JP5829114B2 - Piping material and manufacturing method thereof - Google Patents

Piping material and manufacturing method thereof Download PDF

Info

Publication number
JP5829114B2
JP5829114B2 JP2011271932A JP2011271932A JP5829114B2 JP 5829114 B2 JP5829114 B2 JP 5829114B2 JP 2011271932 A JP2011271932 A JP 2011271932A JP 2011271932 A JP2011271932 A JP 2011271932A JP 5829114 B2 JP5829114 B2 JP 5829114B2
Authority
JP
Japan
Prior art keywords
piping material
joint
main body
pipe
core
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
JP2011271932A
Other languages
Japanese (ja)
Other versions
JP2013124676A (en
Inventor
伊藤 良輔
良輔 伊藤
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sekisui Chemical Co Ltd
Original Assignee
Sekisui Chemical Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sekisui Chemical Co Ltd filed Critical Sekisui Chemical Co Ltd
Priority to JP2011271932A priority Critical patent/JP5829114B2/en
Publication of JP2013124676A publication Critical patent/JP2013124676A/en
Application granted granted Critical
Publication of JP5829114B2 publication Critical patent/JP5829114B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Landscapes

  • Flanged Joints, Insulating Joints, And Other Joints (AREA)
  • Branch Pipes, Bends, And The Like (AREA)
  • Rigid Pipes And Flexible Pipes (AREA)

Description

本発明は、給水・給湯配管や、冷暖房用の冷温水配管、あるいは温水設備などに使用する複合管と継手とが予め一体化された配管材及びその製造方法に関する。   The present invention relates to a pipe material in which a composite pipe and a joint used in a water / hot water supply pipe, a cold / hot water pipe for air conditioning or a hot water facility, and the like are integrated in advance, and a method for manufacturing the same.

給水・給湯配管や、冷暖房用の冷温水配管、あるいは温水設備などに使用する管として、例えば、内外層がポリエチレン等の熱可塑性樹脂で形成され、補強層がアルミニウムなどの金属で形成された3層以上の層からなる金属複合管(以下、「複合管」と記す)が用いられている。
このような複合管は、従来、かしめ継手(特許文献1参照)、ワンタッチ継手(特許文献2参照)、袋ナットを締め付ける方式の継手(特許文献3参照)等の管継手を用いて他の金属製の配管材と接続されるようになっている。
As a pipe used for water supply / hot water supply piping, cold / hot water piping for heating / cooling, or hot water equipment, for example, the inner and outer layers are formed of a thermoplastic resin such as polyethylene, and the reinforcing layer is formed of a metal such as aluminum 3 Metal composite pipes (hereinafter referred to as “composite pipes”) composed of more than one layer are used.
Such composite pipes are conventionally made of other metals using pipe joints such as caulking joints (refer to Patent Document 1), one-touch joints (refer to Patent Document 2), and joints that tighten cap nuts (refer to Patent Document 3). It is designed to be connected to a piping material made of steel.

また、製造コストダウンと省資源化を目的に、塑性変形可能であるプラスチック管と、このプラスチック管の先端部側に嵌め込んである環状のスペーサ部材と、このスペーサ部材に接続される接続部材とから構成されており、上記プラスチック管の先端部側の外周に凸部を形成してあり、上記スペーサ部材は、その内周に接続凹部を形成してあって、この接続凹部に上記プラスチック管の凸部が圧入されている配管の接続体が提案されている(特許文献4参照)。   Also, for the purpose of reducing manufacturing costs and saving resources, a plastic tube that can be plastically deformed, an annular spacer member that is fitted to the tip end side of the plastic tube, and a connecting member that is connected to the spacer member, And a convex portion is formed on the outer periphery of the plastic tube on the tip end side, and the spacer member has a connection recess formed on the inner periphery thereof, and the plastic tube is formed in the connection recess. A connection body of a pipe in which a convex portion is press-fitted has been proposed (see Patent Document 4).

特開2007−285405号公報JP 2007-285405 A 特許4179919号公報Japanese Patent No. 41799919 特開平6−346994号公報JP-A-6-346994 特開2009−197926号公報JP 2009-197926 A

しかし、従来の接続に用いられる管継手は、継手本体が、かしめや締め付けに耐えるように、金属材料(主に銅合金)で形成されているため、以下のいずれかの問題がある。
(1)金属価格の変動によりコストが高く、また安定供給のリスクが高い。
(2)重量が重くなる。
(3)腐食の発生リスクがある。
(4)継手を構成する部材の点数が多く、それらの組立が必要なため、組立工数、時間を要し、コストアップの要因となっている。
(5)組立時に不良部材を間違って使用するおそれや、組立間違いなどの製品不良が発生するおそれがある。
(6)管継手に抜け止めや止水の構造を持たせるため、管継手全体が大きくなり、狭い場所での配管ができないという問題がある。
However, the pipe joint used for the conventional connection has one of the following problems because the joint body is formed of a metal material (mainly copper alloy) so as to withstand caulking and tightening.
(1) The cost is high due to fluctuations in metal prices, and the risk of stable supply is high.
(2) The weight increases.
(3) There is a risk of corrosion.
(4) Since the number of members constituting the joint is large and it is necessary to assemble them, man-hours and time are required for assembly, resulting in an increase in cost.
(5) There is a risk that a defective member may be used incorrectly during assembly, or that a product failure such as an assembly error may occur.
(6) Since the pipe joint is provided with a retaining structure and water stop structure, there is a problem that the entire pipe joint becomes large and piping in a narrow place cannot be performed.

