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JP2009270365A - Injection opening implement of bag body and its mounting method to bag body - Google Patents

Injection opening implement of bag body and its mounting method to bag body Download PDF

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JP2009270365A
JP2009270365A JP2008122615A JP2008122615A JP2009270365A JP 2009270365 A JP2009270365 A JP 2009270365A JP 2008122615 A JP2008122615 A JP 2008122615A JP 2008122615 A JP2008122615 A JP 2008122615A JP 2009270365 A JP2009270365 A JP 2009270365A
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opening
bag body
flange member
injection
bag
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JP4959626B2 (en
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Shinichi Nishiyama
新一 西山
Takeshi Honma
毅 本間
Junichi Goto
順一 後藤
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Ashimori Industry Co Ltd
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Ashimori Industry Co Ltd
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  • Bag Frames (AREA)
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Abstract

<P>PROBLEM TO BE SOLVED: To provide an injection opening implement to be easily and rigidly mounted to a bag body at the site and provide a method for mounting the injection opening implement to a bag body. <P>SOLUTION: The injection opening implement 1 is provided with: an injection pipe 2 passed through an opening part 51 formed in a bag body 50; a flange member 3 integrally provided for the injection pipe 2 and arranged in the bag body 50 in such a way as to be in contact with the inner surface of a circumferential edge part of the opening part 51; a pressing member 4 for holding the circumferential edge part of the opening part 51 from both sides with the flange member 3; a plurality of bolts 6 for pressing the pressing member 4 to the side of the flange member 3; and a bolt support member 5 to be mounted to the injection pipe 2 by the formation of a plurality of bolt holes 5a to be engaged with the plurality of bolts. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、土木用袋体の内部に注入材を注入するために土木用袋体に取り付けられる注入口具、及び、袋体への注入口具の取付方法に関する。   The present invention relates to an injection port device attached to a civil engineering bag body in order to inject an injection material into the civil engineering bag body, and a method of attaching the injection port device to the bag body.

従来から、各種土木工事において、モルタルなどの流動性を有する注入材を充填するために土木用袋体が使用されている。例えば、トンネルの施工の際、掘削されたトンネルの内側に、トンネル内壁に沿ったアーチ状の支保工を設置し、この支保工の外周面に透水性を有する長尺の袋体を取り付け、袋体内部にモルタルやコンクリート等の注入材を注入して硬化させることにより、トンネル内壁を支持する工法がある(例えば、特許文献1参照)。また、法面の崩壊防止のブロックを設置する際に、法面とブロックとの間に袋体を設置し、この袋体内部に注入材を注入して、法面とブロックとの間の隙間を埋める工法がある(例えば、特許文献2参照)。   Conventionally, in various civil engineering works, civil engineering bags have been used to fill infusion materials having fluidity such as mortar. For example, when constructing a tunnel, an arch-shaped support along the inner wall of the tunnel is installed inside the excavated tunnel, and a long bag body having water permeability is attached to the outer peripheral surface of the support. There is a construction method for supporting an inner wall of a tunnel by injecting an injection material such as mortar or concrete into the body and curing it (see, for example, Patent Document 1). In addition, when installing a block to prevent the slope from collapsing, a bag is installed between the slope and the block, and an injection material is injected into the bag, so that the gap between the slope and the block is There is a construction method that fills (see, for example, Patent Document 2).

このような工法で使用される袋体は、例えば、筒状の織物の両端部が糸や接着剤で閉じられることにより形成されるとともに、一般的には、注入材を注入するための注入口具が取り付けられる。   The bag body used in such a construction method is formed by, for example, closing both ends of a cylindrical woven fabric with a thread or an adhesive, and generally, an injection port for injecting an injection material A tool is attached.

このような注入口具として、例えば、特許文献3には、袋体の内側に配置されゴム材料で形成された漏斗状の内筒と、内筒に外嵌される漏斗状の外筒とからなる注入口具が開示されている。内筒は、袋体に形成された開口部を貫通する筒状部と、開口部よりも径の大きいテーパー状の鍔部とから構成される。外筒は、内筒の筒状部よりも径の大きい筒状部と、開口部の周縁部の外面に当接するテーパー状の鍔部とから構成される。内筒はゴム材料で形成されており、袋体に注入材を注入した際の注入圧力により、内筒の鍔部が外筒の鍔部側へ押圧されることによって、この2つの鍔部の間で開口部の周縁部が挟持される。また、開口部の径は、内筒の筒状部の外径とほぼ同じであって、鍔部の外径よりも小さい。また、注入口具を袋体へ取り付けるには、袋体の製造時に、筒状袋体の内部から内筒の筒状部を開口部に挿入して、内筒の鍔部を開口部の周縁部の内面に当接させている。   As such an injection port device, for example, Patent Document 3 includes a funnel-shaped inner cylinder that is disposed inside a bag body and formed of a rubber material, and a funnel-shaped outer cylinder that is externally fitted to the inner cylinder. An inlet device is disclosed. An inner cylinder is comprised from the cylindrical part which penetrates the opening part formed in the bag body, and the taper-shaped collar part with a larger diameter than an opening part. The outer cylinder includes a cylindrical part having a larger diameter than the cylindrical part of the inner cylinder, and a tapered flange part that comes into contact with the outer surface of the peripheral part of the opening. The inner cylinder is formed of a rubber material. By the injection pressure when the injection material is injected into the bag body, the collar part of the inner cylinder is pressed toward the collar part side of the outer cylinder. The peripheral edge of the opening is sandwiched between them. The diameter of the opening is substantially the same as the outer diameter of the cylindrical portion of the inner cylinder, and is smaller than the outer diameter of the collar portion. In addition, in order to attach the injection port device to the bag body, the cylindrical portion of the inner cylinder is inserted into the opening portion from the inside of the cylindrical bag body and the collar portion of the inner cylinder is inserted into the periphery of the opening portion when the bag body is manufactured. It is made to contact | abut to the inner surface of a part.

また、特許文献4には、袋体に形成された開口部を貫通する注入管と、注入管の端部に形成され、袋体の内部に配置される環板状のフランジ部と、フランジ部材との間で開口部の周縁部を挟持する環板状の押さえ部材とからなる注入口具が開示されている。注入管の外周面と押さえ部材の内周面には、互いに螺合するネジ溝が形成されており、押さえ部材を注入管にねじ入れることによって、押さえ部材とフランジ部材と間で開口部の周縁部が挟持される。また、開口部の大きさは、注入管の外径とほぼ同じであって、フランジ部材及び押さえ部材の外径よりも小さい。   Further, Patent Document 4 discloses an injection pipe that penetrates an opening formed in a bag body, an annular plate-shaped flange section that is formed at an end of the injection pipe and is disposed inside the bag body, and a flange member. And an annular plate-shaped pressing member that sandwiches the peripheral edge portion of the opening portion between the two. The outer peripheral surface of the injection tube and the inner peripheral surface of the pressing member are formed with screw grooves that are screwed to each other. By screwing the pressing member into the injection tube, the peripheral edge of the opening between the pressing member and the flange member The part is pinched. Further, the size of the opening is substantially the same as the outer diameter of the injection tube and is smaller than the outer diameters of the flange member and the pressing member.

特開平9−195685号公報Japanese Patent Laid-Open No. 9-195585 特開2003−13455号公報JP 2003-13455 A 特開平7−257608号公報JP 7-257608 A 特公昭46−25345号公報Japanese Patent Publication No.46-25345

しかしながら、特許文献3の注入口具の場合、内筒はゴム材料で形成されており、柔軟性を有するため、例えば、内筒の筒状部に注入ホースを装着したとき、注入ホースの重量により、鍔部が変形し、鍔部が開口部から抜ける場合がある。そのため、内筒の鍔部が開口部から抜けないようにするには、開口部の径を、鍔部の外径よりも小さく、筒状部の外径とほぼ同じにする必要がある。そのため、開口部から内筒の鍔部を袋体内に入れることができないため、注入口具を袋体に取り付けるには、袋体の端部を閉じる前に、もしくは、既に接着剤等で閉じられている端部を一旦切り開いて、その端部から内筒を挿入する必要がある。   However, in the case of the injection port device of Patent Document 3, since the inner cylinder is formed of a rubber material and has flexibility, for example, when the injection hose is attached to the cylindrical portion of the inner cylinder, In some cases, the collar part is deformed and the collar part comes out of the opening. Therefore, in order to prevent the collar part of the inner cylinder from coming out of the opening part, the diameter of the opening part needs to be smaller than the outer diameter of the collar part and substantially the same as the outer diameter of the cylindrical part. For this reason, since the collar portion of the inner cylinder cannot be put into the bag body through the opening, the injection port device can be attached to the bag body either before closing the end of the bag body or already with an adhesive or the like. It is necessary to cut the opened end once and insert the inner cylinder from the end.

また、特許文献4の注入口具の場合、押さえ部材とフランジ部材との間で、開口部の周縁部をねじりつつ挟持するため、強固に挟持しようとすると袋体が破損しやすい。また、開口部の大きさが注入管の外径よりも大きい場合、開口部の周縁部がねじれることにより、開口部の中心が注入管の中心からずれて、袋体がフランジ部材と注入口具から抜けたり、注入材が外部に漏れたりする場合がある。   In addition, in the case of the injection port device of Patent Document 4, since the peripheral edge of the opening is twisted between the pressing member and the flange member, the bag body tends to be damaged if it is firmly held. Further, when the size of the opening is larger than the outer diameter of the injection tube, the periphery of the opening is twisted, so that the center of the opening is displaced from the center of the injection tube, so that the bag body is connected to the flange member and the injection port device. Or the injected material may leak to the outside.

また、特許文献1の工法のように、透水性を有する長尺の袋体に注入材を注入する際、注入の途中でポンプのトラブル等により注入を停止した場合、注入材に含まれる水が袋体の表面から徐々に流出して注入材の流動性が低下し、袋体内に完全に注入材を充填できない場合がある。また、特許文献2の工法では、法面に凹凸がある場合、袋体の一部が法面の凸部とブロックとの間に挟まれて閉塞し、注入材を完全に充填できない場合がある。また、特に、施工時間の短縮のために速硬性のモルタル等を使用する場合、注入を途中で停止すると、モルタルが硬化してそれ以上注入できなくなる場合がある。これらのような場合に、袋体内の残りの空間に注入材を充填するために、袋体の初期注入口とは別の位置に、注入口具を取り付けて、ここから新たに注入する必要がある。   Moreover, when inject | pouring an injection material into the elongate bag body which has water permeability like the construction method of patent document 1, when injection | pouring is stopped by the trouble of a pump etc. in the middle of injection | pouring, the water contained in an injection material will be contained. In some cases, the bag gradually flows out from the surface of the bag body, and the fluidity of the injection material decreases, and the bag body cannot be completely filled with the injection material. Moreover, in the construction method of Patent Document 2, when the slope is uneven, a part of the bag body is sandwiched between the slope of the slope and the block and blocked, and the injection material may not be completely filled. . In particular, when using a fast-hardening mortar or the like for shortening the construction time, if the injection is stopped halfway, the mortar may harden and cannot be injected any more. In such a case, in order to fill the remaining space in the bag with the injection material, it is necessary to install an injection port device at a position different from the initial injection port of the bag body and to inject a new one from here. is there.

