JP5865142B2 - Gas stopper - Google Patents

Gas stopper Download PDF

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JP5865142B2
JP5865142B2 JP2012060456A JP2012060456A JP5865142B2 JP 5865142 B2 JP5865142 B2 JP 5865142B2 JP 2012060456 A JP2012060456 A JP 2012060456A JP 2012060456 A JP2012060456 A JP 2012060456A JP 5865142 B2 JP5865142 B2 JP 5865142B2
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gas
slide valve
valve
closed position
gas flow
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JP2012207787A (en
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毅 越智
毅 越智
植田 陽介
陽介 植田
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Osaka Gas Co Ltd
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Description

本発明は、ガス流通路が内部に形成された筒状のガス栓本体に、閉じ位置と開き位置との間で前記ガス栓本体の軸方向に移動自在なスライド弁と、前記ガス流通路のガス流通方向で前記スライド弁よりも上流側に配置された過流出防止弁と、前記ガス流通方向で前記スライド弁と前記過流出防止弁との間に配置されて、前記閉じ位置と前記開き位置との間での前記スライド弁の移動により前記過流出防止弁をリセットさせるリセット操作を行うリセット手段とが備えられているガス栓に関する。   The present invention provides a cylindrical gas stopper body having a gas flow passage formed therein, a slide valve movable in the axial direction of the gas stopper body between a closed position and an open position, An overflow prevention valve disposed upstream of the slide valve in the gas flow direction, and disposed between the slide valve and the overflow prevention valve in the gas flow direction, the closed position and the open position And a reset means for performing a reset operation for resetting the overflow prevention valve by the movement of the slide valve between the gas valve and the gas stopper.

今日、知られているガス栓としてのガスコンセントは、上流側からガスを流通するガス管に接続されると共に、下流側にガス器具などに接続しガスを導くガス接続具を装着可能に構成されている。当該ガス栓には、ガス接続具が装着された場合に、ガス接続具の押圧部にて押圧されてガス流通路を開弁させると共に、ガス接続具の装着が解除された場合に、押圧部による押圧が解除されてガス流通路を閉弁させるスライド弁が設けられており、万一、ガス栓からガス接続具が抜け落ちた場合であっても、ガス栓からガスが漏洩することを防止できるように構成されている。
さらに、ガス栓には、例えば、ガス接続具とガス器具とを接続するガス管が破損した場合、その破損した部位からガスが漏洩する事態を回避すべく、ガス流通路に一定以上のガス流量の流動圧が生じたときに、ガス流通路を遮断する過流出防止弁が設けられている。さらに、ガス接続具のガス栓本体への装着により、過流出防止弁によるガス流通路の遮断を解除するリセット操作を行うリセット手段が設けられている。
当該リセット手段は、ガス流通路の流路幅方向に沿う軸心周りで揺動自在でガス流通路の軸方向に沿って2つの揺動部材から成り、下流側の揺動部材が、スライド弁のガス流通路を閉弁する閉じ位置から開弁する開き位置への移動に伴い、スライド弁にて押圧されると共に、上流側の揺動部材が下流側の揺動部材の揺動にて揺動されることで、他方側の揺動部材が過流出防止弁によるガス流通路の遮断を解除するように構成されている(特許文献1を参照)。
A gas outlet as a known gas plug is connected to a gas pipe that circulates gas from the upstream side, and can be connected to a gas appliance or the like on the downstream side so that a gas connector for guiding gas can be attached. ing. When a gas connector is mounted on the gas stopper, the gas stopper is pressed by the pressing portion of the gas connector to open the gas flow passage, and when the gas connector is released, the pressing portion A slide valve that releases the pressure and closes the gas flow path is provided, and even if the gas connector is removed from the gas stopper, it is possible to prevent gas from leaking from the gas stopper. It is configured as follows.
Furthermore, in the gas stopper, for example, when the gas pipe connecting the gas connector and the gas appliance is broken, a gas flow rate higher than a certain value in the gas flow passage is avoided in order to avoid a situation where the gas leaks from the damaged portion. An excessive outflow prevention valve is provided for blocking the gas flow passage when the flow pressure is generated. Further, there is provided reset means for performing a reset operation for releasing the blockage of the gas flow passage by the overflow prevention valve by mounting the gas connector on the gas stopper body.
The reset means is swingable around an axial center along the flow path width direction of the gas flow passage and includes two swing members along the axial direction of the gas flow passage. As the gas flow passage is moved from the closed position to the open position, the slide valve is pressed and the upstream swing member is swung by the swing of the downstream swing member. By being moved, the other-side rocking member is configured to release the blockage of the gas flow path by the overflow prevention valve (see Patent Document 1).

一方、上記のようなガス栓として、ガス栓本体へのガス接続具の装着とは関係なく、操作つまみ等の操作部に対する回転操作に伴って開閉弁である回動弁を回転させて開閉を行ってガスの供給及び停止を切り替える所謂回転式のガス栓(例えば、特許文献2を参照。)などが知られている。また、ガスコンロ等に内蔵されガス流入路とガス流出路との間の開閉を行ってガスの供給及び停止を切り替える開閉弁として、操作ボタン等の操作部に対する押圧操作に伴って開閉弁であるスライド弁をスライドさせて開閉を行う所謂プッシュプッシュ式の開閉弁(例えば、特許文献3を参照。)などが知られており、上記ガス栓についても、この開閉弁と同様にプッシュプッシュ式に構成することが望まれている。   On the other hand, as a gas stopper as described above, regardless of the attachment of the gas connector to the gas stopper main body, the rotary valve, which is an opening / closing valve, is rotated to open and close in accordance with the rotation operation of the operation portion such as the operation knob. A so-called rotary gas stopper (see, for example, Patent Document 2) that performs gas supply and stop switching is known. In addition, as an open / close valve that opens and closes between a gas inflow path and a gas outflow path that is built in a gas stove or the like and switches between supply and stop of gas, a slide that is an open / close valve in accordance with a pressing operation on an operation unit such as an operation button A so-called push-push type opening / closing valve (see, for example, Patent Document 3) that opens and closes by sliding the valve is known, and the gas stopper is also configured as a push-push type in the same manner as this opening / closing valve. It is hoped that.

実登2513850号Noto 2513850 特公平02−021660号公報Japanese Examined Patent Publication No. 02-021660 特開平02−154918号公報Japanese Patent Laid-Open No. 02-154918

しかしながら、上記特許文献1に開示の技術では、リセット手段は、下流側の揺動部材と、当該下流側の揺動部材の揺動により揺動される上流側の揺動部材との2部材から成り、ガス栓本体内にて、揺動する部材を2つも設ける必要があり、構造が複雑になるという問題があった。
さらに、過流出防止弁によるガス流通路の遮断を解除するときには、使用者によるガス接続具のガス栓本体への装着により、ガス接続具の押圧部にて閉じ位置から開き位置に移動するスライド弁と下流側の揺動部材が接触することとなる。このため、例えば、使用者が、ガス接続具を勢いよくガス栓本体に装着した場合、スライド弁も勢いよく下流側の揺動部材に接触することとなり、当該接触により下流側の揺動部材が損傷する虞があった。
However, in the technique disclosed in Patent Document 1, the reset means includes two members, a downstream swing member and an upstream swing member that is swung by the swing of the downstream swing member. Therefore, it is necessary to provide two rocking members in the gas plug main body, and there is a problem that the structure becomes complicated.
Furthermore, when releasing the shutoff of the gas flow passage by the overflow prevention valve, a slide valve that moves from the closed position to the open position at the pressing portion of the gas connector by the user attaching the gas connector to the gas plug body. And the rocking member on the downstream side come into contact with each other. For this reason, for example, when the user attaches the gas connector to the gas plug body vigorously, the slide valve also vigorously comes into contact with the downstream rocking member. There was a risk of damage.

本発明は、上記課題に鑑みてなされたものであり、その目的は、比較的簡易な構成であるとともに、過流出防止弁をリセットする際には、他の部材との接触を回避して、その損傷を防止できるリセット手段を備えたガス栓を提供する点にある。   The present invention has been made in view of the above problems, and its purpose is a relatively simple configuration, and when resetting the overflow prevention valve, avoid contact with other members, The object is to provide a gas stopper equipped with reset means capable of preventing the damage.

上記目的を達成するための本発明のガス栓は、
ガス流通路が内部に形成された筒状のガス栓本体に、閉じ位置と開き位置との間で前記ガス栓本体の軸方向に移動自在なスライド弁と、前記ガス流通路のガス流通方向で前記スライド弁よりも上流側に配置された過流出防止弁と、前記ガス流通方向で前記スライド弁と前記過流出防止弁との間に配置されて、前記閉じ位置と前記開き位置との間での前記スライド弁の移動により前記過流出防止弁をリセットさせるリセット操作を行うリセット手段とが備えられているガス栓であって、
前記リセット手段は、前記ガス栓本体の軸方向に移動自在な移動部材を前記リセット操作を行う操作側又は当該操作側とは反対側の操作解除側の何れか一方側に付勢する付勢部材と、前記閉じ位置と前記開き位置との間の前記スライド弁の移動に伴って前記操作側又は前記操作解除側の何れか他方側への磁力を前記移動部材に作用させる磁力作用手段とを備えている点にある。
ここで、何れか一方と他方の対応関係は、操作側(一方)に対する操作解除側(他方)の関係(後述する第1実施形態に示す関係)、或いは、操作解除側(一方)に対する操作側(他方)の関係(後述する第2実施形態に示す関係)を意味する。
To achieve the above object, the gas stopper of the present invention comprises:
A cylindrical gas stopper body having a gas flow passage formed therein, a slide valve movable in the axial direction of the gas stopper body between a closed position and an open position, and a gas flow direction of the gas flow passage An overflow prevention valve disposed upstream of the slide valve, and disposed between the slide valve and the overflow prevention valve in the gas flow direction, between the closed position and the open position. A gas stopper provided with reset means for performing a reset operation to reset the overflow prevention valve by movement of the slide valve,
The reset means biases a moving member that is movable in the axial direction of the gas plug main body to either the operation side for performing the reset operation or the operation release side opposite to the operation side. And magnetic force application means for causing the moving member to act on the other side of the operation side or the operation release side as the slide valve moves between the closed position and the open position. There is in point.
Here, the correspondence between either one and the other is the relationship between the operation side (one) and the operation release side (the other) (the relationship shown in the first embodiment described later) or the operation side with respect to the operation release side (one). This means the (other) relationship (relationship shown in the second embodiment described later).

上記特徴構成によれば、付勢部材により移動部材をリセット操作を行う操作側へ付勢しているときには、磁力作用手段により移動部材を操作側とは反対の操作解除側へ磁力を作用させ、付勢部材により移動部材を操作解除側へ付勢しているときには、磁力作用手段により移動部材に操作側へ磁力を作用させることで、リセット操作を実現できる。
例えば、閉じ位置と開き位置との間のスライド弁の移動に伴って、ガス栓本体の軸方向で、付勢部材によりリセット操作を行う操作側に付勢されている移動部材に対し、操作側とは反対側の操作解除側へ磁力を作用させて、リセット操作を行うことができる。このように、リセット操作は、移動部材に対し操作解除側へ磁力を作用させることで行うことができるので、移動部材に対し他の部材を直接接触させることなく、非接触状態で実行できる。これにより、リセット操作においては、リセット手段の損傷を防止できる。
さらに、例えば、閉じ位置と開き位置との間のスライド弁の移動に伴って、ガス栓本体の軸方向で、付勢部材により操作解除側に付勢されている移動部材に対し、操作解除側とは反対側の操作側へ磁力を作用させて、リセット操作を行うこともできる。
尚、上記特徴構成によれば、リセット手段について、ガス流通路内で移動する部材は、移動部材のみであるため、比較的簡易な構成により実現できる。
以上より、過流出防止弁をリセットするリセット手段に関し、比較的簡易な構成にて実現できるとともに、過流出防止弁をリセットする際には、リセット手段としての移動部材と他の部材との接触を回避でき、リセット手段の損傷を防止できるガス栓を実現できる。
According to the above characteristic configuration, when the moving member is urged to the operation side for performing the reset operation by the urging member, the magnetic force is applied to the operation release side opposite to the operation side by the magnetic force application means, When the moving member is urged to the operation release side by the urging member, the reset operation can be realized by applying a magnetic force to the operating side of the moving member by the magnetic force applying means.
For example, as the slide valve moves between the closed position and the open position, the moving side that is biased to the operating side that performs the reset operation by the biasing member in the axial direction of the gas plug body The reset operation can be performed by applying a magnetic force to the operation release side opposite to the above. As described above, the reset operation can be performed by applying a magnetic force to the moving member toward the operation release side, and therefore can be executed in a non-contact state without directly contacting another member with the moving member. Thereby, in reset operation, damage to a reset means can be prevented.
Further, for example, with respect to the moving member that is urged to the operation releasing side by the urging member in the axial direction of the gas plug main body with the movement of the slide valve between the closed position and the open position, the operation releasing side It is also possible to perform a reset operation by applying a magnetic force to the operation side opposite to the above.
In addition, according to the said characteristic structure, since the member which moves within a gas flow path is only a moving member about a reset means, it can implement | achieve by a comparatively simple structure.
As described above, the reset means for resetting the overflow prevention valve can be realized with a relatively simple configuration, and when resetting the overflow prevention valve, contact between the moving member as the reset means and another member is performed. A gas stopper that can be avoided and can prevent damage to the reset means can be realized.

