism guides the movement of the locking member 21 in the radial direction by causing the guide protrusion engaged with the guide groove to slide along the guide groove, and regulates the movement of the locking member 21 in directions other than the radial direction. .

例えば、図2に示すように、係止部材21の支持部材23には、フランジ部3側に突出した径方向に延びるガイド突起23aが形成され、フランジ部3の係止部材21側には、複数の係止部材21と同数の径方向に延びるガイド溝30aが形成されたガイド部材30(ガイド部)が装着されている。ガイド部材30には、ガイド溝30aに平行に延び、且つガイド溝30aよりも短い複数の規制溝30bが形成されている。これら規制溝30bは、1つのガイド溝30a毎にガイド溝30aを挟んで対を成すように、ガイド溝30aが延びる径方向に直交する方向に離隔して形成されている。図7に示すように、これら規制溝30bに対応するように、1対の円柱状の規制突起23b,23bが支持部材23に形成されている。 For example, as shown in FIG. 2, the supporting member 23 of the locking member 21 is formed with a radially extending guide projection 23a projecting toward the flange portion 3. A guide member 30 (guide portion) in which the same number of radially extending guide grooves 30a as the plurality of locking members 21 are formed is mounted. The guide member 30 is formed with a plurality of regulation grooves 30b extending parallel to the guide grooves 30a and shorter than the guide grooves 30a. These restricting grooves 30b are spaced apart in a direction orthogonal to the radial direction in which the guide grooves 30a extend so as to form a pair with the guide grooves 30a interposed therebetween for each guide groove 30a. As shown in FIG. 7, a pair of cylindrical restricting projections 23b, 23b are formed on the supporting member 23 so as to correspond to the restricting grooves 30b.

規制溝30bと規制突起23bの係合は、係止部材21の径方向の移動範囲を定めて径方向の移動を規制すると共に、ガイド溝30aとガイド突起23aの間の隙間によって生じる係止部材21の揺動を抑える。この揺動を抑えるために、規制溝30bと規制突起23bは、ガイド溝30aとガイド突起23aから夫々離隔させて設けることが好ましい。また、1つのガイド溝30aに対して1つの規制溝30bが設けられ、且つそれに対応する1つの規制突起23bが1つの係止部材21に設けられていれば、径方向の移動を規制できるが、上記のように夫々対を成すように設けられていることによって係止部材21の揺動を抑える効果が高まる。 The engagement between the regulating groove 30b and the regulating projection 23b determines the radial movement range of the locking member 21 and regulates the radial movement of the locking member. Suppress the swing of 21. In order to suppress this rocking motion, it is preferable that the regulation groove 30b and the regulation projection 23b are separated from the guide groove 30a and the guide projection 23a, respectively. Further, if one guide groove 30a is provided with one restricting groove 30b and one locking member 21 is provided with one restricting projection 23b corresponding thereto, radial movement can be restricted. , and are provided so as to form a pair as described above, the effect of suppressing the rocking motion of the locking member 21 is enhanced.

図示を省略するが、ガイド部材30を省略してガイド溝等をフランジ部3に形成することにより、ガイド機構を構成してもよい。また、これも図示を省略するが、ガイド溝等を各係止部材21に形成し、ガイド溝等に対応するガイド突起等をフランジ部3に又はフランジ部3に装着するガイド部材30に形成してガイド機構を構成してもよい。 Although illustration is omitted, the guide mechanism may be configured by omitting the guide member 30 and forming a guide groove or the like in the flange portion 3 . Also, although not shown, guide grooves or the like are formed in each locking member 21, and guide projections or the like corresponding to the guide grooves or the like are formed in the flange portion 3 or in the guide member 30 attached to the flange portion 3. You may constitute a guide mechanism.

