JP3975827B2 - Wiring duct - Google Patents

Description

【０００１】
【発明の属する技術分野】
本発明は、長尺中空のケース内部に導体を保持し、ケースの開口部を介してプラグをケース内部に挿入・装着して導体に接触させる配線ダクトシステムに用いられる配線ダクトに関するものである。
【０００２】
【従来の技術】
従来より、コンセント等の電気機器が取付けられる配線ダクトシステムが使用されている。これは、例えば、情報ラック等に配設したり、図２０に示すように吊具Ｈａにて単体で配設される配線ダクトにコンセント等が形成された電気機器のプラグ３’を挿入，装着して使用するものである。
【０００３】
図２１に示すように、配線ダクトＤは長尺中空のもので、その長手方向には開口部１０が形成してある。配線ダクトＤの内部には長尺の一対の導体２１が保持してあり、開口部１０より配線ダクトＤの内部にプラグ３’を所定の向きで挿入して、プラグ３’の一対の栓刃３５を配線ダクトＤの導体２１に接触させてプラグ３’の電気機器に通電を行うものである。
【０００４】
プラグ３’を配線ダクトＤに挿入，装着するには、まずプラグ３’を所定の向きで開口部１０より配線ダクトＤの内部に挿入し（図２１参照）、そしてプラグ３’を９０°回転して栓刃３５を配線ダクトＤの導体２１に接触させ、係止部３４を開口部１０の周縁の内壁面に係止するものである（図２２参照）。
【０００５】
ところで、従来の配線ダクトＤは、金属の芯材に合成樹脂を被覆して一体成形するもので、配線ダクトＤの製造コストが増大するものであった。
【０００６】
そこで、製造コストを低減すべく、配線ダクトＤを金属のみで形成すると、一対の導体２１を保持することが不可能となり、また、配線ダクトＤを合成樹脂のみで形成すると、配線ダクトＤが強度不足となる。また、金属製の外殻の内側に導体２１を保持するための合成樹脂製の部材を単に嵌め込んだりするものも考えられるが、このようなものにあっては、配線ダクトＤに挿入，装着されるプラグ３’と金属製の外殻の間に合成樹脂製の部材が介在することとなり、プラグ３’のアース接続を行うことが困難なものであった。
【０００７】
【発明が解決しようとする課題】
本発明は上記の点に鑑みてなされたものであり、その目的とするところは、安価に製造することができると共に、挿入されるプラグを容易に確実にアース接続することができる配線ダクトを提供することを課題とするものである。
【０００８】
【課題を解決するための手段】
上記課題を解決するために本発明に係る配線ダクトは、長尺中空のケース１に長手方向に開口部１０を形成し、ケース１内部に長尺の導体２１を保持する配線ダクトにおいて、ケース１を金属で形成すると共に、ケース１内部の壁面１ａに合成樹脂製の導体保持部材５を取付けて該導体保持部材５にて導体２１を保持し、ケース１内部の壁面１ａに取付けられる導体保持部材５の背板部５１の前記壁面１ａへの取付面５１ａと反対側の面５１ｂに前記導体２１とは別体の略板状をしたアース導体２２を取付け、背板部５１とケース１の背板部５１が取付けられる部分とアース導体２２とにそれぞれに連通する貫通孔５０，１４，２２ａを形成し、前記貫通孔５０，１４，２２ａは、導体保持部材５の貫通孔５０の内径をアース導体２２の貫通孔２２ａ及びケース１の貫通孔１４の内径よりも大径に形成し、導体保持部材５の貫通孔５０にケース１とアース導体２２との導通を補助する導通補助部材２３を設け、前記導通補助部材２３は、その外径を前記導体保持部材５の貫通孔５０の内径と略同径に形成すると共に内径がアース導体２２の貫通孔２２ａ及びケース１の貫通孔１４の内径と略同径の孔部２３ａを形成し、導体保持部材５の貫通孔５０に導通補助部材２３を嵌合し、前記連通する貫通孔５０，１４，２２ａに挿通される軸部６１と、該軸部６１の両端部に形成されてケース１外部の壁面１ｂとアース導体２２とにそれぞれ係止される係止部６２ａ，６２ｂとからなる締結部材６にてアース導体２２と導体保持部材５と導通補助部材２３とケース１とを締結したことを特徴とするものである。このような構成とすることで、金属製のケース１と合成樹脂製の導体保持部材５とを別々に形成できて安価に製造することが可能となると共に、導体保持部材５が合成樹脂製であるにもかかわらずケース１とアース導体２２との導通が確実に行えるものであり、また更に、締結部材６によってアース導体２２と導体保持部材５と導通補助部材２３とケース１とを容易に締結することが可能となる。
【００１０】
また、導通補助部材２３の外径を締結部材６のアース導体２２に係止される係止部６２ａの外径と略同径に形成することが好ましい。このような構成とすることで、導通補助部材２３の全面に亘って締結力が作用して導通補助部材２３を確実に固定することが可能となる。
【００１１】
【発明の実施の形態】
以下、本発明を添付図面に示す実施形態に基づいて説明する。本発明の配線ダクトシステムは、例えば、図１９に示すように情報ラック等のラックＲａに配設したり、図２０に示すように吊具Ｈａにて単体で配設したりするもので、配線ダクトにコンセントが形成されたような電気機器のプラグを挿入，装着するものである。以下、配線ダクトとプラグについて説明する。
【００１２】
配線ダクトは、図２乃至図４に示すように、ケース１と導体２１とで主体が構成され、前記導体２１はケース１内部に取付けられる導体保持部材５によって保持される。
【００１３】
ケース１は、図２に示すように、長尺の板状をした奥壁部１１と、奥壁部１１の両側端縁（即ち長手方向の端縁）から該奥壁部１１に略垂直に延設される一対の対向する側壁部１２と、両側壁部１２の手前側の端縁（即ち奥壁部１１と反対側の端縁）から互いに対向する側壁部１２の端縁に向けて該側壁部１２に略垂直に（即ち奥壁部１１に略平行に）延設される一対の前壁部１３とからなり、両前壁部１３の端縁１３ａ間がケース１の内部と外部とを連通する開口部１０となる断面略矩形状をした長尺中空のものである。このケース１は金属で形成されるもので、また、開口部１０は図２（ｃ）からも分かるようにケース１の長手方向に形成される。ケース１の奥壁部１１には、導体保持部材５を取付けるための後述する締結部材６が挿通される貫通孔１４が形成してあり、ケース１の内壁面１ａ（本実施形態では特に奥壁部１１の内壁面）に導体保持部材５が取付けられる。
【００１４】
導体保持部材５は、図３に示すように、ケース１の内壁面１ａに取付けられる背板部５１と、該背板部５１より連設される導体取付片部５２と、該導体取付片部５２より連設される嵌込片部５５とで主体が構成される合成樹脂製のものである。
【００１５】
背板部５１は、ケース１の奥壁部１１よりも幅（即ち短手方向の長さ）が狭く長手方向の長さが奥壁部１１とほぼ同じ長さの板状をしたもので、一方の面が奥壁部１１の内壁面１ａに取着される取着面５１ａとなる。また、背板部５１の前記取着面５１ａと反対側の面はアース導体取着面５１ｂとなっていて後述するアース導体２２が取着される。また、背板部５１には、奥壁部１１の内壁面１ａに取着された際に奥壁部１１の上記貫通孔１４に連通するように取着面５１ａからアース導体取着面５１ｂにかけて貫通孔５０が形成してある。
【００１６】
アース導体２２は、図３に示すように、後述する導体２１とは別体の導通部材で、背板部５１より幅狭で長尺の薄板状をしたものである。このアース導体２２は、アース導体取着面５１ｂに当接した状態でアース導体取着面５１ｂに形成してあるアース導体係止片５１ｃによって背板部５１に取着，保持されるのであるが、この時、上述したケース１の貫通孔１４及び背板部５１の貫通孔５０に連通するように貫通孔２２ａが形成してある。これらの連通する貫通孔には、後述するが、締結部材６が挿通されてケース１に締結されると共に、ケース１とアース導体２２との導通を補助する導通補助部材２３が配設される。
【００１７】
また、導体保持部材５の背板部５１には、図３に示すように誤装着防止部４が設けられると共に導体取付片部５２が連設されるのであるが、誤装着防止部４については後で説明する。
【００１８】
導体取付片部５２は、図３に示すように、背板部５１の両側端縁（即ち長手方向の端縁）から背板部５１に略垂直に連設される幅がケース１の側壁部１２の幅の略半分の長尺の板状をしたものである。この導体取付片部５２には、背板部５１と反対側の端縁と、この端縁より幾分か背板部５１側に位置する部分とに導体係止片５３及び背リブ５４が突設される。
【００１９】
導体係止片５３は、図３に示すように、導体保持部材５がケース１内部に取付けられた際にケース１の中心方向に導体取付片部５２より略垂直に突設され、背リブ５４は前記導体係止片５３が突設される部位より反対方向に、即ち、ケース１の側壁部１２の方向に向けて導体取付片部５２より略垂直に突設される。ここで、背板部５１側の導体係止片５３，背リブ５４をそれぞれ導体係止片５３ａ，背リブ５４ａとすると共に、導体取付片部５２の端縁側（即ちケース１に取付けられた際の開口部１０側）のものを導体係止片５３ｂ，背リブ５４ｂとする。
【００２０】
導体係止片５３ａ，５３ｂには、側面に対向する導体係止片５３ｂ，５３ａに向けて凸部が形成してあり、導体２１を係止片５３ａ，５３ｂの先端間より基部へ向けて嵌入して前記凸部を乗り越えさせて該導体２１を係止，保持するものである。また、背リブ５４ａ，５４ｂは、導体保持部材５がケース１内部に取付けられた際に先端部が側壁部１２の内壁面に当接するもので、これにより、導体２１が後述するプラグ３の栓刃３５によって外方へ向けて圧接された際に背リブ５４によって支持されるものである。そして、背リブ５４ｂの先端部からは嵌込片部５５が連設される。
【００２１】
嵌込片部５５は、図３に示すように、開口部１０側の背リブ５４ｂの先端部から導体取付片部５２と略平行に開口部１０側に向けて連設される当接面部５６と、当接面部５６の開口部１０側の端縁から導体係止片５３及び背リブ５４と略平行に導体係止片５３側に向けて連設される嵌込腕部５７とからなる。
【００２２】