本発明のガス栓の更なる特徴構成は、
前記磁力作用手段は、前記スライド弁に設けられた第1磁性体と前記移動部材に設けられた第2磁性体とから成り、前記閉じ位置から前記開き位置への前記スライド弁の移動に伴って、前記第1磁性体と前記第2磁性体との間に生じる磁力としての引力又は反発力を前記移動部材に作用させる点にある。
Further features of the gas stopper of the present invention are as follows:
The magnetic force acting means is composed of a first magnetic body provided on the slide valve and a second magnetic body provided on the moving member, and accompanying the movement of the slide valve from the closed position to the open position. The attractive point or the repulsive force as a magnetic force generated between the first magnetic body and the second magnetic body is applied to the moving member.

上記特徴構成によれば、磁力作用手段を、スライド弁に設けた第1磁性体と移動部材に設けた第2磁性体とから構成し、閉じ位置から開き位置へのスライド弁の移動に伴って、第1磁性体と第2磁性体との間に磁力としての引力又は反発力が生じさせるように設けているので、比較的簡易な構成にて、電気的な制御を伴うことなく、ガス栓と移動部材との間に半永久的に磁力による引力を発生させることができる。   According to the above characteristic configuration, the magnetic force acting means is composed of the first magnetic body provided on the slide valve and the second magnetic body provided on the moving member, and accompanying the movement of the slide valve from the closed position to the open position. Since the first magnetic body and the second magnetic body are provided so as to generate an attractive force or a repulsive force as a magnetic force, the gas plug has a relatively simple configuration and is not accompanied by electrical control. An attractive force due to a magnetic force can be generated between the moving member and the moving member semipermanently.

本発明のガス栓の更なる特徴構成は、
前記移動部材は、前記ガス流通路の内壁に沿う案内面を有し前記案内面が前記内壁に沿う状態で、摺動自在に設けられている点にある。
Further features of the gas stopper of the present invention are as follows:
The moving member has a guide surface along the inner wall of the gas flow path, and the guide member is slidably provided in a state along the inner wall.

上記特徴構成によれば、移動部材が、ガス流通路の内壁に沿う案内面を有し当該案内面が内壁に沿う状態で、摺動自在に設けられているので、操作側に付勢部材による付勢力が作用するとともに操作解除側へ磁力が作用する移動部材を、ガス流通路の内壁に沿う状態で安定して移動させることができる。   According to the above characteristic configuration, the moving member has a guide surface along the inner wall of the gas flow passage, and the guide surface is slidably provided along the inner wall. The moving member on which the urging force acts and the magnetic force acts on the operation release side can be stably moved along the inner wall of the gas flow passage.

本発明のガス栓の更なる特徴構成は、
前記付勢部材は、前記スライド弁と前記移動部材との間に設けられ、前記移動部材を前記操作側又は操作解除側へ付勢するとともに、前記スライド弁を前記開き位置から前記閉じ位置の側又は前記閉じ位置から前記開き位置の側へ付勢するように設けられている点にある。
Further features of the gas stopper of the present invention are as follows:
The biasing member is provided between the slide valve and the moving member, biases the moving member toward the operation side or the operation release side, and moves the slide valve from the open position to the closed position side. Alternatively, it is provided so as to be biased from the closed position toward the open position.

上記特徴構成によれば、付勢部材が、移動部材への操作側又は操作解除側への付勢力を生じさせるとともに、スライド弁への閉じ側又は開き側への付勢力をも生じさせることができる。これにより、移動部材とスライド弁とに個別に付勢手段を設ける場合に比べて、構成を簡略化することができる。   According to the above characteristic configuration, the biasing member may generate a biasing force to the operation side or the operation release side to the moving member, and may also generate a biasing force to the closing side or the opening side to the slide valve. it can. Thereby, a structure can be simplified compared with the case where a biasing means is separately provided in a moving member and a slide valve.

本発明のガス栓の更なる特徴構成は、
前記ガス流通路は、上流側から順に、前記過流出防止弁、前記リセット手段、前記スライド弁を備えて、前記ガス栓本体の軸方向に沿う直線状に設けられている点にある。
Further features of the gas stopper of the present invention are as follows:
The gas flow passage is provided with the overflow prevention valve, the reset means, and the slide valve in order from the upstream side, and is provided in a straight line along the axial direction of the gas plug body.

上記特徴構成によれば、ガス流通路は、過流出防止弁、リセット手段、スライド弁の全てを備えながら、ガス栓本体の軸方向に沿う直線状に設けられているので、ガス栓本体をコンパクトに構成することができながら、過流出防止弁とリセット手段とスライド弁とをガス栓本体の軸方向に隣接する状態で直線状に並べて配置することができる。したがって、過流出防止弁とリセット手段とスライド弁との位置関係を簡易なものとすることができ、スライド弁の移動を利用して過流出防止弁をリセットさせるリセット手段の構成の簡素化をより一層図ることができるとともに、リセット手段によるリセット操作及びリセット操作の解除についても適切に行うことができる。しかも、ガス栓本体を直線状とすることで、ガス栓を設置する場合に、ガス栓本体に接続するガス配管と同軸にガス栓を設置することが可能となり、設置スペースの縮小を図ることができる。更に、ガス栓本体を直線状とすることで、ガス栓を壁内に埋め込む形態や壁を貫通する形態にて設置する場合に、壁に形成する開口部の面積を小さくすることができる。   According to the above characteristic configuration, the gas flow passage is provided in a straight line along the axial direction of the gas plug main body while including all of the overflow prevention valve, the reset means, and the slide valve. However, the overflow prevention valve, the reset means, and the slide valve can be arranged in a straight line in a state adjacent to the axial direction of the gas plug body. Therefore, the positional relationship among the overflow prevention valve, the reset means, and the slide valve can be simplified, and the configuration of the reset means for resetting the overflow prevention valve using the movement of the slide valve can be further simplified. In addition to this, the reset operation by the reset means and the release of the reset operation can be appropriately performed. In addition, by making the gas plug body straight, it is possible to install the gas plug coaxially with the gas piping connected to the gas plug body, and to reduce the installation space. it can. Furthermore, when the gas plug main body is linear, the area of the opening formed in the wall can be reduced when the gas plug is installed in a form embedded in the wall or in a form penetrating the wall.

本発明のガス栓の更なる特徴構成は、
前記スライド弁が、前記ガス栓本体に対するガス接続具の装着及び取り外しに伴って前記閉じ位置と前記開き位置との間で移動する点にある。
Further features of the gas stopper of the present invention are as follows:
The slide valve is located between the closed position and the open position as the gas connector is attached to and detached from the gas stopper body.

即ち、本発明に係るガス栓は、スライド弁が前記ガス栓本体に対するガス接続具の装着及び取り外しに伴って前記閉じ位置と前記開き位置との間で移動するようにして、所謂ガスコンセントとして構成できる。   That is, the gas plug according to the present invention is configured as a so-called gas outlet so that the slide valve moves between the closed position and the open position when the gas connector is attached to and detached from the gas plug body. it can.

本発明のガス栓の更なる特徴構成は、
前記スライド弁が、操作部に対する押圧操作に伴って前記閉じ位置と前記開き位置との間で移動する点にある。
Further features of the gas stopper of the present invention are as follows:
The slide valve is in a point that moves between the closed position and the open position in accordance with a pressing operation on the operation unit.

このように本発明のガス栓は、スライド弁が操作部に対する押圧操作に伴って前記閉じ位置と前記開き位置との間で移動するようにして、所謂プッシュプッシュ式のガスコックとして構成することができる。   As described above, the gas stopper of the present invention can be configured as a so-called push-push type gas cock so that the slide valve moves between the closed position and the open position in accordance with the pressing operation on the operation portion. .

ガス接続具がガス栓本体から取り外された状態を示す断面図である。It is sectional drawing which shows the state from which the gas connection tool was removed from the gas stopper main body. ガス接続具がガス栓本体に装着された状態を示す断面図である。It is sectional drawing which shows the state with which the gas connection tool was mounted | worn with the gas stopper main body. 第1実施形態のガス栓の作動状態を示す断面図である。It is sectional drawing which shows the operating state of the gas stopper of 1st Embodiment. 移動部材の正面図である。It is a front view of a moving member. 第1実施形態のガス栓の別実施形態を示す断面図である。It is sectional drawing which shows another embodiment of the gas stopper of 1st Embodiment. 第2実施形態のガス栓の開栓時の状態を示す側断面図Side sectional view which shows the state at the time of opening of the gas stopper of 2nd Embodiment 第2実施形態のガス栓のスライド弁及び操作機構部を示す分解斜視図The disassembled perspective view which shows the slide valve and operation mechanism part of the gas stopper of 2nd Embodiment 第2実施形態のガス栓の過流出防止弁の作動時の状態を示す側断面図Side sectional view which shows the state at the time of the action | operation of the excessive outflow prevention valve of the gas stopper of 2nd Embodiment 第2実施形態のガス栓の閉栓動作途中の状態を示す側断面図Side sectional view which shows the state in the middle of closing operation of the gas stopper of 2nd Embodiment 第2実施形態のガス栓の閉栓時の状態を示す側断面図Side sectional view which shows the state at the time of closing of the gas stopper of 2nd Embodiment 第2実施形態における閉栓動作時のガイド溝におけるガイドピンの位置の遷移状態を説明する説明図Explanatory drawing explaining the transition state of the position of the guide pin in the guide groove at the time of the capping operation | movement in 2nd Embodiment. 第2実施形態における開栓動作時のガイド溝におけるガイドピンの位置の遷移状態を説明する説明図Explanatory drawing explaining the transition state of the position of the guide pin in the guide groove at the time of the opening operation | movement in 2nd Embodiment.

本発明に係るガス栓としてのガスコンセントは、ガス栓本体2のガス流通路1に一定以上のガス流量の流動圧が発生したときに作動して、ガスの流通を阻止する過流出防止弁H2を備えるものにおいて、ガスの流通を阻止している過流出防止弁H2をリセットするリセット操作を実行するリセット手段Rが、スライド弁Gと非接触でリセット操作を実行できる点に特徴がある。
そこで、以下では、まず、ガス栓の基本構成として、ガス栓本体2及びガス栓本体2に接続するガス接続具100の構成について説明し、その後、本発明の特徴構成であるリセット手段Rについて説明する。
A gas outlet as a gas plug according to the present invention operates when a flow pressure with a gas flow rate of a certain level or more is generated in the gas flow passage 1 of the gas plug main body 2 to prevent the gas from flowing out. The reset means R for executing the reset operation for resetting the excessive outflow prevention valve H2 that prevents the gas flow can perform the reset operation without contact with the slide valve G.
Therefore, hereinafter, as a basic configuration of the gas plug, first, the configuration of the gas plug main body 2 and the gas connector 100 connected to the gas plug main body 2 will be described, and then the reset means R which is a characteristic configuration of the present invention will be described. To do.

<第1実施形態>
この実施形態のガス栓は、図1及び図2に示すように、ガス流通路1が内部に形成された円筒状のガス栓本体2を備えており、そのガス栓本体2にガス接続具100を装着することでガス流通路1でのガス流通によりガス接続具100に接続されたガス器具へのガス供給を行い、ガス栓本体2からガス接続具100を取り外すことでガス流通路1でのガス流通を停止してガス器具へのガス供給を停止するように構成されている。図1は、ガス接続具100をガス栓本体2から取り外している状態を示しており、図2は、ガス
接続具100をガス栓本体2に装着している状態を示している。
<First Embodiment>
As shown in FIGS. 1 and 2, the gas stopper of this embodiment includes a cylindrical gas stopper body 2 in which a gas flow passage 1 is formed, and a gas connector 100 is connected to the gas stopper body 2. The gas is supplied to the gas appliance connected to the gas connector 100 by gas flow through the gas flow passage 1, and the gas connector 100 is removed from the gas plug body 2 to remove the gas connector 100. The gas distribution is stopped and the gas supply to the gas appliance is stopped. FIG. 1 shows a state where the gas connector 100 is removed from the gas plug body 2, and FIG. 2 shows a state where the gas connector 100 is attached to the gas stopper body 2.

ガス栓本体2には、ガス流通路1を開閉自在なスライド弁Gと、ガス流通路1でのガス流量が一定以上の過流量となった場合にガス流通を阻止する過流出防止弁H2と、ガス接続具100のガス栓本体2からの取り外しが行われた場合に過流出防止弁H2をリセットさせるリセット操作を行うリセット手段Rとが備えられている。ここで、リセット操作は、過流出防止弁H2における被操作部材H3をガス流通路1の上流側へ押圧する操作となっている。   The gas plug main body 2 includes a slide valve G that can freely open and close the gas flow passage 1, and an overflow prevention valve H2 that prevents gas flow when the gas flow rate in the gas flow passage 1 exceeds a certain level. And a reset means R for performing a reset operation for resetting the excessive outflow prevention valve H2 when the gas connector 100 is detached from the gas plug body 2. Here, the reset operation is an operation of pressing the operated member H3 in the excessive outflow prevention valve H2 to the upstream side of the gas flow passage 1.