図2,図7に示すように環状係止部材20は1対の切欠き部20bを、フランジ部3は1対の切欠き部3bを、ガイド部材30は1対の切欠き部30cを夫々外周部に有している。操作部材10をフランジ部3に取り付ける際に1対の係合爪14に干渉しないように、これらの切欠き部20b,3b,30cの周方向位置を一致させて操作部材10が取り付けられる。尚、操作部材10を弾性変形させてフランジ部3に取り付け可能な場合にはこれらの切欠き部を省略してもよい。 As shown in FIGS. 2 and 7, the annular locking member 20 has a pair of notches 20b, the flange portion 3 has a pair of notches 3b, and the guide member 30 has a pair of notches 30c. It has on the outer periphery. The notches 20b, 3b, and 30c are aligned in the circumferential direction so that the operating member 10 does not interfere with the pair of engaging claws 14 when the operating member 10 is attached to the flange portion 3. These notches may be omitted if the operation member 10 can be elastically deformed and attached to the flange portion 3 .

図2,図8に示すように、本体部2の外周部には、係止状態を維持するために操作部材10の回動を規制する規制部7として、径方向外方に突出した係合突起7aと係合突起7bが近接して設けられている。係合突起7aは、軸心Cの方向に略一定の幅を有し、周方向中央部分が最も突出し、その両側が裾を引くように傾斜している。係合突起7bは、係合突起7aよりも大きく突出し、軸心Cを含んで係合突起7aの中央を通る面に平行又は略平行な平行面部7cと、この平行面部7cに近いほどフランジ部3側に近くなるように傾斜したフランジ部3側の斜面部7dを有する。 As shown in FIGS. 2 and 8, on the outer peripheral portion of the body portion 2, there is provided an engaging portion protruding radially outward as a restricting portion 7 for restricting the rotation of the operating member 10 in order to maintain the locked state. A projection 7a and an engaging projection 7b are provided close to each other. The engaging protrusion 7a has a substantially constant width in the direction of the axis C, the center portion in the circumferential direction protrudes most, and both sides thereof are inclined to trail off. The engaging projection 7b protrudes larger than the engaging projection 7a, and includes a parallel surface portion 7c parallel or substantially parallel to a plane including the axis C and passing through the center of the engaging projection 7a, and a flange portion closer to the parallel surface portion 7c. It has a slope portion 7d on the side of the flange portion 3 that slopes toward the 3 side.

図2,図9に示すように、操作部材10は、円筒壁部11の底壁部12と反対側の端部から軸心Cに平行な方向に延びる係合部17を備えている。係合部17の内周側には、軸心Cに平行な方向に延びるように形成された係合溝17a(径方向係合部)を備えている。操作部材10をフランジ部3に取り付けた状態で、係合部17の径方向の弾性変形を利用することによって、係合溝17aが係合突起7aに係合可能である。 As shown in FIGS. 2 and 9, the operating member 10 has an engaging portion 17 extending in a direction parallel to the axis C from the end of the cylindrical wall portion 11 opposite to the bottom wall portion 12 . An engaging groove 17a (radial engaging portion) formed so as to extend in a direction parallel to the axis C is provided on the inner peripheral side of the engaging portion 17 . With the operating member 10 attached to the flange portion 3, the engagement groove 17a can be engaged with the engagement protrusion 7a by utilizing the elastic deformation of the engagement portion 17 in the radial direction.

係合部17は、その先端部17bと円筒壁部11の間に、解除操作の回動方向側が切り欠かれた切欠き部17cを有し、先端部17bと切欠き部17cの間に軸心Cに平行な係合端部17d(周方向係合部)を有する。係合部17の先端部17bは、係合端部17dから遠ざかるほど円筒壁部11(係合部17の基端部)に近づくように傾斜している。操作部材10をフランジ部3に取り付けた状態で、係合部17の係合端部17dと係合突起7bの平行面部7cが係合可能である。 The engaging portion 17 has a notch portion 17c formed between the tip portion 17b and the cylindrical wall portion 11 in the direction of rotation of the releasing operation. It has an engagement end portion 17d (circumferential direction engagement portion) parallel to the center C. A distal end portion 17b of the engaging portion 17 is inclined so as to be closer to the cylindrical wall portion 11 (the base end portion of the engaging portion 17) as the distance from the engaging end portion 17d increases. With the operating member 10 attached to the flange portion 3, the engaging end portion 17d of the engaging portion 17 and the parallel surface portion 7c of the engaging projection 7b can be engaged.