しかしながら、特許文献3の注入口具は、上述した理由により、開口部の径が内筒の鍔部の外径よりも小さいため、内筒の鍔部を開口部から袋体内に挿入することができない。そのため、現場で注入口具を取り付けるには、袋体の閉じられている端部を一旦切り開き、そこから内筒を挿入して注入口具の取り付け位置まで移動させなければならない。そのため、切り開いた端部を閉じるために、手間と時間を要し、また、ミシンや融着機などの大がかりな機器も必要となる。また、特に、切り開いた端部から注入口具の取り付け位置までの距離が長い場合、袋体内で内筒を移動させる作業には、多大な時間を要する。   However, since the diameter of the opening is smaller than the outer diameter of the flange of the inner cylinder for the reason described above, the injection port device of Patent Document 3 can insert the flange of the inner cylinder into the bag body from the opening. Can not. Therefore, in order to attach the injection port device at the site, it is necessary to once open the closed end of the bag body, insert the inner cylinder from there, and move it to the mounting position of the injection port device. For this reason, it takes time and effort to close the opened end, and a large-scale device such as a sewing machine or a fusion machine is also required. In particular, when the distance from the cut end to the attachment position of the injection port device is long, it takes a lot of time to move the inner cylinder in the bag.

また、袋体に比較的大きな開口部を形成して、内筒の鍔部をこの開口部を通して袋体内に挿入することも考えられるが、内筒の鍔部は柔軟性を有しており開口部から抜けやすいため、鍔部と開口部の周縁部とを縫着等によって固定する必要があり、手間を要する。また、接着剤を用いて固定する場合、固まるまでに時間を要するため、すぐに注入を行うことができない。   It is also conceivable to form a relatively large opening in the bag body and insert the collar portion of the inner cylinder into the bag body through this opening portion, but the collar portion of the inner cylinder has flexibility and is open. Since it is easy to come off from the part, it is necessary to fix the collar part and the peripheral edge part of the opening part by sewing or the like, which is troublesome. Moreover, when it fixes using an adhesive agent, since time is required until it hardens, it cannot inject | pour immediately.

また、特許文献4の注入口具を現場で取り付ける場合にも、袋体に比較的大きい開口部を形成し、そこからフランジ部材を袋体内部に挿入する方法が考えられるが、上述したように、開口部の大きさが注入管の外径よりも大きい場合、袋体がフランジ部材と注入口具から抜けたり、注入材が外部に漏れたりする場合がある。   In addition, even when the injection port device of Patent Document 4 is attached on site, a method of forming a relatively large opening in the bag body and inserting the flange member into the bag body from there can be considered. When the size of the opening is larger than the outer diameter of the injection tube, the bag body may come off from the flange member and the injection port or the injection material may leak to the outside.

そこで、本発明は、現場において容易にしかも強固に袋体に取り付けられる注入口具、及び、袋体への注入口具の取付方法を提供することを目的とする。   Therefore, an object of the present invention is to provide an injection port device that can be easily and firmly attached to a bag body in the field, and a method for attaching the injection port device to the bag body.

課題を解決するための手段及び発明の効果Means for Solving the Problems and Effects of the Invention

請求項1の袋体の注入口具は、袋体に形成された開口部を貫通する注入管と、前記注入管に一体的に設けられるとともに、前記開口部の周縁部の内面に当接するように前記袋体内に配置されるフランジ部材と、前記フランジ部材との間で前記開口部の前記周縁部を挟持する押さえ部材と、前記押さえ部材を前記フランジ部材側へ押圧する複数のボルトと、前記複数のボルトが螺合される複数のボルト孔が形成されており、前記注入管に取り付けられるボルト支持部材と、を備えることを特徴とする。   The injection port device of the bag body according to claim 1 is provided integrally with the injection pipe penetrating the opening formed in the bag body, and the inner surface of the peripheral edge of the opening. A flange member disposed in the bag body, a pressing member that sandwiches the peripheral edge portion of the opening between the flange member, a plurality of bolts that press the pressing member toward the flange member, A plurality of bolt holes into which a plurality of bolts are screwed are formed, and a bolt support member attached to the injection pipe is provided.

この構成によると、ボルト支持部材のボルト孔に螺合されたボルトを押さえ部材側にねじ込むことによって、押さえ部材とフランジ部材側との間で、袋体の開口部の周縁部を強固に挟持することができる。また、挟持する際、押さえ部材とフランジ部材との間で開口部の周縁部がねじれることがない。そのため、たとえ開口部の大きさが注入管の外径よりも大きい場合であっても、開口部の中心が注入管の中心からずれにくい。従って、注入圧によって袋体に引張力が作用しても、開口部の周縁部はフランジ部材と押さえ部材の間から抜けにくく、また、袋体内の注入材が外部に漏れにくい。また、フランジ部材は硬質な材料で形成されるため、袋体の設置作業中等に、フランジ部材が変形して開口部から抜けることもない。   According to this configuration, the peripheral portion of the opening of the bag body is firmly held between the pressing member and the flange member side by screwing the bolt screwed into the bolt hole of the bolt supporting member into the pressing member side. be able to. Further, when sandwiching, the peripheral edge portion of the opening is not twisted between the pressing member and the flange member. Therefore, even if the size of the opening is larger than the outer diameter of the injection tube, the center of the opening is unlikely to deviate from the center of the injection tube. Therefore, even if a tensile force acts on the bag body due to the injection pressure, the peripheral edge portion of the opening portion is unlikely to come out between the flange member and the pressing member, and the injection material in the bag body hardly leaks to the outside. Further, since the flange member is formed of a hard material, the flange member is not deformed and does not come out of the opening during the installation work of the bag body.

請求項2の袋体の注入口具は、請求項1において、前記フランジ部材及び前記押さえ部材の少なくとも一方は、その外周部における前記袋体の前記周縁部を挟持する側が、面取りされていることを特徴とする。   The bag mouth filler according to claim 2 is the bag inlet of claim 1, wherein at least one of the flange member and the pressing member is chamfered on a side of the outer periphery of the bag body that sandwiches the peripheral portion. It is characterized by.

この構成によると、袋体を持ち運ぶ際や、注入圧力によって袋体が膨張した際などに、フランジ部材又は押さえ部材によって袋体に傷が付くのを防止することができる。   According to this configuration, it is possible to prevent the bag body from being damaged by the flange member or the pressing member when the bag body is carried or when the bag body is expanded by the injection pressure.

請求項3の袋体の注入口具は、請求項1又は2において、前記フランジ部材及び前記押さえ部材の少なくとも一方は、前記袋体の前記周縁部を挟持する部分において、凸状の曲面形状に形成されていることを特徴とする。   An injection port device for a bag body according to claim 3 is characterized in that, in claim 1 or 2, at least one of the flange member and the pressing member has a convex curved shape at a portion sandwiching the peripheral edge portion of the bag body. It is formed.

フランジ部材及び押さえ部材が、開口部の周縁部を挟持する部分において、平坦に形成されている場合、開口部の周縁部を面接触で挟持する。一方、フランジ部材及び押さえ部材の少なくとも一方が、開口部の周縁部を挟持する部分において、凸状の曲面形状に形成されている場合、開口部の周縁部を線接触で挟持する。そのため、開口部の周縁部をより強固に挟持することができる。   When the flange member and the pressing member are formed flat in the portion sandwiching the peripheral portion of the opening, the peripheral portion of the opening is sandwiched by surface contact. On the other hand, in the case where at least one of the flange member and the pressing member is formed in a convex curved surface shape in a portion that sandwiches the peripheral portion of the opening, the peripheral portion of the opening is sandwiched by line contact. As a result, the peripheral edge of the opening can be clamped more firmly.

請求項4の袋体への注入口具の取付方法は、袋体に形成された開口部を貫通する注入管と、前記注入管に一体的に設けられたフランジ部材と、前記フランジ部材に対向して配置される押さえ部材と、前記押さえ部材を前記フランジ部材側へ押圧するための複数のボルトと、前記複数のボルトが螺合される複数のボルト孔が形成されており、前記注入管に取り付けられるボルト支持部材とを備える注入口具を、袋体に取り付ける注入口具の取付方法であって、前記袋体に前記注入口具を取り付けるための前記開口部を形成する開口部形成工程と、前記フランジ部材を前記開口部から前記袋体内に挿入するフランジ部材挿入工程と、前記押さえ部材と前記フランジ部材との間に前記開口部の周縁部を介在させた後、前記ボルト孔に螺合された前記ボルトによって、前記押さえ部材を前記フランジ側に押圧して、前記押さえ部材と前記フランジ部材との間で前記開口部の周縁部を挟持する袋体挟持工程とを備えており、さらに、前記開口部形成工程において、前記フランジ部材の外径よりも小さい開口幅を有する開口部を形成し、前記フランジ部材挿入工程において、前記袋体の前記開口部に関して両側部分を前記袋体の面方向に関して引っ張って、前記開口部の開口幅を広げた状態で、前記フランジ部材を前記開口部に挿入することを特徴とする。   The method of attaching the injection port device to the bag body according to claim 4 includes an injection pipe that penetrates an opening formed in the bag body, a flange member that is provided integrally with the injection pipe, and the flange member. Are formed, a plurality of bolts for pressing the pressing member toward the flange member, and a plurality of bolt holes into which the plurality of bolts are screwed. An injection port device for mounting an injection port device including a bolt support member to be mounted on a bag body, the opening forming step for forming the opening portion for mounting the injection port device on the bag body; A flange member inserting step of inserting the flange member into the bag body from the opening, and a peripheral portion of the opening is interposed between the pressing member and the flange member, and then screwed into the bolt hole. Said A bag body clamping step of pressing the pressing member against the flange side by a bolt and clamping a peripheral edge portion of the opening between the pressing member and the flange member, and further, the opening In the forming step, an opening having an opening width smaller than the outer diameter of the flange member is formed, and in the flange member inserting step, both side portions of the bag body are pulled with respect to the surface direction of the bag body. The flange member is inserted into the opening with the opening width of the opening widened.

