JP2007017001A - Valve device - Google Patents

Valve device Download PDF

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Publication number
JP2007017001A
JP2007017001A JP2006258675A JP2006258675A JP2007017001A JP 2007017001 A JP2007017001 A JP 2007017001A JP 2006258675 A JP2006258675 A JP 2006258675A JP 2006258675 A JP2006258675 A JP 2006258675A JP 2007017001 A JP2007017001 A JP 2007017001A
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Japan
Prior art keywords
valve
seal portion
shaft member
bearing
frame body
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JP2006258675A
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JP4230501B2 (en
Inventor
Taizo Yamamoto
泰三 山本
Junichi Ueda
純一 上田
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OSAKA SANITARY KINZOKU KOGYO KYODO KUMIAI
Nabtesco Corp
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OSAKA SANITARY KINZOKU KOGYO KYODO KUMIAI
Nabtesco Corp
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Publication of JP2007017001A publication Critical patent/JP2007017001A/en
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a valve device eliminating a clearance forming part in a valve head part and closing a clearance between a bearing and a part supported by the bearing. <P>SOLUTION: The valve device comprises a valve frame body 2; a stem member 5 slidably provided inside the valve frame body 2; a valve element 10 mounted on the tip part of the stem member 5; the bearing 6 for supporting the stem member 5 slidably; and a slide mechanism 4 for sliding the stem member 5. The valve element 10 has a valve head part 11 abutting on a peripheral edge part 3c to close the valve by sliding toward a first connection port 3a, and a cylindrical seal part 12 extended onto the bearing side from the valve head part 11 to partition a sliding contact part with the bearing 6 and the stem member 5 from an internal fluid passage 3 and deformed following the slide of the stem member 5. Further, a ring-like valve head part side guide contacting a come-around part which comes around the valve head part back face side of the seal part when an internal fluid flows through at least in the valve open state is provided between the come-around part and the back face side of the valve head part. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

本発明は、例えば清浄性が要求される食品、薬品等の流体を対象とした通路の連結に好適に用いられる弁装置に関する。   The present invention relates to a valve device that is suitably used for connecting passages for fluids such as foods and medicines that require cleanliness, for example.

上述した弁装置として、例えばサニタリー用継手が知られている。この継手は、図12(a)及び(b)に示すように、内部流体通路102を有する雌継手101と、内部流体通路112を有する雄継手111とが用いられ、内部流体通路102および112はそれぞれ別の流体通路に接続される。雌継手101は、その上端に突き合わせ面101aを有し、雄継手111はその下端に突き合わせ面111aを有し、これら両突き合わせ面101a、111aは互いに同一軸線上で突き合わされる。突き合わせ後、雌継手101に設けた弁体103を弁座104から離れるようにスライドさせるとともに、雄継手111に設けた弁体113を弁座114から離れるようにスライドさせ、これによりそれぞれの内部流体通路102、112が連通する接続状態(図12(b)の状態)になる。逆に、弁体103を弁座104に、弁体113を弁座114にそれぞれ接触させることで遮断され、かつ両突き合わせ面101a、111aを互いに離すことで、内部流体通路102、112がそれぞれ切離された状態(図12(a)の状態)になる。   As the valve device described above, for example, a sanitary joint is known. As shown in FIGS. 12A and 12B, this joint uses a female joint 101 having an internal fluid passage 102 and a male joint 111 having an internal fluid passage 112, and the internal fluid passages 102 and 112 are Each is connected to a separate fluid passage. The female joint 101 has a butting surface 101a at its upper end, the male joint 111 has a butting surface 111a at its lower end, and these both butting surfaces 101a and 111a are butted on the same axis. After the abutment, the valve body 103 provided in the female joint 101 is slid away from the valve seat 104, and the valve body 113 provided in the male joint 111 is slid away from the valve seat 114, whereby each internal fluid The connection state in which the passages 102 and 112 communicate with each other (the state shown in FIG. 12B) is established. On the contrary, when the valve body 103 is brought into contact with the valve seat 104 and the valve body 113 is brought into contact with the valve seat 114, the inner fluid passages 102 and 112 are cut off by separating the both butted surfaces 101a and 111a from each other. It will be in the separated state (the state of FIG. 12A).

前記弁体103および113は、それぞれに設けられた軸部105および115と、これら軸部105および115をそれぞれ支持する軸受106および116とによりスライド可能に支持されており、軸部105の途中に設けたフランジ107と軸受106との間が可撓性膜108にて覆われ、かつ軸部115の途中に設けたフランジ117と軸受116との間が可撓性膜118にて覆われている。前記可撓性膜108および118は、内部流体通路102、112が連通する接続状態のとき、軸部105、115と軸受106、116との摺動部分である隙間に、移送される流体が入って残るのを防止するために設けられている。   The valve bodies 103 and 113 are slidably supported by shaft portions 105 and 115 provided respectively, and bearings 106 and 116 that support the shaft portions 105 and 115, respectively. A space between the provided flange 107 and the bearing 106 is covered with a flexible film 108, and a space between the flange 117 provided in the middle of the shaft portion 115 and the bearing 116 is covered with a flexible film 118. . When the internal fluid passages 102 and 112 are connected to each other, the flexible membranes 108 and 118 contain fluid to be transferred in a gap that is a sliding portion between the shaft portions 105 and 115 and the bearings 106 and 116. It is provided to prevent it from remaining.

ところで、上述した可撓性膜118は、図12および図13(雄継手111側を示す)に示すように、軸部115を2分割した一方の分割軸部115aとフランジ117との間に、他方の分割軸部115bにて押圧した状態で挟み込まれて設けられており、もう一方の可撓性膜108も同様にして設けられている。この構成を採用するのは、可撓性膜108等の端部を軸部に直接固着することが困難である故に、軸部を分割してその間を固着部として用いるためである。   By the way, as shown in FIG. 12 and FIG. 13 (showing the male joint 111 side), the flexible film 118 described above is between the one split shaft portion 115a obtained by dividing the shaft portion 115 into two and the flange 117. The other flexible shaft 108 is sandwiched and provided while being pressed by the other split shaft portion 115b, and the other flexible film 108 is provided in the same manner. The reason for adopting this configuration is that it is difficult to directly fix the end portion of the flexible film 108 or the like to the shaft portion, so that the shaft portion is divided and the space between them is used as the fixing portion.

したがって、従来の継手による場合には、分割軸部115a等とフランジ117等との接合部Xが内部流体通路112等に露出しているため、その接合部Xに、移送される流体が入り込んで残る虞があり、改善の余地があった。   Therefore, in the case of the conventional joint, since the joint X between the split shaft portion 115a and the flange 117 and the like is exposed to the internal fluid passage 112 and the like, the fluid to be transferred enters the joint X. There was a possibility of remaining, and there was room for improvement.

また、弁体103、113は、先端の弁頭部103a、113aの周囲に、弁座104、114に当接するリング状の当接部材103b、113bが別部材により取付けられているため、弁頭部103a、113aに当接部材103b、113bとの間で生じる隙間形成部が存在し、その隙間形成部でも移送される流体が入り込んで残る虞があり、改善の余地があった。   In addition, the valve bodies 103 and 113 are provided with ring-shaped contact members 103b and 113b that contact the valve seats 104 and 114 around the valve heads 103a and 113a at the distal ends. There is a gap forming portion formed between the contact portions 103b and 113b in the portions 103a and 113a, and there is a possibility that the fluid to be transferred enters and remains in the gap forming portion, and there is room for improvement.

本発明は、このような従来技術の課題を解決するためになされたものであり、弁頭部における隙間形成部を無くし、かつ、軸受とこれにより支持される部分との間の隙間を簡潔な構造で遮蔽することができる弁装置を提供することを目的とする。   The present invention has been made to solve the above-described problems of the prior art, eliminates the gap forming portion in the valve head, and simplifies the gap between the bearing and the portion supported thereby. It aims at providing the valve apparatus which can be shielded with a structure.

請求項1の発明に係る弁装置は、内部流体通路の一端に第1接続口が、その他端に第2接続口がそれぞれ設けられた弁枠体と、該弁枠体の内部に、該第1接続口に対して接離する方向へスライド可能に設けられた軸部材と、該軸部材の先端部に取付けられる弁体と、該軸部材の途中をスライド自在に支持する軸受と、該軸部材をスライドさせるスライド機構とを備え、上記弁体は、軸部材の第1接続口への接近スライドにより該第1接続口の周縁部に当接して第1接続口を閉弁状態にする弁頭部と、該弁頭部から軸受側に延出されて該軸受と該軸部材との摺接する部分を内部流体通路から区画するように端部が固定されかつ軸部材のスライドに伴って変形するシール部とを有し、該シール部と該弁頭部の少なくとも表層部とが合成樹脂で一体に形成され、シール部の弁頭部背面側に回り込んでいる回り込み部分と弁頭部の背面側との間に、少なくとも開弁状態で内部流体を通流しているときに回り込み部分と接触するリング状の弁頭部側ガイドが設けられていることを特徴とする。   The valve device according to the invention of claim 1 includes a valve frame body in which a first connection port is provided at one end of the internal fluid passage and a second connection port at the other end, and A shaft member that is slidable in a direction that is close to and away from one connection port; a valve body that is attached to the tip of the shaft member; a bearing that slidably supports the shaft member; And a valve mechanism for closing the first connection port by contacting the peripheral edge of the first connection port by sliding toward the first connection port of the shaft member. The head is extended from the valve head to the bearing side, and the end is fixed so as to partition the sliding contact portion between the bearing and the shaft member from the internal fluid passage and is deformed as the shaft member slides A sealing portion, and the sealing portion and at least the surface layer portion of the valve head are integrated with a synthetic resin. A ring that is formed and is in contact with the wraparound portion when the internal fluid is flowing at least in a valve-opened state between the wraparound portion that wraps around the back side of the valve head of the seal portion and the back side of the valve head The valve head side guide of the shape is provided.

