JP2005106121A - Connection management checker of pipe joint - Google Patents

Connection management checker of pipe joint Download PDF

Info

Publication number
JP2005106121A
JP2005106121A JP2003337897A JP2003337897A JP2005106121A JP 2005106121 A JP2005106121 A JP 2005106121A JP 2003337897 A JP2003337897 A JP 2003337897A JP 2003337897 A JP2003337897 A JP 2003337897A JP 2005106121 A JP2005106121 A JP 2005106121A
Authority
JP
Japan
Prior art keywords
gap
elastic support
support arm
connection management
pipe
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.)
Granted
Application number
JP2003337897A
Other languages
Japanese (ja)
Other versions
JP4186064B2 (en
Inventor
Seiji Ito
清二 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.)
Nitta Moore Co
Original Assignee
Nitta Moore Co
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 Nitta Moore Co filed Critical Nitta Moore Co
Priority to JP2003337897A priority Critical patent/JP4186064B2/en
Publication of JP2005106121A publication Critical patent/JP2005106121A/en
Application granted granted Critical
Publication of JP4186064B2 publication Critical patent/JP4186064B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Landscapes

  • Quick-Acting Or Multi-Walled Pipe Joints (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To provide a connection management checker of a pipe joint capable of clearly determining at a glance whether mutual connection between both of male and female members of the pipe joint is incomplete or complete. <P>SOLUTION: In the connection management checker, the female member 1 is an integrated elastic supporting arm 12 by disposing a gap g on an outer periphery of a body 10, an free end of the elastic supporting arm 12 approaches to or comes into contact with an outer periphery of the body 10 by pushing to the inside in an incomplete connecting state with a male member 2, the elastic supporting arm 12 returns to a state having an original or nearly original gap in a complete connecting state with the male member 2, and a hole 16 being connected with the gap g is formed at a base end of the elastic supporting arm 12. The checker has a base body 30, and an inserting piece 31 projecting from the base body 30 and being inserted into the gap through the hole 16. A gap G is generated between the base body 30 and the body 10 so that insertion of the inserting piece 31 into the gap g via the hole 16 is blocked between the free end and base end of the elastic supporting arm 12 in an incomplete connecting state. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

この発明は、燃料配管経路のタンクやレギュレータ等の流体機器に設けられる管継手の接続管理用チェッカーに関するものである。   The present invention relates to a connection management checker for a pipe joint provided in a fluid device such as a tank or a regulator in a fuel pipe path.

この種の管継手としては、例えば、図8や図9に示すように、燃料配管経路のタンクやレギュレータ等に固定される支持管7と、前記支持管7に外挿接続されるチューブ接続管8とから成るものがある(例えば、特許文献1。)。   As this type of pipe joint, for example, as shown in FIG. 8 and FIG. 9, a support pipe 7 fixed to a tank or a regulator of a fuel pipe path, and a tube connection pipe connected to the support pipe 7 by extrapolation 8 (for example, Patent Document 1).

この管継手では、図8に示すように支持管7に対してチューブ接続管8を少し外挿させた不完全接続状態から完全接続状態に到るまでの間では、チューブ接続管8の外周部に隙間gを設けて具備させた弾性支持腕80の自由端側の係止部81が、支持管7に設けた係止体70により内側に押し込まれてチューブ接続管8に近接又は接触し、これより支持管7に対してチューブ接続管8を更に押し込んだ図9に示す完全接続状態では弾性支持腕80は元の隙間gを有する状態に弾性復帰して前記係止部81が係止体70に対して抜け止め状態に係合するようになっている。   In this pipe joint, as shown in FIG. 8, the outer peripheral portion of the tube connection pipe 8 is from the incomplete connection state in which the tube connection pipe 8 is slightly extrapolated to the support pipe 7 to the complete connection state. A locking portion 81 on the free end side of the elastic support arm 80 provided with a gap g is pushed inward by a locking body 70 provided on the support tube 7 and comes close to or in contact with the tube connection tube 8. 9, when the tube connecting tube 8 is further pushed into the support tube 7, the elastic support arm 80 is elastically restored to the state having the original gap g, and the locking portion 81 is locked. 70 is engaged in a retaining state.

したがって、上記完全接続状態では、係止部81が係止体70に対して係合状態にあるので、管継手に流体圧が作用しても、支持管7からチューブ接続管8が不用意に外れるようなことはない。
特開2001−130581号公報 しかしながら、この管継手では、支持管7に対するチューブ接続管8の接続が、不完全接続状態であるか、完全接続状態であるかを、外観上明瞭に判断できないという問題があった。
Therefore, in the completely connected state, since the locking portion 81 is engaged with the locking body 70, the tube connecting pipe 8 is inadvertently formed from the support pipe 7 even if fluid pressure acts on the pipe joint. There is no such thing as coming off.
However, in this pipe joint, there is a problem in that it is impossible to clearly determine whether the connection of the tube connection pipe 8 to the support pipe 7 is an incomplete connection state or a complete connection state. was there.