一方、樹脂製配管材と樹脂製配管材との接続方法としては、上記のメカニカルな接続方法以外にバット融着や電気融着継手を用いた接続方法がある。
しかしながら、バット融着は、接合しようとする配管材の端面を熱板等で溶融したのち、端面同士を突き合わせて接合するようになっている。したがって、バット融着では、上記補強層に溶融しない金属層を備えている複合管の場合、他の配管材の管端面を複合管の管端面に押し付けた際に、溶融樹脂に面圧を加えることが難しく、うまく融着できないという問題がある。
電気融着継手では、一般的に管の外面と継手内面とを融着するが、上記複合管の外層は、その肉厚が薄く、溶融樹脂が十分に確保できない。さらに管の偏平などがあり、周方向で均一に溶融し、面圧をたてるのが困難であることから、安定した融着強度が発現できないという問題がある。
On the other hand, as a connection method between the resin piping material and the resin piping material, there is a connection method using a butt fusion or an electric fusion joint in addition to the above mechanical connection method.
However, in the butt fusion, the end faces of the pipe materials to be joined are melted with a hot plate or the like, and the end faces are brought into contact with each other and joined. Therefore, in butt fusion, in the case of a composite pipe having a metal layer that does not melt in the reinforcing layer, surface pressure is applied to the molten resin when the pipe end face of another pipe material is pressed against the pipe end face of the composite pipe. It is difficult and cannot be fused well.
In the electric fusion joint, the outer surface of the pipe and the inner surface of the joint are generally fused. However, the outer layer of the composite pipe is thin, and a sufficient amount of molten resin cannot be secured. Further, there is a problem that the flattening of the tube, etc., it is difficult to melt uniformly in the circumferential direction, and it is difficult to apply a surface pressure, so that stable fusion strength cannot be expressed.

本発明は、上記事情に鑑みて、金属材料の使用量を少なくすることができるとともに、配管施工工数を少なくすることができ、さらに、複合管端面の金属製補強層が内部を流れる水に接触しない配管材及びこの配管材を環境や人による強度のバラツキを生じることなく、複合管部分と継手部分との接続状態を安定した品質とすることができる配管材の製造方法を提供することを目的としている。   In view of the above circumstances, the present invention can reduce the amount of metal material used, reduce the number of pipe construction man-hours, and contact the water flowing inside the metal reinforcing layer of the composite pipe end face. An object of the present invention is to provide a piping material that can be made stable and quality of the connection state between the composite pipe portion and the joint portion without causing variations in strength due to the environment or people. It is said.

上記目的を達成するために、本発明にかかる配管材は、他の配管材の受口に挿入される差口と、この差口の差込後端側で外周方向に鍔状に張り出し、前記他の配管材の前記受口の外周方向に鍔状に張り出すクリップ係止鍔とともに、クリップ部材によって係止されるクリップ係止鍔とを有する継手部と、この継手部に連設された管材本体部と、を備える配管材であって、前記管材本体部と、この管材本体部の一端に設けられ、管材本体部より拡径する拡径部と、この拡径部の先端に設けられた鍔返し加工部を備え、熱可塑性樹脂製の内層及びこの内層の外側に設けられた金属製の補強層を有する複層構造をしている複合管の、前記拡径部および鍔返し加工部の前記内層と、熱可塑性樹脂からなり、継手部を構成する継手本体部とが、その界面で融着されていて、前記継手本体部より強度が高い材料からなるインコアが、上記継手本体部を内周側から補強するように設けられているとともに、前記鍔返し加工部が、前記クリップ係止鍔の一部を構成していることを特徴としている。
In order to achieve the above-mentioned object, the piping material according to the present invention projects into a flange shape in the outer peripheral direction on the insertion end of the insertion port inserted into the receiving port of the other piping material, and on the rear end side of the insertion port. A joint part having a clip locking bar extending in the shape of a bowl in the outer peripheral direction of the receiving port of another piping material and a clip locking bar locked by a clip member, and a pipe member provided continuously to the joint part A pipe body comprising a main body portion, provided at one end of the pipe main body portion, and having a diameter-expanding portion that is larger in diameter than the pipe main body portion, and provided at a distal end of the diameter-expanding portion. Of the composite pipe having a multi-layer structure having a reversing processing portion and having an inner layer made of thermoplastic resin and a metal reinforcing layer provided outside the inner layer, The inner layer and the joint main body part, which is made of a thermoplastic resin and constitutes the joint part, have an interface between them. An in-core made of a material that is fused and has a strength higher than that of the joint main body is provided to reinforce the joint main body from the inner peripheral side. It is characterized by constituting a part of the bag .

本発明の配管材は、上記継手本体部が、鍔返し加工部の補強層を配管材の外面側に露出状態に被覆する補強層被覆部を備えていることが好ましい。
すなわち、補強層被覆部を設けることによって、補強層が水に曝されて、補強層が腐食することを防止することができる。
In the piping material of the present invention, it is preferable that the joint main body portion includes a reinforcing layer covering portion that covers the reinforcing layer of the turned processing portion in an exposed state on the outer surface side of the piping material.
That is, by providing the reinforcing layer covering portion, it is possible to prevent the reinforcing layer from being exposed to water and corroding the reinforcing layer.

本発明の配管材は、特に限定されないが、上記継手本体部の少なくとも一部が、インコアと、複合管との隙間を密に埋めるように設けられている構成とすることが好ましい。
すなわち、インコアが熱可塑性樹脂成形部から離脱しない構造とすることができる。
Although the piping material of the present invention is not particularly limited, it is preferable that at least a part of the joint main body is provided so as to close the gap between the in-core and the composite pipe.
That is, it can be set as the structure where an in-core does not detach | leave from a thermoplastic resin molding part.

なお、上記拡径部は、大きいほど抜け止め部材の抜け阻止力を大きくすることができ、内径の拡大も大きいが、逆に継手部の外径が大きくなり、クリップ係止鍔の高さ(継手部の半径方向の長さ)が不足するという問題や、拡径部の肉厚が薄くなり、強度的に問題がでるおそれがあるため、原料となる使用する複合管に応じて拡径度合いが適宜決定される。
拡径部を形成する方法としては、管の内面に略拡径後の管内面形状と同じ金型コアを挿入することにより成形することが望ましい。さらには外側に略拡径後の管外面形状と同じ割り金型を設置し、成形時には金型を締め、成形後に解放離脱することによって、より精度の高い拡径が可能であるので好ましい。
材質によっては、材料の伸び成形外観が良くなるので加温することもよい。
The larger the diameter-enlarged portion, the greater the prevention force of the retaining member, and the larger the inner diameter, but conversely, the outer diameter of the joint portion becomes larger, and the height of the clip locking rod ( The degree of diameter expansion depending on the composite pipe used as the raw material because there is a problem that the length of the joint part in the radial direction) is insufficient and the thickness of the diameter-expanded part may become thin and there may be a problem in strength. Is appropriately determined.
As a method for forming the enlarged diameter portion, it is desirable to form by inserting a mold core having the same shape as the inner surface of the tube after the diameter expansion into the inner surface of the tube. Furthermore, it is preferable that a split mold having the same shape as the outer surface of the pipe after substantially expanding the diameter is installed on the outside, the mold is tightened at the time of molding, and released and released after molding, so that the diameter can be increased with higher accuracy.
Depending on the material, it may be warmed because the stretch-molded appearance of the material is improved.