請求項2の発明に係る弁装置は、請求項1に記載の弁装置において、弁枠体と軸部材との境界部分と、シール部における弁枠体に固定された端部から途中部分までの弁枠体側シール部分との間に、弁枠体と軸部材のスライドによりそのスライド方向に移動する移動部材とにより撓み変形可能に支持された状態で設けられ、少なくとも開弁状態で内部流体を通流しているときに該弁枠体側シール部分と接触するリング状の弁枠体側ガイドを有することを特徴とする。   A valve device according to a second aspect of the present invention is the valve device according to the first aspect, wherein a boundary portion between the valve frame body and the shaft member and an end portion fixed to the valve frame body in the seal portion to a middle portion thereof. It is provided between the valve frame body side seal portion and the valve frame body and a moving member that moves in the sliding direction by sliding of the shaft member so that it can be bent and deformed. It has a ring-shaped valve frame body side guide that comes into contact with the valve frame body side seal portion when flowing.

請求項3の発明に係る弁装置は、請求項2に記載の弁装置において、閉弁状態のとき、弁枠体側シール部分および回り込み部分の少なくとも一方が該当するガイドから離れ、開弁状態のとき、弁枠体側シール部分が弁枠体側ガイドを押圧して撓み変形させることを特徴とする。   The valve device according to a third aspect of the present invention is the valve device according to the second aspect, wherein when the valve is closed, at least one of the valve frame side seal portion and the wraparound portion is separated from the corresponding guide and is open. The valve frame body side seal portion presses the valve frame body side guide to bend and deform.

請求項4の発明に係る弁装置は、請求項3に記載の弁装置において、シール部における弁枠体に固定された端部に最も近い位置に形成される内側湾曲部から該端部までが、連続して軸受側寄りに位置するとともに、該端部が第2接続口の軸受側部分よりも第1接続口側に位置するように、前記弁枠体側ガイドがシール部を規制することを特徴とする。   The valve device according to a fourth aspect of the present invention is the valve device according to the third aspect, wherein from the inner curved portion formed at a position closest to the end portion fixed to the valve frame body to the end portion in the seal portion. The valve frame side guide regulates the seal portion so that the guide is continuously located closer to the bearing side and the end portion is located closer to the first connection port side than the bearing side portion of the second connection port. Features.

本発明の請求項1に係る弁装置による場合には、弁頭部の表層部から軸受側に延出されて端部が固定されたシール部までが一体形成されているので、弁頭部における隙間形成部を無くすことが可能となる。また、シール部が該軸受と該軸部材との摺接する部分を内部流体通路から区画するので、軸受とこれにより支持される部分との摺接する部分が遮蔽される。更に、弁体は、その外側全体が隙間の無い一体構造となっていて、袋状に形成されているので、シール部の開口端部のみを固定すればよく、固定箇所を少なくすることが可能な簡潔な構造となる。そして、更に、シール部の回り込み部分と弁頭部の背面側との間にリング状の弁頭部側ガイドが設けられ、その弁頭部側ガイドが、少なくとも開弁状態で内部流体を通流しているときにおいてシール部の回り込み部分と接触するので、回り込み部分に及ぶ圧力を低減させて、シール部の耐久性を向上させ得る。   In the case of the valve device according to the first aspect of the present invention, since the seal head portion extending from the surface layer portion of the valve head portion to the bearing side and fixed to the end portion is integrally formed, It is possible to eliminate the gap forming portion. Further, since the seal portion divides the sliding contact portion between the bearing and the shaft member from the internal fluid passage, the sliding contact portion between the bearing and the portion supported thereby is shielded. Furthermore, since the valve body has an integral structure with no gap on the whole and is formed in a bag shape, it is only necessary to fix the opening end of the seal part, and the number of fixing points can be reduced. It becomes a simple and simple structure. Further, a ring-shaped valve head side guide is provided between the wraparound portion of the seal portion and the back side of the valve head, and the valve head side guide allows the internal fluid to flow at least in a valve open state. Since the contact with the wraparound portion of the seal portion during contact is made, the pressure on the wraparound portion can be reduced and the durability of the seal portion can be improved.

また、本発明の請求項2に係る弁装置による場合には、シール部の弁枠体側シール部分および回り込み部分が該当するガイドにて規制されるので、シール部のほぼ全体が異常に変形することを抑制でき、これによりシール部の内側に一体に設けられる補強用膜を省くことが可能となる。特に、弁枠体側ガイドと弁頭部側ガイドの両方を備えた構成にすることにより、シール部の各部での異常変形は、補強用膜を省略しても完全に防止することができる。   Further, in the case of the valve device according to claim 2 of the present invention, since the valve frame side seal portion and the wraparound portion of the seal portion are regulated by the corresponding guide, almost the entire seal portion is deformed abnormally. Therefore, it is possible to omit the reinforcing film integrally provided inside the seal portion. In particular, by adopting a configuration including both the valve frame side guide and the valve head side guide, abnormal deformation in each part of the seal portion can be completely prevented even if the reinforcing film is omitted.

また、本発明の請求項3に係る弁装置による場合には、閉弁状態のとき、シール部の弁枠体側シール部分および回り込み部分の少なくとも一方が該当するガイドから離れる。また、開弁状態のとき、弁枠体側シール部分が弁枠体側ガイドを押圧して撓み変形させるので、シール部の途中部分よりも端側の両端部が、軸部材のスライドに伴って傾きが変化し、シール部の変形部として機能するため、これによりシール部の変形部を両端に分散させることができ、結果としてシール部の径を小径に抑えることができ、これによりシール部の小型化が図れる。また、シール部の変形部を両端に分散させることにより、軸部材のスライド量も大きく設計することが可能となる。   In the valve device according to claim 3 of the present invention, when the valve is closed, at least one of the valve frame side seal portion and the wraparound portion of the seal portion is separated from the corresponding guide. Further, when the valve is open, the valve frame side seal portion presses and deforms the valve frame side guide, so that both end portions on the end side than the middle portion of the seal portion are inclined as the shaft member slides. Since it changes and functions as a deformed portion of the seal portion, it is possible to disperse the deformed portion of the seal portion at both ends, and as a result, the diameter of the seal portion can be suppressed to a small diameter, thereby miniaturizing the seal portion Can be planned. In addition, by dispersing the deformed portion of the seal portion at both ends, it is possible to design a large slide amount of the shaft member.

また、本発明の請求項4に係る弁装置による場合には、第2接続口の軸受側部分から、弁枠体に固定されたシール部端部に最も近い位置に形成される内側湾曲部までが、連続的に第1接続口側に位置するので、これにより内部流体通路を流れる内部流体を淀ませるような窪みの形成が無くなる。また、上記窪みの形成が無いため、弁洗浄を行うとき、窪みに伴う洗浄効率の低下を防止することが可能となる。   Moreover, in the case of the valve device according to claim 4 of the present invention, from the bearing side portion of the second connection port to the inner curved portion formed at a position closest to the end of the seal portion fixed to the valve frame body. However, since it is continuously located on the first connection port side, this eliminates the formation of a recess that entrains the internal fluid flowing through the internal fluid passage. In addition, since there is no formation of the depression, it is possible to prevent a reduction in cleaning efficiency associated with the depression when performing valve cleaning.

以下、本発明の実施形態を図面に基づき具体的に説明する。   Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.

図1は、本発明の弁装置を適用したサニタリー用の継手を示す縦断面図であり、閉弁状態を示す。図2はその継手が開弁状態となっているときを示す縦断面図、図3はその継手の開弁状態(左側)と開弁状態(右側)とを併せて示す縦断面図である。   FIG. 1 is a longitudinal sectional view showing a sanitary joint to which the valve device of the present invention is applied, and shows a valve closed state. FIG. 2 is a longitudinal sectional view showing when the joint is in a valve open state, and FIG. 3 is a longitudinal sectional view showing both the valve opened state (left side) and the valve opened state (right side) of the joint.

この継手1は、内部流体通路3を有する弁枠体2と、スライド機構4によりスライドされる軸部材5と、その軸部材5の途中を支持し、弁枠体2の一部を構成する軸受6と、軸部材5の先端部に取付けられた弁体10とを備える。   The joint 1 includes a valve frame body 2 having an internal fluid passage 3, a shaft member 5 that is slid by a slide mechanism 4, and a bearing that supports a part of the shaft member 5 and constitutes a part of the valve frame body 2. 6 and a valve body 10 attached to the tip of the shaft member 5.

弁枠体2には、内部流体通路3の一端(上側)に第1接続口3aが、その他端(右側)に第2接続口3bがそれぞれ設けられている。第1接続口3aは、例えば移送先(または移送元)に繋がった別の継手(図示せず)に、着脱可能な状態で連結され、第2接続口3bは、例えば移送元(または移送先)に繋がったホース等の配管(図示せず)に連結される。   The valve frame body 2 is provided with a first connection port 3a at one end (upper side) of the internal fluid passage 3 and a second connection port 3b at the other end (right side). The first connection port 3a is detachably connected to another joint (not shown) connected to, for example, a transfer destination (or transfer source), and the second connection port 3b is connected to, for example, the transfer source (or transfer destination). ) Is connected to a pipe (not shown) such as a hose connected to.

上記軸部材5は、弁枠体2の内部に設けられ、基端側に設けられたスライド機構4により第1接続口3aに対して接離する方向へスライド可能となっている。軸部材5の途中は、軸受6によりスライド自在に支持されている。スライド機構4は、例えば空気アクチュエータ、電磁石或いは手動ハンドル等の公知手段が用いられる。   The shaft member 5 is provided inside the valve frame body 2 and is slidable in a direction in which the shaft member 5 comes into contact with and separates from the first connection port 3a by a slide mechanism 4 provided on the base end side. The middle of the shaft member 5 is slidably supported by the bearing 6. For the slide mechanism 4, known means such as an air actuator, an electromagnet, or a manual handle is used.