当接面部５６は、導体保持部材５がケース１内部に取付けられる際に側壁部１２の内壁面に当接するもので、これにより、上述した背リブ５４と同様に導体２１が外方へ向けて圧接された際に支持することができて、導体保持部材５を強固に固定することができる。また、嵌込腕部５７は、導体保持部材５がケース１内部に取付けられる際に前壁部１３に沿って配置され、前壁部１３のケース１内方に向けて屈曲された先端部１３ａと側壁部１２との間に嵌め込まれるもので、これにより、導体保持部材５をケース１に強固に固定することができる。また、嵌込腕部５７と開口部１０側の背リブ５４ｂとの間は、後述するプラグ３の係止部３４や給電部材７の係合部７３が挿入される挿入溝５８となるものである。
【００２３】
また、導体保持部材５には、上述した導体２１及びアース導体２２を取付けるのに加えて、導通補助部材２３を背板部５１の貫通孔５０に配設するものである。背板部５１の貫通孔５０の内径は、ケース１の貫通孔１４及びアース導体２２の貫通孔２２ａの内径よりも大径に形成してある。導通補助部材２３は、貫通孔２２ａとほぼ同形同大に（即ち略同径に）形成すると共に、内径がケース１の貫通孔１４及びアース導体２２の貫通孔２２ａの内径と略同径の孔部２３ａを形成した環状のものである。そして、この導通補助部材２３を背板部５１の貫通孔５０に嵌合して配設するものである。このように、導通補助部材２３を配設して当接面積を大きくすることで、ケース１とアース導体２２との導通を補助してより良い導通を得ることができて、導体保持部材５を不導体である合成樹脂で形成してもケース１とアース導体２２との導通をより確実に得ることができるので、本実施形態のように金属製のケース１と合成樹脂製の導体保持部材５とを別々に形成して安価に製造することが可能となる。
【００２４】
このような導体保持部材５のケース１への取付けについて説明する。導体保持部材５は、導体２１とアース導体２２と導通補助部材２３とを取付けてケース１内部に挿入し、背板部５１の取着面５１ａをケース１の奥壁部１１の内壁面１ａに当接させると共に、嵌込腕部５７を前壁部１３の先端部１３ａと側壁部１２との間に嵌め込み、ケース１の貫通孔１４とアース導体２２の貫通孔２２ａと背板部５１の貫通孔５０（即ち導通補助部材２３の孔部２３ａ）とを連通させる。そして、これらの連通する貫通孔１４と貫通孔２２ａと孔部２３ａとに締結部材６を挿通してケース１に締結するものである（図４参照）。
【００２５】
締結部材６は、連通する貫通孔１４，２２ａと孔部２３ａとに挿通される軸部６１と、軸部６１の両端部に形成される係止部６２とからなる。係止部６２は、外径が上記貫通孔１４，２２ａの径より大径の円形フランジ状をしたもので、アース導体２２に当接係止される係止部６２ａと、ケース１の奥壁部１１の外壁面１ｂに当接係止される係止部６２ｂとからなる。本実施形態では、図４に示すように、締結部材６には予めアース導体２２に当接係止される係止部６２ａのみが形成してあると共に、軸部６１は、連通する貫通孔１４，孔部２３ａ，貫通孔２２ａの連通方向の孔深さ、即ちケース１の奥壁部１１の外壁面１ｂとアース導体２２の背板部５１に取着されない側の面との距離よりも長く形成してあり、ケース１内部側より上記連通する貫通孔１４，孔部２３ａ，貫通孔２２ａに挿通すると共に係止部６２ａをアース導体２２に当接させ、この状態で軸部６１のケース１の外壁面１ｂよりも外方に突出する部分をかしめて係止部６２ｂを形成するものである。なお、締結部材６については、このようにかしめて係止部６２を形成するもの（リベットを含む）以外に、別体の係止部６２を軸部６１に取着するものであってもよい。
【００２６】
このように締結部材６によってアース導体２２と導体保持部材５と導通補助部材２３とケース１とを締結し、導体保持部材５をケース１の内部に取付けるものである。また、本実施形態では、締結部材６の係止部６２のうち、アース導体２２に当接係止される係止部６２ａの外径を導通補助部材２３の外径と略同径に形成してあるため、この締結部材６にてアース導体２２と導体保持部材５と導通補助部材２３とケース１とを締結した際に導通補助部材２３の全面に亘って締結力が作用することとなって、導通補助部材２３を確実に固定することができる。
【００２７】
以上のように配線ダクトが構成されるのであるが、本実施形態においては、より電気的な安全性を確保するための構造がとられているものである。これは、開口部１０側の導体係止片５３ｂの先端部と、該導体係止片５３ｂと対向する側の開口部１０の端縁とを結ぶ線よりも、前記導体係止片５３ｂに保持される導体２１が前記導体係止片５３ｂ側の側壁部１２寄りに位置するように導体係止片５３ｂを形成するものである。このようにすることで、図６に示すようにφ１ｍｍの試験針を開口部１０からケース１内部に挿入しても、上記のように形成した導体係止片５３ｂによって試験針が導体２１に接触するのが阻止され、図２４に示す従来例のように試験針が導体２１に接触，通電して感電してしまうのをより確実に防止するものであり、例えばＩＥＣ規格のような規格にも適合することが可能となる。
【００２８】
このような配線ダクトに挿入，装着されるプラグ３について説明する。
【００２９】
プラグ３は、図１０に示すように、プラグ本体３１と、プラグ本体３１より突設される挿入部３２と、プラグ本体３１にスライド自在に設けられるスライド体３８とで主体が構成される。
【００３０】
プラグ本体３１は略箱状をしたもので、本実施形態においては、一方の略半部（例えば図１０（ａ）や図１０（ｃ）における右側半部）に後述するスライド体３８がスライド自在に設けられる。また、プラグ本体３１には、その一面（以下、正面という）に挿入部３２が突設されると共に、前記正面と反対側の面（以下、背面という）にコンセント部３３が形成される。なお、本実施形態においては、プラグ３は前記コンセント部３３が形成された電気機器として使用されるが、特にコンセント部が形成されたものに限定されない。
【００３１】
挿入部３２は、開口部１０よりケース１内部に挿入されるように前記開口部１０の幅（即ち両前壁部１３の対向する先端部１３ａ間の距離）よりも若干小径の柱状に形成してあり、プラグ３がケース１に装着された際にプラグ３のうちこの挿入部３２のみがケース１内部に位置するものである。この挿入部３２は、所定の向き（以下、正しい向きという）でのみ開口部１０よりケース１内部に挿入される必要があり、前記正しい向きで挿入された際に挿入部３２の先端部が配線ダクトのアース導体２２に近接すると共に、プラグ本体３１が配線ダクトの前壁部１３の外壁面に近接又は当接する。
【００３２】
挿入部３２には、プラグ３が正しい向きでケース１に挿入，装着された際に奥行き方向（即ち開口部１０から奥壁部１１へ向かう方向）において配線ダクトの挿入溝５８と導体２１とが位置する部分に係止部３４と栓刃３５とがそれぞれ設けてある。
【００３３】
係止部３４は、図１０に示すように、挿入部３２から略垂直に互いに反対方向に突設される一対の板状をしたもので、図１０（ａ）に示すように正面視において略矩形状をしたプラグ本体３の短手方向に向けて突設される。係止部３４の幅（即ち図１０（ａ）や（ｃ）における左右方向の長さ）は、開口部１０の幅よりも幅狭に形成してあり、また、一対の係止部３４の両先端部間の長さ（即ち図１０（ａ）における上下方向の長さ）は、開口部１０の幅よりも幅広で且つ挿入溝５８の幅（即ち導体保持部材５の対向する当接面部５６間の距離）よりも若干幅狭に形成してある。これによって係止部３４は、その長手方向を配線ダクトの長手方向に合わせて開口部１０よりケース１内部に挿入可能となると共に、更にプラグ３を９０°回転して係止部３４を挿入溝５８に挿入させてケース１の前壁部１３の内壁面に当接係止することで配線ダクトからの抜け止めが可能となる。
【００３４】
栓刃３５は、挿入部３２から略垂直に互いに反対方向に突設される一対の薄い金属板で、図１０（ａ）に示すように、上記係止部３４と同様に正面視において略矩形状をしたプラグ本体３１の短手方向に向けて突設される。一対の栓刃３５の両先端部間の長さ（即ち図１０（ａ）における上下方向の長さ）は、配線ダクトの一対の導体２１間の距離とほぼ同じか又は若干長く形成してあり、プラグ３がケース１に挿入，装着された状態で一対の栓刃３５が配線ダクトの一対の導体２１にそれぞれ当接して栓刃３５と導体２１とが導通されるものである。これによって栓刃３５も係止部３４と同様に、開口部１０よりケース１内部に挿入可能となると共に、プラグ３を９０°回転して栓刃３５を導体２１に接触させることが可能となる。
【００３５】
また、挿入部３２の先端部からは接地ピン３６が突設してあり、プラグ３がケース１内部に挿入，装着された際にこの接地ピン３６が上記配線ダクトのアース導体２２と接触して接地される。この接地ピン３６は挿入部３２に対して突出する方向に付勢した状態で突没自在に設けてもよい。更に挿入部３２には、後で説明するが、配線ダクトに設けられる誤装着防止部４としての突起４１を回避する回避部４２が凹設してある。
【００３６】
次に、スライド体３８について説明する。スライド体３８は、プラグ本体３１の略半部の側面部に設けられる断面略Ｕ字状の略半筒状をしたものである。スライド体３８の形状は特に限定されず、断面略コ字状や断面略Ｌ字状等いずれの形状でもよいが、平板状のように外面が一方向のみを向くものでなく、上記断面略Ｌ字状のように二方向を向くものや断面略Ｕ字状又はコ字状のように三方向を向くもののように複数の方向を向くものが好ましい。これは、スライド体３８の外面を指で押さえたり摘まんだりして操作する操作部３９とするのであるが、この操作部３９が複数の方向に面するようにするためであり、これによって、操作部３９が多方向に面してスライド体３８の操作性が向上するものである。特に断面略Ｕ字状のように互いに反対方向に面するように形成してあることで操作部３９を指で摘まんでスライド体３８をスライドさせながらプラグ３を回転させることが可能となる。
【００３７】