袋体は、一般的に織物等で構成されており柔らかいため、袋体の開口部に関して両側部分を袋体の面方向に引っ張ることにより、開口部は変形して引張方向に開口幅が広げられる。そのため、広げられた状態の開口部に、袋体の外部からフランジ部材を挿入することができる。そして、ボルト支持部材のボルト孔に螺合されたボルトを押さえ部材側にねじ込むことによって、押さえ部材とフランジ部材側との間で、袋体の開口部の周縁部が強固に挟持される。このような方法で取り付けることによって、たとえ開口部の径が小さい異径筒状の袋体であっても、外部から注入口具を簡易に取り付けることができる。従って、現場において容易に注入口具を袋体に取り付けることができる。また、挟持する際、押さえ部材とフランジ部材との間で開口部の周縁部がねじれることがない。そのため、開口部の中心が注入管の中心からずれにくい。従って、注入圧によって袋体に引張力が作用しても、開口部の周縁部はフランジ部材と押さえ部材の間から抜けにくく、また、袋体内の注入材が外部に漏れにくい。また、フランジ部材は硬質な材料で形成されるため、袋体の設置作業中等に、フランジ部材が変形して開口部から抜けることもない。   Since the bag body is generally composed of a woven fabric or the like and is soft, by pulling both side portions in the plane direction of the bag body with respect to the opening portion of the bag body, the opening portion is deformed and the opening width is widened in the tensile direction. . Therefore, the flange member can be inserted from the outside of the bag body into the opened opening. And the peripheral part of the opening part of a bag body is firmly clamped between the pressing member and the flange member side by screwing the bolt screwed into the bolt hole of the bolt support member to the pressing member side. By attaching by such a method, even if it is a bag body of a different diameter cylinder shape with a small diameter of an opening part, an injection tool can be easily attached from the outside. Therefore, the injection port device can be easily attached to the bag body at the site. Further, when sandwiching, the peripheral edge portion of the opening is not twisted between the pressing member and the flange member. For this reason, the center of the opening is not easily displaced from the center of the injection tube. Therefore, even if a tensile force acts on the bag body due to the injection pressure, the peripheral edge portion of the opening portion is unlikely to come out between the flange member and the pressing member, and the injection material in the bag body hardly leaks to the outside. Further, since the flange member is formed of a hard material, the flange member is not deformed and does not come out of the opening during the installation work of the bag body.

請求項5の袋体への注入口具の取付方法は、請求項4において、前記開口部が、円形状の穴であることを特徴とする。   According to a fifth aspect of the present invention, there is provided a method for attaching an injection port to a bag body according to the fourth aspect, wherein the opening is a circular hole.

この構成によると、開口部の両側を引っ張って開口部を大きくする際、開口部の一部に局所的に大きな力が作用しにくい。そのため、袋体が開口部の一部から裂けるのを防止することができる。   According to this configuration, when the opening is enlarged by pulling both sides of the opening, a large force is unlikely to act locally on a part of the opening. Therefore, it is possible to prevent the bag body from tearing from a part of the opening.

請求項6の袋体への注入口具の取付方法は、請求項5において、広げられる前の前記開口幅が、前記フランジ部材の前記外径の65〜75%であることを特徴とする。このような開口幅に設定することにより、開口部にフランジ部材を挿入しやすく、且つ、押さえ代を確保することができるため、注入圧によって袋体に引張力が作用しても、開口部の周縁部はフランジ部材と押さえ部材の間から抜けにくい。   According to a sixth aspect of the present invention, in the method for attaching the injection port device to the bag body according to the fifth aspect, the opening width before being spread is 65 to 75% of the outer diameter of the flange member. By setting such an opening width, it is easy to insert the flange member into the opening and the press margin can be secured, so even if a tensile force acts on the bag body by the injection pressure, The peripheral edge is difficult to come out between the flange member and the pressing member.

請求項7の袋体への注入口具の取付方法は、請求項4において、前記開口部が、放射状に形成された少なくとも4本以上のスリットであることを特徴とする。   According to a seventh aspect of the present invention, there is provided the method for attaching the injection port device to the bag body according to the fourth aspect, wherein the openings are at least four slits formed radially.

この構成によると、開口部が円形状の穴の場合に比べて、フランジ部材と押さえ部材のとの間で挟持される部分の面積が大きくなる。そのため、注入圧によって開口部の周縁部に引張力が作用した場合であっても、押さえ部材とフランジ部材との間から抜けにくくなる。   According to this configuration, the area of the portion sandwiched between the flange member and the pressing member is larger than when the opening is a circular hole. Therefore, even when a tensile force acts on the peripheral edge of the opening due to the injection pressure, it is difficult to come out between the pressing member and the flange member.

請求項8の袋体への注入口具の取付方法は、請求項4において、前記開口部が、前記注入管の外径とほぼ同じ径の円形状の穴と、この穴から放射状に形成された少なくとも4本以上のスリットとからなることを特徴とする。   According to an eighth aspect of the present invention, there is provided the method for attaching the injection port device to the bag body according to the fourth aspect, wherein the opening is formed with a circular hole having a diameter substantially the same as the outer diameter of the injection tube and radially formed from the hole. And at least four or more slits.

開口部がスリットのみで構成されている場合、注入管の周囲において、袋体の余った部分が折り畳まれた状態で挟持され、フランジ部材と押さえ部材のとの間で挟持される部分の厚さが不均一となるため、開口部の周縁部に作用する挟持力が部分的に低下し、袋体が注入口具から抜けやすくなる。また、この厚みの差によって隙間が生じ、この隙間から注入材が漏れる場合がある。一方、開口部が、注入管の外径とほぼ同じ径の円形状の穴と、スリットとから構成されている場合、上述したような折り畳まれる部分が生じることなく、フラットな状態で挟持されるため、部分的に挟持力が低減することがなく、また、上述したような隙間も生じない。その上、開口部が円形状の穴のみで構成されている場合に比べて、フランジ部材と押さえ部材との間で挟持される部分の面積を確保することができる。
さらに、円形状の穴に、ほぼ同じ径の注入管が貫通されるため、開口部が円形状の穴のみ、又は、スリットのみで構成されている場合に比べて、袋体とフランジ部材との位置ズレが生じにくく、開口部の中心に注入管が位置する。そのため、円形状の穴の周囲をほぼ均一に挟持することができる。
これらにより、注入圧によって袋体に引張力が作用しても、開口部の周縁部はフランジ部材と押さえ部材の間からより抜けにくく、また袋体内の注入材は外部により漏れにくくなる。
When the opening is composed only of slits, the thickness of the portion sandwiched between the flange member and the pressing member is sandwiched in a state where the remaining portion of the bag body is folded around the injection tube Therefore, the clamping force acting on the peripheral edge portion of the opening portion is partially reduced, and the bag body is easily removed from the injection port device. In addition, a gap may be generated due to the difference in thickness, and the injection material may leak from the gap. On the other hand, when the opening is composed of a circular hole having a diameter substantially the same as the outer diameter of the injection tube and a slit, the opening is sandwiched in a flat state without causing a folded portion as described above. Therefore, the clamping force is not partially reduced, and the gap as described above does not occur. In addition, the area of the portion sandwiched between the flange member and the pressing member can be ensured as compared with the case where the opening is configured only by a circular hole.
Furthermore, since the injection pipe having substantially the same diameter is penetrated through the circular hole, the opening and the flange member are compared with the case where the opening is configured only by the circular hole or only by the slit. Misalignment is unlikely to occur, and the injection tube is located at the center of the opening. Therefore, the periphery of the circular hole can be clamped almost uniformly.
As a result, even if a tensile force acts on the bag body due to the injection pressure, the peripheral edge portion of the opening is less likely to come out between the flange member and the pressing member, and the injection material in the bag body is less likely to leak to the outside.

請求項9の袋体への注入口具の取付方法は、請求項7又は8において、前記スリットが4本であって、広げられる前の前記開口幅が、前記フランジ部材の前記外径の71〜80%であることを特徴とする。このような開口幅に設定することにより、開口部にフランジ部材を挿入しやすく、且つ、押さえ代を確保できるため、注入圧によって袋体に引張力が作用しても、開口部の周縁部はフランジ部材と押さえ部材の間から抜けにくい。   A method for attaching the injection port device to the bag body according to claim 9 is the method according to claim 7 or 8, wherein the slit has four slits, and the opening width before being widened is 71 of the outer diameter of the flange member. It is characterized by ˜80%. By setting the opening width like this, it is easy to insert the flange member into the opening and the press margin can be secured, so even if a tensile force acts on the bag body by the injection pressure, the peripheral edge of the opening is It is difficult to come out between the flange member and the holding member.

請求項10の袋体への注入口具の取り付け方法は、請求項4〜9の何れかにおいて、前記袋体に予め設けられた注入口から袋体内へ注入材を注入している途中で、前記袋体の前記注入口以外の位置に前記注入口具を取り付ける際に行うことを特徴とする。注入材を注入している途中に、袋体内の注入材が硬化したり、袋体の一部が閉塞したりして、袋体内に注入材を完全に充填することができない場合に、現場において、袋体の適切な位置に注入口具を取り付けることができる。従って、袋体内の注入材を注入できなかった部分に注入材を注入することができる。   The method for attaching the injection port device to the bag body according to claim 10 is the method according to any one of claims 4 to 9, wherein the injection material is being injected into the bag body from an injection port previously provided in the bag body. It is performed when attaching the inlet device to a position other than the inlet of the bag. When the injection material in the bag is hardened or a part of the bag is blocked during the injection, the injection material cannot be completely filled in the bag. The injection port device can be attached to an appropriate position of the bag body. Therefore, an injection material can be inject | poured into the part which could not inject the injection material in a bag body.

以下、本発明の実施の形態について説明する。
図1に示すように、本実施形態の注入口具1は、土木用袋体(以下、単に袋体という)50に取り付けられている。
Embodiments of the present invention will be described below.
As shown in FIG. 1, the injection port device 1 of this embodiment is attached to a civil engineering bag body (hereinafter simply referred to as a bag body) 50.