なお、上記のような問題は、支持管とチューブ接続管との関係に限らず、管継手を構成する雄・雌部材のうち、雌部材が弾性支持腕を有し、雄部材側が支持体を有するものであれば、同様に存在する。   The above problems are not limited to the relationship between the support pipe and the tube connection pipe, but of the male and female members constituting the pipe joint, the female member has an elastic support arm, and the male member side has the support body. If it has, it exists as well.

そこで、この発明では、管継手の雄・雌部材相互の接続が、不完全接続状態であるか、完全接続状態であるかを、一見して明瞭に判断できる接続管理用チェッカーを提供することを課題とする。   Accordingly, the present invention provides a connection management checker that can clearly determine at a glance whether the connection between male and female members of a pipe joint is an incomplete connection state or a complete connection state. Let it be an issue.

(請求項1記載の発明)
請求項1記載の発明は、雄部材とこれに接続される雌部材のうち、雌部材は、本体外周部に隙間を設けて弾性支持腕を一体化してあり、雄部材との不完全接続状態では弾性支持腕の自由端は内側に押し込まれて本体外周部に近接又は接触し、雄部材との完全接続状態では弾性支持腕は元の又は元に近い隙間がある状態に復帰するようにしてあり、前記弾性支持腕の基端部分には上記隙間に繋がる孔を形成してある管継手用の接続管理用チェッカーであって、基体と、前記基体から突出し且つ上記孔から隙間に挿入される挿入片とを有し、不完全接続状態においては孔を介した挿入片の隙間への挿入が弾性支持腕の自由端と基端部との間で阻止されて基体と本体の構成壁外面との間にギャップができるようにしてある。
(請求項2記載の発明)
請求項2記載の発明は、雄部材とこれに接続される雌部材のうち、雄部材は、本体外周部に隙間を設けて弾性支持腕を一体化してあり、雌部材との不完全接続状態では弾性支持腕の自由端は内側に押し込まれて本体外周部に近接又は接触し、雌部材との完全接続状態では弾性支持腕は元の又は元に近い隙間がある状態に復帰するようにしてあり、前記弾性支持腕の基端部分には上記隙間に繋がる孔を形成してある管継手用の接続管理用チェッカーであって、基体と、前記基体から突出し且つ上記孔から隙間に挿入される挿入片とを有し、不完全接続状態においては孔を介した挿入片の隙間への挿入が弾性支持腕の自由端と基端部との間で阻止されて基体と本体の構成壁外面との間にギャップができるようにしてある。
(請求項3記載の発明)
請求項3記載の発明の接続管理用チェッカーは、請求項1記載の発明に関し、雄部材はタンク又は流体機器に設けてある。
(請求項4記載の発明)
請求項4記載の発明の接続管理用チェッカーは、請求項2記載の発明に関し、雌部材はタンク又は流体機器に設けてある。
(請求項5記載の発明)
請求項5記載の発明の接続管理用チェッカーは、上記請求項1乃至4のいずれかに記載の発明に関し、弾性支持腕は本体に2本設けてあり、挿入片及びこれに挿入される孔はそれぞれ二つ設けてある。
(Invention of Claim 1)
According to the first aspect of the present invention, of the male member and the female member connected thereto, the female member is provided with a gap in the outer peripheral portion of the main body and integrated with the elastic support arm, and is in an incompletely connected state with the male member. Then, the free end of the elastic support arm is pushed inward so as to be close to or in contact with the outer periphery of the main body, and in a fully connected state with the male member, the elastic support arm is restored to the original or close to the original state. There is a connection management checker for a pipe joint in which a hole connected to the gap is formed in a base end portion of the elastic support arm, the base and a base protruding from the base and inserted into the gap from the hole In the incompletely connected state, insertion into the gap of the insertion piece through the hole is prevented between the free end and the base end of the elastic support arm, and the base wall and the outer surface of the constituent wall of the main body There is a gap between them.
(Invention of Claim 2)
The invention according to claim 2 is that the male member of the male member and the female member connected thereto is provided with a gap in the outer peripheral portion of the main body and integrated with the elastic support arm, and is in an incompletely connected state with the female member. Then, the free end of the elastic support arm is pushed inward so as to be close to or in contact with the outer periphery of the main body, and in a fully connected state with the female member, the elastic support arm is returned to the original state or the state where there is a gap close to the original. There is a connection management checker for a pipe joint in which a hole connected to the gap is formed in a base end portion of the elastic support arm, the base and a base protruding from the base and inserted into the gap from the hole In the incompletely connected state, insertion into the gap of the insertion piece through the hole is prevented between the free end and the base end of the elastic support arm, and the base wall and the outer surface of the constituent wall of the main body There is a gap between them.
(Invention of Claim 3)
The connection management checker according to a third aspect of the present invention relates to the invention according to the first aspect, wherein the male member is provided in a tank or a fluid device.
(Invention of Claim 4)
The connection management checker according to a fourth aspect of the present invention relates to the invention according to the second aspect, wherein the female member is provided in a tank or a fluid device.
(Invention of Claim 5)
The connection management checker according to a fifth aspect of the present invention relates to the invention according to any one of the first to fourth aspects, wherein two elastic support arms are provided on the main body, and the insertion piece and the hole inserted into the elastic support arm are provided. There are two each.