また、スライド体３８には位置決め部３７が形成される。位置決め部３７は、スライド体３８の操作部３９より上方に突出するように設けられるもので、誘導部としての傾斜面３７ａが形成してある。スライド体３８は、プラグ本体３１の背面から正面へ向かう方向に付勢された状態（以下、基準状態という）から背面方向にスライド自在にプラグ本体３１に設けられるが、前記基準状態において位置決め部３７がプラグ本体３１の正面より突出すると共に、スライド体３８がスライドした状態において位置決め部３７がプラグ本体３１の正面より突出しないように形成される。これによって位置決め部３７がプラグ本体３１に対して突没自在となるものである。
【００３８】
スライド体３８をプラグ本体３１にスライド自在に設けることについて説明する。図７と図８とにプラグ本体３１を構成するケーシング部３１ａと機器部３１ｂとをそれぞれ示し、図９にスライド体３８の斜視図を示す。
【００３９】
スライド体３８の内壁面には、図９に示すように、間にばねが位置する一対のガイド部３８ｃが突設してあり、このものにあってはガイド部３８ｃの上部に位置決め部３７が一体に形成してある。ガイド部３８ｃには、突出面に凸部３８ｄが突設してあると共に、側面に凹条３８ｅが形成してある。
【００４０】
プラグ本体３１のケーシング部３１ａには、図７に示すように、前記凹条３８ｅに嵌入される突部Ｔが形成してあると共に、ばねの端部が嵌入されるばね用凹部Ｈが形成してある。
【００４１】
機器部３１ｂには挿入部３２等が形成されるものであり、この機器部３１ｂをケーシング部３１ａの図７中Ａ_１に示す部分に取付けると共に、ばねの下端部を上記ばね用凹部Ｈに嵌入し、一対のガイド部３８ｃの間に前記ばねが挿入され且つ、ケーシング部３１ａの突部Ｔが凹条３８ｅに嵌入されるようにスライド体３８をケーシング部３１ａの図７中Ａ_２に示す部分に配設するものである。このようにすることで、上述したようにスライド体３８をプラグ本体３１の背面から正面へ向かう方向にばねにて付勢した状態（即ち上記基準状態）で配設することができる。この時、スライド体３８の凸部３８ｄが機器部３１ｂの上壁の端部Ｓに当接してばね付勢による移動が規制されている。そしてまた、前記基準状態から位置決め部３７を押したり操作部３９を指で摘まんで操作することで、スライド体３８をスライドさせて位置決め部３７がプラグ本体３１の正面より突出しない状態にすることができる。
【００４２】
プラグ３の配線ダクトへの挿入，装着について説明する。プラグ３は、係止部３４を上述したように長手方向に合わせて配線ダクトに対して所定の正しい向きにして挿入部３２をケース１内部に挿入していく。そして、挿入部３２の先端部がアース導体２２に当接（又は近接）すると共に係止部３４が配線ダクトの挿入溝５８と同じ奥行き深さに位置した状態で（図１（ａ）参照）、プラグ３を９０°回転させて（図１（ｂ）及び図１（ｃ）参照）、係止部３４を挿入溝５８に挿入させてケース１の前壁部１３の内壁面に当接係止させる。そして、この間に位置決め部３７は、図１（ａ）に示すように配線ダクトの外部にある状態から図１（ｃ）に示すように配線ダクトの開口部１０の端縁に係止される状態となるのであるが、これは位置決め部３７に誘導部としての傾斜面３７ａが設けてあるため、プラグ３を回転するに伴ってケース１の前壁部１３の開口部１０と反対側の端縁が傾斜面３７ａを押して位置決め部３７及びスライド体３８がスライドし、位置決め部３７がプラグ本体３１の正面より突出しない状態となって前壁部１３の外壁面を摺動して開口部１０に嵌り込み、スライド体３８及び位置決め部３７がばねの付勢力によって上記基準状態に戻って開口部１０に係止されるものである。
【００４３】
また、プラグ３を配線ダクトより取外すには、操作部３９を指で摘まんでスライド体３８をスライドさせ、位置決め部３７がプラグ本体３１の正面より突出しない状態としてプラグ３を挿入，装着時とは逆向きに９０°回転させて挿入部３２を配線ダクトより引抜くものである。
【００４４】
このような配線ダクトシステムにあっては、プラグ３が極性を有するもので、一方の栓刃３５は一対の導体２１のうちの所定側の導体２１に接触すると共に、他方の栓刃３５は残りの導体２１に接触する必要がある。しかしながら、このようなプラグ３にあっては、挿入部３２を配線ダクトに挿入する際に係止部３４の長手方向を開口部１０の長手方向に合わせようとすると、所定の正しい向きとなる場合（図１（ａ）参照）と、前記正しい向きとは反対の誤った向きとなる場合（図５参照）とがあり、誤った向きのままプラグ３を挿入，装着されると接触する栓刃３５と導体２１の組合せが本来接触すべき組合せと異なってしまう。そこで、本実施形態では誤装着防止部４が設けてある。
【００４５】
誤装着防止部４は、配線ダクトのケース１内部に配設される導体保持部材５の背板部５１に設けてある。本実施形態では、図２に示すように背板部５１からケース１の中心側に向けて突設する突起４１であって、図２（ｃ）に示すようにケース１の長手方向に長尺の板状をしたものである。これにより、誤った向きでプラグ３の挿入部３２が開口部１０よりケース１内部に挿入されても、図５に示すように、挿入部３２の先端部が前記突起４１に当接してそれ以上挿入されてアース導体２２に当接（又は近接）することができず、係止部３４が配線ダクトの挿入溝５８と同じ奥行き深さに位置できないため、栓刃３５と導体２１との組合せが誤った組合せとなって接点の電気的安定性が減少することがなくなる。
【００４６】
また、プラグ３には、上記突起４１を回避する回避部４２が凹設してあり、プラグ３が正しい向きで挿入された際、図１（ａ）に示すように突起４１が回避部４２に位置する状態となり、挿入部３２の先端部がアース導体２２に当接（又は近接）すると共に係止部３４が配線ダクトの挿入溝５８と同じ奥行き深さに位置できてプラグ３を配線ダクトに装着できるものである。プラグ３は、正しい向きで挿入部３２がケース１内部に挿入されるだけでなく、所定の栓刃３５と導体２１とを接触させるべく所定の向きに９０°回転するものであるため、板状をした突起４１を回避する回避部４２は図１０（ａ）に示すように挿入部３２の二側面に面するように上端部に凹設してある。プラグ３は図１０（ａ）において接地ピン３６を中心に回転するので、回避部４２の二側面の間（即ち中央部）には前記接地ピン３６が中心となるＲが形成してある。
【００４７】
以上のような構成によれば、導体２１を保持する導体保持部材５をケース１とは別体に形成することで金属製のケース１と合成樹脂製の導体保持部材５とを別々に形成できて安価に製造することが可能となり、また、導体保持部材５にアース導体２２を取着すると共に導体保持部材５にケース１とアース導体２２との導通を補助する導通補助部材２３を設けることで、導体保持部材５が合成樹脂製であるにもかかわらずケース１とアース導体２２との導通が確実となってプラグ３の接地が確実に図られるものであり、また更に、ケース１と導体保持部材５とアース導体２２とに連通する貫通孔１４，５０，２２ａを形成し、締結部材６の軸部６１を前記連通する貫通孔１４，５０，２２ａに挿通して両端部の係止部６２ａ，６２ｂにてアース導体２２及びケース１の外壁面１ｂを係止することで、これらのアース導体２２と導体保持部材５と導通補助部材２３とケース１とを締結部材６によって容易に締結することが可能となる。
【００４８】
また、導体保持部材５の貫通孔５０の内径をアース導体２２の貫通孔２２ａ及びケース１の貫通孔１４の内径よりも大径に形成し、導通補助部材２３の外径を導体保持部材５の貫通孔５０の内径と略同径に形成し、導通補助部材２３に内径がアース導体２２の貫通孔２２ａ及びケース１の貫通孔１４の内径と略同径の孔部２３ａを形成し、導体保持部材５の貫通孔５０に導通補助部材２３を嵌合するようにしたことで、容易に導通補助部材２３を配設することが可能となる。また、導通補助部材２３の外径を締結部材６のアース導体２２に係止される係止部６２ａの外径と略同径に形成したことで、導通補助部材２３の全面に亘って締結力が作用して導通補助部材２３を確実に固定することが可能となる。
【００４９】
このような配線ダクトシステムにおいては、通常はケース１の端部に導体２１に通電するための給電部材７を取付けるものであり、以下、図１１乃至図１８に基づいて説明する。
【００５０】
給電部材７は、図１１に示すように、配線ダクトの端部近傍に取付けられるもので、図１２に示すように本体部７１とカバー部７７とで主体が構成される。なお図１１中のＥＣは、ケース１の端部（但し給電部材が取付けられない端部）に取付けられるエンドキャップであり、図１８にその形状を示す。
【００５１】
本体部７１は、図１３に示すようなもので、略半部がケース１の内部に挿入される（図１１参照）。本体部７１には、電極部７２，係合部７３，端子部７４，押え部７５と、後述する電源コード挟持部８が設けられる。電極部７２は、本体部７１をケース１に取付けた際に配線ダクトの一対の導体２１にそれぞれ接触するよう一対設けられる。係合部７３は、本体部７１をケース１に取付ける際に配線ダクトの挿入溝５８に挿入係合され、これにより本体部７１がケース１から抜け落ちるのが防止される。端子部７４は、ケース１に挿入されない部分に一対設けられ、配線ダクトに給電するための外部からの電源コードの導線が接続される。押え部７５は、ケース１内部に挿入された本体部７１に固着具７６によって取付けられるもので、固着具７６を締付けてケース１の前壁部１３の外壁面に圧接し、この押え部７５と係合部７３とで配線ダクトを挟着して本体部７１を固定するものである。また、本体部７１には電源コード挟持部８が設けられる。
【００５２】
電源コード挟持部８は、図１３に示すように、可動体Ｍと、該可動体Ｍに進退可能に連結される固定体Ｆとで構成され、ボルトＢ及びナットＮからなる固着具Ｋにて可動体Ｍを固定体Ｆに対して連結するものである。
【００５３】