係止状態にするために操作部材10を回動させたときに、係合突起7bの斜面部7dに係合部17の先端部17bが当接し、係合部17は円筒壁部11(係合部17の基端部)に向かう方向に力を受ける。この力によって、切欠き部17cが狭くなるように係合部17が軸心Cの方向に弾性変形することを利用して、係合部17が係合突起7bを越えるまで回動させる。係合部17が係合突起7bを越えると弾性変形が解消されて、図10に示すように、係合端部17dと係合突起7bの平行面部7cが対向するように周方向(係止状態を解除する回動方向)に係合する。このとき、係合溝17aも係合突起7aに係合する。 When the operating member 10 is rotated to bring it into the locked state, the tip 17b of the engaging portion 17 abuts against the slope portion 7d of the engaging projection 7b, and the engaging portion 17 contacts the cylindrical wall portion 11 (engaging portion). A force is received in the direction toward the proximal end of the joining portion 17). By this force, the engagement portion 17 is elastically deformed in the direction of the axis C so that the notch portion 17c becomes narrower, and the engagement portion 17 is rotated until it passes over the engagement projection 7b. When the engaging portion 17 goes over the engaging projection 7b, the elastic deformation is released, and as shown in FIG. (rotating direction to release the state). At this time, the engaging groove 17a also engages with the engaging projection 7a.

規制部7の係合突起7a,7bと係合部17の係合によって、操作部材10が係止状態から解除操作の回動方向に回動し難くなるので、人や物の接触、振動等によるこの方向の偶発的な回動を規制して係止状態を維持する。一方、作業者が、係合部17を弾性変形させて係合を解除しながら解除操作をする、又は係止状態からある程度強い力で解除操作をすると、係合部17の弾性変形や規制部7と係合部17の間の滑りによって周方向及び径方向の係合が解除されるので、容易に解除状態にすることが可能である。 The engagement between the engaging projections 7a and 7b of the restricting portion 7 and the engaging portion 17 makes it difficult for the operating member 10 to rotate in the rotating direction of the unlocking operation from the locked state. The locked state is maintained by restricting accidental rotation in this direction by On the other hand, when the operator performs a releasing operation while releasing the engagement by elastically deforming the engaging portion 17, or performs a releasing operation with a relatively strong force from the locked state, the elastic deformation of the engaging portion 17 and the restricting portion may occur. Since the engagement in the circumferential and radial directions is released by the slippage between 7 and engaging portion 17, the released state can be easily achieved.

次に、合成樹脂管用継手1の組み立てについて、図2を参照して説明する。
軸心Cを鉛直に且つフランジ部3を上側にした姿勢の本体部2に、インナー部材4、挿入検知部材5、シール部材6の順に組み込む。挿入検知部材5とシール部材6を装着したインナー部材4を本体部2に組み込んでもよい。この本体部2のフランジ部3にガイド部材30を装着し、ガイド部材30に環状係止部材20を載置した状態で操作部材10をフランジ部3に装着する。
Next, assembly of the synthetic resin pipe joint 1 will be described with reference to FIG.
The inner member 4, the insertion detecting member 5, and the sealing member 6 are assembled in this order into the body portion 2 in which the axis C is vertical and the flange portion 3 is positioned upward. The inner member 4 to which the insertion detection member 5 and the seal member 6 are attached may be incorporated into the body portion 2 . A guide member 30 is attached to the flange portion 3 of the body portion 2 , and the operation member 10 is attached to the flange portion 3 with the annular locking member 20 placed on the guide member 30 .