上記本発明の配管材の製造方法は、上記加工複合管を、前記鍔返し加工部が、射出成形金型のキャビティ内に臨み、管材本体部がキャビティ外に配置された状態で、キャビティ内に射出樹脂を射出充填して、継手本体部を射出成形する工程を備えていることを特徴としている。   In the pipe material manufacturing method of the present invention, the processed composite pipe is placed in the cavity in a state where the turnover processing part faces the cavity of the injection mold and the pipe body part is arranged outside the cavity. It is characterized by comprising a step of injection-filling injection resin and injection-molding the joint main body.

上記複合管としては、熱可塑性樹脂製の内層と、金属製の補強層とを備えていれば、特に限定されないが、補強層の外側を囲繞する熱可塑性樹脂製の外層を備えていてもよい。
内層と外層を備えた複合管は、内層と外層とが異なる熱可塑性樹脂で形成されていても構わない。このような内層と外層を備えた複合管としては、例えば、積水化学工業社製の商品名エスロンスーパーエスロメタックス等の市販の複合管の管端部を鍔返し加工してあるいは拡径加工した後鍔返し加工して得ることができる。
また、内層及び外層が複層になっているものでも構わないし、内層と外層とが異なる熱可塑性樹脂で形成されていても構わない。
The composite pipe is not particularly limited as long as it has an inner layer made of thermoplastic resin and a metal reinforcing layer, but may have an outer layer made of thermoplastic resin surrounding the outside of the reinforcing layer. .
In the composite pipe including the inner layer and the outer layer, the inner layer and the outer layer may be formed of different thermoplastic resins. As a composite pipe having such an inner layer and an outer layer, for example, a pipe end portion of a commercially available composite pipe such as the product name ESLON Super Eslometax manufactured by Sekisui Chemical Co., Ltd. is turned over or expanded. It can be obtained by reverse turning.
Moreover, the inner layer and the outer layer may be a multilayer, or the inner layer and the outer layer may be formed of different thermoplastic resins.

本発明において、継手本体部を形成する樹脂としては、特に限定されないが、たとえば、使用環境による制約(温度、圧力、水質等)、製造条件による制約等により各種材質を選定可能だが、複合管の内層との融着性を考慮し、内層と同じ材料を選定することが望ましい。   In the present invention, the resin forming the joint body is not particularly limited. For example, various materials can be selected depending on the usage environment (temperature, pressure, water quality, etc.) and the manufacturing conditions. It is desirable to select the same material as the inner layer in consideration of the fusibility with the inner layer.

インコアは、特に限定されないが、継手本体部より強度的に優れ、熱可塑性樹脂成形部を射出成形する際に、射出樹脂の熱によって溶融しなければ特に限定されないが、例えば、砲金など銅合金、ステンレス鋼等の金属、PPS(ポリフェニレンサルファイド)、PPSU(ポリフェニルサルフォン)などのエンジニアリングプラスチック、これらのエンジニアリングプラスチックにガラス繊維等の補強材を混合分散させた複合材料が挙げられる。   The in-core is not particularly limited, but is superior in strength to the joint body part, and is not particularly limited unless it is melted by the heat of the injection resin when the thermoplastic resin molded part is injection-molded.For example, a copper alloy such as gun metal, Examples include metals such as stainless steel, engineering plastics such as PPS (polyphenylene sulfide) and PPSU (polyphenylsulfone), and composite materials in which reinforcing materials such as glass fibers are mixed and dispersed in these engineering plastics.

本発明にかかる配管材は、以上のように、他の配管材の受口に挿入される差口と、この差口の差込後端側で外周方向に鍔状に張り出し、前記他の配管材の前記受口の外周方向に鍔状に張り出すクリップ係止鍔とともに、クリップ部材によって係止されるクリップ係止鍔とを有する継手部と、この継手部に連設された管材本体部と、を備える配管材であって、前記管材本体部と、この管材本体部の一端に設けられ、管材本体部より拡径する拡径部と、この拡径部の先端に設けられた鍔返し加工部を備え、熱可塑性樹脂製の内層及びこの内層の外側に設けられた金属製の補強層を有する複層構造をしている複合管の、前記拡径部および鍔返し加工部の前記内層と、熱可塑性樹脂からなり、継手部を構成する継手本体部とが、その界面で融着されていて、前記継手本体部より強度が高い材料からなるインコアが、上記継手本体部を内周側から補強するように設けられているとともに、前記鍔返し加工部が、前記クリップ係止鍔の一部を構成しているので、金属材料の使用量を少なくすることができるとともに、継手部分を小さくできて、配管施工工数を少なくすることができる。さらに、複合管端面の金属製補強層が内部を流れる水に接触しないので、補強層が腐食することを防止でき、耐久性にも優れている。
また、継手本体部を射出成形すると同時に複合管と継手本体部とを融着することができるので、後工程で接着するなどの手間がなく生産性がよい。
インコアが設けられているので、継手本体部のシール材による変形を防止して止水性能の低下を防止することができる。
すなわち、たとえば、差口には、通常、シール材が外嵌されていて、差口を受口に差し込むことによってこのシール材によって水密に接続される。一方、差口には、このシール材を介して受口内壁面から受ける反力が外周方向からかかる。したがって、継手本体部が軟質の熱可塑性樹脂で形成されている場合、差口が継手本体部のみであると、この反力で内側に変形して、止水性を確保できなくなるおそれがあるが、インコアを設けることによって、継手本体部のシール材による変形を防止して止水性能の低下を防止することができる。
As described above, the piping material according to the present invention projects in a hook shape in the outer peripheral direction at the insertion end of the insertion port inserted into the receiving port of the other piping material, and the other piping. A joint portion having a clip latching rod projecting in a hook shape in the outer peripheral direction of the receiving port of the material, and a clip latching rod latched by the clip member, and a pipe body main body portion continuously provided to the joint portion, The pipe material main body part, a diameter-enlarged part that is provided at one end of the pipe material main body part and has a diameter larger than that of the pipe material main body part, and a turning process provided at the tip of the diameter-enlarged part. An inner layer made of a thermoplastic resin and a composite pipe having a multilayer structure having a metal reinforcing layer provided on the outer side of the inner layer, The joint body part, which is made of thermoplastic resin and forms the joint part, is fused at the interface. An in-core made of a material having a strength higher than that of the joint body portion is provided so as to reinforce the joint body portion from the inner peripheral side, and the turnover portion is a part of the clip locking rod. since constitute, it is possible to reduce the amount of metal material, it can be made small joint portions and reduces piping installation steps. Furthermore, since the metal reinforcing layer on the end face of the composite pipe does not come into contact with the water flowing inside, the reinforcing layer can be prevented from corroding and has excellent durability.
Further, since the composite pipe and the joint main body can be fused simultaneously with the injection molding of the joint main body, there is no need for bonding in a subsequent process, and the productivity is good.
Since the in-core is provided, it is possible to prevent the joint body portion from being deformed by the sealing material and prevent the water stop performance from being lowered.
That is, for example, a sealing material is usually fitted over the opening, and the sealing material is watertightly connected by inserting the opening into the receiving port. On the other hand, a reaction force received from the inner wall surface of the receiving port through the sealing material is applied to the differential port from the outer peripheral direction. Therefore, when the joint body part is formed of a soft thermoplastic resin, if the outlet is only the joint body part, it may be deformed inward by this reaction force, and water stoppage may not be ensured. By providing the in-core, it is possible to prevent the joint body portion from being deformed by the sealing material and prevent the water stop performance from deteriorating.