可動体Ｍと固定体Ｆとは、対向する面にて当接するもので、図中の８２は可動体Ｍの固定体Ｆに対する当接面、９２は固定体Ｆの可動体Ｍに対する当接面を示す。可動体Ｍと固定体Ｆの当接面８２，９２には、それぞれ電源コードを挟持する挟持凹部８１，９１が形成される。挟持凹部８１，９１は、側方視において略円弧状に形成してあり、可動体Ｍを固定体Ｆに対して固着具Ｋで連結した際に電源コードが挟持凹部８１，９１にて挟持されるものである。このようにすることで、可動体Ｍと固定体Ｆとを進退可能に連結するので電源コードを挟持したり外したりする際に可動体Ｍを固定体Ｆから引き離すことで容易に作業を行うことができ、また、可動体Ｍと固定体Ｆとを互いに当接面８２，９２で当接した状態で固着具Ｋにて固着して電源コードを挟持凹部８１，９１で挟持するため、電源コードを安定した保持力で給電部材７に固定することが可能となる。
【００５４】
次に、電源コード挟持部８の他例について図１４乃至図１６に基づいて説明する。このものにあっては、図１３に示す上例のものと比較して、可動体Ｍに複数の挟持凹部８１を形成した点で異なるものであり、以下に説明する。
【００５５】
本例の可動体Ｍは、その当接面８２の一方の略半部となる面を基準面部８２ａとすると共に、他方の略半部を前記基準面部８２ａから突出する段差面部８２ｂとし、また、固定体Ｆの当接面９２は、前記可動体Ｍの段差面部８２ｂと基準面部８２ａとにそれぞれ対応する基面部９２ａと該基面部９２ａから突出する突面部９２ｂとで形成してある。可動体Ｍの基準面部８２ａと段差面部８２ｂには、大きさ（即ち凹設深さ）が異なる挟持凹部８１ａ，８１ｂがそれぞれ形成してある。
【００５６】
このものにあっては、図１５に示すように、可動体Ｍの段差面部８２ｂと基準面部８２ａとが固定体Ｆの基面部９２ａと突面部９２ｂとにそれぞれ当接するように可動体Ｍを固定体Ｆに対して固着具Ｋにて連結したり、あるいは図１６に示すように、可動体Ｍの基準面部８２ａが固定体Ｆの突面部９２ｂに当接するように連結したりできるように選択的に当接可能としてある。
【００５７】
このようにすることで、可動体Ｍの挟持凹部８１ａと固定体Ｆの挟持凹部９１とで電源コードを挟持したり、あるいは挟持凹部８１ａとは異なる凹設深さの挟持凹部８１ｂと挟持凹部９１とで電源コードＣを挟持できて、簡単な構成で異径の電源コードＣが挟持可能となるものである。
【００５８】
次に、電源コード挟持部８の更に他例について図１７に基づいて説明する。このものにあっては、図１４乃至図１６に示す上例と比較して、可動体Ｍの互いに反対側を向く一対の当接面８２ｃ，８２ｄにそれぞれ異なる挟持凹部８１ｃ，８１ｄを形成した点で異なるものである。
【００５９】
本例の可動体Ｍは、一方の面に第一の当接面８２ｃを形成すると共に、前記当接面８２の反対側の面に第二の当接面８２ｄを形成し、これらの当接面８２ｃ，８２ｄを選択的に固定体Ｆの当接面９２に当接可能としたもので、第一の当接面８２ｃと第二の当接面８２ｄとには、それぞれ当接面８２からの凹設深さが異なる挟持凹部８１ｃ，８１ｄが形成してある。
【００６０】
このものにあっては、図１７（ｂ）に示すように、可動体Ｍの第二の当接面８２ｄが固定体Ｆの基面部９２ａと当接するように可動体Ｍを固定体Ｆに対して固着具Ｋにて連結したり、あるいは図１７（ｃ）に示すように、可動体Ｍの第一の当接面８２ｃが固定体Ｆの基面部９２ａと当接するように連結するものである。
【００６１】
このようにすることで、可動体Ｍの挟持凹部８１ｃと固定体Ｆの挟持凹部９１とで電源コードを挟持したり、あるいは挟持凹部８１ｃとは異なる凹設深さの挟持凹部８１ｄと挟持凹部９１とで電源コードＣを挟持できて、簡単な構成で異径の電源コードＣが挟持可能となる。
【００６２】
【発明の効果】
上記のように本発明の請求項１記載の発明にあっては、長尺中空のケースに長手方向に開口部を形成し、ケース内部に長尺の導体を保持する配線ダクトにおいて、ケースを金属で形成すると共に、ケース内部の壁面に合成樹脂製の導体保持部材を取付けて該導体保持部材にて導体を保持し、ケース内部の壁面に取付けられる導体保持部材の背板部の前記壁面への取付面と反対側の面に前記導体とは別体の略板状をしたアース導体を取付け、背板部とケースの背板部が取付けられる部分とアース導体とにそれぞれに連通する貫通孔を形成し、前記貫通孔は、導体保持部材の貫通孔の内径をアース導体の貫通孔及びケースの貫通孔の内径よりも大径に形成し、前記連通する貫通孔に挿通される軸部と、該軸部の両端部に形成されてケース外部の壁面とアース導体とにそれぞれ係止される係止部とからなる締結部材にて導体保持部材をケースに締結し、導体保持部材の貫通孔にケースとアース導体との導通を補助する導通補助部材を設け、導通補助部材の外径を前記導体保持部材の貫通孔の内径と略同径に形成すると共に、導通補助部材に内径がアース導体の貫通孔及びケースの貫通孔の内径と略同径の孔部を形成し、導体保持部材の貫通孔に導通補助部材を嵌合したので、金属製のケースと合成樹脂製の導体保持部材とを別々に形成できて安価に製造することが可能となると共に、導体保持部材が合成樹脂製であるにもかかわらずケースとアース導体との導通が確実に行えるものであり、また更に、締結部材によってアース導体と導体保持部材と導通補助部材とケースとを容易に締結することが可能となるものである。
【００６４】
また請求項２記載の発明にあっては、上記請求項１記載の発明の効果に加えて、導通補助部材の外径を締結部材のアース導体に係止される係止部の外径と略同径に形成したので、導通補助部材の全面に亘って締結力が作用して導通補助部材を確実に固定することが可能となる。
【図面の簡単な説明】
【図１】本発明の一実施形態を示し、（ａ）はプラグを配線ダクトに挿入して係止していない状態を示す配線ダクトの長手方向から見た図であり、（ｂ）はプラグを配線ダクトに挿入して係止した状態を示す配線ダクトの長手方向から見た図であり、（ｃ）は（ｂ）の状態において反対側から見た図である。
【図２】同上における配線ダクトを示し、（ａ）はケースの奥壁部側から見た図であり、（ｂ）はケースの側壁部側から見た図であり、（ｃ）はケースの開口部側から見た図であり、（ｄ）は長手方向から見た図である。
【図３】同上における配線ダクトの拡大断面図である。
【図４】同上における配線ダクトの分解斜視図である。
【図５】同上においてプラグを誤った向きで配線ダクトに挿入した状態を示す図である。
【図６】同上において配線ダクトの開口部より試験針を導体に向けて挿入した状態を示す図である。
【図７】同上におけるプラグのケーシング部を示し、（ａ）は正面図であり、（ｂ）は断面図である。
【図８】同上におけるプラグの機器部を示し、（ａ）は正面図であり、（ｂ）は左側面図であり、（ｃ）は下側面図である。
【図９】同上におけるプラグのスライド体の斜視図である。
【図１０】同上におけるプラグを示し、（ａ）は正面図であり、（ｂ）は左側面図であり、（ｃ）は下側面図であり、（ｄ）は右側面図であり、（ｅ）は上側面図であり、（ｆ）は背面図である。
【図１１】同上の配線ダクトの一部省略全体図である。
【図１２】同上における給電部材を示し、（ａ）は上側面図であり、（ｂ）は導体保持部材を設けていない側から見た図であり、（ｃ）は正面図であり、（ｄ）は導体保持部材を設けた側から見た図であり、（ｅ）は下側面図である。
【図１３】同上における給電部材の本体部を示し、（ａ）は上側面図であり、（ｂ）は導体保持部材を設けていない側から見た図であり、（ｃ）は正面図であり、（ｄ）は導体保持部材を設けた側から見た図であり、（ｅ）は下側面図である。
【図１４】給電部材の他例を示し、（ａ）は上側面図であり、（ｂ）は導体保持部材を設けていない側から見た図であり、（ｃ）は正面図であり、（ｄ）は導体保持部材を設けた側から見た図であり、（ｅ）は下側面図である。
【図１５】同上において可動体の段差面部と基準面部とが固定体の基面部と突面部とにそれぞれ当接するように連結した状態を示し、（ａ）は側面図であり、（ｂ）は長手方向から見た図である。
【図１６】同上において可動体の基準面部が固定体の突面部に当接するように連結した状態を示し、（ａ）は側面図であり、（ｂ）は長手方向から見た図である。
【図１７】同上の給電部材の更に他例を示し、（ａ）は側面図であり、（ｂ）は可動体の第二の当接面が固定体の基面部と当接するように連結した状態を長手方向から見た図であり、（ｃ）は可動体の第一の当接面が固定体の基面部と当接するように連結した状態を長手方向から見た図である。
【図１８】エンドキャップを示し、（ａ）は上側面図であり、（ｂ）は左側面図であり、（ｃ）は正面図であり、（ｄ）は右側面図であり、（ｅ）は背面図であり、（ｆ）は下側面図である。
【図１９】配線ダクトを情報ラックに用いた例を示す斜視図である。
【図２０】配線ダクトを吊具で吊った例を示す斜視図である。
【図２１】従来の配線ダクトにプラグを挿入した状態を示し、（ａ）は配線ダクトの長手方向から見た図であり、（ｂ）は平面図である。
【図２２】同上において配線ダクトに挿入したプラグを回転係止した状態を示し、（ａ）は配線ダクトの長手方向から見た図であり、（ｂ）は平面図である。
【図２３】同上において配線ダクトにプラグを誤った向きで挿入した状態を示す図である。
【図２４】同上において配線ダクトの開口部より試験針を導体に向けて挿入した状態を示す図である。
【符号の説明】
１ ケース
１ａ 内壁面
１０ 開口部
１４ 貫通孔
２１ 導体
２２ アース導体
２２ａ 貫通孔
２３ 導通補助部材
５０ 貫通孔
５ 導体保持部材
５１ 背板部
５１ａ 取着面
５１ｂ アース導体取着面
６ 締結部材
６１ 軸部
６２ａ 係止部
６２ｂ 係止部[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wiring duct used in a wiring duct system in which a conductor is held inside a long hollow case, and a plug is inserted into and attached to the inside of the case through an opening of the case to contact the conductor.