軸部材5の外側には、先端(図の上端)よりも少し基端側(図の下側)に寄った位置から軸受6にて支持される部分よりも少し先端側に寄った位置までの間に変形規制部20が軸部材5と一体に設けられている。この変形規制部20は、軸部材5の他の部分よりも半径が長く形成され、先端側から、外周面が軸方向に沿って湾曲した湾曲部21と、追従機構の一部として機能する3つの段差部22、23、24とを有し、各段差部22、23、24の外径はそれぞれ異なる値でスライド方向に沿って一定に設定されている。具体的には、段差部22の外径が最も小さく、段差部24の外径が最も大きく、段差部23の外径は両者の間に設定されている。なお、変形規制部20は、湾曲部21の代わりに、外周面がほぼ同一直径を有する形状、或いは、外周面の先端側が基端側よりも徐々に縮径または拡径した形状、或いは他の任意の外周面形状にすることができる。   On the outer side of the shaft member 5, a position closer to the base end side (lower side in the figure) than the tip end (upper end in the figure) to a position closer to the front end side than the part supported by the bearing 6. A deformation restricting portion 20 is provided integrally with the shaft member 5 therebetween. The deformation restricting portion 20 is formed to have a longer radius than the other portions of the shaft member 5, and the curved portion 21 whose outer peripheral surface is curved along the axial direction from the distal end side, and functions as a part of the follow-up mechanism 3. There are two step portions 22, 23, 24, and the outer diameters of the step portions 22, 23, 24 are set to be constant along the slide direction with different values. Specifically, the outer diameter of the stepped portion 22 is the smallest, the outer diameter of the stepped portion 24 is the largest, and the outer diameter of the stepped portion 23 is set between them. The deformation restricting portion 20 has a shape in which the outer peripheral surface has substantially the same diameter instead of the curved portion 21, or a shape in which the distal end side of the outer peripheral surface is gradually reduced or expanded in diameter than the base end side, or other Any outer peripheral surface shape can be used.

上記弁体10は、上述したように軸部材5の先端部に取付けられ、表層部11aと取付部11bとを有する弁頭部11と、弁頭部11の表層部11aから軸受6側に延出された円筒状のシール部12とを備える。取付部11bは金属や他の非可撓性材料からなり、この取付部11bには軸部材5の先端部が螺着されていて、表層部11aおよびシール部12の全体は、合成樹脂、例えばテフロン(登録商標)(PTFE:四フッ化エチレン樹脂)により一体成形にて形成されている。弁頭部11は、軸部材5が第1接続口3aへの接近スライドにより、第1接続口3aの周縁部3cに当接する進出限位置に移動すると、第1接続口3aを閉弁状態にし(図1参照)、軸部材5の第1接続口3aからの離隔スライドにより、第1接続口3aの周縁部3cから離隔して第1接続口3aを開弁状態にする(図2参照)。ここで、開弁状態とは、軸部材5が離隔スライドにより後退限位置にまで後退した状態をいう。   The valve body 10 is attached to the tip of the shaft member 5 as described above, and has a valve head 11 having a surface layer portion 11a and an attachment portion 11b, and extends from the surface layer portion 11a of the valve head 11 to the bearing 6 side. And a cylindrical seal portion 12 that is taken out. The attachment portion 11b is made of a metal or other inflexible material, and the tip portion of the shaft member 5 is screwed to the attachment portion 11b, and the entire surface layer portion 11a and the seal portion 12 are made of synthetic resin, for example, Teflon (registered trademark) (PTFE: tetrafluoroethylene resin) is formed by integral molding. When the valve head 11 moves to the advance limit position where the shaft member 5 contacts the peripheral edge 3c of the first connection port 3a by the approach slide to the first connection port 3a, the first connection port 3a is closed. (Refer to FIG. 1), the first connection port 3a is opened from the peripheral portion 3c of the first connection port 3a by the separation slide from the first connection port 3a of the shaft member 5 (see FIG. 2). . Here, the valve open state refers to a state in which the shaft member 5 is retracted to the retreat limit position by the separation slide.

上記弁頭部11の最大径部11cから軸受6側に、シール部12が延出されて袋状に形成されていて、そのシール部12の基端側は、開口端となっている。その開口端の全周は、複数に分割された弁枠体2の一部と軸受6の境界面2aで挟持することで固定されている。これによりシール部12は、軸受6と軸部材5との摺接する部分を内部流体通路3から区画している。なお、シール部12を固定する弁枠体2の開口面積は、第1接続口3aの開口面積とほぼ同等にすることが好ましい。   A seal portion 12 extends from the maximum diameter portion 11c of the valve head 11 to the bearing 6 side and is formed in a bag shape. The base end side of the seal portion 12 is an open end. The entire circumference of the open end is fixed by being sandwiched between a part of the valve frame body 2 divided into a plurality and the boundary surface 2 a of the bearing 6. As a result, the seal portion 12 partitions the portion where the bearing 6 and the shaft member 5 are in sliding contact with each other from the internal fluid passage 3. In addition, it is preferable that the opening area of the valve frame 2 that fixes the seal portion 12 is substantially equal to the opening area of the first connection port 3a.

上記境界面2aには、図4(b)に示す弁枠体側ガイド14の外周部14aも挟持されている。この弁枠体側ガイド14は、後述する弁枠体側シール部分12Bの変形を規制するもので(図3参照)、例えばゴム等の弾性材料からなる円リング状のものであって、断面形状は内周側が概略三角形状、外周側がほぼ厚み一定に形成されている。断面形状が概略三角形状をした内周部14bは、前記段差部22と、弁枠体2の境界面2aより内側に設けた凹状の切欠部6bとの間、つまり変形規制部20と弁枠体2の境界部分の凹部に配置される。また、弁枠体側ガイド14の軸受6側には円リング状をした移動部材15が配されている。   The outer peripheral portion 14a of the valve frame side guide 14 shown in FIG. 4B is also sandwiched between the boundary surface 2a. The valve frame side guide 14 regulates deformation of a valve frame side seal portion 12B described later (see FIG. 3), and is a circular ring shape made of an elastic material such as rubber, and has a cross-sectional shape inside. The peripheral side is formed in a substantially triangular shape, and the outer peripheral side is formed with a substantially constant thickness. The inner peripheral portion 14b having a substantially triangular cross section is formed between the stepped portion 22 and the concave notch 6b provided inside the boundary surface 2a of the valve frame body 2, that is, the deformation restricting portion 20 and the valve frame. It is disposed in a recess at the boundary portion of the body 2. A moving member 15 having a circular ring shape is disposed on the bearing 6 side of the valve frame side guide 14.

この移動部材15は、下端の内周側が切欠かれた、追従機構の一部として機能する段付部15aを有し(図3参照)、軸部材5のスライドにより、そのスライド方向に追従移動する。具体的には、軸部材5が進出限位置にあるときは、移動部材15の段付部15aが、段差部23と24の間の部分と係合し、下端が切欠部6bから浮いた状態となる。軸部材5がその状態から後退していくと、それに伴って移動部材15は下に降下していき、ある位置まで降下すると、移動部材15の下端が切欠部6bと係合(接触)するようになる。その後、更に軸部材25が後退限位置まで離隔スライドしても、移動部材15は切欠部6bに規制されて非移動状態になる。更に、その後退限位置から前側に接近スライドを行って段差部23と24の間の部分が切欠部6bの底面よりも高くなると、移動部材15の段付部15aが、段差部23と24の間の部分と係合するようになり、その後は下端が切欠部6bから浮いた状態となる。このような移動部材15の追従移動は、軸部材5のスライドに伴って同様に繰り返す。   The moving member 15 has a stepped portion 15a that functions as a part of the follow-up mechanism in which the inner peripheral side of the lower end is notched (see FIG. 3), and moves in the slide direction by the slide of the shaft member 5. . Specifically, when the shaft member 5 is in the advanced limit position, the stepped portion 15a of the moving member 15 is engaged with the portion between the stepped portions 23 and 24, and the lower end is lifted from the notched portion 6b. It becomes. When the shaft member 5 is retracted from the state, the moving member 15 is lowered downward. When the shaft member 5 is lowered to a certain position, the lower end of the moving member 15 is engaged (contacted) with the notch 6b. become. Thereafter, even if the shaft member 25 is further slid to the retract limit position, the moving member 15 is restricted by the notch 6b and becomes non-moving. Further, when the front slide side is approached from the retreat limit position and the portion between the step portions 23 and 24 becomes higher than the bottom surface of the notch portion 6b, the stepped portion 15a of the moving member 15 is moved between the step portions 23 and 24. Then, the lower end is in a state of being lifted from the notch 6b. The following movement of the moving member 15 is repeated in the same manner as the shaft member 5 slides.

そして、この移動部材15の追従移動により、弁枠体側ガイド14が変形可能となる。具体的には、閉弁状態においては、図1および図3の左側に示すように弁枠体側ガイド14の下端側が段差部22と23の間で係合して、弁枠体側ガイド14は弾性により圧縮変形可能であるが形状変形(撓み変形)をしない状態となる。これに対して、開弁状態においては、図2および図3の右側に示すように移動部材15の移動により段差部22と23の間が降下し、弁枠体側ガイド14の下側に隙間が形成されるため、弁枠体側ガイド14は、開弁状態とされることで変形するシール部12の下端部分で下側に押圧されることにより、下側に撓む形状変形が可能となる。   The valve frame side guide 14 can be deformed by the follow-up movement of the moving member 15. Specifically, in the valve closed state, as shown on the left side of FIGS. 1 and 3, the lower end side of the valve frame side guide 14 is engaged between the step portions 22 and 23, and the valve frame side guide 14 is elastic. Thus, it can be compressed and deformed, but it does not undergo shape deformation (flexure deformation). On the other hand, in the valve open state, as shown on the right side of FIGS. 2 and 3, the movement of the moving member 15 moves down between the step portions 22 and 23, and there is a gap below the valve frame side guide 14. Therefore, when the valve frame side guide 14 is pressed downward at the lower end portion of the seal portion 12 which is deformed when the valve is opened, the shape of the valve frame side guide 14 can be deformed to be bent downward.