一方、本発明にかかる配管材の製造方法は、少なくとも上記複合管の前記鍔返し加工部が射出成形金型のキャビティ内に臨み、残部がキャビティ外に配置された状態で、キャビティ内に射出樹脂を射出充填して、継手本体部を射出成形する工程を備えているので、この配管材を環境や人による強度のバラツキを生じることなく、複合管部分と継手部分との接続状態を安定した品質とすることができる。   On the other hand, in the method for manufacturing a piping material according to the present invention, at least the turn-up portion of the composite pipe faces the cavity of the injection mold, and the remaining portion is disposed outside the cavity, and the injection resin is placed in the cavity. The joint body is injection-filled, and the joint body is injection-molded, so the quality of the piping material and the joint part is stable without causing variations in strength due to the environment or people. It can be.

本発明にかかる配管材の第1の実施の形態をあらわす断面図である。It is sectional drawing showing 1st Embodiment of the piping material concerning this invention. 図1の配管材の他の配管材との接続方法を説明する斜視図である。It is a perspective view explaining the connection method with the other piping material of the piping material of FIG. 図1の配管材と他の配管材との接合部にクリップ部材を装着する前の状態を説明する斜視図である。It is a perspective view explaining the state before mounting | wearing with a clip member in the junction part of the piping material of FIG. 1, and another piping material. 図3のクリップ部材を装着したのちの状態を説明する斜視図である。It is a perspective view explaining the state after mounting | wearing with the clip member of FIG. 図4の断面図である。FIG. 5 is a cross-sectional view of FIG. 4. 図1の配管材の製造方法を説明する断面図である。It is sectional drawing explaining the manufacturing method of the piping material of FIG. 本発明にかかる配管材の第2の実施の形態をあらわす断面図である。It is sectional drawing showing 2nd Embodiment of the piping material concerning this invention.

以下に、本発明を、その実施の形態をあらわす図面を参照しつつ詳しく説明する。
図1〜図5は、本発明にかかる配管材の第1の実施の形態をあらわす。
Hereinafter, the present invention will be described in detail with reference to the drawings showing embodiments thereof.
1 to 5 show a first embodiment of a piping material according to the present invention.

図1〜図5に示すように、この配管材1aは、継手部10および管材本体部13を備えている。
継手部10は、差口11およびクリップ係止鍔12を備えている。
差口11は、Oリング嵌合溝11bを有し、このOリング嵌合溝11bにOリング11aがシール材として嵌装されている。
As shown in FIGS. 1 to 5, the piping material 1 a includes a joint part 10 and a pipe body main part 13.
The joint portion 10 includes a slot 11 and a clip locking rod 12.
The differential port 11 has an O-ring fitting groove 11b, and an O-ring 11a is fitted into the O-ring fitting groove 11b as a sealing material.

そして、この配管材1aは、図6に示すように、金型7に後で詳述する複合管2および継手部10の一部を構成するインコア4aをセットしたのち、キャビティ74内に熱可塑性樹脂を射出して継手本体部3aを成形することによって得られる。   Then, as shown in FIG. 6, the piping material 1 a is set in the mold 7 with the composite pipe 2 and the in-core 4 a constituting a part of the joint portion 10, which will be described in detail later. It is obtained by injecting resin to mold the joint body 3a.

すなわち、複合管2は、外層2aと内層2bおよび補強層2cからなる市販の複合管(例えば、積水化学工業社製の商品名エスロンスーパーエスロメタックス、内外層がポリエチレン樹脂、補強層がアルミニウム)の一端部を加工して得られ、円筒状に拡径加工して形成した拡径部22と、拡径部22の先端部を鍔返し加工して形成した鍔返し加工部23と、残部である管材本体部13となる未加工部21とを備えている。
未加工部21の長さは、この配管材1aの用途に応じて適宜決定され、長尺の場合、未加工部21がロール状に巻回されていてもよい。
なお、拡径部22の大きさは、呼び径φ16mmの複合管(内径φ15.6mm)を用いる場合、拡径部22の内径は、特に限定されないが、17.6mm程度が好ましい。
That is, the composite pipe 2 is a commercially available composite pipe comprising an outer layer 2a, an inner layer 2b, and a reinforcing layer 2c (for example, trade name ESLON Super Ethromex manufactured by Sekisui Chemical Co., Ltd., the inner and outer layers are polyethylene resin, and the reinforcing layer is aluminum). The diameter-enlarged portion 22 obtained by processing one end portion of the diameter-enlarged portion and formed into a cylindrical shape, the turn-up processed portion 23 formed by turning the tip end portion of the enlarged-diameter portion 22, and the remaining portion The unprocessed part 21 used as the certain pipe material main-body part 13 is provided.
The length of the unprocessed portion 21 is appropriately determined according to the use of the piping material 1a. In the case of a long length, the unprocessed portion 21 may be wound in a roll shape.
In addition, as for the magnitude | size of the enlarged diameter part 22, when using the composite pipe (inner diameter (phi) 15.6 mm) of nominal diameter (phi) 16mm, the internal diameter of the enlarged diameter part 22 is although it does not specifically limit, About 17.6 mm is preferable.