この発明の管継手では、管継手の雄・雌部材相互の接続が、不完全接続状態であるか、完全接続状態であるかを、一見して明瞭に判断できる接続管理用チェッカーを提供できた。   In the pipe joint according to the present invention, it is possible to provide a connection management checker that can clearly determine at a glance whether the connection between the male and female members of the pipe joint is an incomplete connection state or a complete connection state. .

以下にこの発明の管継手の接続管理用チェッカーを実施するための最良の形態としての実施例について詳細に説明する。   Hereinafter, an embodiment as the best mode for carrying out the connection management checker for pipe joints of the present invention will be described in detail.

図1はこの発明の実施形態の管継手におけるチューブ接続管1とこれに関連する接続管理用チェッカー3の斜視図、図2は前記管継手における支持管2を示す斜視図、図3は前記管継手におけるチューブ接続管1及び支持管2を示す断面図、図4は支持管2に対してチューブ接続管1が不完全接続状態である際に接続管理用チェッカー3を使用したときの説明図、図5は支持管2に対してチューブ接続管1が完全接続状態である際に接続管理用チェッカー3を使用したときの説明図を示している。
(この管継手及びチェッカー3の基本的構成について)
この管継手は、図1や図3に示すように、チューブ接続管1(請求項1の発明の雌部材に相当する)と、支持管2(請求項1の発明の雄部材に相当する)から構成されており、例えば、燃料チューブ等が接続されたチューブ接続管1を、燃料タンク等に固定された支持管2にワンタッチで接続できるようにしたものである。そして、この管継手におけるチューブ接続管1の支持管2への接続状態が不完全接続状態か又は完全接続状態であるかを図4や図5に示すように接続管理用チェッカー3を用いて一見して判断できるようにしている。
FIG. 1 is a perspective view of a tube connection pipe 1 and a connection management checker 3 related thereto in a pipe joint according to an embodiment of the present invention, FIG. 2 is a perspective view showing a support pipe 2 in the pipe joint, and FIG. Sectional drawing which shows the tube connection pipe 1 and the support pipe 2 in a joint, FIG. 4 is explanatory drawing when the checker 3 for connection management is used when the tube connection pipe 1 is in an incomplete connection state with respect to the support pipe 2. FIG. 5 shows an explanatory diagram when the connection management checker 3 is used when the tube connection pipe 1 is in a completely connected state with respect to the support pipe 2.
(About the basic structure of this pipe joint and checker 3)
As shown in FIGS. 1 and 3, the pipe joint includes a tube connecting pipe 1 (corresponding to the female member of the invention of claim 1) and a support pipe 2 (corresponding to the male member of the invention of claim 1). For example, a tube connection pipe 1 to which a fuel tube or the like is connected can be connected to a support pipe 2 fixed to a fuel tank or the like with one touch. Then, as shown in FIGS. 4 and 5, the connection management checker 3 is used to determine whether the connection state of the tube connection pipe 1 to the support pipe 2 in this pipe joint is an incomplete connection state or a complete connection state. To be able to judge.

以下に、チューブ接続管1、支持管2及び接続管理用チェッカー3について詳述する。(チューブ接続管1の構成について)
チューブ接続管1は、図1に示すように、本体10とこれから側部に突出するチューブ接続部11とから成る略L字状に形成されたもので、前記本体10の外周部に隙間gを設けて一対の弾性支持腕12,12を具備させてある。
Below, the tube connection pipe 1, the support pipe 2, and the connection management checker 3 will be described in detail. (About the structure of the tube connection pipe 1)
As shown in FIG. 1, the tube connecting pipe 1 is formed in a substantially L-shape comprising a main body 10 and a tube connecting portion 11 projecting sideward from the main body 10, and a gap g is formed in the outer peripheral portion of the main body 10. A pair of elastic support arms 12, 12 is provided.