弁頭部11の背面側には、図4(a)に示す弁頭部側ガイド13が接着等により取付けられている。この弁頭部側ガイド13は、後述する回り込み部分12Cの変形を規制するもので(図3参照)、例えばゴム等の弾性材料からなる円リング状のものであって、断面形状は内周側が厚く外周側が薄い三角形状となっており、弁頭部側ガイド13の内側には、軸部材5の先端部が挿通している。なお、弁頭部側ガイド13は、非可撓性の取付部11bと一体に形成してもよい。   A valve head side guide 13 shown in FIG. 4A is attached to the back side of the valve head 11 by adhesion or the like. The valve head side guide 13 regulates deformation of the wraparound portion 12C described later (see FIG. 3), and is a circular ring shape made of an elastic material such as rubber, for example, and the cross-sectional shape is on the inner peripheral side. The tip portion of the shaft member 5 is inserted inside the valve head side guide 13. The valve head side guide 13 may be formed integrally with the non-flexible mounting portion 11b.

上記シール部12は、軸部材5のスライドに伴って変形する。そのシール部12の変形は、本実施形態では、図3に示すように、軸部材5(または弁体10)が進出限位置(図1に示す位置)にある閉弁状態のときに、途中部分12A(シール部12の回り込み部分12Cと弁枠体側シール部分12Bを除く部分)は変形規制部20の外周面、実質的には湾曲部21と接触し、その変形規制部20の外周面の形状に応じた形状とされ、軸部材5が後退限位置(図2に示す位置)にある開弁状態となっても、つまり開弁・閉弁状態に拘わらず変形規制部20の外周面と接触したままであり、その外周面の形状に応じた形状のままである(但し、変形規制部20との接触位置の変化により若干の形状変化は伴う)。また、シール部12の弁頭部11の背面側に回り込んでいる回り込み部分12Cは、開弁状態のときには、弁頭部側ガイド13に接触し、弁頭部側ガイド13の外周面に応じた形状とされ、この形状変化に伴って、回り込み部分12Cから途中部分12Aまでの全域が変形規制部20と接触し、その変形規制部20の外周面の形状に応じた形状とされる。そして、開弁状態から閉弁状態に軸部材5が移動するに伴って、回り込み部分12Cは軸部材の軸心から離れるように拡径しながら弁頭部側ガイド13から離れていく。よって、シール部12の弁頭部11側は、弁頭部側ガイド13に接触する回り込み部分12Cと、変形規制部20に接触する途中部分12Aとの境界部分12Eが湾曲変形する。また、シール部12の境界面2aにて固定された端部から途中部分12Aまでの弁枠体側シール部分12Bは、軸部材5の後退により移動部材15が降下して形状変形可能となった弁枠体側ガイド14を下側に押し付ける状態となる。つまり、弁枠体側ガイド14の内周面側を下側に押した状態に撓み変形させ、その弁枠体側ガイド14の外周面の一部と接触する。そして、弁枠体側シール部分12Bと途中部分12Aとの境界部分12Fでは、下側に隙間が形成され、かつその隙間のある箇所が湾曲した状態とされる。一方、軸部材5が開弁状態から閉弁状態に移動するに伴って、弁枠体側シール部分12Bは、軸部材の軸心から離れるように拡径しながら軸受6から離れていく。これに伴って、撓み変形していた弁枠体側ガイド14が元の状態に戻る。なお、この段落では、流体からの圧力が作用しない、つまり配管に接続する前の状態におけるシール部12各部が形状変化の状態を説明している。   The seal portion 12 is deformed as the shaft member 5 slides. In the present embodiment, the deformation of the seal portion 12 is halfway when the shaft member 5 (or the valve body 10) is in the closed state where the shaft member 5 (or the valve body 10) is in the advanced limit position (position shown in FIG. 1), as shown in FIG. The portion 12A (the portion excluding the wraparound portion 12C of the seal portion 12 and the valve frame side seal portion 12B) is in contact with the outer peripheral surface of the deformation restricting portion 20, substantially the curved portion 21, and the outer peripheral surface of the deformation restricting portion 20 Even if the shaft member 5 is in a valve open state where the shaft member 5 is in the retreat limit position (position shown in FIG. 2), that is, the outer peripheral surface of the deformation restricting portion 20 regardless of the valve open / closed state. It remains in contact and remains in a shape corresponding to the shape of its outer peripheral surface (however, a slight change in shape is accompanied by a change in the contact position with the deformation restricting portion 20). Further, the wraparound portion 12C that wraps around the back side of the valve head 11 of the seal portion 12 contacts the valve head side guide 13 when the valve is open, and corresponds to the outer peripheral surface of the valve head side guide 13. With this shape change, the entire region from the wraparound portion 12C to the midway portion 12A comes into contact with the deformation restricting portion 20, and the shape is in accordance with the shape of the outer peripheral surface of the deformation restricting portion 20. Then, as the shaft member 5 moves from the valve-opened state to the valve-closed state, the wraparound portion 12C moves away from the valve head side guide 13 while increasing the diameter away from the shaft center of the shaft member. Therefore, on the valve head 11 side of the seal portion 12, the boundary portion 12 </ b> E between the wraparound portion 12 </ b> C that contacts the valve head side guide 13 and the midway portion 12 </ b> A that contacts the deformation restricting portion 20 is curved and deformed. Further, the valve frame body side seal portion 12B from the end portion fixed at the boundary surface 2a of the seal portion 12 to the middle portion 12A is a valve whose shape can be deformed by the moving member 15 being lowered by the retraction of the shaft member 5. The frame side guide 14 is pressed downward. That is, the inner peripheral surface side of the valve frame side guide 14 is bent and deformed so as to be pressed downward, and comes into contact with a part of the outer peripheral surface of the valve frame side guide 14. And in the boundary part 12F of the valve-frame body side seal part 12B and the middle part 12A, a clearance gap is formed in the lower side and the part with the clearance gap is made into the curved state. On the other hand, as the shaft member 5 moves from the valve-opened state to the valve-closed state, the valve frame body side seal portion 12B moves away from the bearing 6 while expanding the diameter away from the shaft center of the shaft member. Along with this, the valve frame side guide 14 that has been bent and deformed returns to its original state. In addition, in this paragraph, the pressure from the fluid does not act, that is, each part of the seal part 12 in a state before being connected to the pipe is explained.

すなわち、本実施形態のシール部12にあっては、途中部分12Aは開弁・閉弁状態に拘わらず変形規制部20に接触してその周面に応じた形状とされるため、ほぼ変形をしない。これに対して、回り込み部分12Cと途中部分12Aとの境界部分12Eが湾曲変形し、回り込み部分12Cの傾きが変化する。同様に、弁枠体側シール部分12Bと途中部分12Aとの境界部分12Fが湾曲変形し、弁枠体側シール部分12Bの傾きが変化する。つまり、シール部12の途中部分12Aよりも端側の両端側、特に回り込み部分12Cと途中部分12Aとの境界部分12E、および弁枠体側シール部分12Bと途中部分12Aとの境界部分12Fが変形部として機能する。なお、弁体10が後退限位置(つまり、開弁状態)にあるとき、シール部12は弁頭部11aと繋がる部分より軸受6側が連続して軸受6側寄りに位置し、弁頭部11a側へ折り返しされることがないような形状状態に設計されており、また、弁枠体側ガイド14は、開弁状態(流体の圧力が作用しないとき)にあるとき、上述したように移動部材15の移動により下側に撓む形状変形を生じても、前記の形状状態とするように設計されている。当然のことながら、内部流体通路3に流体を流した場合でも、前記の形状状態が維持されるようになっている。   That is, in the seal portion 12 of the present embodiment, the intermediate portion 12A is in contact with the deformation restricting portion 20 regardless of whether the valve is open or closed, and has a shape corresponding to the peripheral surface thereof. do not do. In contrast, the boundary portion 12E between the wraparound portion 12C and the midway portion 12A is curved and deformed, and the inclination of the wraparound portion 12C changes. Similarly, the boundary portion 12F between the valve frame side seal portion 12B and the midway portion 12A is curved and deformed, and the inclination of the valve frame side seal portion 12B changes. That is, both end sides on the end side of the intermediate portion 12A of the seal portion 12, particularly the boundary portion 12E between the wraparound portion 12C and the intermediate portion 12A, and the boundary portion 12F between the valve frame side seal portion 12B and the intermediate portion 12A are deformed portions. Function as. When the valve body 10 is in the retreat limit position (that is, in the valve open state), the seal portion 12 is continuously located closer to the bearing 6 side than the portion connected to the valve head portion 11a, and the valve head portion 11a. When the valve frame side guide 14 is in a valve open state (when no fluid pressure acts), the moving member 15 is designed as described above. It is designed so as to be in the above-described shape state even if a shape deformation that deflects downward occurs due to the movement of. As a matter of course, even when a fluid is flowed through the internal fluid passage 3, the shape state is maintained.