ガイド部材30に環状係止部材20(複数の係止部材21)を載置する際に、ガイド部材30のガイド溝30a及び規制溝30bに夫々対応する係止部材21のガイド突起23aと規制突起23bの位置を合わせる。そして、載置した複数の係止部材21を互いに最大限離隔させ、操作部材10を装着する。規制溝30bと規制突起23bの係合によって係止部材21の径方向の移動が規制されているので、係止部材21の落下や位置ずれが防止され、合成樹脂管用継手1の組み立て性が向上している。このようにして組み立てられた合成樹脂管用継手1は、給湯機器製造工場又は施工現場で機器の内部配管Uに接続される。 When the annular locking member 20 (a plurality of locking members 21) is placed on the guide member 30, the guide protrusion 23a and the regulating protrusion of the locking member 21 corresponding to the guide groove 30a and the regulating groove 30b of the guide member 30, respectively. 23b is aligned. Then, the plurality of locking members 21 placed are separated from each other as much as possible, and the operation member 10 is mounted. Since the radial movement of the engaging member 21 is restricted by the engagement between the restricting groove 30b and the restricting protrusion 23b, the engaging member 21 is prevented from falling off and misaligned, and the assembling efficiency of the synthetic resin pipe joint 1 is improved. are doing. The synthetic resin pipe joint 1 assembled in this manner is connected to the internal pipe U of the equipment at the hot water supply equipment manufacturing factory or construction site.

次に、合成樹脂管Tの接続作業について説明する。
挿入検知部材5は、合成樹脂管Tが挿入される前の解除状態では、図3に示すように、本体部2の内部の管挿入方向奥側の小径部2b(内奥部)に収容されている。挿入検知部材5のリング部5aはシール部材6(バックアップリング6a)に当接又は近接し、爪部5bの先端側部分は、内奥部において管挿入方向奥側に延びるように形成された挿入孔4bに挿入されている。
Next, the connection work of the synthetic resin pipe T will be described.
In the released state before the synthetic resin pipe T is inserted, the insertion detection member 5 is accommodated in the small diameter portion 2b (inner depth portion) inside the body portion 2 on the inner depth side in the pipe insertion direction, as shown in FIG. ing. The ring portion 5a of the insertion detection member 5 is in contact with or close to the seal member 6 (backup ring 6a), and the tip portion of the claw portion 5b is formed so as to extend to the back side in the tube insertion direction at the inner back portion. It is inserted into the hole 4b.

ここで、管挿入方向から解除状態の合成樹脂管用継手1を見たときに、係止部材21が揺動して位置がずれた状態になっていると、図12に示すように開口13から係合歯22aが見える。この状態で合成樹脂管Tを挿入すると、係合歯22aが合成樹脂管Tに接触して合成樹脂管Tに漏水の原因となり得る筋状の傷がついたり係合歯22aが破損したりする虞があり、好ましくない。合成樹脂管Tを引き抜く際も同様である。 Here, when the synthetic resin pipe joint 1 in the released state is viewed from the pipe insertion direction, if the locking member 21 is swung and is out of position, as shown in FIG. The engagement tooth 22a is visible. If the synthetic resin pipe T is inserted in this state, the engaging teeth 22a will come into contact with the synthetic resin pipe T, and the synthetic resin pipe T will be damaged in streaks that may cause water leakage, or the engaging teeth 22a will be damaged. It is dangerous and not desirable. The same applies when the synthetic resin pipe T is pulled out.

しかし、合成樹脂管用継手1は、1対の規制溝30bと対応する1対の規制突起23bとの係合及び円孔溝15と突起部24の係合によって、係止部材21の搖動を抑えて係止部材21の位置ずれを抑制する構造を備えている。それ故、図11に示すように、管挿入方向から解除状態の合成樹脂管用継手1を見たときに、開口13から係止部材21がずれて係合歯22aが見えることがなく、合成樹脂管Tの着脱時の不具合を防いでいる。 However, the joint 1 for synthetic resin pipes suppresses rocking motion of the locking member 21 by engaging the pair of restricting grooves 30b with the corresponding pair of restricting protrusions 23b and the engagement between the circular hole grooves 15 and the protrusions 24. It has a structure that suppresses the positional deviation of the locking member 21. Therefore, as shown in FIG. 11, when the synthetic resin pipe joint 1 in the disengaged state is viewed from the pipe insertion direction, the locking member 21 is not displaced from the opening 13 and the engaging teeth 22a are not visible. This prevents troubles when attaching and detaching the tube T.