[0002]
[Prior art]
Conventionally, a wiring duct system to which an electrical device such as an outlet is attached has been used. For example, the plug 3 ′ of an electric device in which an outlet is formed in a wiring duct that is disposed in an information rack or the like, as shown in FIG. To use.
[0003]
As shown in FIG. 21, the wiring duct D is a long hollow thing, and the opening part 10 is formed in the longitudinal direction. A pair of long conductors 21 are held inside the wiring duct D, and a plug 3 'is inserted into the wiring duct D through the opening 10 in a predetermined direction. 35 is brought into contact with the conductor 21 of the wiring duct D to energize the electrical equipment of the plug 3 ′.
[0004]
In order to insert and install the plug 3 ′ into the wiring duct D, first, the plug 3 ′ is inserted into the wiring duct D through the opening 10 in a predetermined direction (see FIG. 21), and the plug 3 ′ is rotated by 90 °. Then, the plug blade 35 is brought into contact with the conductor 21 of the wiring duct D, and the locking portion 34 is locked to the inner wall surface at the periphery of the opening 10 (see FIG. 22).
[0005]
By the way, the conventional wiring duct D is one in which a metal core is covered with a synthetic resin and integrally molded, and the manufacturing cost of the wiring duct D increases.
[0006]
Therefore, if the wiring duct D is formed only of metal in order to reduce the manufacturing cost, it becomes impossible to hold the pair of conductors 21. If the wiring duct D is formed only of synthetic resin, the wiring duct D is strong. It becomes insufficient. In addition, it is possible to simply insert a synthetic resin member for holding the conductor 21 inside the metal outer shell. In such a case, it is inserted into the wiring duct D and attached. Since a member made of synthetic resin is interposed between the plug 3 ′ and the metal outer shell, it is difficult to connect the plug 3 ′ to the ground.
[0007]
[Problems to be solved by the invention]
The present invention has been made in view of the above points, and an object of the present invention is to provide a wiring duct that can be manufactured at low cost and that can easily and securely connect an inserted plug to the ground. It is an object to do.
[0008]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, a wiring duct according to the present invention is a wiring duct in which an opening 10 is formed in a longitudinal direction in a long hollow case 1 and a long conductor 21 is held inside the case 1. Is formed of metal, and a conductor holding member 5 made of synthetic resin is attached to the wall surface 1a inside the case 1, and the conductor 21 is held by the conductor holding member 5, and the conductor holding member attached to the wall surface 1a inside the case 1 5 is attached to a surface 51b of the back plate 51 opposite to the mounting surface 51a to the wall surface 1a. The ground conductor 22 has a substantially plate shape that is separate from the conductor 21. Through holes 50, 14, and 22a communicating with the portion to which the plate portion 51 is attached and the ground conductor 22 are formed, The through holes 50, 14, 22 a are formed such that the inner diameter of the through hole 50 of the conductor holding member 5 is larger than the inner diameter of the through hole 22 a of the ground conductor 22 and the through hole 14 of the case 1. A conduction assisting member 23 for assisting conduction between the case 1 and the ground conductor 22 is provided in the through hole 50 of the conductor holding member 5. The conduction assisting member 23 is formed so that its outer diameter is substantially the same as the inner diameter of the through hole 50 of the conductor holding member 5, and the inner diameter is the same as the inner diameter of the through hole 22 a of the ground conductor 22 and the through hole 14 of the case 1. A hole portion 23a having substantially the same diameter is formed, the conduction assisting member 23 is fitted into the through hole 50 of the conductor holding member 5, and a shaft portion 61 inserted into the communicating through holes 50, 14, and 22a; The ground conductor 22 and the conductor holding member 5 are electrically connected to each other by a fastening member 6 which is formed at both end portions of the portion 61 and includes locking portions 62a and 62b which are locked to the wall surface 1b outside the case 1 and the ground conductor 22, respectively. Fasten auxiliary member 23 and case 1 It is characterized by that. With such a configuration, the metal case 1 and the synthetic resin conductor holding member 5 can be formed separately and can be manufactured at low cost, and the conductor holding member 5 is made of synthetic resin. Despite being present, the conduction between the case 1 and the earth conductor 22 can be reliably performed, and the earth conductor 22, the conductor holding member 5, the conduction auxiliary member 23, and the case 1 are easily fastened by the fastening member 6. It becomes possible to do.
[0010]
In addition, it is preferable that the outer diameter of the conduction assisting member 23 is formed to be substantially the same as the outer diameter of the locking portion 62 a that is locked to the ground conductor 22 of the fastening member 6. By setting it as such a structure, a fastening force acts on the whole surface of the conduction auxiliary member 23, and it becomes possible to fix the conduction auxiliary member 23 reliably.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on embodiments shown in the accompanying drawings. The wiring duct system of the present invention is, for example, arranged in a rack Ra such as an information rack as shown in FIG. 19 or arranged alone by a hanging tool Ha as shown in FIG. Inserts and attaches plugs of electrical equipment such as outlets formed in ducts. Hereinafter, the wiring duct and the plug will be described.
[0012]
As shown in FIGS. 2 to 4, the wiring duct is mainly composed of a case 1 and a conductor 21, and the conductor 21 is held by a conductor holding member 5 attached inside the case 1.
[0013]
As shown in FIG. 2, the case 1 has a long plate-like back wall portion 11 and both end edges (that is, longitudinal edges) of the back wall portion 11 substantially perpendicular to the back wall portion 11. The pair of opposing side wall portions 12 extended from the front side edge of the both side wall portions 12 (that is, the edge opposite to the back wall portion 11) toward the edge of the side wall portion 12 facing each other. It is composed of a pair of front wall portions 13 extending substantially perpendicular to the side wall portion 12 (that is, substantially parallel to the back wall portion 11), and between the end edges 13 a of both front wall portions 13, the inside and outside of the case 1 It is a long hollow thing with the cross-sectional substantially rectangular shape used as the opening part 10 which communicates. The case 1 is made of metal, and the opening 10 is formed in the longitudinal direction of the case 1 as can be seen from FIG. A through hole 14 through which a fastening member 6 to be described later for attaching the conductor holding member 5 is inserted is formed in the back wall portion 11 of the case 1, and the inner wall surface 1 a of the case 1 (in particular, the back wall in this embodiment). The conductor holding member 5 is attached to the inner wall surface of the portion 11.
[0014]
As shown in FIG. 3, the conductor holding member 5 includes a back plate portion 51 attached to the inner wall surface 1 a of the case 1, a conductor attachment piece portion 52 provided continuously from the back plate portion 51, and the conductor attachment piece portion. 52 is made of a synthetic resin, the main body of which is composed of a fitting piece portion 55 provided continuously from 52.
[0015]
The back plate portion 51 is a plate having a narrower width (that is, a length in the short direction) than the back wall portion 11 of the case 1 and having a length in the longitudinal direction substantially the same as that of the back wall portion 11. One surface is an attachment surface 51 a attached to the inner wall surface 1 a of the back wall portion 11. Further, the surface of the back plate 51 opposite to the attachment surface 51a is an earth conductor attachment surface 51b, and an earth conductor 22 to be described later is attached. Further, the back plate portion 51 extends from the attachment surface 51a to the ground conductor attachment surface 51b so as to communicate with the through hole 14 of the back wall portion 11 when attached to the inner wall surface 1a of the back wall portion 11. A through hole 50 is formed.
[0016]
As shown in FIG. 3, the ground conductor 22 is a conducting member separate from the conductor 21 described later, and has a thin and narrow plate shape that is narrower than the back plate portion 51. The ground conductor 22 is attached to and held on the back plate 51 by the ground conductor locking piece 51c formed on the ground conductor attachment surface 51b in a state of being in contact with the ground conductor attachment surface 51b. At this time, the through hole 22 a is formed so as to communicate with the through hole 14 of the case 1 and the through hole 50 of the back plate portion 51 described above. As will be described later, through these communicating through holes, a fastening member 6 is inserted and fastened to the case 1, and a conduction auxiliary member 23 for assisting conduction between the case 1 and the ground conductor 22 is disposed.
[0017]
In addition, the back plate portion 51 of the conductor holding member 5 is provided with the erroneous mounting preventing portion 4 and the conductor mounting piece portion 52 as shown in FIG. I will explain later.
[0018]
As shown in FIG. 3, the conductor attachment piece 52 has a side wall portion of the case 1 having a width that extends substantially vertically from the both side edges (ie, longitudinal edges) of the back plate portion 51 to the back plate portion 51. It has a long plate shape that is approximately half of the width of 12. The conductor mounting piece 52 has a conductor locking piece 53 and a back rib 54 protruding from an end opposite to the back plate 51 and a portion located somewhat on the back plate 51 side of the end. Established.
[0019]
As shown in FIG. 3, when the conductor holding member 5 is attached to the inside of the case 1, the conductor locking piece 53 protrudes substantially perpendicularly from the conductor attachment piece 52 in the center direction of the case 1, and the back rib 54. Is protruded substantially perpendicularly from the conductor attachment piece 52 in the opposite direction from the portion where the conductor locking piece 53 protrudes, that is, in the direction of the side wall 12 of the case 1. Here, the conductor locking piece 53 and the back rib 54 on the back plate portion 51 side are used as the conductor locking piece 53a and the back rib 54a, respectively, and at the edge side of the conductor mounting piece portion 52 (that is, when attached to the case 1). The side of the opening 10 side) is the conductor locking piece 53b and the back rib 54b.
[0020]
The conductor latching pieces 53a and 53b are formed with convex portions toward the conductor latching pieces 53b and 53a facing the side surfaces, and the conductor 21 is fitted from the end of the latching pieces 53a and 53b toward the base. Then, the conductor 21 is locked and held by getting over the convex portion. The back ribs 54a and 54b are such that when the conductor holding member 5 is attached to the inside of the case 1, the front end portion comes into contact with the inner wall surface of the side wall portion 12, whereby the conductor 21 plugs the plug 3 described later. It is supported by the back rib 54 when pressed outward by the blade 35. And the insertion piece part 55 is continuously provided from the front-end | tip part of the back rib 54b.