そして、複合管2は、図6に示すように、インコア4aの一端部外周壁が拡径部22の基端部側の内壁面に当接し、差口11の一部を構成するインコア4aの他端部が複合管2の鍔返し加工部23側から突出するように装着した状態で、インコア4aとともに、鍔返し加工部23および拡径部22が金型7内にセットされる。   As shown in FIG. 6, the composite pipe 2 is configured so that the outer peripheral wall of the one end portion of the incore 4 a abuts the inner wall surface on the proximal end side of the enlarged diameter portion 22, and the incore 4 a constituting a part of the differential port 11. In a state where the other end portion is mounted so as to protrude from the turn-over processing portion 23 side of the composite tube 2, the turn-up processing portion 23 and the enlarged diameter portion 22 are set in the mold 7 together with the in-core 4 a.

なお、金型閉合状態では、図6に示すように、拡径部22の基端部側の外周壁面が、金型7の上下型71,72内壁面に受けられ、未加工部21が金型7外に突出した状態となる。
図6中、73は、インコア4aの動きを規制するスライド型である。
In the mold closed state, as shown in FIG. 6, the outer peripheral wall surface on the proximal end side of the enlarged diameter portion 22 is received by the inner wall surfaces of the upper and lower molds 71 and 72 of the mold 7, and the unprocessed portion 21 is It will be in the state where it protruded out of type 7.
In FIG. 6, 73 is a slide type that restricts the movement of the in-core 4a.

インコア4aは、例えば、PPS(ポリフェニレンサルファイド)に30重量%のガラス繊維を補強繊維として混合した複合材料であらかじめ成形されていて、鍔部41と、筒状部42とを備えている。
筒状部42は、鍔部41側の外周面に凹凸形状の継手本体部係合溝部42aを備えている。
The in-core 4 a is formed in advance from a composite material in which, for example, PPS (polyphenylene sulfide) is mixed with 30% by weight of glass fiber as a reinforcing fiber, and includes a flange portion 41 and a cylindrical portion 42.
The cylindrical part 42 is provided with an uneven joint body engaging groove part 42a on the outer peripheral surface on the flange part 41 side.

継手本体部3aは、図6に示すように、複合管2の鍔返し加工部23および拡径部22とインコア4aとを金型7内にセットすることによって形成されたキャビティ74の空間部分に内層2bとほぼ同じ材質の熱可塑性樹脂を射出成形することによって形成されている。
そして、継手本体部3aは、上記のように射出成形されることによって、複合管2の拡径部22および鍔返し加工部23の内層面と継手本体部3aの周方向全周にわたって融着状態となるともに、鍔返し加工部23の鍔外周面、すなわち、外層2a,内層2bおよび補強層2cの端面を覆うとともに、外層2aおよび内層2bの端面に融着状態となっている補強層被覆部31を備えている。
したがって、この補強層被覆部31によって補強層2cが外部に非露出状態にされている。
As shown in FIG. 6, the joint body 3 a is formed in the space portion of the cavity 74 formed by setting the turn-over processed portion 23 and the enlarged diameter portion 22 of the composite pipe 2 and the in-core 4 a in the mold 7. It is formed by injection molding a thermoplastic resin that is substantially the same material as the inner layer 2b.
And the joint main-body part 3a is a fusion | fusion state over the inner-layer surface of the enlarged diameter part 22 of the composite pipe 2, and the reversing process part 23, and the circumferential direction all periphery of the joint main-body part 3a by injection molding as mentioned above. The reinforcing layer covering portion that covers the outer peripheral surface of the turn-up processed portion 23, that is, the end surfaces of the outer layer 2a, the inner layer 2b, and the reinforcing layer 2c, and is fused to the end surfaces of the outer layer 2a and the inner layer 2b. 31 is provided.
Therefore, the reinforcing layer 2 c is not exposed to the outside by the reinforcing layer covering portion 31.

なお、この配管材1aは、図2〜図5に示すように、受口52およびクリップ係止鍔部51を有する他の配管材5とクリップ部材6を用いて以下のようにして接続される。
クリップ部材6は、ステンレス鋼の板材を板金加工して得られ、断面コ字形をしたつまみ部61を挟んで両側に弾性係止部62を備え、この弾性係止部62に係止溝63,64がそれぞれ穿設されている。
すなわち、図2に示すように、差口11を受口52の開口を臨むように配置し、差口11を図3および図5に示すようにクリップ係止鍔12とクリップ係止鍔部51とがほぼ当接するまで受口52内に差し込む。
In addition, this piping material 1a is connected as follows using the other piping material 5 which has the receiving port 52 and the clip latching hook part 51, and the clip member 6, as shown in FIGS. .
The clip member 6 is obtained by processing a stainless steel sheet metal, and includes an elastic locking portion 62 on both sides of a knob portion 61 having a U-shaped cross section, and the elastic locking portion 62 has a locking groove 63, 64 is drilled.
That is, as shown in FIG. 2, the slot 11 is arranged so as to face the opening of the receiving port 52, and the slot 11 is connected to the clip locking bar 12 and the clip locking bar 51 as shown in FIGS. Is inserted into the receiving port 52 until it substantially contacts.

つぎに、クリップ係止鍔12およびクリップ係止鍔部51が両弾性係止部62の係止溝63,64内に嵌り込むように、クリップ部材6を図4に示す矢印方向に押し込む。
すなわち、この配管材1aと、他の配管材5とは、上記のようにクリップ部材6の係止溝63,64内にクリップ係止鍔12およびクリップ係止鍔部51が嵌り込み、係止溝63,64の内壁面によってクリップ係止鍔12およびクリップ係止鍔部51の壁面が係止とされて、差口11の受口52からの離脱が防止される。
Next, the clip member 6 is pushed in the direction of the arrow shown in FIG. 4 so that the clip locking bar 12 and the clip locking bar 51 fit into the locking grooves 63 and 64 of the both elastic locking parts 62.
That is, the piping material 1a and the other piping material 5 are engaged with the clip locking rod 12 and the clip locking rod portion 51 in the locking grooves 63 and 64 of the clip member 6 as described above. The wall surfaces of the clip locking bar 12 and the clip locking bar part 51 are locked by the inner wall surfaces of the grooves 63, 64, and the separation of the gap 11 from the receiving port 52 is prevented.