図4に示すように、合成樹脂管Tは、操作部材10の開口部から合成樹脂管用継手1の内部に挿入され、インナー部材4の外周部とシール部材6の内周部の間に合成樹脂管Tが進入する。この合成樹脂管Tの挿入に伴い、合成樹脂管Tの先端が挿入検知部材5のリング部5aに当接して管挿入方向奥側に押圧し、挿入検知部材5が管挿入方向奥側に移動する。 As shown in FIG. 4, the synthetic resin pipe T is inserted into the joint 1 for synthetic resin pipes from the opening of the operating member 10, and the synthetic resin pipe T is inserted between the outer peripheral portion of the inner member 4 and the inner peripheral portion of the seal member 6. Tube T enters. As the synthetic resin tube T is inserted, the tip of the synthetic resin tube T comes into contact with the ring portion 5a of the insertion detection member 5 and presses it backward in the tube insertion direction, and the insertion detection member 5 moves backward in the tube insertion direction. do.

このとき、爪部5bの先端部が、挿入孔4bに設けられた段差部4cの傾斜に沿って管挿入方向奥側に進むと爪部5bが弾性変形し、段差部4cを乗り越えたときに爪部5bの弾性変形の解消により爪部5bの先端部が挿入孔4bの壁部に衝突する。この衝突の衝撃が、合成樹脂管Tや合成樹脂管用継手1から作業者に伝わって、合成樹脂管Tが予め適切な位置に設定された挿入位置に挿入されたことを知らせる。衝突時に発生する音によっても、合成樹脂管Tがその適切な挿入位置に挿入されたことを知らせる。 At this time, when the tip portion of the claw portion 5b advances along the slope of the stepped portion 4c provided in the insertion hole 4b toward the inner side in the pipe insertion direction, the claw portion 5b is elastically deformed, and when it climbs over the stepped portion 4c. When the elastic deformation of the claw portion 5b is eliminated, the tip portion of the claw portion 5b collides with the wall portion of the insertion hole 4b. The impact of this collision is transmitted to the operator from the synthetic resin pipe T and the joint 1 for synthetic resin pipes, and informs the operator that the synthetic resin pipe T has been inserted into the insertion position set at an appropriate position in advance. A sound generated at the time of collision also informs that the synthetic resin tube T has been inserted into its proper insertion position.

爪部5bが段差部4cを乗り越えた位置が、予め適切な位置に設定された挿入位置である。この位置又はこの位置よりも管挿入方向奥側でリング部5aが管挿入方向奥側のインナーフランジ部4aに当接する位置まで合成樹脂管Tを挿入した状態で、係止状態にするために作業者は操作部材10の係止操作を行う。この係止操作によって、複数の係止部材21が互いに近づくように径方向に移動して合成樹脂管Tを係止し、図10に示すように規制部7に係合部17を係合させて合成樹脂管Tの接続状態を維持する。 The position where the claw portion 5b goes over the stepped portion 4c is the insertion position that is set to an appropriate position in advance. In the state where the synthetic resin tube T is inserted to this position or to a position where the ring portion 5a abuts the inner flange portion 4a on the inner side in the pipe insertion direction, work is performed to achieve the locked state. The operator performs the locking operation of the operating member 10 . By this locking operation, the plurality of locking members 21 move radially toward each other to lock the synthetic resin pipe T, and the engaging portion 17 is engaged with the restricting portion 7 as shown in FIG. to maintain the connected state of the synthetic resin pipe T.

作業者は、係止操作を行って、規制部7の係合突起7a,7bに係合部17が夫々係合する際に発生する音や振動によって係止状態を認識する。また、作業者は、係合突起7a,7bと係合部17が係合した状態を見て係止状態を認識する。 The operator recognizes the locked state from the sound and vibration generated when the engaging portion 17 engages with the engaging protrusions 7 a and 7 b of the restricting portion 7 by performing the locking operation. Also, the operator recognizes the locked state by seeing the state in which the engaging protrusions 7a and 7b and the engaging portion 17 are engaged.

実施例に係る合成樹脂管用継手1の作用、効果について説明する。
係止部材21の移動は、ガイド溝30aとガイド突起23aによって径方向に案内されると共に、複数の規制溝30bと対応する規制突起23bによってその径方向の移動が規制される。これにより、合成樹脂管用継手1の組み立ての際に、係止部材21の径方向の移動による落下や位置ずれが抑制されるので、組み立て性を向上させることができる。
The operation and effects of the synthetic resin pipe joint 1 according to the embodiment will be described.
The movement of the engaging member 21 is guided in the radial direction by the guide grooves 30a and the guide projections 23a, and its radial movement is restricted by the plurality of restriction grooves 30b and the corresponding restriction projections 23b. As a result, when the joint 1 for synthetic resin pipes is assembled, it is possible to prevent the engaging member 21 from dropping or being displaced due to movement in the radial direction, thereby improving the ease of assembly.