上記本体10は、図1や図3に示すように、天板を有する筒状に形成されていると共にその内周面にOリング13を設けてあり、支持管2のパイプ部20が外周気密状態に挿入されるようになっている。   As shown in FIGS. 1 and 3, the main body 10 is formed in a cylindrical shape having a top plate and is provided with an O-ring 13 on the inner peripheral surface thereof, and the pipe portion 20 of the support tube 2 has an outer airtightness. To be inserted into the state.

チューブ接続部11は図1や図3に示すように、チューブが不用意に抜けないようにするために先端部に抜け止め用の膨出部14を設けてあり、また、チューブの挿入長さを規定する鍔部15を設けてある。   As shown in FIGS. 1 and 3, the tube connecting portion 11 is provided with a bulging portion 14 for preventing the tube from coming off unintentionally, and the insertion length of the tube. There is provided a flange 15 that defines

弾性支持腕12は、図1や図4に示すように、内側への押し込み力により内方に弾性変形するものであり、自由端部の外側に係止部15を設けてある。また、この弾性支持腕12と上記本体10とが繋がっている部分、つまり弾性支持腕12の基端側部分に、図1に示すように、上記隙間gに繋がる孔16を穿設してある。
(支持管2の構成について)
支持管2は、図2や図3に示すように、この実施例では上記パイプ部20を燃料タンクFTに直接設け、前記パイプ部20の周辺には上記本体10が挿入される挿入孔22を設けてある。なお、この挿入孔22に本体10が奥深くまで挿入された完全接続状態では上述した如くパイプ20は本体10内に設けたOリング13を超えるまで挿入される。
As shown in FIGS. 1 and 4, the elastic support arm 12 is elastically deformed inward by an inward pushing force, and a locking portion 15 is provided outside the free end portion. Further, as shown in FIG. 1, a hole 16 connected to the gap g is formed in a portion where the elastic support arm 12 and the main body 10 are connected, that is, a base end side portion of the elastic support arm 12. .
(About the structure of the support tube 2)
As shown in FIGS. 2 and 3, the support pipe 2 is provided with the pipe portion 20 directly in the fuel tank FT in this embodiment, and an insertion hole 22 into which the main body 10 is inserted around the pipe portion 20. It is provided. In the fully connected state in which the main body 10 is inserted deeply into the insertion hole 22, the pipe 20 is inserted until it exceeds the O-ring 13 provided in the main body 10 as described above.

また、上記した燃料タンクFTには、図2や図3に示すように、弾性支持腕12の係止部15と係脱する係止体23を設けてある。
(管継手の動作について)
この管継手では、チューブ接続管1の支持管2への接続状態が不完全接続状態にあるときには、前記係止体23は図4に示す如く係止部15を介して弾性支持腕12を内側に押し込んでチューブ接続管1の本体10に近接又は接触せしめる。
Further, as shown in FIGS. 2 and 3, the above-described fuel tank FT is provided with a locking body 23 that engages with and disengages from the locking portion 15 of the elastic support arm 12.
(About the operation of pipe fittings)
In this pipe joint, when the connection state of the tube connection pipe 1 to the support pipe 2 is in an incomplete connection state, the locking body 23 moves the elastic support arm 12 inside through the locking portion 15 as shown in FIG. To the main body 10 of the tube connecting tube 1 to bring it into close contact or contact.