また、図示していないが、上記のようにして装着されたクリップ部材6は、両弾性係止部62に離脱防止用の係止部材の係止爪をそれぞれ係止させて両弾性係止部62の間隔が拡がって離脱しないようにするようになっている。   Although not shown, the clip member 6 mounted as described above has both elastic locking portions 62 locked to the elastic locking portions 62 by locking the locking claws of the locking member for preventing detachment. The interval 62 is widened so as not to leave.

この配管材1aは、上記のように構成されており、以下のような優れた性能を備えている。
(1)金属部分が複合管2の補強層2c部分のみであるので、金属材料の使用量を少なくできる。
(2)継手部10と管材本体部13が予め一体化されているので、複合管を現場で継手に接続するという手間がなく、配管施工工数を少なくすることができるとともに、狭い場所での施工性に優れている。また、プレハブ加工などで最適である。
(3)管材本体部13が複合管で形成されているので、管材本体部13が継手部10の近傍での曲げにも対応しやすい。
(4)抜け力が複合管2の金属製補強層2cを備えた鍔返し加工部23に受けられるので、管内層樹脂や融着部に発生する抜け力が小さく、接続部の長期信頼性が高い。
(5)複合管2と、継手本体部3aとが、継手本体部3aを射出成形することによって融着一体化させたので、熱板融着や、電気融着などに比べ、温度、圧力が安定化し、外部環境(外乱)の影響も少なく、安定した融着品質が確保できる。
(6)従来の継手を用いた接続構造に比べ、継手部10の内径を大きくすることができるので、圧損を小さくすることができる。
(7)拡径部22を備え、この拡径部22を金型内壁面に係止させるようにしたので、複雑な構造を使用せずとも射出成形時に容易に管の位置決め、固定をすることができる。
(8)継手本体部3aより強度が高い材料からなインコア4aによって継手本体部3aを内周側から補強しているので、継手本体部3aが軟質の熱可塑性樹脂で形成されていても継手本体部3aが外周方向からの負荷よって変形し、止水性能が劣化することを防止できる。
(9)インコア4aの筒状部42が継手本体部係合溝部42aを備えているので、インコア4aと継手本体部3aとがよりしっかりと一体化できる。
(10)複合管2の拡径部22および鍔返し加工部23の内層面と継手本体部3aの周方向全周にわたって融着状態となっているので、補強層2cが配管材1a内部を流れる流体に触れて腐食する恐れがない。
(11)継手本体部3aの強層被覆部31によって補強層2cが外面側でも非露出状態となっているので、万一、配管材1aの外部が雨水等に曝されても、補強層2cが腐食されることがない。
This piping material 1a is configured as described above and has the following excellent performance.
(1) Since the metal portion is only the reinforcing layer 2c portion of the composite tube 2, the amount of metal material used can be reduced.
(2) Since the joint part 10 and the pipe body main part 13 are integrated in advance, there is no need to connect the composite pipe to the joint at the site, and the number of pipes can be reduced and construction in a narrow place is possible. Excellent in properties. Also suitable for prefabrication.
(3) Since the pipe main body 13 is formed of a composite pipe, the pipe main body 13 can easily cope with bending near the joint 10.
(4) Since the pull-out force is received by the turn-over processed portion 23 provided with the metal reinforcing layer 2c of the composite pipe 2, the pull-out force generated in the pipe inner layer resin and the fused portion is small, and the long-term reliability of the connecting portion is improved. high.
(5) Since the composite pipe 2 and the joint body 3a are fused and integrated by injection molding of the joint body 3a, the temperature and pressure are higher than those of hot plate fusion or electric fusion. Stable, less affected by external environment (disturbance), and can secure stable fusion quality.
(6) Since the inner diameter of the joint portion 10 can be increased as compared with a connection structure using a conventional joint, the pressure loss can be reduced.
(7) Since the enlarged diameter portion 22 is provided and the enlarged diameter portion 22 is locked to the inner wall surface of the mold, the tube can be easily positioned and fixed at the time of injection molding without using a complicated structure. Can do.
(8) Since the joint body 3a is reinforced from the inner peripheral side by the in-core 4a made of a material having higher strength than the joint body 3a, the joint body even if the joint body 3a is formed of a soft thermoplastic resin. It can prevent that the part 3a deform | transforms with the load from an outer peripheral direction, and water-stopping performance deteriorates.
(9) Since the cylindrical portion 42 of the in-core 4a includes the joint main body engaging groove 42a, the in-core 4a and the joint main body 3a can be more firmly integrated.
(10) Since the inner layer surface of the enlarged diameter portion 22 and the turnover processing portion 23 of the composite pipe 2 and the entire circumference in the circumferential direction of the joint body portion 3a are fused, the reinforcing layer 2c flows inside the piping material 1a. There is no risk of corrosion by touching the fluid.
(11) Since the reinforcing layer 2c is not exposed even on the outer surface side by the strong layer covering portion 31 of the joint body 3a, even if the outside of the piping material 1a is exposed to rainwater or the like, the reinforcing layer 2c Will not be corroded.

図7は、本発明にかかる配管材の第2の実施の形態をあらわしている。
図7に示すように、この配管材1bは、以下に詳述する以外は、上記配管材1aと同様になっている。したがって、上記配管材1aと同様の構成部分は、上記配管材1aと同じ符号を付している。
FIG. 7 shows a second embodiment of the piping material according to the present invention.
As shown in FIG. 7, the piping material 1b is the same as the piping material 1a, except as described in detail below. Therefore, the same components as the piping material 1a are denoted by the same reference numerals as the piping material 1a.