ガス流通路1は、その流路断面を円形状とし、ガス栓本体2の軸方向(図1及び図2中X方向)に沿う直線状に設けられており、ガス栓本体2の軸方向とガス流通路1のガス流通方向が同一方向となっている。ガス流通路1は、流路径が変更された複数の流路部位1a〜1gから構成されており、ガス流通方向の上流側(図1及び図2中X方向の右側)から順に、過流出防止弁H2を備えた過流出防止機構H、リセット手段R、スライド弁Gが備えられている。複数の流路部位として、ガス流通方向の上流側から順に、第1流路部位1a、第2流路部位1b、第3流路部位1c、第4流路部位1d、第5流路部位1e、第6流路部位1f、第7流路部位1gが備えられている。第1流路部位1aは、ガス流入口(図示省略)に連通されており、第2流路部位1bは、第1流路部位1aよりも流路径が小さく形成されており、過流出防止機構Hが配置されている。第3流路部位1cは、第2流路部位1bよりも流路径が小さく形成されており、リセット手段Rが配置されている。第4流路部位1dは、第3流路部位1cよりも流路径が小さく形成されており、第5流路部位1eは、第3流路部位1cよりも流路径が大きく形成されている。第6流路部位1fは、第5流路部位1eよりも流路径が小さく形成されており、第7流路部位1gは、上流側よりも下流側の方が流路径を小さくする傾斜状に形成されており、ガス栓本体2の先端部に形成されたガス流出口3に連通されている。   The gas flow passage 1 has a circular cross section, and is provided in a straight line along the axial direction (X direction in FIGS. 1 and 2) of the gas plug body 2. The gas flow direction of the gas flow passage 1 is the same direction. The gas flow passage 1 includes a plurality of flow passage portions 1a to 1g whose flow passage diameters are changed, and prevents excessive outflow in order from the upstream side in the gas flow direction (the right side in the X direction in FIGS. 1 and 2). An overflow prevention mechanism H provided with a valve H2, a reset means R, and a slide valve G are provided. As a plurality of flow path parts, the first flow path part 1a, the second flow path part 1b, the third flow path part 1c, the fourth flow path part 1d, and the fifth flow path part 1e in order from the upstream side in the gas flow direction. The sixth flow path part 1f and the seventh flow path part 1g are provided. The first flow path part 1a is communicated with a gas inlet (not shown), and the second flow path part 1b is formed with a flow path diameter smaller than that of the first flow path part 1a. H is arranged. The third channel part 1c is formed with a channel diameter smaller than that of the second channel part 1b, and the reset means R is arranged. The fourth channel part 1d is formed with a channel diameter smaller than that of the third channel part 1c, and the fifth channel part 1e is formed with a channel diameter larger than that of the third channel part 1c. The sixth channel part 1f is formed with a channel diameter smaller than that of the fifth channel part 1e, and the seventh channel part 1g is inclined so that the channel diameter is smaller on the downstream side than on the upstream side. It is formed and communicates with a gas outlet 3 formed at the tip of the gas plug body 2.

スライド弁Gは、ガス流通路1における第6流路部位1fを閉弁自在な第1弁体G1と、ガス流通路1における第7流路部位1gを閉弁自在な第2弁体G2とを備えている。
第1弁体G1は、第6流路部位1fと第5流路部位1eとに亘ってガス栓本体2の軸方向に沿って移動自在に設けられている。第1弁体G1の上流側端部部位の外径が第6流路部位1fの流路径と同一となっており、第1弁体G1が着座する弁座部が第6流路部位1fの内壁部にて構成されている。第1弁体G1は、第6流路部位1fに移動した場合に第6流路部位1fを閉じる閉じ位置に位置し、第5流路部位1eに移動した場合にガス流通を許容する開き位置に位置する。第1弁体G1は、第1付勢部材F1によって閉じ位置に復帰するように付勢されており、ガス接続具100がガス栓本体2から取り外されている場合には、閉じ位置に位置して第6流路部位1fを閉弁している。
The slide valve G includes a first valve body G1 capable of closing the sixth flow path portion 1f in the gas flow passage 1, and a second valve body G2 capable of closing the seventh flow path portion 1g in the gas flow passage 1. It has.
The first valve body G1 is provided so as to be movable along the axial direction of the gas plug main body 2 across the sixth flow path part 1f and the fifth flow path part 1e. The outer diameter of the upstream end portion of the first valve body G1 is the same as the flow passage diameter of the sixth flow passage portion 1f, and the valve seat portion on which the first valve body G1 is seated is the sixth flow passage portion 1f. It consists of an inner wall. The first valve body G1 is located at a closed position that closes the sixth flow path part 1f when moved to the sixth flow path part 1f, and an open position that allows gas flow when moved to the fifth flow path part 1e. Located in. The first valve body G1 is urged so as to return to the closed position by the first urging member F1, and when the gas connector 100 is detached from the gas plug body 2, the first valve body G1 is located at the closed position. Thus, the sixth flow path portion 1f is closed.

第2弁体G2は、第6流路部位1fと第7流路部位1gとに亘ってガス栓本体2の軸方向に沿って移動自在に設けられている。第2弁体G2の下流側端部部位の外径が第7流路部位1gの傾斜部位の流路径と同一となっており、第2弁体G2が着座する弁座部が第7流路部位1gの傾斜部位にて構成されている。第2弁体G2は、第7流路部位1gに移動した場合に第7流路部位1gを閉じる閉じ位置に位置し、第6流路部位1fに移動した場合にガス流通を許容する開き位置に位置する。第2弁体G2は、第2付勢部材F2によって閉じ位置に復帰するように付勢されており、ガス接続具100がガス栓本体2から取り外されている場合には、閉じ位置に位置して第7流路部位1gを閉弁している。
このようにして、スライド弁Gを構成する第1弁体G1と第2弁体G2の両者は、ガス栓本体2の軸方向に沿って閉じ位置と開き位置との間で移動自在で、ガス流通路1を閉じる閉じ位置に復帰するように付勢されている。
The second valve body G2 is provided so as to be movable along the axial direction of the gas plug body 2 across the sixth flow path part 1f and the seventh flow path part 1g. The outer diameter of the downstream end portion of the second valve body G2 is the same as the flow passage diameter of the inclined portion of the seventh flow passage portion 1g, and the valve seat on which the second valve body G2 is seated is the seventh flow passage. It is comprised in the inclination site | part of the site | part 1g. The second valve body G2 is located at a closed position that closes the seventh flow path part 1g when moved to the seventh flow path part 1g, and an open position that allows gas flow when moved to the sixth flow path part 1f. Located in. The second valve body G2 is urged so as to return to the closed position by the second urging member F2. When the gas connector 100 is detached from the gas plug body 2, the second valve body G2 is located at the closed position. The seventh flow path portion 1g is closed.
In this way, both the first valve body G1 and the second valve body G2 constituting the slide valve G are movable between the closed position and the open position along the axial direction of the gas plug body 2, and the gas The flow passage 1 is biased so as to return to the closed position.

ガス栓本体2に対して装着及び取り外し自在なガス接続具100について説明する。このガス接続具100は、既に公知の構成であるので、詳細な説明は省略して簡単に説明する。
ガス接続具100は、第1コイルバネ101により前方側(図1及び図2中X方向の右側)に付勢される突出部材102と、ロック用ボール103と、ロック用ボール103の位置を径方向の内側から規制するとともに、ガス栓本体2の先端部に当接して押圧されて引退する内径部材104と、ガス栓本体2に装着される際にスライド弁Gを押圧する棒状の押圧部105とを備えている。
The gas connector 100 that can be attached to and detached from the gas plug body 2 will be described. Since the gas connector 100 has a known configuration, a detailed description thereof will be omitted and will be briefly described.
In the gas connector 100, the positions of the protruding member 102, the locking ball 103, and the locking ball 103 that are biased forward by the first coil spring 101 (the right side in the X direction in FIGS. 1 and 2) are set in the radial direction. An inner diameter member 104 that is pressed against the front end of the gas stopper main body 2 and is retracted, and a rod-like pressing portion 105 that presses the slide valve G when the gas stopper main body 2 is mounted. It has.

ガス接続具100をガス栓本体2に装着する場合には、図2に示すように、ガス栓本体2の先端部が内径部材104に当接して内径部材104を第2コイルバネ106の付勢力に抗して引退させる。内径部材104の引退によりロック用ボール103が径方向の内側に移動して、ガス栓本体2に形成された嵌込溝2aにロック用ボール103が嵌り込んで、突出部材102が第1コイルバネ101の付勢力により前方側(図2中X方向の右側)に突出する。このように、ガス接続具100のロック用ボール103がガス栓本体2の嵌込溝2aに嵌り込むことで、ガス接続具100がガス栓本体2に外嵌装着される。ガス接続具100がガス栓本体2に装着される際に、ガス接続具100の押圧部105にてスライド弁Gが押圧される。この押圧部105によるスライド弁Gに対する押圧によって、第1弁体G1と第2弁体G2の両者が、ガス栓本体2の軸方向に沿ってガス流通路1の上流側(図2中X方向の右側)に移動して、閉じ位置から開き位置に移動することになり、ガス流通路1が開弁されてガス器具へのガス供給が行われる。   When the gas connector 100 is attached to the gas plug main body 2, as shown in FIG. 2, the distal end portion of the gas plug main body 2 abuts against the inner diameter member 104, so that the inner diameter member 104 is biased by the second coil spring 106. Retire against. When the inner diameter member 104 is retracted, the locking ball 103 moves inward in the radial direction, the locking ball 103 is fitted into the fitting groove 2 a formed in the gas plug main body 2, and the protruding member 102 is the first coil spring 101. It protrudes to the front side (right side in the X direction in FIG. 2) by the urging force. In this way, the locking ball 103 of the gas connector 100 is fitted into the fitting groove 2 a of the gas plug body 2, so that the gas connector 100 is externally mounted on the gas plug body 2. When the gas connector 100 is attached to the gas plug body 2, the slide valve G is pressed by the pressing portion 105 of the gas connector 100. By pressing against the slide valve G by the pressing portion 105, both the first valve body G1 and the second valve body G2 are located upstream of the gas flow passage 1 along the axial direction of the gas plug body 2 (X direction in FIG. 2). To the open position, the gas flow passage 1 is opened, and gas supply to the gas appliance is performed.

ガス接続具100をガス栓本体2から取り外す場合には、突出部材102を第1コイルバネ101の付勢力に抗して押込操作することで、嵌込溝2aへのロック用ボール103の嵌り込みが解除されるので、ガス接続具100をガス栓本体2から取り外すことができる。そして、ガス接続具100をガス栓本体2から取り外すと、スライド弁Gに対する押圧部105による押圧が解除され、第1弁体G1と第2弁体G2の両者が、付勢部材F1,F2の付勢力によって、ガス栓本体2の軸方向に沿ってガス流通路1の下流側(図2中X方向の右側)に移動して、開き位置から閉じ位置に復帰されてガス流通路1が閉弁される。   When the gas connector 100 is removed from the gas plug body 2, the locking member 103 is fitted into the fitting groove 2a by pushing the protruding member 102 against the urging force of the first coil spring 101. Since it is released, the gas connector 100 can be removed from the gas plug body 2. Then, when the gas connector 100 is removed from the gas plug body 2, the pressing by the pressing portion 105 against the slide valve G is released, and both the first valve body G1 and the second valve body G2 are connected to the urging members F1, F2. The urging force moves along the axial direction of the gas plug body 2 to the downstream side of the gas flow passage 1 (the right side in the X direction in FIG. 2), returns from the open position to the closed position, and the gas flow passage 1 is closed. To be spoken.

過流出防止機構Hは、ガス流通路1の第2流路部位1bに配置されており、内部にガスを流通する流路が形成された筒状部材H1を備えている。筒状部材H1の内部には、ガス流通を許容する初期位置とガス流通を阻止する作動位置とにガス栓本体2の軸方向に移動自在な過流出防止弁H2と、リセット手段Rからリセット操作としてのガス流通路1の上流側への押圧操作を受ける被操作部材H3(被操作部に相当する)と、過流出防止弁H2及び被操作部材H3をガス栓本体2の軸方向に移動自在に支持する支持部材H4とが備えられている。   The excessive outflow prevention mechanism H is disposed in the second flow path portion 1b of the gas flow path 1, and includes a cylindrical member H1 in which a flow path for circulating gas is formed. Inside the cylindrical member H1, there is an overflow prevention valve H2 that is movable in the axial direction of the gas plug body 2 between an initial position that allows gas flow and an operating position that blocks gas flow, and a reset operation from the reset means R. As a result, the operated member H3 (corresponding to the operated part) that receives the pressing operation to the upstream side of the gas flow passage 1, and the overflow prevention valve H2 and the operated member H3 are movable in the axial direction of the gas plug body 2. And a supporting member H4 for supporting the above.

過流出防止弁H2は、第3付勢部材F3によって、作動位置よりも上流側の初期位置に復帰するように付勢されており、当接部材H5に当接することで初期位置に位置保持されている。そして、過流出防止弁H2は、ガス流量が一定以上の過流量となると、そのガス流量の流動圧によって初期位置から作動位置に移動自在に備えられており、作動位置に移動した過流出防止弁H2が弁座部H6に着座してガス流通を阻止している。   The overflow prevention valve H2 is urged by the third urging member F3 so as to return to the initial position upstream of the operating position, and is held at the initial position by contacting the contact member H5. ing. The overflow prevention valve H2 is provided so as to be freely movable from the initial position to the operating position by the flow pressure of the gas flow rate when the gas flow rate exceeds a certain level. H2 is seated on the valve seat H6 and prevents gas flow.