袋体50は、例えば、法面と法面用ブロックとの隙間を埋めるために用いられるものとする。また、注入口具1は、現場において袋体50に取り付けられたものとする。具体的には、例えば、袋体50に予め設けられた注入口(図示省略)から袋体50内へ注入材を注入している途中に、法面の凹凸によって、袋体50の一部が法面とブロックとの間で挟まれて閉塞していたため、それ以上注入材を注入できなった場合に、袋体50の残りの空間に注入材を充填するために、現場において後から注入口具1を取り付けたものとする。尚、袋体50への注入口具1の取付方法の詳細については、後述する。   The bag body 50 shall be used, for example, to fill a gap between the slope and the slope block. Moreover, the injection tool 1 shall be attached to the bag body 50 in the field. Specifically, for example, a portion of the bag body 50 is formed by unevenness of the slope while the injection material is being injected into the bag body 50 from an injection port (not shown) provided in the bag body 50 in advance. In order to fill the remaining space of the bag body 50 with the injection material when the injection material cannot be injected any more because it is sandwiched between the slope and the block and closed, the injection port is used later on the site. The tool 1 shall be attached. In addition, the detail of the attachment method of the inlet 1 to the bag body 50 is mentioned later.

袋体50は、例えばポリエステル繊維・ナイロン繊維等の合成繊維により円筒状に織成された筒状の織物であって、その長手方向両端部を縫製又は接着などで閉塞したものである。また、複数枚の平面状織布を重ね合わせて対向する縁同士を縫着した袋体でもよい。袋体50は、透水性を有するものであってもよいが、上記織物の内面に樹脂加工を施した不透水性のものであってもよい。この場合には、袋体50の内面と注入口具1の後述するフランジ部材3との間には、ゴムパッキンを挟んだり、シーリング剤を塗付することが好ましい。   The bag body 50 is a cylindrical woven fabric woven in a cylindrical shape with synthetic fibers such as polyester fiber and nylon fiber, for example, and both ends in the longitudinal direction thereof are closed by sewing or bonding. Moreover, the bag body which piled up the several planar woven fabric and sewn the edge which opposes may be sufficient. The bag body 50 may be water-permeable, but may be water-impermeable with resin processing applied to the inner surface of the woven fabric. In this case, it is preferable to sandwich a rubber packing or apply a sealing agent between the inner surface of the bag body 50 and a flange member 3 described later of the inlet 1.

図2及び図3に示すように、袋体50には、注入口具1を取り付けるための開口部51が形成されている。開口部51は、円形状の穴であり、図2に示すように、開口部51の開口幅w(穴の径)は、注入口具1の後述するフランジ部材3の外径Dよりも小さい。 As shown in FIGS. 2 and 3, the bag body 50 is formed with an opening 51 for attaching the injection port device 1. The opening 51 is a circular hole, and as shown in FIG. 2, the opening width w 1 (hole diameter) of the opening 51 is larger than the outer diameter D of the flange member 3 described later of the injection port device 1. small.

次に、注入口具1について説明する。図2に示すように、注入口具1は、注入管2と、フランジ部材3と、押さえ部材4と、複数のボルト6と、ボルト支持部材5とを有する。注入口具1は、例えば金属材料で全て形成されている。尚、以下の注入口具1の説明において、図2中の上下方向を上下方向と定義する。また、図2中、袋体50の下側が袋体の内部を表している。   Next, the injection port device 1 will be described. As shown in FIG. 2, the injection port device 1 includes an injection tube 2, a flange member 3, a pressing member 4, a plurality of bolts 6, and a bolt support member 5. The injection tool 1 is entirely formed of, for example, a metal material. In the following description of the injection tool 1, the vertical direction in FIG. 2 is defined as the vertical direction. In FIG. 2, the lower side of the bag body 50 represents the inside of the bag body.

注入管2は、上下方向に延びた筒状に形成されており、袋体50に形成された開口部51を貫通する。また、注入管2の下端部を除いた大部分の外周面には、ネジ溝が形成されている。   The injection tube 2 is formed in a cylindrical shape extending in the vertical direction, and penetrates the opening 51 formed in the bag body 50. Further, a thread groove is formed on most of the outer peripheral surface excluding the lower end portion of the injection tube 2.

フランジ部材3は、環状の平らな円板状に形成されており、袋体50の内部に配置される。フランジ部材3は、注入管2に一体的に設けられている。詳細には、フランジ部材3は、注入管2の下端に溶接又は鋳造によって接合されている。フランジ部材3の上面は、袋体50の開口部51の周縁部に当接する。   The flange member 3 is formed in an annular flat disk shape, and is disposed inside the bag body 50. The flange member 3 is provided integrally with the injection tube 2. Specifically, the flange member 3 is joined to the lower end of the injection pipe 2 by welding or casting. The upper surface of the flange member 3 is in contact with the peripheral edge of the opening 51 of the bag body 50.

フランジ部材3の外周部の上側には、円弧状の曲面で面取りされた面取り部3aが形成されている。尚、面取り部3aは、平面で面取りされた形状であってもよい。   On the upper side of the outer peripheral portion of the flange member 3, a chamfered portion 3a chamfered with an arcuate curved surface is formed. The chamfered portion 3a may be chamfered with a flat surface.

また、フランジ部材3の上面には、上方に突出した環状の凸部3bが形成されている。凸部3bは、凸状の曲面形状に形成されている。凸部3bの表面には、ローレット加工により、綾目状や格子状の浅い切り込みが形成されている。   Further, on the upper surface of the flange member 3, an annular convex portion 3b protruding upward is formed. The convex part 3b is formed in the convex curved surface shape. Shallow cuts in a twill shape or a lattice shape are formed on the surface of the convex portion 3b by knurling.

押さえ部材4は、フランジ部材3とほぼ同じ外径の環状の平らな円板状に形成されており、袋体50の外部にフランジ部材3に対向して配置される。押さえ部材4の内径は、注入管2の外径よりも若干大きく、押さえ部材4の孔には、注入管2が内挿される。押さえ部材4の下面は、袋体50の開口部51の周縁部に当接する。   The pressing member 4 is formed in an annular flat disk shape having substantially the same outer diameter as that of the flange member 3, and is disposed outside the bag body 50 so as to face the flange member 3. The inner diameter of the pressing member 4 is slightly larger than the outer diameter of the injection tube 2, and the injection tube 2 is inserted into the hole of the pressing member 4. The lower surface of the pressing member 4 abuts on the peripheral edge of the opening 51 of the bag body 50.

押さえ部材4の外周部の下側(開口部51の周縁部を挟持する側)は、面取り部4aが形成されている。図2に示すように、面取り部4aは、円弧状の曲面で面取りされた形状であるが、平面で面取りされた形状であってもよい。   A chamfered portion 4a is formed on the lower side of the outer peripheral portion of the pressing member 4 (the side sandwiching the peripheral portion of the opening 51). As shown in FIG. 2, the chamfered portion 4a has a shape chamfered with an arcuate curved surface, but may have a shape chamfered with a flat surface.

また、押さえ部材4の下面には、下方に突出した環状の凸部4bが形成されている。凸部4bは、凸状の曲面形状に形成されている。凸部3bと凸部4bとの間で、袋体50の開口部51の周縁部が挟持される。つまり、フランジ部材3及び押さえ部材4は、開口部51の周縁部を挟持する部分において、凸状の曲面形状にそれぞれ形成されていることとなる。尚、図2中、凸部4bの最も突出した部分は、凸部3bの最も突出した部分よりも、若干外周側に位置するように形成されているが、反対に中心側に位置するように形成されていてもよい。また、凸部3bと凸部4bの最も突出した部分同士が対向するように形成されていてもよい。また、凸部4bの表面には、凸部3bと同様にローレット加工により、綾目状や格子状の浅い切り込みが形成されている。   In addition, an annular convex portion 4 b that protrudes downward is formed on the lower surface of the pressing member 4. The convex part 4b is formed in the convex curved surface shape. Between the convex part 3b and the convex part 4b, the peripheral part of the opening part 51 of the bag body 50 is clamped. That is, the flange member 3 and the pressing member 4 are each formed in a convex curved shape at a portion that sandwiches the peripheral edge of the opening 51. In FIG. 2, the most protruding portion of the convex portion 4 b is formed to be located slightly on the outer peripheral side than the most protruding portion of the convex portion 3 b, but on the contrary, it is positioned on the center side. It may be formed. Moreover, you may form so that the most protruding parts of the convex part 3b and the convex part 4b may oppose. Further, shallow cuts in a twill shape or a lattice shape are formed on the surface of the convex portion 4b by knurling similarly to the convex portion 3b.

ボルト支持部材5は、押さえ部材4(及びフランジ部材3)とほぼ同じ外径の環状の平らな円板状に形成されており、押さえ部材4の上方に配置される。図3に示すように、ボルト支持部材5の表面には、周方向に等間隔で並んだ複数(図3中では8つ)のボルト孔5aが形成されている。また、ボルト支持部材5の内周面には、注入管2の外周面に形成されたネジ溝と螺合するネジ溝が形成されている。ボルト支持部材5は、注入管2にねじ入れられることにより、注入管2に対して上下方向に移動可能に取り付けられる。   The bolt support member 5 is formed in an annular flat disk shape having substantially the same outer diameter as the pressing member 4 (and the flange member 3), and is disposed above the pressing member 4. As shown in FIG. 3, a plurality of (eight in FIG. 3) bolt holes 5 a arranged at equal intervals in the circumferential direction are formed on the surface of the bolt support member 5. Further, on the inner peripheral surface of the bolt support member 5, a screw groove that is screwed with a screw groove formed on the outer peripheral surface of the injection tube 2 is formed. The bolt support member 5 is attached to the injection tube 2 so as to be movable in the vertical direction by being screwed into the injection tube 2.

ボルト支持部材5の複数のボルト孔5aには、複数のボルト6がそれぞれ螺合されている。ボルト6の上下方向長さは、ボルト支持部材5の厚みよりも十分に大きい。ボルト6の下端は、押さえ部材4の上面に当接する。尚、図2では、線の錯綜を避けるために、断面が表示されたボルト以外のボルトを省略して表示している。   A plurality of bolts 6 are respectively screwed into the plurality of bolt holes 5 a of the bolt support member 5. The length of the bolt 6 in the vertical direction is sufficiently larger than the thickness of the bolt support member 5. The lower end of the bolt 6 contacts the upper surface of the pressing member 4. In FIG. 2, bolts other than the bolts whose cross sections are displayed are omitted in order to avoid line complications.