[0021]
As shown in FIG. 3, the fitting piece portion 55 is a contact surface portion 56 that is continuously provided from the tip end portion of the back rib 54 b on the opening portion 10 side toward the opening portion 10 side substantially parallel to the conductor attachment piece portion 52. And an engaging arm portion 57 that is provided continuously from the edge on the opening portion 10 side of the contact surface portion 56 toward the conductor locking piece 53 side substantially parallel to the conductor locking piece 53 and the back rib 54.
[0022]
The abutting surface portion 56 abuts against the inner wall surface of the side wall portion 12 when the conductor holding member 5 is attached to the inside of the case 1, so that the conductor 21 faces outward like the back rib 54 described above. It can be supported when pressed and the conductor holding member 5 can be firmly fixed. Further, the fitting arm portion 57 is disposed along the front wall portion 13 when the conductor holding member 5 is attached to the inside of the case 1 and is bent toward the inside of the case 1 of the front wall portion 13. And the side wall portion 12, whereby the conductor holding member 5 can be firmly fixed to the case 1. Further, between the fitting arm portion 57 and the back rib 54b on the opening portion 10 side is an insertion groove 58 into which an engaging portion 34 of the plug 3 and an engaging portion 73 of the power feeding member 7 described later are inserted. is there.
[0023]
In addition to attaching the conductor 21 and the ground conductor 22 described above to the conductor holding member 5, a conduction assisting member 23 is disposed in the through hole 50 of the back plate portion 51. The inner diameter of the through hole 50 of the back plate portion 51 is formed larger than the inner diameters of the through hole 14 of the case 1 and the through hole 22a of the ground conductor 22. The conduction assisting member 23 is formed to have substantially the same shape and size as the through hole 22a (ie, approximately the same diameter), and the inner diameter is approximately the same as the inner diameter of the through hole 14 of the case 1 and the through hole 22a of the ground conductor 22. It is an annular thing in which the hole 23a was formed. The conduction assisting member 23 is fitted into the through hole 50 of the back plate portion 51 and disposed. Thus, by providing the conduction auxiliary member 23 and increasing the contact area, the conduction between the case 1 and the ground conductor 22 can be assisted to obtain better conduction, and the conductor holding member 5 can be Even if it is formed of a synthetic resin which is a non-conductor, the conduction between the case 1 and the ground conductor 22 can be obtained more reliably, so that the metal case 1 and the synthetic resin-made conductor holding member 5 as in this embodiment. And can be manufactured at low cost.
[0024]
The attachment of the conductor holding member 5 to the case 1 will be described. The conductor holding member 5 has the conductor 21, the ground conductor 22, and the conduction assisting member 23 attached thereto and inserted into the case 1, and the attachment surface 51 a of the back plate portion 51 is connected to the inner wall surface 1 a of the back wall portion 11 of the case 1. At the same time, the fitting arm portion 57 is fitted between the front end portion 13 a and the side wall portion 12 of the front wall portion 13, and the through hole 14 of the case 1, the through hole 22 a of the ground conductor 22, and the back plate portion 51 are penetrated. The hole 50 (that is, the hole 23a of the conduction assisting member 23) is communicated. And the fastening member 6 is inserted in the through-hole 14, the through-hole 22a, and the hole part 23a which are connected, and it fastens to the case 1 (refer FIG. 4).
[0025]
The fastening member 6 includes a shaft portion 61 that is inserted into the through holes 14 and 22 a that communicate with each other and the hole portion 23 a, and locking portions 62 that are formed at both ends of the shaft portion 61. The locking portion 62 has a circular flange shape whose outer diameter is larger than the diameter of the through-holes 14 and 22 a, and the locking portion 62 a that contacts and locks the ground conductor 22 and the back wall of the case 1. It consists of a locking part 62b that abuts and locks on the outer wall surface 1b of the part 11. In the present embodiment, as shown in FIG. 4, the fastening member 6 is formed only with a locking portion 62 a that is contacted and locked to the ground conductor 22 in advance, and the shaft portion 61 is connected to the through hole 14. , The hole depth in the communication direction of the through hole 23a, that is, the distance between the outer wall surface 1b of the back wall portion 11 of the case 1 and the surface of the ground conductor 22 on the side not attached to the back plate portion 51. The through hole 14, the hole 23a, and the through hole 22a communicated from the inside of the case 1 are inserted into the case 1 and the engaging portion 62a is brought into contact with the ground conductor 22. In this state, the case 1 of the shaft portion 61 The locking portion 62b is formed by caulking a portion protruding outward from the outer wall surface 1b. The fastening member 6 may be one that attaches a separate locking portion 62 to the shaft portion 61 in addition to the one that forms the locking portion 62 by caulking in this way (including rivets). .
[0026]
In this manner, the ground conductor 22, the conductor holding member 5, the conduction assisting member 23, and the case 1 are fastened by the fastening member 6, and the conductor holding member 5 is attached to the inside of the case 1. In the present embodiment, of the locking portions 62 of the fastening member 6, the outer diameter of the locking portion 62 a that is in contact with and locked to the ground conductor 22 is formed to be approximately the same as the outer diameter of the conduction assisting member 23. Therefore, when the earth conductor 22, the conductor holding member 5, the conduction auxiliary member 23, and the case 1 are fastened by the fastening member 6, a fastening force acts on the entire surface of the conduction auxiliary member 23. The conduction assisting member 23 can be securely fixed.
[0027]
Although the wiring duct is configured as described above, in this embodiment, a structure for ensuring more electrical safety is adopted. This is held by the conductor locking piece 53b from a line connecting the tip of the conductor locking piece 53b on the opening 10 side and the edge of the opening 10 on the side facing the conductor locking piece 53b. The conductor locking piece 53b is formed so that the conductor 21 to be formed is positioned closer to the side wall portion 12 on the conductor locking piece 53b side. In this way, even when a φ1 mm test needle is inserted into the case 1 from the opening 10 as shown in FIG. 6, the test needle contacts the conductor 21 by the conductor locking piece 53b formed as described above. This prevents the test needle from touching and energizing the conductor 21 as in the conventional example shown in FIG. It becomes possible to adapt.
[0028]
The plug 3 to be inserted and attached to such a wiring duct will be described.
[0029]
As shown in FIG. 10, the plug 3 mainly includes a plug body 31, an insertion portion 32 that protrudes from the plug body 31, and a slide body 38 that is slidably provided on the plug body 31.
[0030]
The plug body 31 has a substantially box shape. In the present embodiment, a slide body 38, which will be described later, is slidable in one substantially half (for example, the right half in FIGS. 10A and 10C). Provided. The plug main body 31 has an insertion portion 32 protruding on one surface (hereinafter referred to as a front surface), and an outlet portion 33 formed on a surface opposite to the front surface (hereinafter referred to as a rear surface). In the present embodiment, the plug 3 is used as an electric device in which the outlet portion 33 is formed. However, the plug 3 is not particularly limited to the one in which the outlet portion is formed.
[0031]
The insertion portion 32 is formed in a columnar shape having a slightly smaller diameter than the width of the opening 10 (that is, the distance between the front end portions 13a facing each other) of the opening 10 so as to be inserted into the case 1 from the opening 10. When the plug 3 is attached to the case 1, only the insertion portion 32 of the plug 3 is located inside the case 1. The insertion portion 32 needs to be inserted into the case 1 from the opening 10 only in a predetermined direction (hereinafter referred to as a correct orientation). When the insertion portion 32 is inserted in the correct orientation, the distal end portion of the insertion portion 32 is wired. The plug body 31 is close to or abuts on the outer wall surface of the front wall portion 13 of the wiring duct while close to the earth conductor 22 of the duct.
[0032]
In the insertion portion 32, when the plug 3 is inserted and mounted in the case 1 in the correct orientation, the insertion groove 58 of the wiring duct and the conductor 21 are formed in the depth direction (that is, the direction from the opening 10 toward the back wall 11). The locking part 34 and the plug blade 35 are provided in the part to be located.
[0033]
As shown in FIG. 10, the locking portion 34 has a pair of plate shapes that project from the insertion portion 32 in a direction substantially perpendicular to each other, and is substantially in a front view as shown in FIG. The plug body 3 having a rectangular shape protrudes in the short direction. The width of the locking portion 34 (that is, the length in the left-right direction in FIGS. 10A and 10C) is formed to be narrower than the width of the opening portion 10. The length between the two end portions (that is, the length in the vertical direction in FIG. 10A) is wider than the width of the opening 10 and the width of the insertion groove 58 (that is, the abutting surface portion where the conductor holding member 5 faces). 56), the width is slightly narrower. As a result, the locking portion 34 can be inserted into the case 1 from the opening 10 with its longitudinal direction aligned with the longitudinal direction of the wiring duct, and the plug 3 is further rotated by 90 ° to insert the locking portion 34 into the insertion groove. It is possible to prevent the wiring duct from coming off by being inserted into 58 and abutting and locking to the inner wall surface of the front wall portion 13 of the case 1.
[0034]
The plug blades 35 are a pair of thin metal plates that protrude substantially perpendicularly from the insertion portion 32 in opposite directions. As shown in FIG. The plug body 31 is shaped so as to project in the short direction. The length between the tip portions of the pair of plug blades 35 (that is, the length in the vertical direction in FIG. 10A) is substantially the same as or slightly longer than the distance between the pair of conductors 21 of the wiring duct. When the plug 3 is inserted and attached to the case 1, the pair of plug blades 35 abut against the pair of conductors 21 of the wiring duct, and the plug blade 35 and the conductor 21 are electrically connected. Accordingly, the plug blade 35 can be inserted into the case 1 through the opening 10 similarly to the locking portion 34, and the plug blade 35 can be brought into contact with the conductor 21 by rotating the plug 3 by 90 °. .
[0035]
A ground pin 36 protrudes from the tip of the insertion portion 32. When the plug 3 is inserted and installed in the case 1, the ground pin 36 contacts the ground conductor 22 of the wiring duct. Grounded. The ground pin 36 may be provided so as to protrude and retract in a state where it is urged in a protruding direction with respect to the insertion portion 32. Further, as will be described later, the insertion portion 32 is provided with an avoidance portion 42 that avoids the protrusion 41 as the erroneous mounting prevention portion 4 provided in the wiring duct.