支持部材H4は、その内部がガス栓本体2の軸方向に貫通する円筒状に形成されている。支持部材H4の上流側部位は、過流出防止弁H2の軸部H2aに外嵌して、ガス栓本体2の軸方向に移動自在に過流出防止弁H2を支持している。支持部材H4の下流側部位は、被操作部材H3に外嵌して、ガス栓本体2の軸方向に移動自在に被操作部材H3を支持している。   The support member H <b> 4 is formed in a cylindrical shape whose inside penetrates in the axial direction of the gas plug main body 2. The upstream portion of the support member H4 is externally fitted to the shaft portion H2a of the overflow prevention valve H2, and supports the overflow prevention valve H2 so as to be movable in the axial direction of the gas plug body 2. The downstream portion of the support member H4 is externally fitted to the operated member H3, and supports the operated member H3 so as to be movable in the axial direction of the gas plug body 2.

被操作部材H3の上流側部位H3aは、ガス栓本体2の軸方向に延びる棒状に形成されており、支持部材H4に内嵌されて、ガス栓本体2の軸方向に移動自在に支持されている。被操作部材H3の下流側部位は、ガス流通路1の流路径方向の中央部に下流側に突出する頭部H3bが備えられた概略円錐状に形成されている。頭部H3bの径方向の外側には、径方向の外側に延びる脚部H3cを備えており、その脚部H3cの先端部が筒状部材H1に形成された係合溝H1aに係合されている。図示は省略するが、脚部H3cは、周方向で間隔を隔てて複数備えられており、脚部H3c同士の間をガスが流通している。被操作部材H3は、第4付勢部材F4によって下流側部位の頭部H3bが筒状部材H1からガス流通路1の下流側に突出する突出位置に復帰するように付勢されており、脚部H3cが係合溝H1aの端部に当接して突出位置に位置保持されている。   The upstream portion H3a of the operated member H3 is formed in a rod shape extending in the axial direction of the gas stopper main body 2, is fitted into the support member H4, and is supported so as to be movable in the axial direction of the gas stopper main body 2. Yes. The downstream portion of the operated member H3 is formed in a substantially conical shape provided with a head portion H3b that protrudes downstream in the central portion of the gas flow passage 1 in the flow path radial direction. On the outer side in the radial direction of the head portion H3b, a leg portion H3c extending outward in the radial direction is provided, and the distal end portion of the leg portion H3c is engaged with an engaging groove H1a formed in the tubular member H1. Yes. Although illustration is omitted, a plurality of leg portions H3c are provided at intervals in the circumferential direction, and gas flows between the leg portions H3c. The operated member H3 is urged by the fourth urging member F4 so that the head portion H3b at the downstream side portion returns from the cylindrical member H1 to the protruding position where it protrudes to the downstream side of the gas flow passage 1. The portion H3c abuts against the end of the engagement groove H1a and is held at the protruding position.

支持部材H4は、初期位置に位置する過流出防止弁H2と突出位置に位置する被操作部材H3との間に、初期位置から作動位置までの移動量に相当する間隔を隔てる状態で、過流出防止弁H2と被操作部材H3をガス栓本体2の軸方向に移動自在に支持している。これにより、過流出防止機構Hは、突出位置に位置する被操作部材H3がガス流通路1の上流側へ押圧されるリセット操作が解除されている場合に、過流出防止弁H2の初期位置から作動位置への移動を許容している。
一方、一定以上のガス流量の流動圧によって過流出防止弁H2が作動位置に移動すると、作動位置に移動した過流出防止弁H2と突出位置に位置する被操作部材H3とが当接するようになっている。突出位置に位置する被操作部材H3がガス流通路1の上流側へ押圧されるリセット操作を受けた場合には、被操作部材H3と過流出防止弁H2との当接により被操作部材H3と過流出防止弁H2が一体的にガス流通路1の上流側へ移動することになり、過流出防止弁H2の弁座部H6への着座が解除されて、上流側からのガス圧が解除され、第3付勢部材F3の付勢力によって過流出防止弁H2が初期位置に復帰される。このようにして、過流出防止機構Hは、突出位置に位置する被操作部材H3がガス流通路1の上流側へ押圧されるリセット操作を受けた場合に、過流出防止弁H2を初期位置に復帰させている。
The support member H4 has an excessive outflow in a state in which an interval corresponding to the amount of movement from the initial position to the operating position is separated between the excessive outflow prevention valve H2 positioned at the initial position and the operated member H3 positioned at the protruding position. The prevention valve H2 and the operated member H3 are supported so as to be movable in the axial direction of the gas plug body 2. Thereby, the excessive outflow prevention mechanism H is moved from the initial position of the excessive outflow prevention valve H2 when the reset operation in which the operated member H3 located at the protruding position is pressed upstream of the gas flow passage 1 is released. Movement to the operating position is allowed.
On the other hand, when the overflow prevention valve H2 is moved to the operating position by the flow pressure at a gas flow rate above a certain level, the overflow prevention valve H2 that has moved to the operating position comes into contact with the operated member H3 that is located at the protruding position. ing. When the operated member H3 located at the protruding position is subjected to a reset operation that is pressed to the upstream side of the gas flow passage 1, the operated member H3 and the overflow prevention valve H2 are brought into contact with the operated member H3. The overflow prevention valve H2 integrally moves to the upstream side of the gas flow passage 1, the seating of the overflow prevention valve H2 on the valve seat portion H6 is released, and the gas pressure from the upstream side is released. The overflow prevention valve H2 is returned to the initial position by the urging force of the third urging member F3. In this way, the excessive outflow prevention mechanism H sets the excessive outflow prevention valve H2 to the initial position when the operated member H3 located at the protruding position receives a reset operation that is pressed to the upstream side of the gas flow passage 1. I am returning.

リセット手段Rは、ガス接続具100のガス栓本体2からの取り外しが行われた場合に、ガス栓本体2の軸方向(図1及び図2で、矢印X方向)でのスライド弁Gの閉じ位置への移動に伴って、過流出防止弁H2を初期位置に復帰させるために被操作部材H3の頭部H3bをガス流通路1の上流側へ押圧するリセット操作を行うように構成されている。
リセット手段Rは、ガス栓本体2の軸方向でスライド弁Gと被操作部材H3との間に配置されてガス栓本体2の軸方向に移動自在な移動部材R4と、移動部材R4を被操作部材H3に当接させてリセット操作を行う操作側に付勢する第1付勢部材F1(付勢部材の一例)と、閉じ位置からガス流通路1の上流側(図1、図2で、矢印Xの先端側)へのスライド弁Gの移動に伴って、第1付勢部材F1の付勢力に抗して移動部材R4を操作側とは反対側の操作解除側へ移動させる磁力を移動部材R4に作用させる第1磁性体R1及び第2磁性体R2(磁力作用手段の一例)を備えている。
上記第1付勢部材F1は、第1弁体G1と移動部材R4との間に設けられ、移動部材R4を操作側へ付勢するとともに、第1弁体G1をガス流通路1の上流側から閉じ位置の側へ付勢するように設けられている。即ち、第1付勢部材F1は、スライド弁Gが閉じ位置の側へ復帰するように付勢するとともに、移動部材R4を操作側へ付勢するように構成されている。
第1磁性体R1はスライド弁Gの第1弁体G1に設けられ、第2磁性体R2は移動部材R4に設けられており、ガス流通路1の軸方向で、互いに対向する状態となるように配置されている。そして、当該第1磁性体R1と第2磁性体R2との間には、閉じ位置からガス流通路1の上流側へのスライド弁Gの移動に伴って、引力が生じるように構成されている。例えば、第1磁性体R1と第2磁性体R2とを永久磁石にて構成する場合、第1磁性体R1と第2磁性体R2とは、互いに異なる磁極を対向させる状態で配置される。
移動部材R4は、図1及び図2に示すように、ガス流通路1の第3流路部位1cに配置されており、第3流路部位1cの内壁に沿う案内面R4aを有しており、当該案内面R4aが第3流路部位1cの内壁に沿う状態で摺動自在に配置されている。さらに、移動部材R4は、ガス流通路1の軸方向で開口部R4bを有しており、当該開口部R4bは、ガスが上流側から下流側へ流通可能に形成されている。
当該移動部材R4は、ガス流通路1の軸方向視(図1及び図2で、矢印Xに沿う方向視)で、例えば、図4(a)に示すように、その外周に、円環形状でガス流通路1の第3流路部位1cの内壁に沿う案内部R4aが設けられるとともに、当該円環形状の案内部R4aの内側に開口部R4bが設けられ、軸方向視で略中央部には被操作部材H3の頭部H3bを押圧する押圧作用部位R4cが設けられている。また、別の形状としては、図4(b)に示すように、ガス流通路1の軸方向視で、その外周に周方向で等間隔に配置されてガス流通路1の第3流路部位1cの内壁に沿って摺動可能な案内部R4aが設けられ、周方向で当該案内部R4aの間ごとに開口部R4bが設けられ、軸方向視で略中央部には被操作部材H3の頭部H3bを押圧する押圧作用部位R4cが設けられている。
The reset means R closes the slide valve G in the axial direction of the gas stopper main body 2 (in the direction of arrow X in FIGS. 1 and 2) when the gas connector 100 is detached from the gas stopper main body 2. Along with the movement to the position, a reset operation for pressing the head H3b of the operated member H3 to the upstream side of the gas flow passage 1 is performed in order to return the overflow prevention valve H2 to the initial position. .
The reset means R is disposed between the slide valve G and the operated member H3 in the axial direction of the gas plug main body 2 and is movable in the axial direction of the gas plug main body 2, and the movable member R4 is operated. A first biasing member F1 (an example of a biasing member) that biases the member H3 to the operation side that performs a reset operation, and an upstream side of the gas flow passage 1 from the closed position (in FIGS. 1 and 2) Along with the movement of the slide valve G to the tip side of the arrow X), the magnetic force that moves the moving member R4 to the operation release side opposite to the operation side moves against the urging force of the first urging member F1. A first magnetic body R1 and a second magnetic body R2 (an example of magnetic force application means) that act on the member R4 are provided.
The first urging member F1 is provided between the first valve body G1 and the moving member R4. The first urging member F1 urges the moving member R4 to the operation side, and the first valve body G1 is located upstream of the gas flow passage 1. It is provided so that it may urge to the closed position side. That is, the first urging member F1 is configured to urge the slide valve G to return to the closed position side and urge the moving member R4 to the operation side.
The first magnetic body R1 is provided on the first valve body G1 of the slide valve G, and the second magnetic body R2 is provided on the moving member R4 so as to face each other in the axial direction of the gas flow passage 1. Is arranged. And between the said 1st magnetic body R1 and 2nd magnetic body R2, it is comprised so that an attractive force may arise with the movement of the slide valve G from a closed position to the upstream of the gas flow path 1. FIG. . For example, when the first magnetic body R1 and the second magnetic body R2 are composed of permanent magnets, the first magnetic body R1 and the second magnetic body R2 are arranged in a state in which different magnetic poles face each other.
As shown in FIGS. 1 and 2, the moving member R4 is disposed in the third flow path portion 1c of the gas flow passage 1, and has a guide surface R4a along the inner wall of the third flow path portion 1c. The guide surface R4a is slidably arranged along the inner wall of the third flow path portion 1c. Furthermore, the moving member R4 has an opening R4b in the axial direction of the gas flow passage 1, and the opening R4b is formed so that gas can flow from the upstream side to the downstream side.
For example, as shown in FIG. 4A, the moving member R <b> 4 has an annular shape as viewed in the axial direction of the gas flow passage 1 (in the direction along arrow X in FIGS. 1 and 2). In addition, a guide part R4a is provided along the inner wall of the third flow path part 1c of the gas flow passage 1, and an opening R4b is provided inside the annular guide part R4a. Is provided with a pressing portion R4c that presses the head H3b of the operated member H3. As another shape, as shown in FIG. 4 (b), the third flow path portion of the gas flow path 1 is arranged on the outer periphery of the gas flow path 1 at equal intervals in the circumferential direction as viewed in the axial direction. A guide portion R4a that is slidable along the inner wall of 1c is provided, and an opening portion R4b is provided between the guide portions R4a in the circumferential direction. A pressing action portion R4c that presses the portion H3b is provided.