したがって、第1実施形態の継手1にあっては、弁体10が、弁頭部11から軸受6側に延出されて弁枠体2に固定された筒状シール部12までが一体形成されているので、従来のようにリング状の当接部材(103b、113b)を使用することなく、弁頭部11における隙間形成部を無くすことが可能となる。また、シール部12が軸受6と軸部材5との摺接する部分を内部流体通路3から区画するので、軸受6とこれにより支持される軸部材5との摺接する部分を遮蔽することができる。更に、弁体10は、その外側全体が隙間の無い一体構造となっていて、袋状に形成されているので、シール部12の基端側の開口端部のみを固定すればよく、固定箇所を少なくすることが可能な簡潔な構造にすることができる。   Therefore, in the joint 1 of the first embodiment, the valve body 10 extends from the valve head 11 to the bearing 6 side and is integrally formed up to the cylindrical seal portion 12 fixed to the valve frame body 2. Therefore, it is possible to eliminate the gap forming portion in the valve head 11 without using the ring-shaped contact members (103b, 113b) as in the prior art. Further, since the seal portion 12 partitions the portion where the bearing 6 and the shaft member 5 are in sliding contact with each other from the internal fluid passage 3, the portion where the bearing 6 and the shaft member 5 supported thereby can be shielded. Furthermore, since the valve body 10 has an integrated structure with no gap on the entire outer side and is formed in a bag shape, it is only necessary to fix the opening end portion on the proximal end side of the seal portion 12. It is possible to make a simple structure capable of reducing

また、第1実施形態にあっては、配管に接続して流体が流れるようにした開弁状態、つまり使用状態において、内部流体通路3を流れる内部流体から途中部分12Aに作用する圧力を変形規制部20で受けるようにすることができ、これにより途中部分12Aが受ける圧力を減少させ得、シール部12の耐久性を向上させることが可能となる。更に、シール部12の回り込み部分12Cと弁頭部11aの背面側との間にリング状の弁頭部側ガイド13が設けられ、その弁頭部側ガイド13が、開弁状態においてシール部12の回り込み部分12Cを受けるので、回り込み部分12Cに及ぶ圧力を低減させてシール部12の耐久性を向上させ得る。更に、弁枠体2と軸部材5との境界部分と、それに対応する弁枠体側シール部分12Bとの間にリング状の弁枠体側ガイド14が設けられ、その弁枠体側ガイド14が、開弁状態において弁枠体側シール部分12Bを受けるので、これにより弁枠体側シール部分14に及ぶ圧力を低減させてシール部12の耐久性を向上させ得る。また、弁枠体側ガイド14が、弁枠体2と移動部材15とにより撓み変形可能に支持されているので、弁枠体側シール部分12Bを変形部として利用することができる。   In the first embodiment, in a valve open state in which a fluid flows by connecting to a pipe, that is, in a use state, the pressure acting on the intermediate portion 12A from the internal fluid flowing through the internal fluid passage 3 is restricted from deformation. It can be received by the portion 20, whereby the pressure received by the intermediate portion 12 </ b> A can be reduced, and the durability of the seal portion 12 can be improved. Further, a ring-shaped valve head side guide 13 is provided between the wraparound portion 12C of the seal portion 12 and the back surface side of the valve head portion 11a. Since the wraparound portion 12C is received, the pressure applied to the wraparound portion 12C can be reduced and the durability of the seal portion 12 can be improved. Furthermore, a ring-shaped valve frame side guide 14 is provided between the boundary portion between the valve frame 2 and the shaft member 5 and the corresponding valve frame side seal portion 12B, and the valve frame side guide 14 is opened. Since the valve frame body side seal portion 12B is received in the valve state, the pressure applied to the valve frame body side seal portion 14 can thereby be reduced and the durability of the seal portion 12 can be improved. In addition, since the valve frame body side guide 14 is supported by the valve frame body 2 and the moving member 15 so as to be able to bend and deform, the valve frame body side seal portion 12B can be used as a deforming portion.

また、本実施形態においては、閉弁状態のとき、シール部12の回り込み部分12Cが弁頭部側ガイド13から離れ、開弁状態のとき、弁枠体側シール部分12Bが弁枠体側ガイド14を押圧して撓み変形させるので、換言すれば、回り込み部分12Cの径が拡大しながら弁頭部11から離れるとともに、弁枠体側シール部分12Bの径が拡大しながら軸受6から離れて、弁体10が開弁状態から閉弁状態に移動可能となっているとともに、軸部材5のスライドに伴う回り込み部分12Cおよび弁枠体側シール部分12Bの径の拡大程度が、途中部分12Aでの径の拡大程度よりも大きいので、シール部12の途中部分12Aよりも端側の両端部が、軸部材5のスライドに伴って傾きが変化し、シール部12の変形部として機能するため、これによりシール部12の変形部を両端に分散させることができ、結果としてシール部12の径を小径に抑えることができ、これによりシール部12の小型化が図れる。また、シール部12の変形部を両端に分散させることにより、軸部材5のスライド量も大きく設計することが可能となる。   In the present embodiment, when the valve is closed, the wraparound portion 12C of the seal portion 12 is separated from the valve head side guide 13, and when the valve is open, the valve frame side seal portion 12B is connected to the valve frame side guide 14. In other words, since the diameter of the wraparound portion 12C is increased and the valve head 11 is separated from the valve head 11, the valve frame body side seal portion 12B is separated from the bearing 6 while the diameter is increased. Is movable from the valve-opened state to the valve-closed state, and the enlargement degree of the diameter of the wraparound portion 12C and the valve frame side seal portion 12B accompanying the sliding of the shaft member 5 is the enlargement degree of the diameter at the intermediate portion 12A. Therefore, both end portions on the end side of the middle portion 12A of the seal portion 12 change in inclination as the shaft member 5 slides and function as a deformed portion of the seal portion 12. By the deformation of the seal portion 12 can be dispersed to both ends, the result diameter of the seal portion 12 can be suppressed to a small diameter as, thereby downsizing of the seal portion 12 can be reduced. Further, by dispersing the deformed portion of the seal portion 12 at both ends, the sliding amount of the shaft member 5 can be designed to be large.

なお、上述した実施形態では、閉弁状態のとき、シール部12の回り込み部分12Cが弁頭部側ガイド13から離れるようにしているが、本発明はこれに限らず、閉弁状態のとき、シール部12の弁枠体側シール部分12Bが弁枠体側ガイド14から離れるようしたり、或いは、閉弁状態のとき、シール部12の回り込み部分12Cが弁頭部側ガイド13から離れるとともに弁枠体側シール部分12Bが弁枠体側ガイド14から離れるようにしてもよい。更に、閉弁時に回り込み部分12Cが弁頭部側ガイド13に支持可能に、弁枠体側ガイド14と同様に弁頭部側ガイド13を移動可能にしてもよい。   In the above-described embodiment, when the valve is closed, the wraparound portion 12C of the seal portion 12 is separated from the valve head side guide 13. However, the present invention is not limited to this, and when the valve is closed, When the valve frame side seal portion 12B of the seal portion 12 is separated from the valve frame side guide 14, or when the valve is closed, the wraparound portion 12C of the seal portion 12 is separated from the valve head side guide 13 and the valve frame side. The seal portion 12B may be separated from the valve frame side guide 14. Further, the valve head side guide 13 may be movable in the same manner as the valve frame side guide 14 so that the wraparound portion 12C can be supported by the valve head side guide 13 when the valve is closed.

また、上述した実施形態では、開弁状態(流体の圧力が作用しないとき)とすることで、回り込み部分12Cが弁頭部側ガイド13に接触するようにしているが、本発明はこれに限らない。例えば、軸部材5を種々のスライド位置としたうちで、配管を弁装置に接続せずに開弁状態とした場合には、回り込み部分12Cが弁頭部側ガイド13に接触せずに、配管を弁装置に接続して開弁状態とした場合に、つまり少なくとも内部流体の圧力が作用するときに、回り込み部分12Cが弁頭部側ガイド13に接触するように設計してもよい。   In the above-described embodiment, the wraparound portion 12C is brought into contact with the valve head side guide 13 by opening the valve (when the fluid pressure does not act), but the present invention is not limited to this. Absent. For example, when the shaft member 5 is set to various slide positions and the pipe is not connected to the valve device and is opened, the wraparound portion 12C does not contact the valve head side guide 13, and the pipe May be designed so that the wraparound portion 12C contacts the valve head side guide 13 when the valve device is connected to the valve device to open the valve, that is, at least when the pressure of the internal fluid is applied.

また、上述した実施形態では、開弁状態(流体の圧力が作用しないとき)とすることで、弁枠体側シール部分12Bが弁枠体側ガイド14を押圧して撓み変形させるようにしているが、本発明はこれに限らない。例えば、軸部材5を種々のスライド位置としたうちで、配管を弁装置に接続せずに開弁状態とした場合には、弁枠体側シール部分12Bが弁枠体側ガイド14と接触せず、配管を弁装置に接続して開弁状態とした場合に、つまり少なくとも内部流体の圧力が作用するときに、弁枠体側シール部分12Bが弁枠体側ガイド14を押圧して撓み変形させるように設計してもよい。   Further, in the above-described embodiment, the valve frame side seal portion 12B presses the valve frame side guide 14 to be bent and deformed by opening the valve (when the fluid pressure does not act). The present invention is not limited to this. For example, when the shaft member 5 is in various sliding positions and the valve is opened without connecting the pipe to the valve device, the valve frame side seal portion 12B does not contact the valve frame side guide 14, Designed so that the valve frame side seal portion 12B presses and deforms the valve frame side guide 14 when the pipe is connected to the valve device to open the valve, that is, at least when the pressure of the internal fluid acts. May be.