[0036]
Next, the slide body 38 will be described. The slide body 38 has a substantially semi-cylindrical shape with a substantially U-shaped cross section provided on a substantially half side surface of the plug body 31. The shape of the slide body 38 is not particularly limited, and may be any shape such as a substantially U-shaped cross section or a substantially L-shaped cross section, but the outer surface does not face only in one direction as in a flat plate shape. Those that face two directions such as a letter shape or those that face a plurality of directions such as those that face three directions like a substantially U-shaped or U-shaped cross section are preferable. This is an operation unit 39 that is operated by pressing or picking the outer surface of the slide body 38 with a finger, so that the operation unit 39 faces a plurality of directions. The operability of the slide body 38 is improved because the operation unit 39 faces in multiple directions. In particular, the plug 3 can be rotated while the slide unit 38 is slid by gripping the operation unit 39 with a finger by forming the U-shaped sections so as to face each other in opposite directions.
[0037]
A positioning portion 37 is formed on the slide body 38. The positioning portion 37 is provided so as to protrude upward from the operation portion 39 of the slide body 38, and has an inclined surface 37a as a guide portion. The slide body 38 is provided on the plug body 31 so as to be slidable in the back direction from a state in which the plug body 31 is biased in the direction from the back surface to the front surface (hereinafter referred to as a reference state). Protrudes from the front surface of the plug body 31 and the positioning portion 37 is formed so as not to protrude from the front surface of the plug body 31 when the slide body 38 is slid. As a result, the positioning portion 37 can protrude and retract with respect to the plug main body 31.
[0038]
A description will be given of the provision of the slide body 38 slidably on the plug body 31. FIGS. 7 and 8 show a casing portion 31a and a device portion 31b constituting the plug body 31, and FIG. 9 shows a perspective view of the slide body 38. As shown in FIG.
[0039]
As shown in FIG. 9, a pair of guide portions 38c between which a spring is located project from the inner wall surface of the slide body 38. In this case, a positioning portion 37 is provided above the guide portion 38c. It is integrally formed. The guide portion 38c has a protruding portion 38d protruding from the protruding surface, and a recess 38e formed on the side surface.
[0040]
As shown in FIG. 7, the casing 31a of the plug body 31 is formed with a protrusion T to be inserted into the recess 38e and a spring recess H into which the end of the spring is inserted. It is.
[0041]
An insertion portion 32 or the like is formed in the device portion 31b, and this device portion 31b is connected to the casing portion 31a in FIG. ₁ The lower end of the spring is inserted into the spring recess H, the spring is inserted between the pair of guide portions 38c, and the protrusion T of the casing portion 31a is inserted into the recess 38e. As shown in FIG. ₂ It arrange | positions in the part shown to. In this way, as described above, the slide body 38 can be disposed in a state where it is urged by a spring in the direction from the back surface to the front surface of the plug body 31 (that is, the reference state). At this time, the convex portion 38d of the slide body 38 abuts on the end S of the upper wall of the device portion 31b, and movement due to the spring bias is restricted. Further, by pressing the positioning portion 37 or operating the operation portion 39 with a finger from the reference state, the slide body 38 is slid so that the positioning portion 37 does not protrude from the front surface of the plug body 31. it can.
[0042]
The insertion and installation of the plug 3 into the wiring duct will be described. The plug 3 inserts the insertion portion 32 into the case 1 with the locking portion 34 aligned with the longitudinal direction as described above and with a predetermined correct orientation with respect to the wiring duct. The distal end portion of the insertion portion 32 is in contact with (or close to) the ground conductor 22 and the locking portion 34 is located at the same depth and depth as the insertion groove 58 of the wiring duct (see FIG. 1A). Then, the plug 3 is rotated by 90 ° (see FIGS. 1B and 1C), and the engaging portion 34 is inserted into the insertion groove 58 to contact the inner wall surface of the front wall portion 13 of the case 1. Stop. During this time, the positioning portion 37 is locked from the outside of the wiring duct as shown in FIG. 1A to the edge of the opening 10 of the wiring duct as shown in FIG. 1C. However, since the positioning portion 37 is provided with an inclined surface 37a as a guide portion, the edge on the opposite side of the opening 10 of the front wall portion 13 of the case 1 as the plug 3 is rotated. Presses the inclined surface 37a, and the positioning portion 37 and the slide body 38 slide, so that the positioning portion 37 does not protrude from the front surface of the plug body 31 and slides on the outer wall surface of the front wall portion 13 and fits into the opening 10. The slide body 38 and the positioning portion 37 return to the reference state by the urging force of the spring and are locked to the opening 10.
[0043]
In order to remove the plug 3 from the wiring duct, the operation unit 39 is grasped with a finger, the slide body 38 is slid, and the plug 3 is inserted and mounted in a state where the positioning unit 37 does not protrude from the front surface of the plug body 31. The insertion portion 32 is pulled out from the wiring duct by rotating 90 ° in the reverse direction.
[0044]
In such a wiring duct system, the plug 3 has polarity, and one plug blade 35 contacts a predetermined conductor 21 of the pair of conductors 21 and the other plug blade 35 remains. It is necessary to contact the conductor 21. However, in such a plug 3, when the insertion portion 32 is inserted into the wiring duct, if the longitudinal direction of the locking portion 34 is aligned with the longitudinal direction of the opening portion 10, the predetermined correct orientation is obtained. (See FIG. 1 (a)) and the wrong orientation opposite to the correct orientation (see FIG. 5), and the plug blade that comes into contact when the plug 3 is inserted and mounted in the wrong orientation The combination of 35 and the conductor 21 is different from the combination that should be contacted. Therefore, in the present embodiment, the erroneous mounting prevention unit 4 is provided.
[0045]
The erroneous mounting preventing portion 4 is provided on the back plate portion 51 of the conductor holding member 5 disposed inside the case 1 of the wiring duct. In the present embodiment, as shown in FIG. 2, the protrusion 41 protrudes from the back plate 51 toward the center of the case 1, and is long in the longitudinal direction of the case 1 as shown in FIG. It is a plate shape. As a result, even if the insertion portion 32 of the plug 3 is inserted into the case 1 through the opening 10 in the wrong direction, the distal end portion of the insertion portion 32 abuts against the protrusion 41 as shown in FIG. Since the inserted portion cannot contact (or approach) the ground conductor 22 and the locking portion 34 cannot be located at the same depth and depth as the insertion groove 58 of the wiring duct, the combination of the plug blade 35 and the conductor 21 is There is no loss of electrical stability of the contact due to an incorrect combination.
[0046]
Further, the plug 3 is provided with an avoidance portion 42 that avoids the protrusion 41, and when the plug 3 is inserted in the correct orientation, the protrusion 41 is formed on the avoidance portion 42 as shown in FIG. In this state, the distal end portion of the insertion portion 32 abuts (or close to) the ground conductor 22 and the locking portion 34 can be located at the same depth and depth as the insertion groove 58 of the wiring duct, so that the plug 3 can be used as the wiring duct. It can be installed. The plug 3 is not only inserted into the case 1 in the correct orientation but also rotated 90 ° in a predetermined direction to bring the predetermined plug blade 35 and the conductor 21 into contact with each other. As shown in FIG. 10A, the avoidance portion 42 that avoids the protruding protrusion 41 is recessed in the upper end portion so as to face two side surfaces of the insertion portion 32. Since the plug 3 rotates about the ground pin 36 in FIG. 10A, an R having the ground pin 36 as the center is formed between the two side surfaces of the avoidance portion 42 (that is, the central portion).
[0047]
According to the above configuration, the metal case 1 and the synthetic resin conductor holding member 5 can be formed separately by forming the conductor holding member 5 holding the conductor 21 separately from the case 1. In addition, the earth conductor 22 is attached to the conductor holding member 5 and the conduction holding member 23 for assisting the conduction between the case 1 and the earth conductor 22 is provided on the conductor holding member 5. Even though the conductor holding member 5 is made of synthetic resin, the conduction between the case 1 and the ground conductor 22 is ensured and the grounding of the plug 3 is surely achieved. Through-holes 14, 50, 22a communicating with the member 5 and the ground conductor 22 are formed, and the shaft portion 61 of the fastening member 6 is inserted into the communicating through-holes 14, 50, 22a to engage the locking portions 62a at both ends. , 62b ground By locking the outer wall surface 1b of the body 22 and the case 1, it is possible to easily fasten the conductive auxiliary member 23 and the case 1 and these grounding conductor 22 and the conductor holding member 5 by a fastening member 6.
[0048]
Further, the inner diameter of the through hole 50 of the conductor holding member 5 is formed larger than the inner diameter of the through hole 22 a of the ground conductor 22 and the through hole 14 of the case 1, and the outer diameter of the conduction assisting member 23 is set to be smaller than that of the conductor holding member 5. The through hole 50 is formed to have substantially the same diameter as that of the through hole 50, and the conduction auxiliary member 23 is formed with a through hole 22 a of the ground conductor 22 and a hole portion 23 a having substantially the same diameter as the inner diameter of the through hole 14 of the case 1. Since the conduction auxiliary member 23 is fitted into the through hole 50 of the member 5, the conduction auxiliary member 23 can be easily disposed. In addition, since the outer diameter of the conduction assisting member 23 is formed to be substantially the same as the outer diameter of the engaging portion 62 a that is engaged with the ground conductor 22 of the fastening member 6, the fastening force is applied over the entire surface of the conduction assisting member 23. Acts to reliably fix the conduction assisting member 23.
[0049]
In such a wiring duct system, the feeding member 7 for energizing the conductor 21 is usually attached to the end of the case 1 and will be described below with reference to FIGS. 11 to 18.
[0050]
As shown in FIG. 11, the power supply member 7 is attached in the vicinity of the end of the wiring duct, and the main body 71 and the cover 77 constitute the main body as shown in FIG. In addition, EC in FIG. 11 is an end cap attached to the end portion of the case 1 (however, the end portion to which the power feeding member is not attached), and its shape is shown in FIG.
[0051]
The main body 71 is as shown in FIG. 13, and a substantially half portion is inserted into the case 1 (see FIG. 11). The body portion 71 is provided with an electrode portion 72, an engaging portion 73, a terminal portion 74, a pressing portion 75, and a power cord holding portion 8 described later. A pair of electrode portions 72 are provided so as to come into contact with the pair of conductors 21 of the wiring duct when the main body portion 71 is attached to the case 1. The engaging portion 73 is inserted and engaged with the insertion groove 58 of the wiring duct when the main body portion 71 is attached to the case 1, thereby preventing the main body portion 71 from falling off the case 1. A pair of terminal portions 74 are provided in a portion that is not inserted into the case 1 and is connected to a lead wire of an external power cord for supplying power to the wiring duct. The holding portion 75 is attached to the main body portion 71 inserted into the case 1 by a fixing tool 76, and is fastened to the outer wall surface of the front wall portion 13 of the case 1 by tightening the fixing tool 76. The main body 71 is fixed by sandwiching the wiring duct with the engaging portion 73. Further, the main body 71 is provided with a power cord holding part 8.