また、図5に示すような完全接続状態では弾性支持腕12は元の隙間g又はこれに近い隙間を有する状態に弾性復帰し、係止体23と係止部15との係止による抜け止め力によりチューブ接続管1と支持管2との分離を完全に阻止する。
(接続管理用チェッカー3の構成及びその働きについて)
接続管理用チェッカー3は、図1に示すように、板状の基体30と、前記基体30から突出し且つ上記孔16,16から隙間g,gに挿入される二枚の挿入片31,31と、前記挿入片31,31の外側に突出する目視片32,32とから構成されており、前記挿入片31,31はその先端部が完全接続状態においてのみ弾性支持腕12,12の自由端に到るまで挿入できるようにしてある。この接続管理用チェッカー3では完全接続状態において、図5に示すように、基体30と本体10の天壁10a(孔16の穿設面)との間にはギャップGは存在せず、また、目視片32,32の先端は同図に示すように係止体23の上面に接触した状態となっている。
Further, in the fully connected state as shown in FIG. 5, the elastic support arm 12 is elastically restored to the state having the original gap g or a gap close to the original gap g, and is prevented from coming off by the locking of the locking body 23 and the locking portion 15. The separation of the tube connection pipe 1 and the support pipe 2 is completely prevented by the force.
(About the configuration of the connection management checker 3 and its function)
As shown in FIG. 1, the connection management checker 3 includes a plate-like base 30, two insertion pieces 31, 31 protruding from the base 30 and inserted into the gaps g, g from the holes 16, 16. The insertion pieces 31, 31 protrude from the outer sides of the insertion pieces 31, 31. The insertion pieces 31, 31 are attached to the free ends of the elastic support arms 12, 12 only when their distal ends are completely connected. It can be inserted until it reaches. In this connection management checker 3, in the completely connected state, as shown in FIG. 5, there is no gap G between the base body 30 and the top wall 10 a of the main body 10 (the drilled surface of the hole 16). The tips of the visual pieces 32, 32 are in contact with the upper surface of the locking body 23 as shown in FIG.

そして、この接続管理用チェッカー3では不完全接続状態においては、上述した如く係止体23は図4に示す如く係止部23を介して弾性支持腕12を内側に押し込んでチューブ接続管1の本体10に近接又は接触せしめているから、挿入片31,31をその先端部が弾性支持腕12,12の自由端に到るまで挿入できない。したがって、図4に示すように、基体30と本体1の孔16の穿設面との間にはギャップGができ、また、目視片32,32の先端は同図に示すように係止体23の上面にから離れた状態となっている。   In the connection management checker 3, in the incompletely connected state, as described above, the locking body 23 pushes the elastic support arm 12 inward through the locking portion 23 as shown in FIG. Since the main body 10 is close to or in contact with the main body 10, the insertion pieces 31 and 31 cannot be inserted until the distal ends thereof reach the free ends of the elastic support arms 12 and 12. Therefore, as shown in FIG. 4, a gap G is formed between the base body 30 and the drilled surface of the hole 16 of the main body 1, and the distal ends of the visual pieces 32, 32 are locking bodies as shown in FIG. It is in a state away from the upper surface of 23.

上記したように、基体30と本体10の天壁10a(孔16の穿設面)との間にギャップGがあるか否か、目視片32,32の先端が係止体23の上面に接触した状態となっているか否かを見れば、直ちに支持管2に対してチューブ接続管1が完全接続状態であるか、不完全接続状態であるかが一見して明瞭に判断できる。   As described above, whether or not there is a gap G between the base body 30 and the top wall 10a of the main body 10 (the surface where the hole 16 is formed), the tips of the visual pieces 32 and 32 are in contact with the upper surface of the locking body 23. It can be clearly determined at a glance whether the tube connection pipe 1 is in a completely connected state or an incompletely connected state with respect to the support pipe 2 by looking at whether or not it is in the closed state.

また、この実施形態の接続管理用チェッカー3では、図1や図5に示すように、係止爪34を有した弾性垂下片33を設けてあり、完全接続状態では、弾性垂下片33の係止爪34が係止体23を超えて両者が係合状態になって、接続管理用チェッカー3が本体10から不用意に抜けないようになるようにしてある。   Further, in the connection management checker 3 of this embodiment, as shown in FIGS. 1 and 5, an elastic hanging piece 33 having a locking claw 34 is provided, and in the fully connected state, the elastic hanging piece 33 is engaged. The stop pawl 34 exceeds the locking body 23 so that they are engaged with each other, so that the connection management checker 3 is not inadvertently removed from the main body 10.

なお、接続管理用チェッカー3を使用して図4に示すような不完全接続状態が発見された場合は、そのまま基体30を指で押し込むことにより、図5に示す完全接続状態にすることができる。   If an incomplete connection state as shown in FIG. 4 is found using the connection management checker 3, the complete connection state shown in FIG. 5 can be obtained by pushing the substrate 30 with a finger as it is. .

この実施例2は、図6や図7に示すように、チューブ接続管1’を雄部材とし、燃料タンクFT側を雌部材として機能させるようにした例であり、図6においては燃料タンクFT(雌部材)に対してチューブ接続管1’(雄部材)とが不完全接続状態を示し、図7においては燃料タンクFTに対してチューブ接続管1’とが完全接続状態を示している。   As shown in FIGS. 6 and 7, the second embodiment is an example in which the tube connecting pipe 1 ′ is a male member and the fuel tank FT side is a female member. In FIG. 6, the fuel tank FT is used. The tube connecting pipe 1 ′ (male member) is in an incompletely connected state with respect to (female member), and in FIG. 7, the tube connecting pipe 1 ′ is in a completely connected state with respect to the fuel tank FT.