また、上述した実施形態では、開弁・閉弁状態(流体の圧力が作用しないとき)に拘わらず、途中部分12Aが変形規制部20に接触するようにしているが、本発明はこれに限らない。例えば、軸部材5を種々のスライド位置としたうちで、配管を弁装置に接続せずに開弁状態とした場合には、途中部分12Aが変形規制部20に接触せず、配管を弁装置に接続して開弁状態とした場合に、つまり少なくとも内部流体の圧力が作用するときに、途中部分12Aが変形規制部20に接触するように設計してもよい。   In the above-described embodiment, the intermediate portion 12A is in contact with the deformation restricting portion 20 regardless of whether the valve is open or closed (when the fluid pressure does not act), but the present invention is not limited to this. Absent. For example, when the shaft member 5 is set to various slide positions and the pipe is not connected to the valve device and is opened, the intermediate portion 12A does not contact the deformation restricting portion 20, and the pipe is connected to the valve device. When the valve is opened and connected, that is, at least when the pressure of the internal fluid is applied, the intermediate portion 12A may be designed to contact the deformation restricting portion 20.

また、上述した実施形態では、変形規制部20で途中部分12Aを、弁枠体側ガイド14で弁枠体側シール部分12Bを、弁頭部側ガイド13で回り込み部分12Cをそれぞれ規制するようにしているが、本発明はこれに限らない。例えば、変形規制部20に加えて、弁枠体側ガイド14または弁枠体側シール部分12Bの少なくとも一方を有する構成としてもよい。このような構成としても、シール部12は、内部流体通路3を流れる流体による圧力を受けても破れることがないので、内側に補強用の膜を別途設ける必要性がなく、シール部12単体でシールを行うことが可能である。その理由は、弁枠体側ガイド14または弁頭部側ガイド13の一方を省略してもシール部12の大部分を他方のガイドと変形規制部20とで受けることができ、省略したガイドが受ける筈のシール部12の部分の面積が小さく、破断し難いからである。但し、前記面積が大きくなるような弁装置の場合には、変形規制部20に加えて、弁枠体側ガイド14および弁頭部側ガイド13の両方を備えた構成とするのが、シール部12の破断防止を図る上で好ましい。また、シール部12が破断する虞がある場合には、破断の虞がある部分或いはシール部12の全域の内側に補強用の膜を別途設けるようにしてもよい。   In the embodiment described above, the deformation restricting portion 20 restricts the intermediate portion 12A, the valve frame side guide 14 the valve frame side seal portion 12B, and the valve head side guide 13 the flow portion 12C. However, the present invention is not limited to this. For example, in addition to the deformation restricting portion 20, at least one of the valve frame side guide 14 or the valve frame side seal portion 12B may be used. Even in such a configuration, the seal portion 12 is not torn even if it receives pressure from the fluid flowing through the internal fluid passage 3, so there is no need to separately provide a reinforcing film on the inside, and the seal portion 12 alone Sealing can be performed. The reason is that even if one of the valve frame side guide 14 or the valve head side guide 13 is omitted, most of the seal portion 12 can be received by the other guide and the deformation restricting portion 20, and the omitted guide receives. This is because the area of the seal portion 12 of the bag is small and is not easily broken. However, in the case of a valve device having a large area, the seal portion 12 is configured to include both the valve frame side guide 14 and the valve head side guide 13 in addition to the deformation restriction portion 20. This is preferable for preventing breakage. Further, when there is a possibility that the seal portion 12 is broken, a reinforcing film may be separately provided on a portion where the seal portion 12 may be broken or inside the entire area of the seal portion 12.

また、上述した実施形態では変形規制部20を軸部材5とは一体構成としているが、本発明はこれに限らず、変形規制部を軸部材と別構成としてもよい。このようにしても、変形規制部と軸部材との境界は、シール部により内部流体通路3とは区画される。   In the above-described embodiment, the deformation restricting portion 20 and the shaft member 5 are integrally configured. However, the present invention is not limited thereto, and the deformation restricting portion may be configured separately from the shaft member. Even in this case, the boundary between the deformation restricting portion and the shaft member is separated from the internal fluid passage 3 by the seal portion.

また、本実施形態の場合には、シール部が筒状である故に、例えば特開平10−205628号公報に開示された円錐状をしたダイアフラム弁(公報中の40)を用いる場合、或いは、特開2002−122253号公報に開示された円錐状のダイアフラム部(公報中の2)を有する弁(公報中の1)を用いる場合に比べ、以下のような有利な点がある。即ち、上記テフロン(登録商標)は、伸び率がゴムなどに比べて非常に低い。このような合成樹脂を用い、筒状シール部に代えて、弁頭部11a側から軸受6側に向けて徐々に拡径した概略円錐状のダイアフラムをシール部として形成した場合は、軸部材5のスライド量がダイアフラムの傾き具合によるため、そのスライド量を例えば配管径の25%に相当する寸法となるようにするには、配管径よりも遙かに大きい径のダイアフラムを要する。   In the case of the present embodiment, since the seal portion is cylindrical, for example, a conical diaphragm valve (40 in the publication) disclosed in JP-A-10-205628 is used, or a special Compared to the case of using a valve (1 in the publication) having a conical diaphragm portion (2 in the publication) disclosed in Japanese Unexamined Patent Publication No. 2002-122253, there are the following advantages. That is, the above-mentioned Teflon (registered trademark) has a very low elongation rate compared to rubber or the like. When such a synthetic resin is used and instead of the cylindrical seal portion, a substantially conical diaphragm whose diameter gradually increases from the valve head 11a side toward the bearing 6 side is formed as the seal portion, the shaft member 5 Therefore, a diaphragm having a diameter much larger than the pipe diameter is required to set the slide amount to a dimension corresponding to, for example, 25% of the pipe diameter.

そこで、本実施形態のように筒状シール部とすると、同径のダイアフラムに比べて伸縮長を長くすることができる。すなわち、筒状シール部を軸方向に伸ばすことで、伸縮する部分の距離が長くなり、テフロン(登録商標)のように伸び率が非常に低い樹脂等を用いても伸縮長が長くなる。よって、ダイアフラムよりも小径に形成することができる。また、図5に示すように途中部分12Aに、内側に湾曲した複数、図示例では2つの鼓状部12Dを有する構成にすると、より伸縮長が長くなる。   Therefore, when the cylindrical seal portion is used as in the present embodiment, the expansion / contraction length can be made longer than that of the diaphragm having the same diameter. That is, by extending the cylindrical seal portion in the axial direction, the distance between the stretchable portions becomes long, and the stretchable length becomes long even when a resin having a very low elongation rate such as Teflon (registered trademark) is used. Therefore, it can be formed with a smaller diameter than the diaphragm. As shown in FIG. 5, when the intermediate portion 12A has a plurality of inwardly curved portions, in the illustrated example, two drum-shaped portions 12D, the extension / contraction length becomes longer.

なお、自然流下のパイプラインを組み替える工場設備の場合には、上述のような弁装置が数十個まとめて同一平面上に設置される。このような工場設備において、本発明のように筒状シール部にすることで、ダイアフラムにする場合よりも小径とすることができるため、工場設備の設置面積を小さくすることが可能となる。   In the case of a factory facility that recombines a natural flow pipeline, dozens of the above-described valve devices are collectively installed on the same plane. In such a factory facility, by using the cylindrical seal portion as in the present invention, the diameter can be made smaller than that in the case of using a diaphragm, so that the installation area of the factory facility can be reduced.

更に、シール部を筒状に形成することにより、筒状シール部の径を配管径とほぼ同径寸法にすることが可能となる。なお、ダイアフラムを折り曲げて使用することにより、ダイアフラム径を小さくすることが考えられるが、ダイアフラムの折り曲げ部が凹状になって、その部分に内部流体が残存して好ましくない。   Further, by forming the seal portion in a cylindrical shape, it is possible to make the diameter of the cylindrical seal portion substantially the same diameter as the pipe diameter. Although it is conceivable that the diaphragm diameter is reduced by bending the diaphragm, it is not preferable because the bent portion of the diaphragm becomes concave and the internal fluid remains in that portion.

第1実施形態の弁装置は、筒状シール部を用いるので、折り曲げた状態にすることなく開弁・閉弁状態にすることができ、前述のようにシール部12の弁頭部11aと繋がる部分より境界面2aで固定された端部(下端部)までは、軸受6側が連続して軸受6側寄りに位置するとともに、図1および図2に示すように前記下端部が第2接続口の軸受側部分よりも第1接続口3a側に位置するため、前記凹状になる部分の発生を抑制して内部流体の残存を防止し、これにより洗浄性能、つまり内部流体を簡単に洗い流す性能および洗浄用流体の残留を減らす性能を向上させ得る。但し、本発明は、弁枠体側ガイドのみを備える構成の場合においては、上述のような利点を有する筒状シール部に限らず、ダイアフラム状のシール部に対しても、適用することができるのは勿論のことである。   Since the valve device of the first embodiment uses a cylindrical seal portion, the valve device can be opened and closed without being bent, and is connected to the valve head 11a of the seal portion 12 as described above. From the portion to the end portion (lower end portion) fixed at the boundary surface 2a, the bearing 6 side is continuously located closer to the bearing 6 side, and the lower end portion is the second connection port as shown in FIGS. Is located closer to the first connection port 3a than the bearing-side portion, thereby preventing the formation of the concave portion and preventing the remaining of the internal fluid, thereby cleaning performance, that is, the ability to easily wash out the internal fluid, and The performance of reducing the residue of the cleaning fluid can be improved. However, the present invention can be applied not only to the cylindrical seal portion having the above-described advantages but also to a diaphragm-like seal portion in the case of a configuration including only the valve frame side guide. Of course.