リセット手段Rは、ガス栓本体2からガス接続具100が装着される場合に、ガス接続具100の押圧部105により押圧されるスライド弁Gの閉じ位置からガス流通路1の上流側への移動に伴って、第1磁性体R1と第2磁性体R2の距離を減少させ、操作側に位置する移動部材R4を、第1付勢部材F1の付勢力に抗して発生する第1磁性体R1と第2磁性体R2との間の磁力により、操作解除側へ移動させる。これにより、被操作部材H3の頭部H3bへの押圧が解除され、第4付勢部材F4の付勢力にて被操作部材H3がガス流通路1の下流側へ突出し、被操作部材H3と過流出防止弁H2との間にスペースを確保する形態で、過流出防止弁H2の初期位置から作動位置への移動を許容する。当該一例の流れにより、リセット操作が解除される。
一方、リセット手段Rは、ガス栓本体2からガス接続具100が装着される場合、ガス接続具100の押圧部105によるスライド弁Gへの押圧が解除される。これによるスライド弁Gの閉じ位置への移動に伴って、第1磁性体R1と第2磁性体R2との距離を増加させ、移動部材R4に操作解除側へ作用する磁力を減少させ、操作側へ作用する第1付勢部材F1による付勢力により移動部材R4を操作側へ移動させる。これにより、被操作部材H3の頭部H3bをガス流通路1の上流側へ付勢し、被操作部材H3とともに過流出防止弁H2をガス流通路1の上流側へ移動させ、初期位置へ復帰させることができる。当該一例の流れにより、リセット操作行われる。
The reset means R moves from the closed position of the slide valve G pressed by the pressing portion 105 of the gas connector 100 to the upstream side of the gas flow passage 1 when the gas connector 100 is mounted from the gas stopper body 2. Accordingly, the distance between the first magnetic body R1 and the second magnetic body R2 is decreased, and the moving member R4 located on the operation side is generated against the urging force of the first urging member F1. By the magnetic force between R1 and 2nd magnetic body R2, it moves to the operation cancellation | release side. As a result, the pressure on the head H3b of the operated member H3 is released, and the operated member H3 protrudes to the downstream side of the gas flow passage 1 by the urging force of the fourth urging member F4, and the operated member H3 is excessively moved. In the form of securing a space with the outflow prevention valve H2, the excessive outflow prevention valve H2 is allowed to move from the initial position to the operating position. The reset operation is released by the flow of the example.
On the other hand, when the gas connector 100 is mounted from the gas plug main body 2, the reset means R releases the pressure on the slide valve G by the pressing portion 105 of the gas connector 100. As the slide valve G moves to the closed position, the distance between the first magnetic body R1 and the second magnetic body R2 is increased, and the magnetic force acting on the moving member R4 on the operation release side is decreased. The moving member R4 is moved to the operation side by the urging force of the first urging member F1 acting on the. As a result, the head H3b of the operated member H3 is urged to the upstream side of the gas flow passage 1, and the overflow prevention valve H2 is moved to the upstream side of the gas flow passage 1 together with the operated member H3 to return to the initial position. Can be made. The reset operation is performed according to the flow of the example.

以下、図3に基づいて、スライド弁G、過流出防止機構H,リセット手段Rの動きについて説明する。
図3(a)は、ガス接続具100をガス栓本体2から取り外している状態を示している。図3(b)は、ガス接続具100をガス栓本体2に装着した状態を示している。図3(c)は、ガス接続具100をガス栓本体2に装着しているときに、過流出防止弁H2が初期位置から作動位置へ移動した状態を示している。図3(d)は、ガス接続具100をガス栓本体2から取り外すことでリセット操作を実行する状態を示している。
Hereinafter, the movement of the slide valve G, the excessive outflow prevention mechanism H, and the reset means R will be described with reference to FIG.
FIG. 3A shows a state where the gas connector 100 is removed from the gas plug body 2. FIG. 3B shows a state in which the gas connector 100 is mounted on the gas plug body 2. FIG. 3C shows a state in which the excessive outflow prevention valve H2 has moved from the initial position to the operating position when the gas connector 100 is attached to the gas plug body 2. FIG. FIG. 3D shows a state in which the reset operation is executed by removing the gas connector 100 from the gas plug body 2.

図3(a)に示すように、ガス接続具100をガス栓本体2から取り外している場合には、スライド弁Gが閉じ位置に位置しており、ガス流通路1がスライド弁Gにて閉弁されている。このとき、移動部材R4は、第1付勢部材F1による操作側への付勢力の作用により、操作側に付勢されており、移動部材R4の押圧作用部位R4cが、被操作部材H3の頭部H3bをガス流通路1の上流側へ押圧している状態となり、リセット操作が行われている状態となる。このとき、当該リセット操作により過流出防止弁H2は初期位置に位置している。   As shown in FIG. 3 (a), when the gas connector 100 is removed from the gas plug body 2, the slide valve G is in the closed position, and the gas flow passage 1 is closed by the slide valve G. It is spoken. At this time, the moving member R4 is biased to the operating side by the action of the biasing force to the operating side by the first biasing member F1, and the pressing action portion R4c of the moving member R4 is the head of the operated member H3. The part H3b is pressed to the upstream side of the gas flow passage 1, and the reset operation is performed. At this time, the excessive outflow prevention valve H2 is located at the initial position by the reset operation.

図3(b)に示すように、ガス接続具100をガス栓本体2に装着すると、ガス接続具100の押圧部105がスライド弁Gをガス流通路1の上流側に押圧して、スライド弁Gが閉じ位置からガス流通路1の上流側に移動してガス流通路1を開弁させる。このとき、スライド弁Gの移動に伴って、第1磁性体R1と第2磁性体R2との距離を減少させ、移動部材R4に対し操作側への付勢力に抗する操作解除側への磁力を増大させ、移動部材R4を操作側から操作解除側へ付勢して、操作位置から操作解除位置へ移動させる。当該移動部材R4の移動により、移動部材R4の押圧作用部位R4cが、被操作部材H3の頭部H3bをガス流通路1の上流側へ押圧するリセット操作が解除される。リセット操作が解除されると、被操作部材H3は、第4付勢部材F4の付勢力により頭部H3bが突出位置に復帰される。このようにして、被操作部材H3が突出位置に復帰されると、被操作部材H3と過流出防止弁H2との間に、過流出防止弁H2の初期位置から作動位置への移動を許容するスペースが形成される。   As shown in FIG. 3 (b), when the gas connector 100 is attached to the gas plug body 2, the pressing portion 105 of the gas connector 100 presses the slide valve G to the upstream side of the gas flow passage 1, and the slide valve G moves from the closed position to the upstream side of the gas flow path 1 to open the gas flow path 1. At this time, with the movement of the slide valve G, the distance between the first magnetic body R1 and the second magnetic body R2 is decreased, and the magnetic force to the operation release side against the urging force to the operation side with respect to the moving member R4. And the moving member R4 is urged from the operation side to the operation release side to move from the operation position to the operation release position. By the movement of the moving member R4, the reset operation in which the pressing action portion R4c of the moving member R4 presses the head H3b of the operated member H3 to the upstream side of the gas flow path 1 is released. When the reset operation is released, the head H3b of the operated member H3 is returned to the protruding position by the urging force of the fourth urging member F4. In this way, when the operated member H3 is returned to the protruding position, the movement of the overflow prevention valve H2 from the initial position to the operating position is allowed between the operated member H3 and the overflow prevention valve H2. A space is formed.

図3(c)に示すように、ガス流量が一定以上の過流量となると、そのガス流量の流動圧によって、過流出防止弁H2がガス栓本体2の軸方向に沿ってガス流通路1の下流側に移動して、過流出防止弁H2が初期位置から作動位置へ移動する。このように、過流出防止弁H2が作動位置に移動することで、ガス流通路1でのガス流通が阻止される。   As shown in FIG. 3 (c), when the gas flow rate exceeds a certain level, the overflow prevention valve H 2 is moved along the axial direction of the gas plug body 2 by the flow pressure of the gas flow rate. Moving to the downstream side, the excessive outflow prevention valve H2 moves from the initial position to the operating position. As described above, the excessive flow prevention valve H2 moves to the operating position, whereby the gas flow in the gas flow passage 1 is blocked.

図3(d)に示すように、ガス接続具100をガス栓本体2から取り外すと、ガス接続具100の押圧部105によるスライド弁Gに対する流通路1の上流側への押圧が解除されて、第1付勢部材F1及び第2付勢部材F2の付勢力によってスライド弁Gがガス栓本体2の軸方向に沿ってガス流通路1の下流側に移動する。このとき、スライド弁Gの移動に伴って、第1磁性体R1と第2磁性体R2の距離が減少し、移動部材R4に対して操作側へ作用する付勢力よりも操作解除側へ作用する磁力を増大させ、移動部材R4を操作解除側から操作側へ付勢して、操作解除位置から操作位置へ移動させる。当該移動部材R4の移動により、移動部材R4の押圧作用部位R4cが、被操作部材H3の頭部H3bをガス流通路1の上流側へ押圧するリセット操作が行われる。リセット操作が行われると、被操作部材H3とともに過流出防止弁H2がガス流通路1の上流側へ移動して、初期位置に復帰される。   As shown in FIG. 3D, when the gas connector 100 is removed from the gas plug body 2, the pressure of the gas connector 100 on the upstream side of the flow passage 1 against the slide valve G by the pressing portion 105 is released, The slide valve G moves to the downstream side of the gas flow passage 1 along the axial direction of the gas plug main body 2 by the urging force of the first urging member F1 and the second urging member F2. At this time, the distance between the first magnetic body R1 and the second magnetic body R2 decreases with the movement of the slide valve G, and acts on the operation release side rather than the urging force acting on the operation side with respect to the moving member R4. The magnetic force is increased, and the moving member R4 is urged from the operation release side to the operation side to move from the operation release position to the operation position. By the movement of the moving member R4, a reset operation is performed in which the pressing action portion R4c of the moving member R4 presses the head H3b of the operated member H3 to the upstream side of the gas flow passage 1. When the reset operation is performed, the overflow prevention valve H2 moves together with the operated member H3 to the upstream side of the gas flow passage 1, and is returned to the initial position.

<第2実施形態>
これまで説明してきた実施の形態では、本発明に係るガス栓を、ガス栓本体2に対するガス接続具100の装着及び取り外しに伴ってスライド弁Gを閉じ位置と開き位置との間で移動させてガス器具へのガスの供給と停止との切り替えを行う所謂ガスコンセントとして構成したが、以下に、本発明に係るガス栓を、操作部に対する手動操作に伴ってスライド弁を閉じ位置と開き位置との間で移動させてガス器具へのガスの供給と停止との切り替えを行う、所謂ツマミ付きガス栓として構成した実施形態について、図6〜図12に基づいて説明する。尚、これまで説明してきた実施形態と同様の構成については、説明を割愛する場合がある。
Second Embodiment
In the embodiment described so far, the gas valve according to the present invention is moved by moving the slide valve G between the closed position and the open position with the attachment and detachment of the gas connector 100 with respect to the gas plug body 2. The gas plug according to the present invention is configured as a so-called gas outlet that performs switching between supply and stop of gas to the gas appliance.Hereinafter, the slide valve is closed and opened by manual operation with respect to the operation unit. An embodiment configured as a so-called knob-equipped gas stopper that switches between supply and stop of gas to a gas appliance by moving between the above and below will be described with reference to FIGS. In addition, about the structure similar to embodiment described so far, description may be omitted.

本実施形態のつまみ付きガス栓として構成されたガス栓は、図6及び図7に示すように、弁収容部5と、当該弁収容部5に対して夫々が開口するガス流入路1A及びガス流出路1Bが、内部に形成されたガス栓本体2と、弁収容部5に収容され、ガス流入路1Aとガス流出路1Bとの間の開閉を行う弁機構部Aと、操作部11に対する操作に伴って弁機構部Aを開閉させる操作機構部Bとを備えている。
以下、ガス栓本体2、弁機構部A、及び操作機構部Bの詳細構成について、順次説明する。
As shown in FIGS. 6 and 7, the gas stopper configured as a gas stopper with a knob according to the present embodiment includes a valve housing portion 5, a gas inflow passage 1 </ b> A that opens to the valve housing portion 5, and a gas. The outflow path 1B is accommodated in the gas stopper body 2 formed inside, the valve accommodating part 5, and the valve mechanism part A that opens and closes between the gas inflow path 1A and the gas outflow path 1B, and the operation part 11 An operation mechanism B that opens and closes the valve mechanism A in accordance with the operation is provided.
Hereinafter, detailed configurations of the gas stopper main body 2, the valve mechanism portion A, and the operation mechanism portion B will be sequentially described.

〔ガス栓本体〕
ガス流入路1A及びガス流出路1Bの夫々は、互いの軸線X、Yを直角に交差する状態でガス栓本体2の内部に配置された円形断面を有する流路である。具体的には、ガス流入路1Aの軸線Xを上下方向に配置すると共に、ガス流出路1Bの軸線Yを横向きに配置することで、本実施形態のガス栓は所謂L型のガス栓として構成されている。このように構成されたL型のガス栓は、下から上に向けてガス栓本体2に流入したガスgを横向きに吐出して、側方に配置されたガス機器(図示せず)等に供給する。尚、本実施形態においてガス栓を上記L型のガス栓として構成するのではなく、例えば、ガス流出路1Bを斜め下向きに設けるなど、ガス流入路1Aとガス流出路1Bとの交差角度は適宜改変可能である。
また、弁収容部5は、ガス流入路1Aの上方延長上にガス栓本体2の内部に形成された円形断面を有する空間であり、弁収容部5の下方にはガス流入路1Aが開口し、弁収容部5の側方にはガス流出路1Bが開口することになる。
[Gas stopper body]
Each of the gas inflow path 1A and the gas outflow path 1B is a flow path having a circular cross section disposed inside the gas stopper main body 2 in a state where the axes X and Y intersect each other at a right angle. Specifically, the gas plug of the present embodiment is configured as a so-called L-shaped gas plug by arranging the axis X of the gas inflow passage 1A in the vertical direction and arranging the axis Y of the gas outflow passage 1B in the horizontal direction. Has been. The L-shaped gas plug thus configured discharges the gas g flowing into the gas plug main body 2 from the bottom to the top in a horizontal direction, and is applied to a gas device (not shown) or the like disposed on the side. Supply. In the present embodiment, the gas stopper is not configured as the L-shaped gas stopper, but the crossing angle between the gas inlet path 1A and the gas outlet path 1B is appropriately set, for example, by providing the gas outlet path 1B obliquely downward. It can be modified.
Further, the valve accommodating part 5 is a space having a circular cross section formed inside the gas stopper main body 2 on the upper extension of the gas inflow path 1A, and the gas inflow path 1A opens below the valve accommodating part 5. The gas outflow passage 1B is opened to the side of the valve accommodating portion 5.