複数のボルト6をそれぞれ下向きにねじ込むことにより、押さえ部材4がフランジ部材3側に押圧される。これにより、押さえ部材4とフランジ部材3との間で、開口部51の周縁部が強固に挟持される。従って、注入口具1は、現場において容易に袋体50に取り付けることができる。また、開口部51の周縁部は、押さえ部材4とフランジ部材3との間でねじれることなく挟持されるため、たとえ開口部51の大きさが注入管2の外径よりも大きい場合であっても、開口部51の中心が注入管2の中心からずれにくい。そのため、注入圧によって袋体50に引張力が作用しても、開口部51の周縁部はフランジ部材3と押さえ部材4の間から抜けにくく、また、袋体50内の注入材が外部に漏れにくい。また、フランジ部材3は硬質な材料で形成されるため、袋体の設置作業中等に、フランジ部材3が変形して開口部51から抜けることもない。   By screwing the plurality of bolts 6 downward, the pressing member 4 is pressed to the flange member 3 side. Thereby, the peripheral part of the opening part 51 is firmly clamped between the pressing member 4 and the flange member 3. Therefore, the injection port device 1 can be easily attached to the bag body 50 at the site. Further, since the peripheral edge of the opening 51 is sandwiched between the pressing member 4 and the flange member 3 without being twisted, the size of the opening 51 is larger than the outer diameter of the injection tube 2. However, the center of the opening 51 is not easily displaced from the center of the injection tube 2. Therefore, even if a tensile force acts on the bag body 50 by the injection pressure, the peripheral edge portion of the opening 51 is difficult to come out between the flange member 3 and the pressing member 4, and the injection material in the bag body 50 leaks to the outside. Hateful. Further, since the flange member 3 is formed of a hard material, the flange member 3 is not deformed and does not come out of the opening 51 during the installation work of the bag.

また、フランジ部材3の外周部の上部と、押さえ部材4の外周部の下部は、それぞれ円弧状に面取りされている。そのため、袋体50を持ち運ぶ際や、注入圧によって袋体50が膨張した際などに、フランジ部材3又は押さえ部材4によって袋体50に傷が付くのを防止することができる。   Moreover, the upper part of the outer peripheral part of the flange member 3 and the lower part of the outer peripheral part of the pressing member 4 are each chamfered in an arc shape. Therefore, it is possible to prevent the bag body 50 from being damaged by the flange member 3 or the pressing member 4 when the bag body 50 is carried or when the bag body 50 is expanded by the injection pressure.

さらに、フランジ部材3及び押さえ部材4には、凸部3b及び凸部4bがそれぞれ形成されている。即ち、フランジ部材3及び押さえ部材4は、開口部51の周縁部を挟持する部分において、凸状の曲面形状にそれぞれ形成されている。ここで、フランジ部材と押さえ部材が、開口部の周縁部を挟持する部分において、平坦に形成されている場合、開口部の周縁部を面接触で挟持する。一方、本実施形態のようにフランジ部材3と押さえ部材4が、開口部51の周縁部を挟持する部分において、凸状の曲面形状に形成されている場合、開口部51の周縁部を線接触で挟持する。そのため、開口部51の周縁部をより強固に挟持することができる。   Further, the flange member 3 and the pressing member 4 are respectively formed with a convex portion 3b and a convex portion 4b. That is, the flange member 3 and the pressing member 4 are each formed in a convex curved shape at a portion that sandwiches the peripheral edge portion of the opening 51. Here, when the flange member and the pressing member are formed flat in the portion sandwiching the peripheral portion of the opening, the peripheral portion of the opening is sandwiched by surface contact. On the other hand, when the flange member 3 and the pressing member 4 are formed in a convex curved surface shape in the portion sandwiching the peripheral edge of the opening 51 as in the present embodiment, the peripheral edge of the opening 51 is in line contact. Hold with. Therefore, the peripheral edge portion of the opening 51 can be clamped more firmly.

また、凸部3bと凸部4bの表面には、ローレット加工が施されて、摩擦係数が高められている。そのため、袋体50内に注入材を注入する際の注入圧や、袋体50内の注入材及び袋体50の自重によって、開口部51の周縁部が面方向に引っ張られてもフランジ部材3と押さえ部材4との間から抜けにくくなる。尚、不透水性の袋体50を使用する場合には、凸部3bと凸部4bとの間に、ゴムパッキン等を介在させてもよい。   Further, the surfaces of the convex portions 3b and the convex portions 4b are knurled to increase the friction coefficient. Therefore, even if the peripheral edge portion of the opening 51 is pulled in the surface direction due to the injection pressure when the injection material is injected into the bag body 50 or the weight of the injection material in the bag body 50 and the bag body 50, the flange member 3. And the presser member 4 are difficult to come off. In addition, when using the impermeable bag body 50, you may interpose a rubber packing etc. between the convex part 3b and the convex part 4b.

また、複数のボルト6は、押さえ部材4及び開口部51の周縁部を貫通して袋体50を締め付けるものではない。そのため、袋体50の強度を低下させることなく、袋体50を締め付けることができる。   Further, the plurality of bolts 6 do not penetrate the peripheral portions of the pressing member 4 and the opening 51 and tighten the bag body 50. Therefore, the bag body 50 can be tightened without reducing the strength of the bag body 50.

また、注入口具1を用いて袋体50内に注入材を注入するには、注入管2の上部の外周面に注入ホース(図示省略)を装着する。そして、この注入ホースをポンプ(図示省略)に接続し、ポンプから注入ホース及び注入口具1を介して、注入材を袋体50内に注入すると、袋体50は膨張し、法面とブロックとの隙間が埋められる。すると、袋体50内の残りの空間に注入材を注入することができる。   In addition, in order to inject the injection material into the bag body 50 using the injection port tool 1, an injection hose (not shown) is attached to the upper outer peripheral surface of the injection tube 2. When this injection hose is connected to a pump (not shown) and the injection material is injected from the pump through the injection hose and the injection port 1 into the bag body 50, the bag body 50 expands, and the slope and block The gap with is filled. Then, the injection material can be injected into the remaining space in the bag body 50.

次に、袋体50に注入口具1を取り付ける方法について説明する。   Next, a method of attaching the injection port device 1 to the bag body 50 will be described.

先ず、袋体50に開口部51を形成する(開口部形成工程)。具体的には、フランジ部材3の外径Dよりも小さい直径wの円形状の穴を袋体50に形成する。また、開口部51の開口幅w(穴の径)は、フランジ部材3の外径Dの65〜75%が好ましい。その理由については後述する。 First, the opening part 51 is formed in the bag body 50 (opening part formation process). Specifically, a circular hole having a diameter w 1 smaller than the outer diameter D of the flange member 3 is formed in the bag body 50. In addition, the opening width w 1 (hole diameter) of the opening 51 is preferably 65 to 75% of the outer diameter D of the flange member 3. The reason will be described later.

次に、フランジ部材3を開口部51から袋体50内に挿入する(フランジ部材挿入工程)。具体的には、先ず、図4(a)及び(b)に示すように、袋体50の開口部51に関して両側部分を袋体50の面方向に引っ張る。袋体50は、織物で構成されており柔らかいため、袋体50を引っ張ることにより、引張方向に関して開口部51の開口幅が広げられる。次に、図4(c)に示すように、広げられた状態の開口部51に、フランジ部材3の幅の最も大きい部分(幅が外径と同じになる部分)を通過させる。そして、図4(d)及び(B)に示すように、袋体50の引っ張りを解放するとともに、袋体50内に挿入されたフランジ部材3(及び注入管2)の傾きを調整して、フランジ部材3を袋体50内に配置する。   Next, the flange member 3 is inserted into the bag body 50 from the opening 51 (flange member insertion step). Specifically, first, as shown in FIGS. 4A and 4B, both sides of the opening 51 of the bag 50 are pulled in the surface direction of the bag 50. Since the bag body 50 is made of a woven fabric and is soft, pulling the bag body 50 widens the opening width of the opening 51 in the pulling direction. Next, as shown in FIG. 4C, the widest portion of the flange member 3 (the portion where the width is the same as the outer diameter) is passed through the expanded opening 51. And as shown to FIG.4 (d) and (B), while releasing the tension | pulling of the bag body 50, adjusting the inclination of the flange member 3 (and injection pipe | tube 2) inserted in the bag body 50, The flange member 3 is disposed in the bag body 50.

次に、注入管2に押さえ部材4を外嵌し、押さえ部材4とフランジ部材3との間に開口部51の周縁部を介在させた後、ボルト支持部材5を注入管2にねじ入れ、ボルト孔5aに螺合されたボルト6によって、押さえ部材4をフランジ部材3側に押圧して、押さえ部材4の凸部4bとフランジ部材3の凸部3bとの間で開口部51の周縁部を挟持する(袋体挟持工程)。   Next, the holding member 4 is externally fitted to the injection tube 2, and the peripheral portion of the opening 51 is interposed between the holding member 4 and the flange member 3, and then the bolt support member 5 is screwed into the injection tube 2. The pressing member 4 is pressed to the flange member 3 side by the bolt 6 screwed into the bolt hole 5a, and the peripheral portion of the opening 51 is formed between the convex portion 4b of the pressing member 4 and the convex portion 3b of the flange member 3. Is sandwiched (bag body sandwiching step).

以上説明した注入口具1の取付方法によると、フランジ部材3を袋体50の外部から開口部51を通過させて、袋体50内に配置して、押さえ部材4との間で開口部51の周縁部を挟持することができる。これにより、袋体50の外部から注入口具1を簡易に取り付けることができる。従って、現場において、容易に注入口具1を袋体50に取り付けることができる。また、挟持する際、押さえ部材4とフランジ部材3との間で開口部51の周縁部がねじれることがない。そのため、開口部51の中心が注入管2の中心からずれにくいため、注入圧が作用しても袋体50が注入口具1から抜けにくい。また、フランジ部材3は硬質な材料で形成されるため、袋体50の設置作業中等に、フランジ部材3が変形して開口部51から抜けることもない。   According to the method for attaching the injection port device 1 described above, the flange member 3 is passed through the opening 51 from the outside of the bag body 50 and disposed in the bag body 50, and the opening 51 between the pressing member 4 and the flange member 3. Can be sandwiched. Thereby, the inlet 1 can be easily attached from the outside of the bag body 50. Therefore, the injection port device 1 can be easily attached to the bag body 50 at the site. Further, the peripheral portion of the opening 51 is not twisted between the pressing member 4 and the flange member 3 when sandwiched. Therefore, since the center of the opening 51 is not easily displaced from the center of the injection tube 2, the bag body 50 is not easily removed from the injection port device 1 even when an injection pressure is applied. Further, since the flange member 3 is formed of a hard material, the flange member 3 is not deformed and does not come out of the opening 51 during the installation work of the bag body 50 or the like.