また、合成樹脂管用継手1は解除状態において、係止部材21の円滑な移動のためにガイド溝30aとガイド突起23aの間にある隙間によって係止部材21が搖動することを、規制溝30bに規制突起23bを係合させることによって抑制することができる。これにより、合成樹脂管Tの挿入時及び引抜き時に、搖動により位置がずれた係止部材21の係合歯22aによって、合成樹脂管Tの外周部に漏水の原因になり得る筋状の傷がつくことや係合歯22aの破損等を防ぐことができる。 In the released state of the synthetic resin pipe joint 1, the regulation groove 30b prevents the locking member 21 from swinging due to the clearance between the guide groove 30a and the guide projection 23a for smooth movement of the locking member 21. It can be suppressed by engaging the restricting projection 23b. As a result, when the synthetic resin tube T is inserted and pulled out, the engaging tooth 22a of the locking member 21, which is displaced due to the rocking motion, causes a streak-like scratch that may cause water leakage on the outer peripheral portion of the synthetic resin tube T. It is possible to prevent sticking and breakage of the engaging teeth 22a.

その上、1対の規制溝30bと対応する1対の規制突起23bによって係止部材21の径方向の移動を規制するので、合成樹脂管用継手1の組み立ての際に、係止部材21の位置ずれを一層抑制して組み立て性を向上させることができる。そして、解除状態において、ガイド溝30aとガイド突起23aの間の隙間によって係止部材21が搖動することを、1対の規制溝30bと対応する1対の規制突起23bとの係合及び円孔溝15と突起部24との係合の3箇所の係合によって一層抑制することができる。 Moreover, since the radial movement of the engaging member 21 is restricted by the pair of restricting grooves 30b and the corresponding pair of restricting projections 23b, the position of the engaging member 21 can be adjusted when the synthetic resin pipe joint 1 is assembled. It is possible to further suppress the deviation and improve the ease of assembly. In the released state, the locking member 21 swings due to the gap between the guide grooves 30a and the guide protrusions 23a. The three engagements between the groove 15 and the protrusion 24 can further suppress this.

その他、当業者であれば、本発明の趣旨を逸脱することなく前記実施例に種々の変更を付加した形態で実施可能であり、本発明はその種の変更形態をも包含するものである。 In addition, those skilled in the art can implement various modifications to the above embodiment without departing from the spirit of the present invention, and the present invention includes such modifications.

1 :合成樹脂管用継手
2 :本体部
2a :大径部
2b :小径部(内奥部)
3 :フランジ部
4 :インナー部材
4a :インナーフランジ部
4b :挿入孔
4c :段差部
5 :挿入検知部材
5a :リング部
5b :爪部
6 :シール部材
7 :規制部
7a,7b :係合突起
7c :平行面部
7d :斜面部
10 :操作部材
11 :円筒壁部
12 :底壁部
13 :開口
15 :円孔溝
17 :係合部
17a :係合溝(径方向係合部)
17b :先端部
17c :切欠き部
17d :係合端部(周方向係合部)
20 :環状係止部材
21 :係止部材
22 :薄板部材
22a :係合歯
23 :支持部材
23a :ガイド突起
23b :規制突起
24 :突起部
30 :ガイド部材(ガイド部)
30a :ガイド溝
30b :規制溝
C :軸心
T :合成樹脂管
U :内部配管
1: Synthetic resin pipe joint 2: Body portion 2a: Large diameter portion 2b: Small diameter portion (inner depth)
3: Flange portion 4: Inner member 4a: Inner flange portion 4b: Insertion hole 4c: Stepped portion 5: Insertion detecting member 5a: Ring portion 5b: Claw portion 6: Sealing member 7: Regulating portions 7a, 7b: Engaging projection 7c : Parallel surface portion 7d : Slope portion 10 : Operating member 11 : Cylindrical wall portion 12 : Bottom wall portion 13 : Opening 15 : Circular hole groove 17 : Engagement portion 17a : Engagement groove (radial direction engagement portion)
17b: tip portion 17c: notch portion 17d: engagement end portion (circumferential direction engagement portion)
20 : Annular locking member 21 : Locking member 22 : Thin plate member 22a : Engagement teeth 23 : Supporting member 23a : Guide projection 23b : Regulating projection 24 : Projection 30 : Guide member (guide portion)
30a: Guide groove 30b: Regulating groove C: Axial center T: Synthetic resin pipe U: Internal piping