〔弁機構部〕
ガス流入路1A及びガス流出路1Bの何れか一方の特定ガス流通路をガス流入路1Aとし、同特定ガス流通路の軸線である特定軸線をガス流入路1Aの軸線Xとすると、弁機構部Aは、当該特定ガス流通路であるガス流入路1Aの弁収容部5に対する開口部1Aaに形成された弁座部6と、同特定軸線である軸線Xに沿ってスライドして弁座部6に対して着座して当該開口部1Aaを閉塞する閉じ位置と、軸線Xに沿ってスライドして弁座部6に対して離間して当該開口部1Aaを開放する開き位置との間で変位するスライド弁G'とを有して構成されている。
即ち、スライド弁G'は、上下方向に配置されたガス流入路1Aの軸線Xに沿って、上下方向にスライドする。そして、そのスライド範囲の下端位置が、スライド弁G'が弁座部6に着座して開口部1Aaを閉塞する閉じ位置であり、同範囲の上端位置が、スライド弁G'が弁座部6に対して離間して当該開口部1Aaを開放する開き位置となる。よって、本実施形態において、閉じ位置側とは下方側を示し、開き位置側とは上方側を示すことになる。
尚、第1実施形態にあっては、第1弁体G1はガス流通路1を閉止する弁体として機能していたが、当該第2実施形態にあっては、第1弁体G1には第1切欠部G4及び第4切欠部G5を設けてあり、弁体としての機能は発揮しないようになっている。
ここで、図9及び図10にはスライド弁G'が閉じ位置にある状態が示されており、図6及び図8にはスライド弁G'が開き位置にある状態が示されている。
(Valve mechanism)
When one of the gas inflow passage 1A and the gas outflow passage 1B is a gas inflow passage 1A, and a specific axis that is an axis of the specific gas flow passage is an axis X of the gas inflow passage 1A, the valve mechanism section A slides along the axis X which is the specific axis and the valve seat 6 formed in the opening 1Aa with respect to the valve accommodating part 5 of the gas inflow path 1A which is the specific gas flow path, and the valve seat 6 Between the closed position where the opening 1Aa is seated and the opening 1Aa slides along the axis X and is spaced apart from the valve seat 6 to open the opening 1Aa. And a slide valve G ′.
That is, the slide valve G ′ slides in the vertical direction along the axis X of the gas inflow passage 1A arranged in the vertical direction. The lower end position of the slide range is a closed position where the slide valve G ′ is seated on the valve seat 6 and closes the opening 1Aa. The upper end position of the same range is the slide valve G ′. It becomes an opening position which spaces apart and opens the opening 1Aa. Therefore, in the present embodiment, the closed position side indicates the lower side, and the open position side indicates the upper side.
In the first embodiment, the first valve element G1 functions as a valve element that closes the gas flow passage 1. However, in the second embodiment, the first valve element G1 includes the first valve element G1. The first notch part G4 and the fourth notch part G5 are provided, and the function as a valve body is not exhibited.
Here, FIGS. 9 and 10 show a state in which the slide valve G ′ is in the closed position, and FIGS. 6 and 8 show a state in which the slide valve G ′ is in the open position.

〔操作機構部〕
操作機構部Bは、操作者による操作部11に対する下向きの押圧操作をスライド弁G'に伝達させて当該スライド弁G'と共にスライド可能なスライド部Cと、スライド部Cを軸線Xに沿って閉じ位置側から開き位置側に向かう上向きに付勢する軸線付勢手段Dと、スライド部Cのスライドをガイドするガイド部20とからなる。
操作部11は、ガス流入路1Aの軸線Xと同軸上に配置されガス栓本体2の上部を覆う逆カップ状の操作ボタン10の上底部の上面として設けられている。
また、操作ボタン10は、軸線Xに沿って上下方向にスライド可能に設けられており、更に操作ボタン10の上底部の下面とガス栓本体2の上面との間には、ガス栓本体2に対し操作ボタン10を上向きに付勢するコイルバネ13が介挿されている。
尚、このコイルバネ13は、巻線部分が隣接間において互いに離間している通常のコイルバネが利用されており、軸線Xに沿って圧縮力を受けることで同軸線Xに沿って膨張力を発生する。
(Operation mechanism)
The operation mechanism unit B transmits a downward pressing operation on the operation unit 11 by the operator to the slide valve G ′, and closes the slide unit C along the axis X along the slide line C that can slide together with the slide valve G ′. It comprises an axis urging means D that urges upward from the position side toward the open position side, and a guide portion 20 that guides the slide of the slide portion C.
The operation portion 11 is provided as an upper surface of the upper bottom portion of the reverse cup-shaped operation button 10 that is arranged coaxially with the axis X of the gas inflow passage 1A and covers the upper portion of the gas plug body 2.
The operation button 10 is provided so as to be slidable in the vertical direction along the axis X. Further, the operation button 10 is provided between the lower surface of the upper bottom portion of the operation button 10 and the upper surface of the gas plug body 2. A coil spring 13 for biasing the operation button 10 upward is inserted.
The coil spring 13 is an ordinary coil spring in which winding portions are separated from each other between adjacent ones. When the coil spring 13 receives a compressive force along the axis X, an expansion force is generated along the coaxial line X. .

スライド部Cは、軸線X周りに回転自在に設けられたガイドピン18と、当該ガイドピン18を軸線X周りの方向に付勢する回転付勢手段Eとを有して構成されている。
ガイドピン18は、軸線Xと同軸上に配置され当該軸線Xに沿ってスライド可能な円柱状の軸部材17の外表面において、軸部材17の円形断面の径外方向に向けて突出形成されている。
一方、回転付勢手段Eは、操作ボタン10における上底部の下面に一端部が固定され、上記軸部材17の上面に他端部が固定されて、ガス流入路1Aの軸線Xと同軸上に配置されたねじりコイルバネ15で構成されている。
尚、このねじりコイルバネ15は、巻線部分が隣接間において互いに密着しているコイルバネであり、ある回転方向にねじりモーメントを受けることで当該回転方向とは逆の回転方向(図11における右方向)に反発力を発生する。更に、かかるねじりコイルバネ15は、巻線部分が隣接間において互いに密着していることで、一端側から受けた操作部11の軸線Xに沿った下方向の押圧力を、他端側の軸部材17に伝達することができる。
ねじりコイルバネ15の両端部には、突起部16が設けられており、突起部16を含む巻線部分が、操作ボタン10における上底部の下面に形成された溝部12、及び軸部材17の上面に形成された溝部19に嵌め込まれることで、ねじりコイルバネ15の両端が操作ボタン10及び軸部材17に固定されている。
The slide portion C includes a guide pin 18 that is rotatably provided around the axis X, and a rotation biasing means E that biases the guide pin 18 in a direction around the axis X.
The guide pin 18 is disposed coaxially with the axis X and is formed to protrude outward in the radial direction of the circular cross section of the shaft member 17 on the outer surface of the cylindrical shaft member 17 that can slide along the axis X. Yes.
On the other hand, the rotation urging means E has one end fixed to the lower surface of the upper bottom portion of the operation button 10 and the other end fixed to the upper surface of the shaft member 17 so as to be coaxial with the axis X of the gas inflow passage 1A. The torsion coil spring 15 is arranged.
The torsion coil spring 15 is a coil spring in which the winding portions are in close contact with each other between adjacent portions, and receives a torsional moment in a certain rotation direction, thereby rotating in a direction opposite to the rotation direction (right direction in FIG. 11). Generates a repulsive force. Furthermore, the torsion coil spring 15 is configured such that the winding portion is in close contact with each other between adjacent portions, so that the downward pressing force along the axis X of the operation unit 11 received from one end side is applied to the shaft member on the other end side. 17 can be transmitted.
Protrusions 16 are provided at both ends of the torsion coil spring 15, and a winding portion including the protrusions 16 is formed on the groove 12 formed on the lower surface of the upper bottom of the operation button 10 and on the upper surface of the shaft member 17. By fitting into the formed groove portion 19, both ends of the torsion coil spring 15 are fixed to the operation button 10 and the shaft member 17.

軸線付勢手段Dは、巻線部分が隣接間において互いに離間している通常のコイルバネ24からなり、軸線Xに沿って圧縮力を受けることで同軸線Xに沿って膨張力を発生する。
このコイルバネ24は、スライド弁G'の下面と、弁収容部5の下方に設けられた筒状部材H1の上面との間に軸線Xに沿って圧縮状態で介挿されており、筒状部材H1の上面に対してスライド弁G'を上向きに付勢する形態で、スライド弁G'とスライド部Cとを軸線Xに沿って閉じ位置側から開き位置側に向かう上向きに付勢する。
The axis urging means D is composed of a normal coil spring 24 whose winding portions are separated from each other between adjacent ones, and generates an expansion force along the coaxial line X by receiving a compression force along the axis X.
This coil spring 24 is inserted in a compressed state along the axis X between the lower surface of the slide valve G ′ and the upper surface of the cylindrical member H1 provided below the valve housing portion 5. The slide valve G ′ and the slide portion C are urged upward along the axis X from the closed position side to the open position side in a form in which the slide valve G ′ is urged upward with respect to the upper surface of H1.

ガイド部20は、ガイドピン18が挿入されて当該ガイドピン18の軸線X上のスライド及び軸線X周りの回転を誘導するガイド溝22を外表面に形成した筒状部材21で構成されている。
更に、このガイド溝22には、操作部11に押圧力を付加してスライド弁G'を開き位置から閉じ位置まで変位させるときにガイドピン18をねじりコイルバネ15の付勢力に抗して回転させる回転誘導部22a、22bと、続いて当該押圧力を抜いたときにスライド弁G'を閉じ位置に維持する状態でコイルバネ24及びねじりコイルバネ15により付勢されるガイドピン18が係止する係止部22cとが形成されている。
そして、このような構成により、本実施形態のガス栓は、詳細については後述するが、操作部11に対する一の押圧操作により閉栓動作が行われ、それに続く操作部11に対する一の押圧操作により開栓動作が行われる所謂プッシュプッシュ式の開閉動作を実現している。
The guide portion 20 is configured by a cylindrical member 21 having a guide groove 22 formed on the outer surface for guiding the guide pin 18 to slide on the axis line X and to rotate around the axis line X.
Further, the guide groove 18 is rotated against the urging force of the torsion coil spring 15 when a pressure is applied to the operation portion 11 to displace the slide valve G ′ from the open position to the closed position. Rotation guides 22a and 22b, and a locking mechanism in which the guide pin 18 biased by the coil spring 24 and the torsion coil spring 15 is locked while the slide valve G ′ is maintained in the closed position when the pressing force is subsequently removed. A portion 22c is formed.
With such a configuration, the gas stopper according to the present embodiment, as will be described in detail later, is closed by a single pressing operation on the operation unit 11 and then opened by a single pressing operation on the operation unit 11. A so-called push-push type opening / closing operation in which a plug operation is performed is realized.

図11(a)に示すように、このガイド溝22において、回転誘導部22a、22bの閉じ位置側の端部が、ねじりコイルバネ15の軸線X周りの付勢力に抗する回転方向において係止部22cより回転奥側(例えば図11(a)において左側)に位置する。回転誘導部22a、22bの閉じ位置側の端部から係止部22cにかけて、ガイド溝22がコイルバネ24の軸線Xに沿った付勢方向側(即ち上方側)に膨出してなる膨出部22dが形成されている。
よって、ガイドピン18が、その膨出部22dを介して、回転誘導部22a、22bの閉じ位置側の端部から係止部22cに向けてガイド溝22の上辺に沿って直接的に移動可能となり、係止部22cに適切に係止されるようになる。尚、この膨出部22dの形状等は適宜変更可能であり、また、膨出部22dを省略して、閉じ位置側回転誘導部22bの途中に上方に切れ込む係止部22cを形成し、閉じ位置側の端部にガイドピン18がある状態で操作部11に付加する押圧力f11を取り除いたときに、ガイドピン18が閉じ位置側回転誘導部22bを若干逆行しその途中にある係止部22cに係止されるように構成しても構わない。
As shown in FIG. 11A, in the guide groove 22, the end portions on the closed position side of the rotation guide portions 22 a and 22 b are locking portions in the rotation direction against the urging force around the axis X of the torsion coil spring 15. It is located on the far side of rotation from 22c (for example, on the left side in FIG. 11A). A bulging portion 22d formed by the guide groove 22 bulging in the urging direction side (that is, the upper side) along the axis X of the coil spring 24 from the end portion on the closed position side of the rotation guide portions 22a and 22b to the locking portion 22c. Is formed.
Therefore, the guide pin 18 can move directly along the upper side of the guide groove 22 from the end of the rotation guide portions 22a and 22b on the closed position side toward the locking portion 22c through the bulging portion 22d. Thus, it is appropriately locked to the locking portion 22c. The shape and the like of the bulging portion 22d can be changed as appropriate, and the bulging portion 22d is omitted, and a locking portion 22c that cuts upward is formed in the middle of the closed position side rotation guiding portion 22b. When the pressing force f11 applied to the operating portion 11 is removed with the guide pin 18 at the position side end, the guide pin 18 slightly reverses the closed position side rotation guiding portion 22b and is in the middle You may comprise so that it may be latched by 22c.