また、図4(b)に示すように、フランジ部材挿入工程において、袋体50の開口部51に関して両側部分を袋体50の面方向に引っ張った際、開口部51の引張方向の最大開口幅Wは、穴の円周長の半分(wπ/2)となる。この最大開口幅Wが、フランジ部材3の外径Dよりも小さいと、フランジ部材3を開口部51に滑らかに挿入しにくくなる。そのため、最大開口幅Wは、フランジ部材3の外径Dよりも大きいことが好ましい。よって、W=wπ/2>Dの関係から、開口幅wは、フランジ部材3の外径Dの65%以上であることが好ましい。
また、広げられる前の開口幅wが大きすぎると、フランジ部材3と押さえ部材4との間で挟持される開口部51の周縁部の面積が小さくなる、即ち、押さえ代が小さくなるため、注入圧によって袋体に引張力が作用すると、挟持されている部分がフランジ部材3と押さえ部材4との間から抜けやすくなる。そのため、広げられる前の開口幅wは、フランジ部材3を挿入しやすく、且つ、なるべく広い面積で挟持されるように適切に設定される。具体的には、例えば、広げられる前の開口幅wは、フランジ部材3の外径Dの65〜75%程度が好ましい。
Further, as shown in FIG. 4B, when the flange member insertion process is performed, when both side portions are pulled in the surface direction of the bag body 50 with respect to the opening 51 of the bag body 50, the maximum opening width in the pulling direction of the opening 51. W 1 is half the circumference of the hole (w 1 π / 2). When the maximum opening width W 1 is smaller than the outer diameter D of the flange member 3, it becomes difficult to smoothly insert the flange member 3 into the opening 51. Therefore, the maximum opening width W 1 is preferably larger than the outer diameter D of the flange member 3. Therefore, from the relationship of W 1 = w 1 π / 2> D, the opening width w 1 is preferably 65% or more of the outer diameter D of the flange member 3.
Further, when the opening width w 1 before the spread is too large, the area of the peripheral edge of the opening 51 which is clamped between the member 4 holding the flange member 3 is reduced, i.e., since the pressing margin decreases, When a tensile force acts on the bag body by the injection pressure, the sandwiched portion is easily removed from between the flange member 3 and the pressing member 4. Therefore, the opening width w 1 before being unfolded, easy to insert the flange member 3, and is suitably set so as to be clamped as much as possible a wide area. Specifically, for example, the opening width w 1 before being widened is preferably about 65 to 75% of the outer diameter D of the flange member 3.

また、開口部51が円形状の穴であるため、開口部51の両側を引っ張って開口部51を大きくする際、開口部51の一部に局所的に大きな力が作用しにくい。そのため、袋体50開口部51の一部から裂けるのを防止することができる。   In addition, since the opening 51 is a circular hole, when the opening 51 is enlarged by pulling both sides of the opening 51, a large force is unlikely to act locally on a part of the opening 51. Therefore, it is possible to prevent tearing from a part of the opening portion 51 of the bag body 50.

尚、袋体50を製造する際に注入口具1を取り付ける場合には、以下の方法で取り付けてもよい。即ち、袋体の端部を閉じる前に、注入管2の外径と同じ径の穴を袋体に形成し、袋体の内側からこの穴に、フランジ部材3が固定された注入管2を貫通させる。そして、袋体の外側から、押さえ部材4及びボルト支持部材5を装着してボルト6を締め付け、注入口具1を袋体50に取り付ける。また、袋体50の端部から比較的近い位置に注入口具を取り付けたい場合には、袋体50の端部を一旦切り開いて、上記と同様の方法で取付作業を行ってもよい。   In addition, when attaching the inlet 1 at the time of manufacturing the bag body 50, you may attach with the following method. That is, before closing the end of the bag body, a hole having the same diameter as the outer diameter of the injection tube 2 is formed in the bag body, and the injection tube 2 with the flange member 3 fixed to the hole from the inside of the bag body. Let it penetrate. Then, from the outside of the bag body, the pressing member 4 and the bolt support member 5 are attached, the bolt 6 is tightened, and the injection port device 1 is attached to the bag body 50. Moreover, when it is desired to attach the injection port device at a position relatively close to the end portion of the bag body 50, the end portion of the bag body 50 may be cut once and the attachment operation may be performed in the same manner as described above.

次に、前記実施形態に種々の変更を加えた変更形態について説明する。但し、前記実施形態と同様の構成を有するものについては、同じ符号を用いて適宜その説明を省略する。   Next, modified embodiments in which various modifications are made to the embodiment will be described. However, about the thing which has the structure similar to the said embodiment, the description is abbreviate | omitted suitably using the same code | symbol.

1]開口部51は、円形状の穴に限定されるものではない。例えば、図5(a)に示すように、放射状に形成された4本のスリットで構成された開口部51Aでもよい(第1変更形態)。また、4本のスリットの長さは全て同じとする。4本のスリットのうち直線上に並んだ2本のスリットの全長を、開口部51Aの開口幅wとする。開口幅wはフランジ部材3の外径Dよりも小さい。尚、スリットの方向は、袋体50を構成する織物の布目方向(経糸方向及び横糸方向)とする。スリットの方向が、織物の布目方向に対して斜め方向の場合、取り付け作業中に、裁断した部分の糸が抜ける場合があるからである。 1] The opening 51 is not limited to a circular hole. For example, as shown to Fig.5 (a), the opening part 51A comprised by the four slits formed radially may be sufficient (1st modification). The lengths of the four slits are all the same. Four the total length of two slits aligned on a straight line of slits, the opening width w 2 of the opening 51A. The opening width w 2 is smaller than the outer diameter D of the flange member 3. In addition, the direction of the slit is the fabric direction (warp direction and weft direction) of the fabric constituting the bag body 50. This is because when the slit direction is oblique to the fabric direction of the fabric, the cut portion of the yarn may come off during the attaching operation.

開口部51Aが放射状のスリットであることにより、前記実施形態のような円形状の穴の開口部51に比べて、フランジ部材3と押さえ部材4の間で挟持される面積が大きくなる。そのため、注入圧により開口部51Aの周縁部に引張力が作用した場合であっても、押さえ部材4とフランジ部材3との間から抜けにくくなる。また、フランジ部材3の径方向に関して、袋体50の内面とフランジ部材3の上面とが接する長さが長いため、袋体50内の注入材が外部に漏れにくい。   Since the opening 51 </ b> A is a radial slit, the area sandwiched between the flange member 3 and the pressing member 4 is larger than the circular hole opening 51 as in the above-described embodiment. Therefore, even when a tensile force acts on the peripheral edge of the opening 51 </ b> A due to the injection pressure, it is difficult to come out between the pressing member 4 and the flange member 3. Moreover, since the length in which the inner surface of the bag body 50 and the upper surface of the flange member 3 are in contact with each other in the radial direction of the flange member 3 is long, the injection material in the bag body 50 is unlikely to leak to the outside.

第1変更形態の開口部51Aにフランジ部材3を挿入する方法について説明する。先ず、図5(b)に示すように、袋体50を直線状に並んだ2本のスリットに沿って折る。ここで、袋体50を折ったのは、開口部51Aの形状の変化をわかりやすく説明するためであり、もちろん袋体50を折らなくてもよい。次に、図5(c)に示すように、袋体50の開口部51Aに関して両側部分を袋体50の面方向に引っ張って、開口部51Aの開口幅を広げた状態で、フランジ部材3を開口部51Aに挿入する。各スリットの長さはw/2であるため、袋体50を引っ張ったときの、開口部51Aの引張方向の最大開口幅Wは、数式1で表される。 A method for inserting the flange member 3 into the opening 51A according to the first modification will be described. First, as shown in FIG. 5B, the bag body 50 is folded along two slits arranged in a straight line. Here, the reason why the bag body 50 is folded is to explain the change in the shape of the opening 51A in an easy-to-understand manner, and of course, the bag body 50 may not be folded. Next, as shown in FIG. 5 (c), the flange member 3 is moved with the opening width of the opening 51 </ b> A widened by pulling both sides of the opening 51 </ b> A of the bag 50 in the surface direction of the bag 50. Insert into the opening 51A. The length of each slit is w 2/2, the maximum opening width W 2 of, the openings 51A tensile direction when pulling bag 50 is expressed by Equation 1.

Figure 2009270365
Figure 2009270365

最大開口幅Wがフランジ部材3の外径Dよりも小さいと、フランジ部材3を開口部51Aに挿入しにくくなるため、最大開口幅Wはフランジ部材3の外径Dよりも大きいことが好ましい。よって、W≒1.414w>Dの関係から、広げられる前の開口幅wは、フランジ部材3の外径Dの71%以上が好ましい。 また、広げられる前の開口幅wが大きすぎると、スリットの先端がフランジ部材3(押さえ部材4)の外周端に近くなり、注入管2を中心とした周方向に亘って挟持される部分の面積が小さくなる、即ち、押さえ代が小さくなる。そのため、注入圧によって袋体50に引張力が作用すると、挟持されている部分がフランジ部材3と押さえ部材3との間から抜けやすくなる。従って、広げられる前の開口幅wは、フランジ部材3を挿入しやすく、且つ、周方向に亘ってなるべく広い面積で挟持されるように適切に設定される。具体的には、例えば、広げられる前の開口幅wは、フランジ部材3の外径Dの71〜80%程度が好ましい。 If the maximum opening width W 2 is smaller than the outer diameter D of the flange member 3, it becomes difficult to insert the flange member 3 in the opening 51A, that the maximum opening width W 2 is larger than the outer diameter D of the flange member 3 preferable. Therefore, from the relationship of W 2 ≈1.414 w 2 > D, the opening width w 2 before being widened is preferably 71% or more of the outer diameter D of the flange member 3. Further, when the opening width w 2 before the spread is too large, a portion distal of the slit is close to the outer peripheral end of the flange member 3 (presser member 4), is clamped over the injection tube 2 around the circumferential direction The area of is reduced, that is, the press margin is reduced. Therefore, when a tensile force is applied to the bag body 50 by the injection pressure, the sandwiched portion is easily removed from between the flange member 3 and the pressing member 3. Therefore, the opening width w 2 of before being unfolded, easy to insert the flange member 3, and is suitably set so as to be clamped as much as possible a wide area over the circumferential direction. Specifically, for example, the opening width w 2 before being widened is preferably about 71 to 80% of the outer diameter D of the flange member 3.