また、上述した実施形態では筒状のシール部12は、軸部材5の離隔スライドに伴って弁体が第1接続口3aを開弁状態とする後退限位置にあるとき、内側になだらかに湾曲変形するよう設計されているが、本発明はこれに限らない。例えば、シール部12の軸心方向の一部が内側または外側に断面「く」の字状に屈伸変形するように設計してもよい。但し、その場合にあっても、流体が溜まり難くなって残留することを防止でき、また洗浄性に優れるものとなるように、屈伸変形する部分より軸受6側が連続して軸受6側寄りに位置するように設計しておくことが好ましい。   Further, in the above-described embodiment, the cylindrical seal portion 12 is gently curved inward when the valve body is in the retreat limit position where the first connection port 3a is opened as the shaft member 5 moves apart. Although designed to be deformed, the present invention is not limited to this. For example, a part of the seal portion 12 in the axial center direction may be designed to bend and stretch in the shape of a cross-section “<” inward or outward. However, even in such a case, the bearing 6 side is continuously located closer to the bearing 6 side than the portion where the fluid is bent and stretched so that the fluid can hardly be accumulated and can be prevented from remaining, and the cleaning property is excellent. It is preferable to design so that it does.

また、シール部が断面「く」の字状に屈伸変形する場合、そのシール部は、弁体が第1接続口3aを開弁状態とする後退限位置にあるとき、つまり折れ曲がり部分の内角が最小となるときに、各部寸法を定め、その寸法で金型の設計或いは切削時の寸法を決定し、作製するのが好ましい。このようにすると、シール部の折れ曲がり部分は、弁体が後退限位置にあるときに、内部応力が発生せず、繰り返し変形を受けても応力集中に伴って亀裂或いは破損が発生するのを防止できるからである。   In addition, when the seal portion is bent and stretched in the shape of a cross-section “<”, the seal portion is in the retreat limit position where the valve body is in the open state, that is, the inner angle of the bent portion is It is preferable that the dimensions of each part are determined when the size is minimized, and the dimensions of the mold are determined or determined when the mold is designed or cut. In this way, the bent part of the seal part does not generate internal stress when the valve body is in the retracted limit position, and prevents cracking or breakage due to stress concentration even if it undergoes repeated deformation. Because it can.

或いは、弁体が後退限位置にある、つまり折れ曲がり部分の内角が最小となるときと、弁体が第1接続口3aを閉弁状態とする前進限位置にある、つまり折れ曲がり部分の内角が最大となるときとの間の角度のときに、各部寸法を定め、その寸法で金型の設計或いは切削時の寸法を決定し、シール部を作製するのが好ましい。このようにすると、シール部の折れ曲がり部分は、弁体が後退限位置にあるときに圧縮力が軽減され、しかも弁体が前進限位置にあるときに引っ張り力が軽減されるので、繰り返し変形を受けても応力集中に伴って亀裂或いは破損が発生するのを、より効果的に防止できるからである。なお、この場合において、各部寸法を定める角度は、経験的に決めればよい。   Alternatively, when the valve body is in the retreat limit position, that is, when the inner angle of the bent portion is minimum, the valve body is in the forward limit position where the first connection port 3a is closed, that is, the inner angle of the bent portion is maximum. It is preferable that the dimensions of each part are determined at an angle between and when the mold is designed or the dimensions at the time of cutting are determined to produce the seal part. In this way, the bent portion of the seal portion is repetitively deformed because the compression force is reduced when the valve body is in the retreat limit position and the tensile force is reduced when the valve body is in the advance limit position. This is because it is possible to more effectively prevent cracks or breakage due to stress concentration. In this case, the angles that determine the dimensions of each part may be determined empirically.

更に、上述した実施形態では筒状シール部12として途中部分12Aがなだらかに内側に湾曲するものを使用しているが、本発明はこれに限らない。例えば、図5〜図10に示すように、開弁状態において、途中部分12Aや弁枠体側シール部分12Bに、外側に湾曲した部分を有するシール部、或いは、図11に示すように、開弁状態において、途中部分12Aの弁枠体側シール部分12B側が内側に更に大きく湾曲した部分を有するシール部を使用することもできる。このような図示例の場合には、変形規制部20のみを軸部材5に設けた構成としているので、シール部12としてはテフロン膜25(前記12に相当)の内側に補強用の膜26を別途設けた構成としている。なお、膜26の内部の破線にて示す部分26aは、布等の補強部材である。   Further, in the above-described embodiment, the cylindrical seal portion 12 is used in which the middle portion 12A is gently curved inward, but the present invention is not limited to this. For example, as shown in FIGS. 5 to 10, in the valve open state, a seal portion having an outwardly curved portion in the middle portion 12 </ b> A and the valve frame side seal portion 12 </ b> B, or as shown in FIG. In the state, it is also possible to use a seal portion having a portion in which the valve frame side seal portion 12B side of the midway portion 12A is further curved inward. In the illustrated example, since only the deformation restricting portion 20 is provided on the shaft member 5, a reinforcing membrane 26 is provided inside the Teflon membrane 25 (corresponding to 12) as the seal portion 12. The configuration is provided separately. A portion 26a indicated by a broken line inside the film 26 is a reinforcing member such as cloth.

上述した図5に示すような複数、図示例では2つの鼓状部12Dを有するシール部の場合には、前述したように個々の鼓状部12Dが内側へ湾曲変形して伸縮長が長くなるので、軸部材5のスライド量を著しく大きく設計することが可能となる。また、図6〜図11に示すようなシール部を用いる場合には、少なくともシール部の途中部分が変形規制部20にて規制される故に、シール部の耐久性を向上させ得る。   In the case of a seal portion having a plurality of drum-shaped portions 12D in the illustrated example as shown in FIG. 5 described above, the individual drum-shaped portions 12D are curved and deformed inward as described above, and the length of expansion and contraction becomes long. Therefore, it becomes possible to design the sliding amount of the shaft member 5 to be extremely large. Further, in the case of using the seal portion as shown in FIGS. 6 to 11, since at least a middle portion of the seal portion is restricted by the deformation restricting portion 20, the durability of the seal portion can be improved.

また、上述した実施形態では、弁枠体側ガイドに対し、これを撓み変形させる移動部材および追従機構(段差部22〜24や段付部15aなど)を設けているが、本発明は弁枠体側ガイド側だけでなく、弁頭部側ガイドに対しても同様な移動部材や追従機構を設けるようにしてもよい。   In the above-described embodiment, the valve frame side guide is provided with a moving member and a follow-up mechanism (steps 22 to 24, a stepped portion 15a, etc.) that bends and deforms the guide. Similar moving members and follow-up mechanisms may be provided not only on the guide side but also on the valve head side guide.

また、上述した実施形態ではシール部と繋がった弁頭部の表層部11aをテフロン(登録商標)で、取付分11bを別材料でそれぞれ形成しているが、本発明はこれに限らず、弁頭部およびシール部の全体をテフロン(登録商標)等の同一材料で形成してもよい。   In the embodiment described above, the surface layer portion 11a of the valve head connected to the seal portion is formed of Teflon (registered trademark) and the mounting portion 11b is formed of a different material. However, the present invention is not limited to this, The entire head portion and seal portion may be formed of the same material such as Teflon (registered trademark).

また、上述した実施形態では弁体の合成樹脂としてテフロン(登録商標)を用いているが、本発明はこれに限らず、可撓性を有する一般の合成樹脂を用いることもできる。特に食品、薬品等の流体である場合には、耐薬品性に優れるテフロン(登録商標)、PFA(四フッ化エチレン・パーフルオロアルコキシエチレン共重合樹脂)或いはFEP(四フッ化エチレン・六フッ化プロピレン共重合樹脂)などを用いるのが好ましい。   In the above-described embodiment, Teflon (registered trademark) is used as the synthetic resin for the valve body. However, the present invention is not limited to this, and a general synthetic resin having flexibility can also be used. Especially in the case of fluids such as food and chemicals, Teflon (registered trademark), PFA (tetrafluoroethylene / perfluoroalkoxyethylene copolymer resin) or FEP (tetrafluoroethylene / hexafluoride) are excellent in chemical resistance. It is preferable to use propylene copolymer resin).

また、上述した実施形態ではサニタリー用継手に適用しているが、本発明はこれに限らず、その他の各種継手或いは開閉動作を行わせる弁に広く適用することができる。   Moreover, although applied to the sanitary joint in the above-described embodiment, the present invention is not limited to this, and can be widely applied to other various joints or valves that perform opening and closing operations.