この形態の場合においても、図6に示す不完全接続状態では、係止部23’を介して弾性支持腕12’は内側に押し込まれてチューブ接続管1’の本体10’に近接又は接触せしめられているから、挿入片31,31をその先端部が弾性支持腕12’,12’の自由端に到るまで挿入できない。   Even in the case of this form, in the incompletely connected state shown in FIG. 6, the elastic support arm 12 ′ is pushed inward through the locking portion 23 ′ so as to approach or come into contact with the main body 10 ′ of the tube connecting tube 1 ′. Therefore, the insertion pieces 31 and 31 cannot be inserted until their distal ends reach the free ends of the elastic support arms 12 'and 12'.

これに対して、弾性支持腕12’の自由端にある係止部15’が係止体23’を通過し、弾性支持腕12’元の隙間g又はこれに近い隙間を有する状態に弾性復帰した完全接続状態では、挿入片31,31はその先端部がみ弾性支持腕12,12の自由端に到るまで挿入できる。   On the other hand, the locking portion 15 ′ at the free end of the elastic support arm 12 ′ passes through the locking body 23 ′ and elastically returns to a state having the original clearance g of the elastic support arm 12 ′ or a gap close thereto. In the completely connected state, the insertion pieces 31 and 31 can be inserted until the distal end portions thereof reach the free ends of the elastic support arms 12 and 12.

したがって、実施例1と同様に、不完全接続状態と完全接続状態とでは、天壁10a’に対する基板30の相対位置関係が相違し、このため、燃料タンクFTに対してチューブ接続管1’が、不完全接続状態であるか、不完全接続状態であるかが、一見して明瞭に判断できる。
(他の実施の形態について)
上記接続管理用チェッカー3は、基板30に、挿入片31、目視片32及び垂下片33を具備させたものとしてあるが、目視片32及び垂下片33を取り除いた場合でも、基板30と本体1の孔16の穿設面との間にギャップGがあるか否かで、一見して明瞭に上記完全接続状態であるか、不完全接続状態であるかが判断できる。
Therefore, as in the first embodiment, the relative positional relationship of the substrate 30 with respect to the top wall 10a ′ is different between the incompletely connected state and the completely connected state. For this reason, the tube connecting pipe 1 ′ is different from the fuel tank FT. It can be clearly determined at a glance whether it is incompletely connected or incompletely connected.
(About other embodiments)
The connection management checker 3 includes the board 30 provided with the insertion piece 31, the visual piece 32, and the hanging piece 33. However, even when the visual piece 32 and the hanging piece 33 are removed, the board 30 and the main body 1 are removed. Whether there is a gap G between the hole 16 and the perforated surface of the hole 16 can be clearly determined at a glance whether it is in the above-described completely connected state or incompletely connected state.

上記形態では、支持管2(雄部材)は燃料タンクFTに設けてあるが、これに限らず、レギュレータやポンプ等に設けるようにしてもよい。   In the above embodiment, the support pipe 2 (male member) is provided in the fuel tank FT. However, the present invention is not limited thereto, and may be provided in a regulator, a pump, or the like.

上記形態では、弾性支持腕は本体に2本設けてあり、挿入片及びこれに挿入される孔はそれぞれ二つ設けてあるが、それぞれの前記構成を一つ又は三つ以上としてもよい。   In the above embodiment, two elastic support arms are provided in the main body, and two insertion pieces and two holes are provided therein. However, each of the configurations may be one or three or more.

この発明の実施例1の管継手におけるチューブ接続管(雌部材)とこれに関連する接続管理用チェッカーの斜視図。The perspective view of the tube connection pipe (female member) in the pipe joint of Example 1 of this invention and the connection management checker relevant to this. 前記管継手における支持管(雄部材)を示す斜視図。The perspective view which shows the support pipe (male member) in the said pipe joint. 前記管継手における支持管を示す断面図。Sectional drawing which shows the support pipe in the said pipe joint. 前記管継手を構成する支持管に対してチューブ接続管が不完全接続状態である際に接続管理用チェッカーを使用したときの説明図。Explanatory drawing when the checker for connection management is used when the tube connection pipe is in an incompletely connected state with respect to the support pipe which comprises the said pipe joint. 前記管継手を構成する支持管に対してチューブ接続管が完全接続状態である際に接続管理用チェッカーを使用したときの説明図。Explanatory drawing when a connection management checker is used when the tube connection pipe is in a completely connected state with respect to the support pipe constituting the pipe joint. この発明の実施例2において管継手を構成する燃料タンク(雌部材)に対してチューブ接続管(雄部材)が不完全接続状態である際に接続管理用チェッカーを使用したときの説明図。Explanatory drawing when a connection management checker is used when the tube connection pipe (male member) is in an incompletely connected state with respect to the fuel tank (female member) which comprises a pipe joint in Example 2 of this invention. 実施例2において管継手を構成する燃料タンク(雌部材)に対してチューブ接続管(雄部材)が完全接続状態である際に接続管理用チェッカーを使用したときの説明図。Explanatory drawing when a connection management checker is used when the tube connection pipe (male member) is a complete connection state with respect to the fuel tank (female member) which comprises a pipe joint in Example 2. FIG. 従来の管継手における説明図。Explanatory drawing in the conventional pipe joint. 従来の管継手における説明図。Explanatory drawing in the conventional pipe joint.