尚、スリットの数は、4本以上であってもよいが、複数のスリットのうちの2本のスリットが、ほぼ直線状に形成されていることが好ましい。尚、本発明の広げられる前の開口幅とは、直線状に形成されている2本のスリットがある場合、この2本のスリットの全長とし、また、直線状に形成されている2本のスリットがない場合には、袋体50を引っ張ることなく、開口部が最も長く直線状に開く長さとする。   In addition, although the number of slits may be four or more, it is preferable that two of the plurality of slits are formed in a substantially linear shape. In addition, when there are two slits that are formed in a straight line, the opening width before the expansion of the present invention is the total length of the two slits, and the two slits that are formed in a straight line. When there is no slit, the length of the opening is set to the longest length without pulling the bag body 50.

2]また、図6に示すように、注入管2の外径とほぼ同じ径の円形状の穴と、この穴から放射状に形成された4本のスリットとから構成された開口部51Bでもよい(第2変更形態)。開口部51Bの円形状の穴には、注入管2が貫通する。開口部51Bの広げられる前の開口幅wは、第1変更形態と同様にフランジ部材3の外径Dの71〜80%が好ましい。 2] Moreover, as shown in FIG. 6, the opening 51B comprised from the circular hole of the diameter substantially the same as the outer diameter of the injection tube 2, and four slits formed radially from this hole may be sufficient. (Second modification). The injection tube 2 passes through the circular hole of the opening 51B. Opening width w 3 before being widened opening 51B is 71 to 80% of the outer diameter D of the flange member 3 similarly to the first modification is preferable.

ここで、第1変更形態の開口部51Aはスリットのみで構成されているため、注入管2の周囲において、余った部分が折り畳まれた状態で挟持され、フランジ部材3と押さえ部材4のとの間で挟持される部分の厚さが不均一となり、開口部51の周縁部に作用する挟持力が部分的に低下するため、袋体が注入口具から抜けやすくなる。また、この厚みの差によって隙間が生じ、この隙間から注入材が漏れる場合がある。一方、本変更形態では、開口部51Bは、注入管2が貫通する円形状の穴を有しており、折り畳まれる部分が生じることなく、フラットな状態で挟持されるため、部分的に挟持力が低減することがなく、また、上述したような隙間も生じない。その上、前記実施形態のように、開口部51が円形状の穴のみで構成されている場合に比べて、フランジ部材3と押さえ部材4との間で挟持される部分の面積を確保することができる。
さらに、円形状の穴に、ほぼ同じ径の注入管2が貫通されるため、開口部が前記実施形態のように円形状の穴のみ、又は、第1変更形態のようにスリットのみで構成されている場合に比べて、袋体50とフランジ部材3との位置ズレが生じにくく、開口部51の中心に注入管2の中心が位置する。そのため、円形状の穴の周囲をほぼ均一に挟持することができる。
これらにより、注入圧によって袋体50に引張力が作用しても、開口部51の周縁部はフランジ部材3と押さえ部材4の間からより抜けにくく、しかも袋体50内の注入材は外部により漏れにくくなる。
Here, since the opening 51 </ b> A of the first modified form is configured only by the slit, the excess portion is sandwiched around the injection tube 2 in a folded state, and the flange member 3 and the pressing member 4 The thickness of the portion sandwiched between them becomes non-uniform, and the sandwiching force acting on the peripheral portion of the opening 51 is partially reduced, so that the bag body can be easily removed from the injection port device. In addition, a gap may be generated due to the difference in thickness, and the injection material may leak from the gap. On the other hand, in this modified embodiment, the opening 51B has a circular hole through which the injection tube 2 passes, and is held in a flat state without a portion to be folded. Is not reduced, and no gap as described above occurs. Moreover, as compared with the case where the opening 51 is configured only by a circular hole as in the above-described embodiment, the area of the portion sandwiched between the flange member 3 and the pressing member 4 is ensured. Can do.
Furthermore, since the injection tube 2 having substantially the same diameter is passed through the circular hole, the opening is configured only by the circular hole as in the above embodiment or only by the slit as in the first modification. Compared with the case where it has, the position shift of the bag body 50 and the flange member 3 does not produce easily, and the center of the injection pipe 2 is located in the center of the opening part 51. FIG. Therefore, the periphery of the circular hole can be clamped almost uniformly.
As a result, even if a tensile force is applied to the bag body 50 by the injection pressure, the peripheral portion of the opening 51 is more difficult to come out between the flange member 3 and the pressing member 4, and the injection material in the bag body 50 is externally provided. It becomes difficult to leak.

3]押さえ部材4は、環状に形成された1つの部材でなくてもよい。例えば、図7に示すように、環状の板材を2分割したような2つの半環状の板材10C、11Cから構成された押さえ部材4Cでもよい(第3変更形態)。板材10C、11Cの両端部は、互いにかみ合うL字状に形成されており、板材10C、11Cをかみ合わせると、面方向に引っ張っても離れなくなる。この注入口具1Cを袋体50に取り付ける際、ボルト支持部材5を注入管2に取り付けた状態のまま、フランジ部材3とボルト支持部材5との間に押さえ部材4Cを配置することができる。そのため、ボルト支持部材5を注入管2に取り付ける作業を省略でき、取付作業の効率が向上する。 3] The pressing member 4 may not be a single member formed in an annular shape. For example, as shown in FIG. 7, the pressing member 4C comprised from two semi-annular board | plate materials 10C and 11C which divided the cyclic | annular board | plate material into 2 may be sufficient (3rd modification form). Both end portions of the plate materials 10C and 11C are formed in an L-shape that meshes with each other. When the plate materials 10C and 11C are meshed, they are not separated even if they are pulled in the surface direction. When the injection port 1C is attached to the bag body 50, the pressing member 4C can be disposed between the flange member 3 and the bolt support member 5 while the bolt support member 5 is attached to the injection tube 2. Therefore, the work of attaching the bolt support member 5 to the injection tube 2 can be omitted, and the efficiency of the installation work is improved.

4]フランジ部材3の外周の形状は、円形状に限定されない。例えば、四角形状であってもよい(第4変更形態)。この場合、フランジ部材3の最小幅(最短の辺の長さ)が、本発明のフランジ部材の外径に相当する。また、押さえ部材4の外周の形状も、フランジ部材3と同じ四角形状であってもよい。 4] The shape of the outer periphery of the flange member 3 is not limited to a circular shape. For example, a rectangular shape may be used (fourth modification). In this case, the minimum width (shortest side length) of the flange member 3 corresponds to the outer diameter of the flange member of the present invention. The shape of the outer periphery of the pressing member 4 may be the same rectangular shape as the flange member 3.

5]フランジ部材3と押さえ部材4の両方が、開口部51の周縁部を挟持する部分において、凸状の曲面形状に形成されていなくてもよい。例えば、フランジ部材3と押さえ部材4の何れか一方が、開口部51の周縁部を挟持する部分において、凸状の曲面形状に形成され、他方は、開口部51の周縁部を挟持する部分において、平坦状に形成されていてもよい(第5変更形態)。この場合であっても、フランジ部材3と押さえ部材4との間で開口部51の周縁部を線接触で挟持することができる。 5] Both the flange member 3 and the pressing member 4 do not have to be formed in a convex curved surface shape in a portion sandwiching the peripheral edge portion of the opening 51. For example, either one of the flange member 3 and the pressing member 4 is formed in a convex curved shape at a portion that sandwiches the peripheral portion of the opening 51, and the other is at a portion that sandwiches the peripheral portion of the opening 51. Further, it may be formed in a flat shape (fifth modification). Even in this case, the peripheral edge of the opening 51 can be clamped between the flange member 3 and the pressing member 4 by line contact.

6]また、例えば、図8に示すように、フランジ部材3Fの上面と押さえ部材4Fの下面の両方が、平坦状に形成された注入口具1Fでもよい(第6変更形態)。この場合、前記実施形態のように凸部3b、4bを形成する必要がないため、前記実施形態よりも注入口具の製造工程を簡略化することができる。 6] Further, for example, as shown in FIG. 8, both the upper surface of the flange member 3 </ b> F and the lower surface of the pressing member 4 </ b> F may be an injection port 1 </ b> F formed in a flat shape (sixth modification). In this case, since it is not necessary to form the convex portions 3b and 4b as in the above embodiment, the manufacturing process of the injection tool can be simplified as compared with the above embodiment.

7]フランジ部材3は、溶接又は鋳造によって注入管2に接合されていなくてもよい。例えば、図9に示すように、注入管2Gの下端部の外周面、及び、フランジ部材3Gの内周面には、それぞれ互いに螺合するねじ溝が形成されており、フランジ部材3Gは、注入管2Gにねじ入れられて取り付けられる注入口具1Gでもよい(第7変更形態)。この構成により、注入口具1Gを製造する際、フランジ部材を注入管に接合するための溶接や鋳造が不要になるため、製造工程を簡略化することができる。 7] The flange member 3 may not be joined to the injection pipe 2 by welding or casting. For example, as shown in FIG. 9, threaded grooves that are screwed to each other are formed on the outer peripheral surface of the lower end portion of the injection tube 2G and the inner peripheral surface of the flange member 3G. It may be an injection tool 1G that is screwed into the tube 2G (seventh modification). With this configuration, when manufacturing the injection port tool 1G, welding and casting for joining the flange member to the injection pipe are not required, and therefore the manufacturing process can be simplified.

尚、この場合、図9に示すように、注入管2Gの内周面には、ねじ溝が形成されていてもよい。袋体50内に注入材を注入する際、この注入管2Gの上部の内周面に、注入ホース(図示省略)の先端部に取り付けられた接続部品(図示省略)をねじ入れ、注入管2Gと注入ホースとを接続する。これにより、前記実施形態のように注入管2の外周面に注入ホースを接続する場合に比べて、注入管2の長さを短くすることができる。そのため、運搬時にかさばらず、また、注入材が硬化し、注入ホースを取り外した後も、袋体50から突出する長さが短いため、邪魔になりにくい。   In this case, as shown in FIG. 9, a thread groove may be formed on the inner peripheral surface of the injection tube 2G. When injecting the injection material into the bag body 50, a connecting component (not shown) attached to the tip of the injection hose (not shown) is screwed into the inner peripheral surface of the upper part of the injection tube 2G, and the injection pipe 2G And the injection hose. Thereby, compared with the case where an injection hose is connected to the outer peripheral surface of the injection pipe 2 like the said embodiment, the length of the injection pipe 2 can be shortened. Therefore, it is not bulky at the time of transportation, and after the injection material is hardened and the injection hose is removed, the length protruding from the bag body 50 is short, so that it is difficult to get in the way.