この回転誘導部22a、22bは、軸線X周りの方向において係止部22cよりも閉じ位置側に配置された閉じ位置側回転誘導部22bと係止部22cよりも開き位置側に配置された開き位置側回転誘導部22aとからなる。
更に、ガス流入路1Aの軸線Xの直交面をSとすると、閉じ位置側回転誘導部22bにおける直交面Sに対するガイド溝22のリード角αbが、開き位置側回転誘導部22aの同リード角αaよりも小さく設定されている。
即ち、閉栓動作において、操作部11に押圧力が付加され回転誘導部22a、22bに沿って誘導されるガイドピン18は、開き位置側から係止部22cが形成された位置までの間は開き位置側回転誘導部22aに沿って変位し、その係止部22cが形成された位置からそれよりも回転奥側に形成された閉じ位置側の端部までの間は閉じ位置側回転誘導部22bに沿って変位することになる。
そして、閉じ位置側回転誘導部22bのリード角αbが、開き位置側回転誘導部22aのリード角αaよりも小さいので、ねじりコイルバネ15の付勢力に抗してガイドピン18を閉じ位置側回転誘導部22bに沿って変位させるために必要な操作部11に対する押圧力は、開き位置側回転誘導部22aに沿って変位させるときよりも大きくなる。
以下、ガイド溝22の詳細構成について、本実施形態のガス栓の開閉動作時におけるガイド溝22におけるガイドピン18の遷移状態とあわせて、図11及び図12等に基づいて説明する。尚、図11及び図12において、ガイド溝22は、筒状部材21の外周面を平面に展開したときの状態で示されている。
The rotation guide portions 22a and 22b are arranged in the direction around the axis X, and are located closer to the closed position than the locking portion 22c and the opening position positioned closer to the opening position than the locking portion 22c. It consists of a position side rotation guiding part 22a.
Furthermore, when the orthogonal plane of the axis X of the gas inflow passage 1A is S, the lead angle αb of the guide groove 22 with respect to the orthogonal plane S in the closed position side rotation guiding portion 22b is the same lead angle αa of the opening position side rotation guiding portion 22a. Is set smaller than.
That is, in the closing operation, the guide pin 18 that is guided along the rotation guide portions 22a and 22b by applying a pressing force to the operation portion 11 is opened from the open position side to the position where the locking portion 22c is formed. It is displaced along the position-side rotation guiding portion 22a, and the closed position-side rotation guiding portion 22b is located between the position where the locking portion 22c is formed and the end on the closed position side formed on the far side of the rotation. Will be displaced along.
Since the lead angle αb of the closed position side rotation guiding portion 22b is smaller than the lead angle αa of the open position side rotation guiding portion 22a, the guide pin 18 is closed against the biasing force of the torsion coil spring 15 and the position side rotation guiding is performed. The pressing force with respect to the operation unit 11 necessary for displacing along the portion 22b is larger than when displacing along the opening position side rotation guiding portion 22a.
Hereinafter, the detailed configuration of the guide groove 22 will be described based on FIGS. 11 and 12 together with the transition state of the guide pin 18 in the guide groove 22 during the opening / closing operation of the gas stopper according to the present embodiment. 11 and 12, the guide groove 22 is shown in a state when the outer peripheral surface of the cylindrical member 21 is developed on a plane.

〔閉栓動作時〕
先ず、本実施形態のガス栓の閉栓動作時のガイド溝22におけるガイドピン18の位置の遷移状態について、図11等に基づいて説明する。
スライド弁G'が開き位置にあって開栓しているとき(図6参照)には、ガイドピン18は、図11(a)に示すように、ガイド溝22において回転誘導部22aの開き位置側の端部(図11(a)において右上端部)に位置している。
次に、操作部11に押圧力f11を付加し、その押圧力f11がスライド部Cに伝達されると、スライド部Cに設けられたガイドピン18は、図11(b)に示すように、ガイド溝22において開き位置側回転誘導部22aと閉じ位置側回転誘導部22bとの境界部に移動する。
この移動の際に、ガイドピン18は、コイルバネ24による軸線Xに沿った閉じ位置側から開き位置側へ向かう上向きの付勢力fdに抗して開き位置側から閉じ位置側へ向かう下向きに変位すると共に、ねじりコイルバネ15による軸線X周りの方向への付勢力feに抗して回転することになる。
即ち、開き位置側回転誘導部22aと閉じ位置側回転誘導部22bとの境界部に位置するガイドピン18には、図11(b)において、上向きの付勢力fdと右向きの付勢力feとが付加された状態となっている。
[When closing operation]
First, the transition state of the position of the guide pin 18 in the guide groove 22 during the gas stopper closing operation of the present embodiment will be described with reference to FIG.
When the slide valve G ′ is in the open position and is open (see FIG. 6), the guide pin 18 opens the rotation guide portion 22a in the guide groove 22 as shown in FIG. It is located on the side end (upper right end in FIG. 11A).
Next, when a pressing force f11 is applied to the operation portion 11 and the pressing force f11 is transmitted to the slide portion C, the guide pins 18 provided on the slide portion C are as shown in FIG. The guide groove 22 moves to the boundary between the opening position side rotation guiding portion 22a and the closing position side rotation guiding portion 22b.
During this movement, the guide pin 18 is displaced downwardly from the open position side to the closed position side against the upward biasing force fd from the closed position side along the axis X by the coil spring 24 toward the open position side. At the same time, the torsion coil spring 15 rotates against the urging force fe in the direction around the axis X.
That is, the upward biasing force fd and the rightward biasing force fe in FIG. 11B are applied to the guide pin 18 located at the boundary between the opening position side rotation guiding portion 22a and the closing position side rotation guiding portion 22b. It has been added.

更に、操作部11に比較的大きい押圧力f11を付加すると、ガイドピン18は、図11(c)に示すように、ガイド溝22において閉じ位置側回転誘導部22bの回転奥側(図11(c)の左側)の端部に移動し、それに伴ってスライド弁G'は閉じ位置(図9参照)に変位する。
この移動の際においても、ガイドピン18は、コイルバネ24による上向きの付勢力fdとねじりコイルバネ15による右向きの付勢力feに抗して左下方向に移動することになり、移動後のガイドピン18には、上向きの付勢力fdと右向きの付勢力feとが付加された状態となっている。
尚、これら付勢力fd、feは、ガイドピン18の左下方向への変位量が増加するに伴って増加するが、説明を簡単にするためにそれらの符号は同じものを使用する。
Further, when a relatively large pressing force f11 is applied to the operation portion 11, the guide pin 18 is moved to the back side of the rotation position of the closed position side rotation guiding portion 22b in the guide groove 22 as shown in FIG. c), the slide valve G ′ is displaced to the closed position (see FIG. 9).
Also in this movement, the guide pin 18 moves in the lower left direction against the upward biasing force fd by the coil spring 24 and the rightward biasing force fe by the torsion coil spring 15, and the guide pin 18 after the movement Is a state in which an upward biasing force fd and a rightward biasing force fe are added.
The urging forces fd and fe increase as the amount of displacement of the guide pin 18 in the lower left direction increases, but the same reference numerals are used to simplify the explanation.

次に、上記のように操作部11に対して付加していた押圧力f11を取り除くと、図11(d)に示すように、コイルバネ24による上向きの付勢力fdとねじりコイルバネ15による右向きの付勢力feによって、ガイドピン18は、膨出部22dに沿って右上方向にある係止部22cに当接する位置まで移動する。
そして、係止部22cのガイドピン18が当接する壁面の角度が、付勢力fd、feの合力が付加されているガイドピン18が回転誘導部22a、22b側に変位することを防止する角度に設定されているので、当該ガイドピン18の位置は係止部22cに係止された状態で保たれることになり、結果、図10に示すように、スライド弁G'が閉じ位置で維持されて、閉栓動作が完了する。
Next, when the pressing force f11 applied to the operation unit 11 is removed as described above, an upward biasing force fd by the coil spring 24 and a rightward application by the torsion coil spring 15 are obtained as shown in FIG. Due to the force fe, the guide pin 18 moves along the bulging portion 22d to a position where it abuts on the locking portion 22c in the upper right direction.
The angle of the wall surface with which the guide pin 18 of the locking portion 22c abuts is such that the guide pin 18 to which the resultant force of the urging forces fd and fe is applied is prevented from being displaced toward the rotation guide portions 22a and 22b. Since it is set, the position of the guide pin 18 is maintained in a state of being locked to the locking portion 22c. As a result, as shown in FIG. 10, the slide valve G ′ is maintained in the closed position. Thus, the closing operation is completed.

〔開栓動作時〕
次に、本実施形態のガス栓の開栓動作時のガイド溝22におけるガイドピン18の位置の遷移状態について、図12等に基づいて説明する。
スライド弁G'が閉じ位置にあって閉栓しているとき(図10参照)には、ガイドピン18は、図12(a)に示すように、係止部22cに係止される位置にある。
次に、操作部11に比較的小さな押圧力f11'を付加し、その押圧力f11'がスライド部Cに伝達されると、スライド部Cに設けられたガイドピン18は、図12(b)に示すように、付勢力fd、feに抗して左下向きに若干変位することで、係止部22cにおける係止が解除された位置に変位する。
この際に、操作部11に付加される押圧力f11'は、上述した閉栓動作時に付加した押圧力f11よりも小さなものとなっているため、ガイドピン18は、例えば閉じ位置側回転誘導部22bに沿って閉じ位置側に変位することはない。
更に、閉じ位置側回転誘導部22bのリード角αbが開き位置側回転誘導部22aのリード角αaよりも小さく、ねじりコイルバネ15の付勢力feに抗してガイドピン18を閉じ位置側回転誘導部22bに沿って閉じ位置側へ変位させるためには比較的大きな押圧力が必要となるので、その押圧力よりも小さな押圧力f11'で操作部11を押圧した場合には、ガイドピン18が閉じ位置側回転誘導部22bに沿って回転奥側に変位することはない。
(When opening)
Next, the transition state of the position of the guide pin 18 in the guide groove 22 during the opening operation of the gas stopper according to this embodiment will be described with reference to FIG.
When the slide valve G ′ is in the closed position and closed (see FIG. 10), the guide pin 18 is in a position to be locked to the locking portion 22c as shown in FIG. 12 (a). .
Next, when a relatively small pressing force f11 ′ is applied to the operation portion 11 and the pressing force f11 ′ is transmitted to the slide portion C, the guide pin 18 provided on the slide portion C is shown in FIG. As shown in FIG. 2, the lever is slightly displaced in the lower left direction against the urging forces fd and fe, so that the latching portion 22c is unlocked.
At this time, since the pressing force f11 ′ applied to the operation unit 11 is smaller than the pressing force f11 applied during the closing operation described above, the guide pin 18 is, for example, the closed position side rotation guiding unit 22b. It does not displace to the closed position side.
Further, the lead angle αb of the closed position side rotation guiding portion 22b is smaller than the lead angle αa of the open position side rotation guiding portion 22a, and the guide pin 18 is closed against the biasing force fe of the torsion coil spring 15. Since a relatively large pressing force is required for displacing to the closing position side along 22b, when the operating portion 11 is pressed with a pressing force f11 'smaller than the pressing force, the guide pin 18 is closed. There is no displacement toward the back of the rotation along the position side rotation guiding portion 22b.

次に、上記のように操作部11に対し付加されていた押圧力f11'を取り除くと、図12(c)に示すように、コイルバネ24による上向きの付勢力fdとねじりコイルバネ15による右向きの付勢力feによって、ガイドピン18は、開き位置側回転誘導部22aに沿って右上方向に移動し、結果、図6に示すように、それに伴ってスライド弁G'が閉じ位置から開き位置まで変位して、開栓動作が完了する。
尚、本実施形態では、ガイド溝22の回転誘導部を開き位置側回転誘導部22aと閉じ位置側回転誘導部22bとで構成したが、当該回転誘導部を一様のもので構成しても構わない。また、回転誘導部22a、22bのリード角αa、αbについては、一様のものとせずに、例えば開き位置側から閉じ位置側にかけて徐々に減少させるなど、適宜改変可能である。
Next, when the pressing force f11 ′ applied to the operation unit 11 is removed as described above, an upward biasing force fd by the coil spring 24 and a rightward application by the torsion coil spring 15 are obtained as shown in FIG. Due to the force fe, the guide pin 18 moves in the upper right direction along the open position side rotation guiding portion 22a, and as a result, as shown in FIG. 6, the slide valve G ′ is displaced from the closed position to the open position. Thus, the opening operation is completed.
In the present embodiment, the rotation guiding portion of the guide groove 22 is configured by the opening position side rotation guiding portion 22a and the closed position side rotation guiding portion 22b, but the rotation guiding portion may be configured by a uniform one. I do not care. In addition, the lead angles αa and αb of the rotation guide portions 22a and 22b are not uniform and can be appropriately modified, for example, gradually decreasing from the open position side to the close position side.