符号の説明Explanation of symbols

g 隙間
G ギャップ
1 チューブ接続管(管継手の雌部材)
2 支持管(管継手の雄部材)
3 接続管理用チェッカー
10 本体
11 チューブ接続部
12 弾性支持腕
13 Oリング
14 膨出部
15 係止部
16 孔
20 パイプ部
22 挿入孔
23 係止体
30 基体
31 挿入片
32 目視片
33 垂下片
34 係止爪
g Gap G Gap 1 Tube connection pipe (female member of pipe fitting)
2 Support pipe (male member of pipe joint)
DESCRIPTION OF SYMBOLS 3 Connection management checker 10 Main body 11 Tube connection part 12 Elastic support arm 13 O-ring 14 Swelling part 15 Locking part 16 Hole 20 Pipe part 22 Insertion hole 23 Locking body 30 Base body 31 Insertion piece 32 Visualization piece 33 Drooping piece 34 Locking claw

Claims (5)

雄部材とこれに接続される雌部材のうち、雌部材は、本体外周部に隙間を設けて弾性支持腕を一体化してあり、雄部材との不完全接続状態では弾性支持腕の自由端は内側に押し込まれて本体外周部に近接又は接触し、雄部材との完全接続状態では弾性支持腕は元の又は元に近い隙間がある状態に復帰するようにしてあり、前記弾性支持腕の基端部分には上記隙間に繋がる孔を形成してある管継手用の接続管理用チェッカーであって、基体と、前記基体から突出し且つ上記孔から隙間に挿入される挿入片とを有し、不完全接続状態においては孔を介した挿入片の隙間への挿入が弾性支持腕の自由端と基端部との間で阻止されて基体と本体の構成壁外面との間にギャップができるようにしてあることを特徴とする接続管理用チェッカー。 Among the male member and the female member connected thereto, the female member is provided with a gap at the outer periphery of the main body and integrated with the elastic support arm, and in the incompletely connected state with the male member, the free end of the elastic support arm is The elastic support arm is pushed inward and approaches or contacts the outer peripheral portion of the main body, and in a fully connected state with the male member, the elastic support arm returns to the original or close to the original state. A connection management checker for a pipe joint in which a hole connected to the gap is formed at an end portion, and includes a base and an insertion piece that protrudes from the base and is inserted into the gap from the base. In the fully connected state, insertion into the gap of the insertion piece through the hole is prevented between the free end and the base end of the elastic support arm so that a gap is formed between the base body and the outer wall of the constituent wall of the main body. A connection management checker characterized by that. 雄部材とこれに接続される雌部材のうち、雄部材は、本体外周部に隙間を設けて弾性支持腕を一体化してあり、雌部材との不完全接続状態では弾性支持腕の自由端は内側に押し込まれて本体外周部に近接又は接触し、雌部材との完全接続状態では弾性支持腕は元の又は元に近い隙間がある状態に復帰するようにしてあり、前記弾性支持腕の基端部分には上記隙間に繋がる孔を形成してある管継手用の接続管理用チェッカーであって、基体と、前記基体から突出し且つ上記孔から隙間に挿入される挿入片とを有し、不完全接続状態においては孔を介した挿入片の隙間への挿入が弾性支持腕の自由端と基端部との間で阻止されて基体と本体の構成壁外面との間にギャップができるようにしてあることを特徴とする接続管理用チェッカー。 Among the male member and the female member connected thereto, the male member is provided with a gap in the outer peripheral portion of the main body and integrated with the elastic support arm, and in the incompletely connected state with the female member, the free end of the elastic support arm is The elastic support arm is pushed into the inside and approaches or contacts the outer periphery of the main body, and in a fully connected state with the female member, the elastic support arm returns to the original or close to the original state. A connection management checker for a pipe joint in which a hole connected to the gap is formed at an end portion, and includes a base and an insertion piece that protrudes from the base and is inserted into the gap from the base. In the fully connected state, insertion into the gap of the insertion piece through the hole is prevented between the free end and the base end of the elastic support arm so that a gap is formed between the base body and the outer wall of the constituent wall of the main body. A connection management checker characterized by that. 雄部材はタンク又は流体機器に設けてあることを特徴とする請求項1記載の接続管理用チェッカー。 The connection management checker according to claim 1, wherein the male member is provided in a tank or a fluid device. 雌部材はタンク又は流体機器に設けてあることを特徴とする請求項2記載の接続管理用チェッカー。 3. The connection management checker according to claim 2, wherein the female member is provided in a tank or a fluid device. 弾性支持腕は本体に2本設けてあり、挿入片及びこれに挿入される孔はそれぞれ二つ設けてあることを特徴とする請求項1乃至4のいずれかに記載の接続管理用チェッカー。 5. The connection management checker according to claim 1, wherein two elastic support arms are provided in the main body, and two insertion pieces and two holes to be inserted therein are provided.
JP2003337897A 2003-09-29 2003-09-29 Pipe joint connection checker Expired - Fee Related JP4186064B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2003337897A JP4186064B2 (en) 2003-09-29 2003-09-29 Pipe joint connection checker