すなわち、この配管材1bは、金型内に複合管2をセットし、インコア4bをセットせず、継手本体部3bを射出成形したのち、複合管2と融着状態に成形された継手本体部3bの先端部にインコア4bの筒状部43を後から嵌合させて、差口11を受口52に差し込んだ状態で、Oリング11aを介して受口52の内周面からの反力を受けるため、もっとも外側からの負荷がかかりやすいOリング嵌合溝11b部分およびその近傍のみの狭い範囲を、インコア4bの筒状部43によって内側から補強するようにした。
この配管材1bは、上記のようになっており、上記配管材1aの作用効果に加え、インコア4bが小さなもので済むため、材料コストを低減することができる。
That is, this piping material 1b is a joint body portion that is molded in a fused state with the composite pipe 2 after the composite pipe 2 is set in the mold, the incore 4b is not set, and the joint body portion 3b is injection molded. The cylindrical portion 43 of the in-core 4b is fitted to the tip portion of 3b later, and the reaction force from the inner peripheral surface of the receiving port 52 is inserted through the O-ring 11a in a state where the insertion port 11 is inserted into the receiving port 52. Therefore, the narrow portion of the O-ring fitting groove 11b portion and the vicinity of the O-ring fitting groove 11b that are most likely to be loaded from the outside is reinforced from the inside by the cylindrical portion 43 of the in-core 4b.
This piping material 1b is as described above, and in addition to the effects of the piping material 1a, the incore 4b can be small, so that the material cost can be reduced.

本発明は、上記の実施の形態に限定されない。例えば、上記の実施の形態では、差口が管部の一方にしか設けられていなかったが、管部の両側に差口を同様にして設けるようにしても構わない。
また、上記の実施の形態では、複合管が外層を備えていたが、外層はなくても構わない。
The present invention is not limited to the above embodiment. For example, in the above embodiment, the opening is provided only on one side of the pipe portion, but the opening may be provided in the same manner on both sides of the pipe portion.
In the above embodiment, the composite pipe includes the outer layer, but the outer layer may not be provided.

上記の実施の形態では、拡径部が円筒状をしていたが、円錐台状の筒状に拡径させても構わない。
上記の実施の形態では、加工複合管が拡径部を備えていたが、管部が短く、金型内に加工複合管全体を収容できるようにする構成や、管部端面を容易に抑えて金型からの離脱を防止できる構成にできれば、拡径部はなくても構わない。
In the above-described embodiment, the enlarged diameter portion has a cylindrical shape, but the diameter may be increased to a truncated cone shape.
In the above embodiment, the processed composite pipe has an enlarged diameter part. However, the pipe part is short, and the structure that allows the entire processed composite pipe to be accommodated in the mold and the end face of the pipe part can be easily suppressed. As long as it can be configured to prevent detachment from the mold, the enlarged diameter portion may not be provided.

1a,1b 配管材
10 継手部
11 差口
11a Oリング(リング状シール材)
12 クリップ係止鍔
13 管材本体部
2 加工複合管
21 未加工部
22 拡径部
23 鍔返し加工部
2a 外層
2b 内層
2c 補強層
3a,3b 継手本体部
31 補強層被覆部
4a,4b インコア
5 他の配管材
51 クリップ係止鍔(他の配管材)
52 受口
6 クリップ部材
7 金型
71 上型
72 下型
73 スライド型
74 キャビティ
1a, 1b Piping material 10 Joint part 11 Port 11a O-ring (ring-shaped seal material)
12 clip locking rod 13 pipe body portion 2 processed composite tube 21 unprocessed portion 22 enlarged diameter portion 23 turn-up processed portion 2a outer layer 2b inner layer 2c reinforcing layer 3a, 3b joint body portion 31 reinforcing layer covering portion 4a, 4b in-core 5 and others Piping material 51 Clip locking rod (other piping material)
52 Receptacle 6 Clip member 7 Mold 71 Upper mold 72 Lower mold 73 Slide mold 74 Cavity

Claims (8)

他の配管材の受口に挿入される差口と、この差口の差込後端側で外周方向に鍔状に張り出し、前記他の配管材の前記受口の外周方向に鍔状に張り出すクリップ係止鍔とともに、クリップ部材によって係止されるクリップ係止鍔とを有する継手部と、
この継手部に連設された管材本体部と、を備える配管材であって、
前記管材本体部と、この管材本体部の一端に設けられ、管材本体部より拡径する拡径部と、この拡径部の先端に設けられた鍔返し加工部を備え、熱可塑性樹脂製の内層及びこの内層の外側に設けられた金属製の補強層を有する複層構造をしている複合管の、前記拡径部および鍔返し加工部の前記内層と、熱可塑性樹脂からなり、継手部を構成する継手本体部とが、その界面で融着されていて、
前記継手本体部より強度が高い材料からなるインコアが、上記継手本体部を内周側から補強するように設けられているとともに、
前記鍔返し加工部が、前記クリップ係止鍔の一部を構成していることを特徴とする配管材。
An outlet inserted into the receiving port of another piping material, and a flange extending in the outer peripheral direction on the rear end side of the insertion of the connecting port, and extending like a hook in the outer peripheral direction of the receiving port of the other piping material A joint part having a clip locking bar to be locked together with a clip locking bar to be locked by the clip member;
A pipe body provided continuously with the joint, and a piping material comprising:
The pipe body main body, provided at one end of the pipe body main body, and having a diameter-expanded portion that is larger in diameter than the pipe body main body, and a reversing portion provided at the tip of the diameter-expanded portion, are made of thermoplastic resin. The composite pipe having a multilayer structure having an inner layer and a metal reinforcing layer provided on the outer side of the inner layer, the inner layer of the enlarged diameter portion and the turned-up portion, and a thermoplastic resin, and a joint portion The joint body part that forms a part is fused at the interface,
An in-core made of a material having higher strength than the joint main body is provided to reinforce the joint main body from the inner peripheral side,
The piping material , wherein the turn-up processed portion constitutes a part of the clip locking rod.
上記複合管が、補強層の外側を囲繞する熱可塑性樹脂製の外層を備えている請求項1に記載の配管材。 The piping material according to claim 1, wherein the composite pipe includes an outer layer made of a thermoplastic resin surrounding an outer side of the reinforcing layer . 上記継手本体部が、鍔返し加工部の補強層を配管材の外面側に非露出状態に被覆する補強層被覆部を備えている請求項1または請求項2に記載の配管材。 The piping material according to claim 1 or 2, wherein the joint main body portion includes a reinforcing layer covering portion that covers the reinforcing layer of the turned processing portion on the outer surface side of the piping material in an unexposed state . 上記継手本体部は、その少なくとも一部が、インコアと、複合管との隙間を密に埋めるように設けられている請求項3に記載の配管材。 The piping material according to claim 3 , wherein at least a part of the joint main body portion is provided so as to closely fill a gap between the in-core and the composite pipe . 上記インコアが、筒状部と、この筒状部の一端に設けられ、差口の先端部を形成する鍔部を備えている請求項1〜請求項4のいずれかに記載の配管材。 The piping material according to any one of claims 1 to 4, wherein the in- core is provided with a cylindrical portion and a flange portion that is provided at one end of the cylindrical portion and forms a distal end portion of the opening . 差口が、Oリング嵌合溝を有し、インコアの鍔部が、前記Oリング嵌合溝の側壁を構成している請求項5に記載の配管材。 The piping material according to claim 5 , wherein the insertion opening has an O-ring fitting groove, and the flange portion of the in-core constitutes a side wall of the O-ring fitting groove . 上記インコアの筒状部が、継手本体部係合溝部を備えている請求項5または請求項6に記載の配管材 The piping material according to claim 5 or 6 , wherein the cylindrical portion of the in-core includes a joint main body engaging groove. 少なくとも上記複合管の前記鍔返し加工部が射出成形金型のキャビティ内に臨み、残部がキャビティ外に配置されるとともに、インコアをキャビティ内に配置した状態で、キャビティ内に射出樹脂を射出充填して、継手本体部を射出成形する工程を備えていることを特徴とする請求項1〜請求項7のいずれかに記載の配管材の製造方法。   At least the reversing part of the composite pipe faces the cavity of the injection mold, the remaining part is disposed outside the cavity, and the incore is disposed in the cavity, and injection resin is injected and filled into the cavity. The method for manufacturing a piping material according to any one of claims 1 to 7, further comprising a step of injection molding the joint main body.
JP2011271932A 2011-12-13 2011-12-13 Piping material and manufacturing method thereof Active JP5829114B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2011271932A JP5829114B2 (en) 2011-12-13 2011-12-13 Piping material and manufacturing method thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2011271932A JP5829114B2 (en) 2011-12-13 2011-12-13 Piping material and manufacturing method thereof