本発明の弁装置を適用したサニタリー用の継手を示す縦断面図であり、閉弁状態を示す。It is a longitudinal cross-sectional view which shows the coupling for sanitary to which the valve apparatus of this invention is applied, and shows a valve closing state. 図1の継手が開弁状態となっているときを示す縦断面図である。It is a longitudinal cross-sectional view which shows the time of the joint of FIG. 1 being a valve opening state. 図1の継手の閉弁状態(図左側)と開弁状態(図右側)とを示す縦断面図である。It is a longitudinal cross-sectional view which shows the valve closing state (the figure left side) and valve opening state (the figure right side) of the coupling of FIG. (a)は図1の継手に設けられた弁頭部側ガイドを示す縦断面図、(b)は同弁枠体側ガイドを示す縦断面図である。(A) is a longitudinal cross-sectional view which shows the valve head side guide provided in the joint of FIG. 1, (b) is a longitudinal cross-sectional view which shows the same valve frame side guide. 本発明の弁装置を適用したサニタリー用の他の継手における閉弁状態(図左側)と開弁状態(図右側)とを示す断面図である。It is sectional drawing which shows the valve closing state (the figure left side) and valve opening state (the figure right side) in the other joint for sanitary to which the valve apparatus of this invention is applied. 本発明の弁装置を適用したサニタリー用の更に他の継手における閉弁状態(図左側)と開弁状態(図右側)とを示す断面図である。It is sectional drawing which shows the valve closing state (the figure left side) and the valve opening state (the figure right side) in the other coupling for sanitary to which the valve apparatus of this invention is applied. 本発明の弁装置を適用したサニタリー用の更に他の継手における閉弁状態(図左側)と開弁状態(図右側)とを示す断面図である。It is sectional drawing which shows the valve closing state (the figure left side) and the valve opening state (the figure right side) in the other coupling for sanitary to which the valve apparatus of this invention is applied. 本発明の弁装置を適用したサニタリー用の更に他の継手における閉弁状態(図左側)と開弁状態(図右側)とを示す断面図である。It is sectional drawing which shows the valve closing state (the figure left side) and the valve opening state (the figure right side) in the other coupling for sanitary to which the valve apparatus of this invention is applied. 本発明の弁装置を適用したサニタリー用の更に他の継手における閉弁状態(図左側)と開弁状態(図右側)とを示す断面図である。It is sectional drawing which shows the valve closing state (the figure left side) and the valve opening state (the figure right side) in the other coupling for sanitary to which the valve apparatus of this invention is applied. 本発明の弁装置を適用したサニタリー用の更に他の継手における閉弁状態(図左側)と開弁状態(図右側)とを示す断面図である。It is sectional drawing which shows the valve closing state (the figure left side) and the valve opening state (the figure right side) in the other coupling for sanitary to which the valve apparatus of this invention is applied. 本発明の弁装置を適用したサニタリー用の更に他の継手における閉弁状態(図左側)と開弁状態(図右側)とを示す断面図である。It is sectional drawing which shows the valve closing state (the figure left side) and the valve opening state (the figure right side) in the other coupling for sanitary to which the valve apparatus of this invention is applied. 従来例のサニタリー用継手を示す縦断面図であり、(a)は両継手が離間された状態を示し、(b)は両継手が接続された状態を示す。It is a longitudinal cross-sectional view which shows the sanitary joint of a prior art example, (a) shows the state from which both joints were spaced apart, (b) shows the state by which both joints were connected. 従来例のサニタリー用継手の問題点の説明図である。It is explanatory drawing of the problem of the sanitary joint of a prior art example.

符号の説明Explanation of symbols

1 継手
2 弁枠体
3 内部流体通路
3a 第1接続口
3b 第2接続口
4 スライド機構
5 軸部材
6 軸受
10 弁体
11 弁頭部
12 シール部
12A 途中部分
12B 弁枠体側シール部分
12C 回り込み部分
13 弁頭部側ガイド
14 弁枠体側ガイド
15 移動部材
15a 段付部(追従機構)
20 変形規制部
22、23、24 段差部(追従機構)
DESCRIPTION OF SYMBOLS 1 Joint 2 Valve frame body 3 Internal fluid passage 3a 1st connection port 3b 2nd connection port 4 Slide mechanism 5 Shaft member 6 Bearing 10 Valve body 11 Valve head part 12 Sealing part 12A Middle part 12B Valve frame side seal part 12C Circulation part 13 Valve head side guide 14 Valve frame side guide 15 Moving member 15a Stepped portion (following mechanism)
20 Deformation restriction part 22, 23, 24 Step part (follow-up mechanism)

Claims (4)

内部流体通路の一端に第1接続口が、その他端に第2接続口がそれぞれ設けられた弁枠体と、該弁枠体の内部に、該第1接続口に対して接離する方向へスライド可能に設けられた軸部材と、該軸部材の先端部に取付けられる弁体と、該軸部材の途中をスライド自在に支持する軸受と、該軸部材をスライドさせるスライド機構とを備え、
上記弁体は、軸部材の第1接続口への接近スライドにより該第1接続口の周縁部に当接して第1接続口を閉弁状態にする弁頭部と、該弁頭部から軸受側に延出されて該軸受と該軸部材との摺接する部分を内部流体通路から区画するように端部が固定されかつ軸部材のスライドに伴って変形するシール部とを有し、該シール部と該弁頭部の少なくとも表層部とが合成樹脂で一体に形成され、シール部の弁頭部背面側に回り込んでいる回り込み部分と弁頭部の背面側との間に、少なくとも開弁状態で内部流体を通流しているときに回り込み部分と接触するリング状の弁頭部側ガイドが設けられていることを特徴とする弁装置。
In a direction in which the first connection port is provided at one end of the internal fluid passage and the second connection port is provided at the other end, and the inside of the valve frame body is in contact with and away from the first connection port. A shaft member provided so as to be slidable, a valve body attached to a tip portion of the shaft member, a bearing that slidably supports the middle of the shaft member, and a slide mechanism that slides the shaft member;
The valve body includes a valve head that contacts the peripheral edge of the first connection port by sliding toward the first connection port of the shaft member to close the first connection port, and a bearing from the valve head. A seal portion extending to the side and having an end fixed so as to partition a sliding contact portion between the bearing and the shaft member from the internal fluid passage and deformed as the shaft member slides. And at least the surface layer portion of the valve head is integrally formed of synthetic resin, and at least the valve is opened between the wraparound portion that wraps around the valve head back side of the seal portion and the back side of the valve head A valve device comprising a ring-shaped valve head side guide that comes into contact with a wraparound portion when an internal fluid is flowing in a state.
請求項1に記載の弁装置において、
弁枠体と軸部材との境界部分と、シール部における弁枠体に固定された端部から途中部分までの弁枠体側シール部分との間に、弁枠体と軸部材のスライドによりそのスライド方向に移動する移動部材とにより撓み変形可能に支持された状態で設けられ、少なくとも開弁状態で内部流体を通流しているときに該弁枠体側シール部分と接触するリング状の弁枠体側ガイドを有することを特徴とする弁装置。
The valve device according to claim 1,
The slide between the valve frame body and the shaft member slides between the boundary portion between the valve frame body and the shaft member and the valve frame body side seal portion from the end portion fixed to the valve frame body to the middle portion in the seal portion. A ring-shaped valve frame side guide that is provided in a state supported by a moving member that moves in a direction so as to be able to bend and deform, and that is in contact with the valve frame side seal portion when an internal fluid is flowing at least in a valve open state A valve device characterized by comprising:
請求項2に記載の弁装置において、
閉弁状態のとき、弁枠体側シール部分および回り込み部分の少なくとも一方が該当するガイドから離れ、開弁状態のとき、弁枠体側シール部分が弁枠体側ガイドを押圧して撓み変形させることを特徴とする弁装置。
The valve device according to claim 2,
When the valve is closed, at least one of the valve frame body side seal portion and the wraparound portion is separated from the corresponding guide, and when the valve is open, the valve frame body side seal portion presses and deforms the valve frame body side guide. And valve device.
請求項3に記載の弁装置において、
シール部における弁枠体に固定された端部に最も近い位置に形成される内側湾曲部から該端部までが、連続して軸受側寄りに位置するとともに、該端部が第2接続口の軸受側部分よりも第1接続口側に位置するように、前記弁枠体側ガイドがシール部を規制することを特徴とする弁装置。
The valve device according to claim 3,
The inner curved portion formed at a position closest to the end portion fixed to the valve frame body in the seal portion to the end portion is continuously located closer to the bearing side, and the end portion is the second connection port. The valve device, wherein the valve frame side guide regulates the seal portion so as to be positioned closer to the first connection port than the bearing side portion.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100947750B1 (en) 2008-02-22 2010-03-18 주식회사 정현프랜트 Valve assembly of filter dryer for chemicals
JP2013190074A (en) * 2012-03-15 2013-09-26 Toste Co Ltd Diaphragm valve

Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS461747Y1 (en) * 1967-06-02 1971-01-21
JPS5032777A (en) * 1973-07-27 1975-03-29
JPS5435413A (en) * 1977-08-16 1979-03-15 Payne Barrett Morley M Fluid valve
JPS5835066U (en) * 1981-08-31 1983-03-07 シ−ケ−デイコントロ−ルズ株式会社 solenoid valve
JPS6249088U (en) * 1985-09-13 1987-03-26
JPH0171277U (en) * 1987-10-30 1989-05-12
US5152500A (en) * 1991-03-27 1992-10-06 Asepco, Inc. Aseptic valve construction
JPH061961U (en) * 1992-06-18 1994-01-14 旭有機材工業株式会社 Control valve
JPH06272770A (en) * 1993-03-18 1994-09-27 Kiyohara Masako Fluid controller
JPH07190204A (en) * 1993-11-22 1995-07-28 Kiyohara Masako Fluid controller
WO2001048406A1 (en) * 1999-12-24 2001-07-05 Kabushiki Kaisha Fujikin Fluid controller
JP2004003579A (en) * 2002-04-26 2004-01-08 Nabco Ltd Valve arrangement

Patent Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS461747Y1 (en) * 1967-06-02 1971-01-21
JPS5032777A (en) * 1973-07-27 1975-03-29
JPS5435413A (en) * 1977-08-16 1979-03-15 Payne Barrett Morley M Fluid valve
JPS5835066U (en) * 1981-08-31 1983-03-07 シ−ケ−デイコントロ−ルズ株式会社 solenoid valve
JPS6249088U (en) * 1985-09-13 1987-03-26
JPH0171277U (en) * 1987-10-30 1989-05-12
US5152500A (en) * 1991-03-27 1992-10-06 Asepco, Inc. Aseptic valve construction
JPH061961U (en) * 1992-06-18 1994-01-14 旭有機材工業株式会社 Control valve
JPH06272770A (en) * 1993-03-18 1994-09-27 Kiyohara Masako Fluid controller
JPH07190204A (en) * 1993-11-22 1995-07-28 Kiyohara Masako Fluid controller
WO2001048406A1 (en) * 1999-12-24 2001-07-05 Kabushiki Kaisha Fujikin Fluid controller
JP2004003579A (en) * 2002-04-26 2004-01-08 Nabco Ltd Valve arrangement

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100947750B1 (en) 2008-02-22 2010-03-18 주식회사 정현프랜트 Valve assembly of filter dryer for chemicals
JP2013190074A (en) * 2012-03-15 2013-09-26 Toste Co Ltd Diaphragm valve

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