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2003337897A JP4186064B2 (en) 2003-09-29 2003-09-29 Pipe joint connection checker

Publications (2)

Publication Number Publication Date
JP2005106121A true JP2005106121A (en) 2005-04-21
JP4186064B2 JP4186064B2 (en) 2008-11-26

Family

ID=34533587

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2003337897A Expired - Fee Related JP4186064B2 (en) 2003-09-29 2003-09-29 Pipe joint connection checker

Country Status (1)

Country Link
JP (1) JP4186064B2 (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2008542644A (en) * 2005-05-24 2008-11-27 ビーエフエス デバーシファイド プロダクツ エルエルシー Air spring assembly with non-screw connection
JP2012087927A (en) * 2010-10-09 2012-05-10 Norma Germany Gmbh Connecting element for fluid connection
CN103090141A (en) * 2013-01-16 2013-05-08 山东天迈管业有限公司 Rapid spiral winding dewatering tube joint

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2008542644A (en) * 2005-05-24 2008-11-27 ビーエフエス デバーシファイド プロダクツ エルエルシー Air spring assembly with non-screw connection
JP4901861B2 (en) * 2005-05-24 2012-03-21 ビーエフエス デバーシファイド プロダクツ エルエルシー Air spring assembly with non-screw connection
JP2012087927A (en) * 2010-10-09 2012-05-10 Norma Germany Gmbh Connecting element for fluid connection
CN103090141A (en) * 2013-01-16 2013-05-08 山东天迈管业有限公司 Rapid spiral winding dewatering tube joint

Also Published As

Publication number Publication date
JP4186064B2 (en) 2008-11-26

Similar Documents

Publication Publication Date Title
JP3983728B2 (en) Pipe fittings and sockets for pipe fittings
JP4036784B2 (en) Pipe fittings for piping
EP3339709B1 (en) Connector
JP2004211891A (en) Connector with checker
WO2013018562A1 (en) Piping joint
JP2005172161A (en) Quick connector
JP2008286349A (en) Quick connector
JP2006316944A (en) Quick connector
JP2006112554A (en) Quick connector
JP4777148B2 (en) connector
KR20200123057A (en) Male connector and connection system for cooling pipe
JP2010196782A (en) Release tool for quick connector
JP6347438B2 (en) connector
JP2014015969A (en) Connector
JP4186064B2 (en) Pipe joint connection checker
JP2010281382A (en) Pipe joint
JP2008082463A (en) Quick connector having connection confirming checker
JP5941772B2 (en) connector
JP2005282743A (en) Pipe fitting
JP2005228731A (en) Electric connection device
JP2005155665A (en) Checker for connection management for pipe joint
JP2005127400A (en) Checker for controlling connection of pipe joint
WO2012096143A1 (en) Pipe connector
JP5108395B2 (en) Protection tube connector
JP2019199924A (en) Pipe joint and joint member thereof

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20050727

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: 20080801

A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20080826

R150 Certificate of patent or registration of utility model

Ref document number: 4186064

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20110919

Year of fee payment: 3

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20110919

Year of fee payment: 3

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20120919

Year of fee payment: 4

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20120919

Year of fee payment: 4

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130919

Year of fee payment: 5

LAPS Cancellation because of no payment of annual fees