Publications (2)

Publication Number Publication Date
JP2013124676A JP2013124676A (en) 2013-06-24
JP5829114B2 true JP5829114B2 (en) 2015-12-09

Family

ID=48776074

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2011271932A Active JP5829114B2 (en) 2011-12-13 2011-12-13 Piping material and manufacturing method thereof

Country Status (1)

Country Link
JP (1) JP5829114B2 (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108458173B (en) * 2017-02-20 2024-03-15 新昌县广远管业有限公司 Threaded connection structure of lining stainless steel composite steel pipe
CN109000068A (en) * 2018-09-25 2018-12-14 上海伟星新型建材有限公司 A kind of fitting structure fuse of modified hot melt interconnection technique
CN109249610A (en) * 2018-11-30 2019-01-22 四川高德特科技有限公司 A kind of plastic pipe flanging device
CN110293178A (en) * 2019-08-06 2019-10-01 玉环豪立信铜业有限公司 A kind of flange flaring tool
CN112610781A (en) * 2020-11-26 2021-04-06 山西青科恒安矿业新材料有限公司 Thermoplastic reinforced plastic composite pipe end boss structure and preparation method thereof
CN113983252B (en) * 2021-10-29 2022-12-13 临海伟星新型建材有限公司 High-voltage connecting structure for steel wire mesh reinforced composite pipe and manufacturing method thereof

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6037491A (en) * 1983-08-09 1985-02-26 株式会社東芝 Expansion joint
JP2519481B2 (en) * 1987-10-13 1996-07-31 豊田合成株式会社 Manufacturing method of pipe with flange
JPH0718511B2 (en) * 1988-03-18 1995-03-06 積水化学工業株式会社 Connection structure between composite pipe and pipe joint
JPH06297505A (en) * 1993-04-20 1994-10-25 Inoac Corp Integrally bonded structure of terminal flange part of pipe made of synthetic resin
JP2006090493A (en) * 2004-09-27 2006-04-06 Toyoda Gosei Co Ltd Hose equipped with connector
JP4464847B2 (en) * 2005-02-16 2010-05-19 株式会社武井樹脂製作所 Tube connection structure and tube connection method
JP2007107618A (en) * 2005-10-13 2007-04-26 Sekisui Chem Co Ltd Pipe fitting and its protective cap

Also Published As

Publication number Publication date
JP2013124676A (en) 2013-06-24

Similar Documents

Publication Publication Date Title
JP5829114B2 (en) Piping material and manufacturing method thereof
RU2589974C1 (en) Fitting, system containing such fitting, and airtight connection with such fitting
US9631758B2 (en) Connecting piece for multilayered conduits, method of connecting, and assembly obtained by the method
JP2009180311A (en) Resin nipple for hose adapter and hose adapter connecting structure
JP5688282B2 (en) Manufacturing method of piping materials
CN103562611A (en) Pipe fitting element for connecting a polypropylene pipe and a metal pipe
JP2013152004A (en) Piping material and method of manufacturing the same
MX2009010612A (en) Connector for tubing, containing a plastic insert.
JPH07253187A (en) Tube fitting
JPH0736233Y2 (en) Union socket for plastic pipes
JP4561540B2 (en) connector
WO2023070869A1 (en) Steel wire mesh reinforced composite pipe high-voltage connector, and manufacturing method therefor
JP5508200B2 (en) Piping material and manufacturing method thereof
JP7340925B2 (en) Fluid device connection system and connection member
JP2002357292A (en) End structure of corrugated pipe and manufacturing method therefor
JP3666787B2 (en) Riser fitting for gas meter connection
JP2014051999A (en) Double-layered pipe
JPH06159563A (en) Polyolefine pipe with socket
JP6894276B2 (en) Piping structure construction method and piping structure
RU2408814C1 (en) Connecting unit with connecting pipe
JP2012172688A (en) Structure and method for connecting composite pipe
JPH10160069A (en) Anticorrosion mechanical pipe joint and anticorrosion mechanical pipe connection structure
JPH0712272A (en) Piping member
KR200170280Y1 (en) Jointing structure of pipe
JP2001146990A (en) Water cut-off method for pipe end cross section of composite pipe

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20140822

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20150528

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20150609

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20150804

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20150929

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20151021

R151 Written notification of patent or utility model registration

Ref document number: 5829114

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R151