Claims (2)

円筒状の本体部と、前記本体部の一端部に形成されたフランジ部と、前記フランジ部側から前記本体部に挿入された合成樹脂管を係止するために前記フランジ部に取り付けられた複数の係止部材と、前記係止部材を係止状態と解除状態に切替えるために前記フランジ部に前記本体部の軸心と同軸状に取り付けられた操作部材を備えた合成樹脂管用継手において、
複数の前記係止部材は、前記操作部材側に突出した突起部と、前記フランジ部側に突出したガイド突起と、内周側の合成樹脂管に係合させる複数の係合歯を夫々有して環状に配設され、
前記フランジ部には、前記本体部の径方向に延びたガイド溝に前記ガイド突起を係合させて、複数の前記係止部材を前記径方向に案内するガイド部が設けられ、
前記操作部材は、前記軸心周りの回動操作に応じて前記突起部を前記径方向に移動させる円孔溝を有し、その回動操作によって複数の前記係止部材の前記係止状態と前記解除状態が切替えられ、
前記ガイド部は、複数の前記係止部材の前記径方向の移動を規制するために、前記ガイド溝から離隔させて形成された複数の規制溝を備え、
複数の前記係止部材は、対応する前記規制溝に係合する規制突起を夫々有することを特徴とする合成樹脂管用継手。
A cylindrical main body, a flange formed at one end of the main body, and a plurality of flanges attached to the flange for locking synthetic resin pipes inserted into the main body from the flange side. and an operation member attached to the flange portion coaxially with the axis of the body portion for switching the locking member between a locked state and a released state,
The plurality of locking members each have a projection projecting toward the operating member, a guide projection projecting toward the flange, and a plurality of engaging teeth for engaging with the synthetic resin pipe on the inner peripheral side. are arranged in a ring at the
The flange portion is provided with a guide portion for guiding the plurality of locking members in the radial direction by engaging the guide protrusions with guide grooves extending in the radial direction of the body portion,
The operation member has a circular hole groove for moving the protrusion in the radial direction in response to a rotation operation about the axis, and the rotation operation of the operation member changes the locking state of the plurality of locking members. the release state is switched;
the guide portion includes a plurality of restricting grooves spaced apart from the guide grooves for restricting movement of the plurality of locking members in the radial direction;
A joint for synthetic resin pipes, wherein each of the plurality of locking members has a regulating projection that engages with the corresponding regulating groove.
前記ガイド部には、前記ガイド溝に直交する方向に前記ガイド溝を挟むように1対の前記規制溝が形成され、前記係止部材には、1対の前記規制溝に対応する1対の前記規制突起が形成されたことを特徴とする請求項1に記載の合成樹脂管用継手。 A pair of regulation grooves are formed in the guide portion so as to sandwich the guide groove in a direction orthogonal to the guide groove, and a pair of regulation grooves corresponding to the pair of regulation grooves are formed in the locking member. 2. The joint for synthetic resin pipes according to claim 1, wherein said restricting protrusion is formed.
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JP2020051590A (en) 2018-09-28 2020-04-02 パナソニックIpマネジメント株式会社 Joint
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JPS58124888A (en) * 1982-01-14 1983-07-25 松下電工株式会社 Rapid connecting coupling
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JP2019168051A (en) 2018-03-23 2019-10-03 株式会社アオイ Pipe joint
JP2020051590A (en) 2018-09-28 2020-04-02 パナソニックIpマネジメント株式会社 Joint
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