8]ボルト支持部材5は、注入管2にねじ入れられて取り付けられていなくてもよい。例えば、図10に示すように、ボルト支持部材5Hが、溶接又は鋳造によって注入管2Hの上端に接合されている注入口具1Hでもよい(第8変更形態)。この場合、押さえ部材4は、ボルト支持部材5Hとフランジ部材3との間に最初から配置されていてもよいが、図7に示すような2分割されたものを用いてもよい。尚、注入管2Hの内周面には、注入ホースを接続するためのねじ溝が形成されている。この構成により、注入口具1Hを袋体50に取り付ける際、ボルト支持部材5Hを注入管2Hにねじ入れて取り付ける作業が不要になるため、取付作業の効率が向上する。 8] The bolt support member 5 may not be screwed into the injection tube 2 and attached. For example, as shown in FIG. 10, the bolt support member 5H may be an injection port tool 1H joined to the upper end of the injection pipe 2H by welding or casting (eighth modification). In this case, the pressing member 4 may be disposed from the beginning between the bolt support member 5H and the flange member 3, but may be divided into two as shown in FIG. A thread groove for connecting an injection hose is formed on the inner peripheral surface of the injection pipe 2H. With this configuration, when the injection port tool 1H is attached to the bag body 50, the work of screwing the bolt support member 5H into the injection pipe 2H and attaching it becomes unnecessary, so that the efficiency of the attachment work is improved.

以上、本発明の実施形態及びその変更形態について説明したが、変更形態は適宜組み合わせて実施することもできる。   As mentioned above, although embodiment of this invention and its modified form were demonstrated, a modified form can also be implemented combining suitably.

本発明の実施形態に係る注入口具が取り付けられた袋体の断面図である。It is sectional drawing of the bag body to which the injection hole tool which concerns on embodiment of this invention was attached. 本発明の実施形態に係る注入口具の断面図である。It is sectional drawing of the injection hole tool which concerns on embodiment of this invention. 注入口具の平面図である。It is a top view of an injection tool. 本発明の実施形態に係る注入口具の取付方法における、フランジ部材挿入工程を示した平面図である。It is the top view which showed the flange member insertion process in the attachment method of the injection hole tool which concerns on embodiment of this invention. 本発明の第1変更形態に係る注入口具の取付方法における、フランジ部材挿入工程の一部を示した図である。It is the figure which showed a part of flange member insertion process in the attachment method of the injection hole tool which concerns on the 1st modification of this invention. 本発明の第2変更形態に係る注入口具の取付方法における、袋体の開口部を示した平面図である。It is the top view which showed the opening part of the bag body in the attachment method of the injection hole tool which concerns on the 2nd modification of this invention. 本発明の第3変更形態に係る注入口具のフランジ部材の平面図である。It is a top view of the flange member of the injection hole tool which concerns on the 3rd modification of this invention. 本発明の第6変更形態に係る注入口具の断面図である。It is sectional drawing of the injection hole tool which concerns on the 6th modification of this invention. 本発明の第7変更形態に係る注入口具の断面図である。It is sectional drawing of the injection hole tool which concerns on the 7th modification of this invention. 本発明の第8変更形態に係る注入口具の断面図である。It is sectional drawing of the injection hole tool which concerns on the 8th modification of this invention.

符号の説明Explanation of symbols

1、1F、1G、1H 注入口具
2、2G、2H 注入管
3、3F、3G フランジ部材
3a 面取り部
3b 凸部
4、4C、4F 押さえ部材
4a 面取り部
4b 凸部
5、5H ボルト支持部材
5a ボルト孔
6 ボルト
50 袋体
51、51A、51B 開口部
1, 1F, 1G, 1H Inlet tool 2, 2G, 2H Infusion pipe 3, 3F, 3G Flange member 3a Chamfered portion 3b Convex portion 4, 4C, 4F Holding member 4a Chamfered portion 4b Convex portion 5, 5H Bolt support member 5a Bolt hole 6 Bolt 50 Bag 51, 51A, 51B Opening

Claims (10)

袋体に形成された開口部を貫通する注入管と、
前記注入管に一体的に設けられるとともに、前記開口部の周縁部の内面に当接するように前記袋体内に配置されるフランジ部材と、
前記フランジ部材との間で前記開口部の前記周縁部を挟持する押さえ部材と、
前記押さえ部材を前記フランジ部材側へ押圧する複数のボルトと、
前記複数のボルトが螺合される複数のボルト孔が形成されており、前記注入管に取り付けられるボルト支持部材と、
を備えることを特徴とする袋体の注入口具。
An injection tube that penetrates the opening formed in the bag,
A flange member provided integrally with the injection tube and disposed in the bag body so as to contact the inner surface of the peripheral edge of the opening;
A holding member that sandwiches the peripheral edge of the opening with the flange member;
A plurality of bolts for pressing the pressing member toward the flange member;
A plurality of bolt holes into which the plurality of bolts are screwed are formed, and a bolt support member attached to the injection tube;
An infusion tool for a bag body, comprising:
前記フランジ部材及び前記押さえ部材の少なくとも一方は、その外周部における前記袋体の前記周縁部を挟持する側が、面取りされていることを特徴とする請求項1に記載の袋体の注入口具。   The bag mouthpiece according to claim 1, wherein at least one of the flange member and the pressing member is chamfered on a side of the outer periphery of the bag member that sandwiches the peripheral portion of the bag body. 前記フランジ部材及び前記押さえ部材の少なくとも一方は、前記袋体の前記周縁部を挟持する部分において、凸状の曲面形状に形成されていることを特徴とする請求項1又は2に記載の袋体の注入口具。   3. The bag according to claim 1, wherein at least one of the flange member and the pressing member is formed in a convex curved shape at a portion sandwiching the peripheral portion of the bag. Filler tool. 袋体に形成された開口部を貫通する注入管と、前記注入管に一体的に設けられたフランジ部材と、前記フランジ部材に対向して配置される押さえ部材と、前記押さえ部材を前記フランジ部材側へ押圧するための複数のボルトと、前記複数のボルトが螺合される複数のボルト孔が形成されており、前記注入管に取り付けられるボルト支持部材とを備える注入口具を、袋体に取り付ける注入口具の取付方法であって、
前記袋体に前記注入口具を取り付けるための前記開口部を形成する開口部形成工程と、
前記フランジ部材を前記開口部から前記袋体内に挿入するフランジ部材挿入工程と、
前記押さえ部材と前記フランジ部材との間に前記開口部の周縁部を介在させた後、前記ボルト孔に螺合された前記ボルトによって、前記押さえ部材を前記フランジ側に押圧して、前記押さえ部材と前記フランジ部材との間で前記開口部の周縁部を挟持する袋体挟持工程とを備えており、
さらに、前記開口部形成工程において、前記フランジ部材の外径よりも小さい開口幅を有する開口部を形成し、
前記フランジ部材挿入工程において、前記袋体の前記開口部に関して両側部分を前記袋体の面方向に関して引っ張って、前記開口部の開口幅を広げた状態で、前記フランジ部材を前記開口部に挿入することを特徴とする袋体への注入口具の取付方法。
An injection pipe that penetrates the opening formed in the bag body, a flange member that is provided integrally with the injection pipe, a pressing member that is disposed to face the flange member, and the pressing member that is the flange member An injection port device comprising: a plurality of bolts for pressing to the side; a plurality of bolt holes into which the plurality of bolts are screwed together; and a bolt support member attached to the injection tube. A method of attaching the inlet tool to be attached,
An opening forming step for forming the opening for attaching the injection port device to the bag body;
A flange member insertion step of inserting the flange member into the bag body from the opening;
After the periphery of the opening is interposed between the pressing member and the flange member, the pressing member is pressed toward the flange by the bolt screwed into the bolt hole, and the pressing member And a bag body clamping step of clamping the peripheral edge of the opening between the flange member and the flange member,
Furthermore, in the opening forming step, an opening having an opening width smaller than the outer diameter of the flange member is formed,
In the flange member inserting step, the flange member is inserted into the opening in a state where both sides of the opening of the bag are pulled in the surface direction of the bag and the opening width of the opening is widened. A method for attaching the injection port device to the bag body.
前記開口部が、円形状の穴であることを特徴とする請求項4に記載の袋体への注入口具の取付方法。   The said opening part is a circular hole, The attachment method of the injection port device to the bag body of Claim 4 characterized by the above-mentioned. 広げられる前の前記開口幅が、前記フランジ部材の前記外径の65〜75%であることを特徴とする請求項5に記載の袋体への注入口具の取付方法。   6. The method for attaching an injection port device to a bag according to claim 5, wherein the opening width before being spread is 65 to 75% of the outer diameter of the flange member. 前記開口部が、放射状に形成された少なくとも4本以上のスリットであることを特徴とする請求項4に記載の袋体への注入口具の取付方法。   The said opening part is at least 4 or more slit formed radially, The attachment method of the injection tool to the bag body of Claim 4 characterized by the above-mentioned. 前記開口部が、前記注入管の外径とほぼ同じ径の円形状の穴と、この穴から放射状に形成された少なくとも4本以上のスリットとからなることを特徴とする請求項4に記載の袋体への注入口具の取付方法。   The said opening part consists of a circular hole of the diameter substantially the same as the outer diameter of the said injection tube, and at least four or more slits radially formed from this hole, The feature of Claim 4 characterized by the above-mentioned. How to attach the filling tool to the bag. 前記スリットが4本であって、
広げられる前の前記開口幅が、前記フランジ部材の前記外径の71〜80%であることを特徴とする請求項7又は8に記載の袋体への注入口具の取付方法。
There are four slits,
The method for attaching an injection port device to a bag according to claim 7 or 8, wherein the opening width before being spread is 71 to 80% of the outer diameter of the flange member.
前記袋体に予め設けられた注入口から前記袋体内へ注入材を注入している途中で、前記袋体の前記注入口以外の別の位置に前記注入口具を取り付けるために行うことを特徴とする請求項4〜9の何れかに記載の袋体への注入口具の取付方法。
In the middle of injecting the injection material into the bag body from the injection port provided in advance in the bag body, it is performed to attach the injection port device to another position other than the injection port of the bag body. A method for attaching the injection port device to the bag body according to any one of claims 4 to 9.
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