〔リセット手段〕
本実施形態のガス栓は、一定以上の流量のガスgが流れると当該ガス供給を遮断するために、図6に示すように、特定ガス流通路としてのガス流入路1Aには、過流出防止弁H2を備えた過流出防止機構Hが設けられており、更に、閉じ位置と開き位置との間でのスライド弁G'の移動により過流出防止弁H2をリセットさせるリセット操作を行うリセット手段Rが設けられている。
ここで、過流出防止弁H2及びリセット手段Rの構成については、上記第1実施形態の構成の一部を改変した構成を採用している。具体的には、第1実施形態にあっては、第1磁性体R13と第2磁性体R2との間には、磁力としての引力を発揮させていたが、本実施形態においては、反発力を発揮させている。このため、以下では、当該リセット手段Rにつき、第1実施形態から改変している部分を主に説明する。
本実施形態においては、リセット手段Rは、ガス流通路1の軸方向に移動自在で過流出防止機構Hの被操作部材H3を押圧操作可能な移動部材R4と、当該移動部材R4とスライド弁G'とを互いに引き付ける付勢力を発揮する第1付勢部材F1と、スライド弁G'の上流側端部からガス流通路1の上流側に伸びるようにスライド弁G'に一体的に形成された棒状部材の先端に設けられる第1磁性体R13と、当該第1磁性体R13との間で反発力を生じる状態で移動部材R4に設けられた第2磁性体R2とを備えて構成されている。
当該構成により、スライド弁G'が開き位置にあるときに過流出防止弁H2が作動位置に移動することでガス流通が阻止された状態(図8参照)で、スライド弁G'の開き位置から閉じ位置への移動(図8から図10への移動)に伴って、第1磁性体R13と第2磁性体R2との間の反発力が大きくなると共に、第1付勢部材F1による移動部材R4をスライド弁G'の側へ引き付ける力が弱まり、移動部材R4が、過流出防止機構Hの側へ移動する。これにより、過流出防止弁H2の弁座部H6への着座が解除されて、第3付勢部材F3の付勢力によって過流出防止弁H2が初期位置に復帰される形態で、リセット操作が行われる。
[Reset means]
Since the gas plug of the present embodiment shuts off the gas supply when a gas g having a flow rate above a certain level flows, as shown in FIG. 6, the gas inflow path 1A as the specific gas flow path has an overflow prevention function. An overflow prevention mechanism H having a valve H2 is provided, and a reset means R for performing a reset operation for resetting the overflow prevention valve H2 by movement of the slide valve G ′ between the closed position and the open position. Is provided.
Here, with respect to the configurations of the overflow prevention valve H2 and the reset means R, a configuration obtained by modifying a part of the configuration of the first embodiment is employed. Specifically, in the first embodiment, an attractive force as a magnetic force is exerted between the first magnetic body R13 and the second magnetic body R2, but in this embodiment, the repulsive force Is demonstrated. For this reason, below, the part which is changing from 1st Embodiment about the said reset means R is mainly demonstrated.
In the present embodiment, the reset means R is movable in the axial direction of the gas flow passage 1 and is capable of pressing the operated member H3 of the excessive outflow prevention mechanism H, the moving member R4 and the slide valve G. Are formed integrally with the slide valve G ′ so as to extend from the upstream end of the slide valve G ′ to the upstream side of the gas flow passage 1. The first magnetic body R13 provided at the tip of the rod-shaped member and the second magnetic body R2 provided in the moving member R4 in a state in which a repulsive force is generated between the first magnetic body R13 and the first magnetic body R13. .
With this configuration, when the slide valve G ′ is in the open position, the excessive outflow prevention valve H2 moves to the operating position, thereby preventing gas flow (see FIG. 8) from the open position of the slide valve G ′. With the movement to the closed position (movement from FIG. 8 to FIG. 10), the repulsive force between the first magnetic body R13 and the second magnetic body R2 increases, and the moving member by the first biasing member F1. The force that attracts R4 toward the slide valve G ′ is weakened, and the moving member R4 moves toward the excessive outflow prevention mechanism H. As a result, the seating of the overflow prevention valve H2 on the valve seat portion H6 is released, and the reset operation is performed in such a manner that the overflow prevention valve H2 is returned to the initial position by the urging force of the third urging member F3. Is called.

<別実施形態>
(1)上記実施形態では、第1磁性体R1と第2磁性体R2の双方を永久磁石とする構成をしめしたが、一方を強磁性体とし他方を永久磁石としても構わない。
<Another embodiment>
(1) In the above embodiment, the first magnetic body R1 and the second magnetic body R2 are both configured as permanent magnets, but one may be a ferromagnetic body and the other may be a permanent magnet.

(2)第1実施形態では、複数の流路部位における中心軸を同一として、ガス流通路1を一直線状に設けられているが、例えば、図5に示すように、ガス流通路1の上流側部位(第1〜第2流路部位1a〜1b)における中心軸と、中流側部位(第3流路部位1c)における中心軸と、下流側部位(第4〜第7流路部位1g〜1g)における中心軸とを、流路径方向にずらした直線状のガス流通路1を設けることもできる。このように、ガス流通路1をガス栓本体2の軸方向に沿う直線状に設けるとは、第1実施形態の如く、一直線とするものに限らず、図5に示すように、流路径方向にずらしたものも含まれるものとする。
そして、図5に示すものでも、第1実施形態と同様に、ガス栓本体2事態は直線状に設けることができ、ガス栓本体2をコンパクトに構成することができる。
(2) In the first embodiment, the central axes of the plurality of flow path portions are the same, and the gas flow path 1 is provided in a straight line. For example, as shown in FIG. A central axis in the side portion (first to second flow passage portions 1a to 1b), a central axis in the middle flow portion (third flow passage portion 1c), and a downstream portion (fourth to seventh flow passage portions 1g to 1g). It is also possible to provide a linear gas flow passage 1 in which the central axis in 1g) is shifted in the flow path radial direction. Thus, the provision of the gas flow passage 1 in a straight line along the axial direction of the gas plug body 2 is not limited to a straight line as in the first embodiment, but as shown in FIG. Also included are those that are misplaced.
Also in the case shown in FIG. 5, as in the first embodiment, the gas plug main body 2 can be provided in a straight line, and the gas plug main body 2 can be configured compactly.

(3)上記実施形態においては、第1磁性体R13又は第2磁性体R2に異物が付着して、当該異物により第1磁性体R13と第2磁性体R2との間に作用する磁力が阻害されることを防止すべく、第1磁性体R13と第2磁性体R2との間の空間を、ガス流通路1から隔離する筒状の部材を設けることが好ましい。当該筒状の部材は、伸縮性を有することが好ましく、第1磁性体R13と第2磁性体R2との間隔が変動する場合にも、その間隔の変動に追従して伸縮する状態で設けられる。 (3) In the above embodiment, foreign matter adheres to the first magnetic body R13 or the second magnetic body R2, and the magnetic force acting between the first magnetic body R13 and the second magnetic body R2 is inhibited by the foreign matter. In order to prevent this, it is preferable to provide a cylindrical member that isolates the space between the first magnetic body R13 and the second magnetic body R2 from the gas flow passage 1. The cylindrical member preferably has stretchability, and is provided in a state of expanding and contracting following the change in the interval even when the interval between the first magnetic body R13 and the second magnetic body R2 varies. .

(4)これまで説明した実施形態では、スライド弁Gの外面がガス流通路1の内面に着座してガス流通路1を閉止する例を示したが、例えば、ガス流通路1の内面にシール部材を設け、当該シール部材にスライド弁Gが着座する形態で、ガス流通路1を閉止するようにしても構わない。 (4) In the embodiment described so far, the example in which the outer surface of the slide valve G is seated on the inner surface of the gas flow passage 1 to close the gas flow passage 1 is shown. A member may be provided, and the gas flow passage 1 may be closed in a form in which the slide valve G is seated on the seal member.

本発明のガス栓は、過流出防止機構の過流出防止弁をリセットするリセット手段において、当該リセット手段を比較的簡易な構成にて実現しながらも、当該リセット手段と他の部材との接触によるリセット手段の損傷を防止できるガス栓として、有効に利用可能である。   According to the gas stopper of the present invention, the reset means for resetting the overflow prevention valve of the overflow prevention mechanism is based on contact between the reset means and another member while realizing the reset means with a relatively simple configuration. It can be effectively used as a gas stopper that can prevent damage to the reset means.

1 :ガス流通路
2 :ガス栓本体
G :スライド弁
H :過流出防止機構
H2 :過流出防止弁
H3 :被操作部材(被操作部)
R :リセット手段
R1 :第1磁性体
R2 :第2磁性体
F1 :第1付勢部材
R4 :移動部材
100 :ガス接続具
105 :押圧部
1: Gas flow passage 2: Gas stopper body G: Slide valve H: Overflow prevention mechanism H2: Overflow prevention valve H3: Operated member (operated part)
R: reset means R1: first magnetic body R2: second magnetic body F1: first urging member R4: moving member 100: gas connector 105: pressing portion

Claims (7)

ガス流通路が内部に形成された筒状のガス栓本体に、閉じ位置と開き位置との間で前記ガス栓本体の軸方向に移動自在なスライド弁と、前記ガス流通路のガス流通方向で前記スライド弁よりも上流側に配置された過流出防止弁と、前記ガス流通方向で前記スライド弁と前記過流出防止弁との間に配置されて、前記閉じ位置と前記開き位置との間での前記スライド弁の移動により前記過流出防止弁をリセットさせるリセット操作を行うリセット手段とが備えられているガス栓であって、
前記リセット手段は、前記ガス栓本体の軸方向に移動自在な移動部材を前記リセット操作を行う操作側又は当該操作側とは反対側の操作解除側の何れか一方側に付勢する付勢部材と、前記閉じ位置と前記開き位置との間の前記スライド弁の移動に伴って前記操作側又は前記操作解除側の何れか他方側への磁力を前記移動部材に作用させる磁力作用手段とを備えているガス栓。
A cylindrical gas stopper body having a gas flow passage formed therein, a slide valve movable in the axial direction of the gas stopper body between a closed position and an open position, and a gas flow direction of the gas flow passage An overflow prevention valve disposed upstream of the slide valve, and disposed between the slide valve and the overflow prevention valve in the gas flow direction, between the closed position and the open position. A gas stopper provided with reset means for performing a reset operation to reset the overflow prevention valve by movement of the slide valve,
The reset means biases a moving member that is movable in the axial direction of the gas plug main body to either the operation side for performing the reset operation or the operation release side opposite to the operation side. And magnetic force application means for causing the moving member to act on the other side of the operation side or the operation release side as the slide valve moves between the closed position and the open position. Gas tap.
前記磁力作用手段は、前記スライド弁に設けられた第1磁性体と前記移動部材に設けられた第2磁性体とから成り、前記閉じ位置から前記開き位置への前記スライド弁の移動に伴って、前記第1磁性体と前記第2磁性体との間に生じる磁力としての引力又は反発力を前記移動部材に作用させる請求項1に記載のガス栓。   The magnetic force acting means is composed of a first magnetic body provided on the slide valve and a second magnetic body provided on the moving member, and accompanying the movement of the slide valve from the closed position to the open position. The gas stopper according to claim 1, wherein an attractive force or a repulsive force as a magnetic force generated between the first magnetic body and the second magnetic body is applied to the moving member. 前記移動部材は、前記ガス流通路の内壁に沿う案内面を有し前記案内面が前記内壁に沿う状態で、摺動自在に設けられている請求項1又は2に記載のガス栓。   The gas stopper according to claim 1, wherein the moving member has a guide surface along an inner wall of the gas flow passage and is slidably provided in a state where the guide surface is along the inner wall. 前記付勢部材は、前記スライド弁と前記移動部材との間に設けられ、前記移動部材を前記操作側又は操作解除側へ付勢するとともに、前記スライド弁を前記開き位置から前記閉じ位置の側又は前記閉じ位置から前記開き位置の側へ付勢するように設けられている、請求項1〜3の何れか一項に記載のガス栓。   The biasing member is provided between the slide valve and the moving member, biases the moving member toward the operation side or the operation release side, and moves the slide valve from the open position to the closed position side. Or the gas stopper as described in any one of Claims 1-3 provided so that it may bias to the side of the said open position from the said closed position. 前記ガス流通路は、上流側から順に、前記過流出防止弁、前記リセット手段、前記スライド弁を備えて、前記ガス栓本体の軸方向に沿う直線状に設けられている請求項1〜4の何れか一項に記載のガス栓。   The gas flow passage is provided with the overflow prevention valve, the reset means, and the slide valve in order from the upstream side, and is provided in a linear shape along the axial direction of the gas plug body. The gas stopper according to any one of the above. 前記スライド弁が、前記ガス栓本体に対するガス接続具の装着及び取り外しに伴って前記閉じ位置と前記開き位置との間で移動する請求項1〜5の何れか1項に記載のガス栓。   The gas plug according to any one of claims 1 to 5, wherein the slide valve moves between the closed position and the open position as the gas connector is attached to and detached from the gas plug main body. 前記スライド弁が、操作部に対する押圧操作に伴って前記閉じ位置と前記開き位置との間で移動する請求項1〜5の何れか1項に記載のガス栓。   The gas stopper according to any one of claims 1 to 5, wherein the slide valve moves between the closed position and the open position in accordance with a pressing operation with respect to the operation unit.
JP2012060456A 2011-03-16 2012-03-16 Gas stopper Active JP5865142B2 (en)

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