[0052]
As shown in FIG. 13, the power cord holding portion 8 is composed of a movable body M and a fixed body F connected to the movable body M so as to be able to advance and retreat. The movable body M is connected to the fixed body F.
[0053]
The movable body M and the fixed body F are in contact with each other on an opposing surface. In FIG. Indicates. On the contact surfaces 82 and 92 of the movable body M and the fixed body F, sandwiching recesses 81 and 91 for sandwiching the power cord are formed, respectively. The sandwiching recesses 81 and 91 are formed in a substantially arc shape when viewed from the side, and when the movable body M is connected to the fixed body F with the fixing tool K, the power cord is sandwiched between the sandwiching recesses 81 and 91. Is. By doing so, the movable body M and the fixed body F are connected so as to be able to advance and retreat, so that the movable body M is easily separated from the fixed body F when the power cord is sandwiched or removed. In addition, the movable body M and the fixed body F are fixed to each other with the contact surfaces 82 and 92 and fixed by the fixing tool K, and the power cord is clamped by the clamping recesses 81 and 91. Can be fixed to the power supply member 7 with a stable holding force.
[0054]
Next, another example of the power cord holding portion 8 will be described with reference to FIGS. This is different from the above example shown in FIG. 13 in that a plurality of sandwiching recesses 81 are formed in the movable body M, and will be described below.
[0055]
In the movable body M of this example, the surface that is one half of the contact surface 82 is a reference surface portion 82a, and the other substantially half is a step surface portion 82b that protrudes from the reference surface portion 82a. The contact surface 92 of the fixed body F is formed by a base surface portion 92a corresponding to the step surface portion 82b and the reference surface portion 82a of the movable body M, and a projecting surface portion 92b protruding from the base surface portion 92a. On the reference surface portion 82a and the step surface portion 82b of the movable body M, sandwiching recesses 81a and 81b having different sizes (that is, recessed depths) are formed.
[0056]
In this case, as shown in FIG. 15, the movable body M is fixed so that the stepped surface portion 82b and the reference surface portion 82a of the movable body M are in contact with the base surface portion 92a and the projecting surface portion 92b of the fixed body F, respectively. As shown in FIG. 16, it can be selectively connected to the body F so that the reference surface portion 82a of the movable body M can come into contact with the projecting surface portion 92b of the fixed body F. Can be contacted.
[0057]
By doing so, the power cord is sandwiched between the sandwiching recess 81a of the movable body M and the sandwiching recess 91 of the fixed body F, or the sandwiching recess 81b and the sandwiching recess 91 having a recess depth different from the sandwiching recess 81a. Thus, the power cord C can be clamped, and the power cords C of different diameters can be clamped with a simple configuration.
[0058]
Next, still another example of the power cord holding portion 8 will be described with reference to FIG. Compared with the above examples shown in FIGS. 14 to 16, this embodiment has different holding recesses 81 c and 81 d formed on the pair of contact surfaces 82 c and 82 d facing the opposite sides of the movable body M. Is different.
[0059]
The movable body M of this example forms a first contact surface 82c on one surface and a second contact surface 82d on the surface opposite to the contact surface 82. The surfaces 82c and 82d can be selectively brought into contact with the contact surface 92 of the fixed body F. The first contact surface 82c and the second contact surface 82d are separated from the contact surface 82, respectively. Nipping recesses 81c and 81d having different recess depths are formed.
[0060]
In this case, as shown in FIG. 17B, the movable body M is fixed to the fixed body F so that the second contact surface 82d of the movable body M is in contact with the base surface portion 92a of the fixed body F. Then, they are connected by the fixing tool K, or connected so that the first contact surface 82c of the movable body M contacts the base surface portion 92a of the fixed body F as shown in FIG. .
[0061]
By doing so, the power cord is sandwiched between the sandwiching recess 81c of the movable body M and the sandwiching recess 91 of the fixed body F, or the sandwiching recess 81d and the sandwiching recess 91 having a recess depth different from the sandwiching recess 81c. Thus, the power cord C can be clamped, and the power cords C of different diameters can be clamped with a simple configuration.
[0062]
【The invention's effect】
As described above, according to the first aspect of the present invention, in the wiring duct in which the opening is formed in the long hollow case in the longitudinal direction and the long conductor is held inside the case, the case is made of metal. And a conductor holding member made of synthetic resin is attached to the wall surface inside the case, the conductor is held by the conductor holding member, and the back plate portion of the conductor holding member attached to the wall surface inside the case is attached to the wall surface. Attach a grounding conductor that is substantially plate-shaped separately from the conductor to the surface opposite to the mounting surface, and have through-holes communicating with the grounding conductor and the part where the backplate part and the case backplate part are attached. Forming and said Through hole Is formed such that the inner diameter of the through hole of the conductor holding member is larger than the inner diameter of the through hole of the ground conductor and the through hole of the case, and a shaft portion inserted into the communicating through hole, and both end portions of the shaft portion The conductor holding member is fastened to the case with a fastening member formed by a fastening member that is formed on the outer wall surface of the case and a locking portion that is locked to the ground conductor, and the case and the ground conductor are connected to the through hole of the conductor holding member. A conduction assisting member for assisting conduction is provided, and the outer diameter of the conduction assisting member is formed to be substantially the same as the inner diameter of the through hole of the conductor holding member. A hole with approximately the same diameter as the inner diameter of the hole is formed, and the conduction auxiliary member is fitted into the through hole of the conductor holding member, so that the metal case and the synthetic resin conductor holding member can be formed separately and inexpensively. And a conductor holding member Despite being made of synthetic resin, the case and the ground conductor can be reliably connected to each other, and the ground conductor, the conductor holding member, the conduction auxiliary member, and the case can be easily fastened by the fastening member. It is possible.
[0064]
And claims 2 In the described invention, the above claims 1 In addition to the effect of the invention described above, the outer diameter of the conduction assisting member is formed to be substantially the same as the outer diameter of the engaging portion that is engaged with the ground conductor of the fastening member, so that the entire surface of the conduction assisting member is fastened. It becomes possible to securely fix the conduction assisting member by applying a force.
[Brief description of the drawings]
1A and 1B show an embodiment of the present invention, in which FIG. 1A is a view as seen from the longitudinal direction of a wiring duct showing a state where the plug is not inserted and locked in the wiring duct, and FIG. It is the figure seen from the longitudinal direction of the wiring duct which shows the state which inserted and latched in the wiring duct, (c) is the figure seen from the other side in the state of (b).
FIG. 2 shows a wiring duct in the same as above, (a) is a view seen from the back wall side of the case, (b) is a view seen from the side wall side of the case, and (c) is a view of the case. It is the figure seen from the opening part side, (d) is the figure seen from the longitudinal direction.
FIG. 3 is an enlarged cross-sectional view of the wiring duct in the same as above.
FIG. 4 is an exploded perspective view of the wiring duct in the same as above.
FIG. 5 is a view showing a state in which the plug is inserted into the wiring duct in the wrong direction in the same as above.
FIG. 6 is a view showing a state in which the test needle is inserted toward the conductor from the opening of the wiring duct in the same as above.
7A and 7B show a casing portion of the plug of the above, where FIG. 7A is a front view, and FIG. 7B is a cross-sectional view.
8A and 8B show a device portion of the plug, wherein FIG. 8A is a front view, FIG. 8B is a left side view, and FIG. 8C is a lower side view.
FIG. 9 is a perspective view of the slide body of the plug in the same as above.
FIG. 10 shows the plug in the above, (a) is a front view, (b) is a left side view, (c) is a bottom side view, (d) is a right side view, e) is an upper side view, and (f) is a rear view.
FIG. 11 is a partially omitted overall view of the above-described wiring duct.
12A and 12B show the power supply member of the above, wherein FIG. 12A is an upper side view, FIG. 12B is a view seen from the side where no conductor holding member is provided, and FIG. 12C is a front view; d) is a view seen from the side where the conductor holding member is provided, and (e) is a lower side view.
13A and 13B show the main body of the power feeding member in the above, wherein FIG. 13A is a top side view, FIG. 13B is a view seen from the side where no conductor holding member is provided, and FIG. 13C is a front view. (D) is a view as seen from the side where the conductor holding member is provided, and (e) is a lower side view.
14A and 14B show another example of the power supply member, wherein FIG. 14A is a top side view, FIG. 14B is a view seen from the side where the conductor holding member is not provided, and FIG. 14C is a front view. (D) is the figure seen from the side which provided the conductor holding member, (e) is a bottom view.
FIGS. 15A and 15B show a state in which the stepped surface portion and the reference surface portion of the movable body are connected so as to come into contact with the base surface portion and the projecting surface portion of the fixed body, respectively, FIG. 15A is a side view, and FIG. It is the figure seen from the longitudinal direction.
FIGS. 16A and 16B show a state in which the reference surface portion of the movable body is connected so as to contact the protruding surface portion of the fixed body, in which FIG. 16A is a side view and FIG. 16B is a view as seen from the longitudinal direction;
FIG. 17 shows still another example of the power feeding member of the above, (a) is a side view, and (b) is connected so that the second contact surface of the movable body is in contact with the base surface portion of the fixed body. It is the figure which looked at the state from the longitudinal direction, (c) is the figure which looked at the state connected so that the 1st contact surface of a movable body might contact the base surface part of a fixed body from the longitudinal direction.
FIG. 18 shows an end cap, (a) is an upper side view, (b) is a left side view, (c) is a front view, (d) is a right side view, (e ) Is a rear view, and (f) is a lower side view.
FIG. 19 is a perspective view showing an example in which a wiring duct is used for an information rack.
FIG. 20 is a perspective view showing an example in which a wiring duct is hung by a hanger.
FIGS. 21A and 21B show a state where a plug is inserted into a conventional wiring duct, where FIG. 21A is a view as seen from the longitudinal direction of the wiring duct, and FIG. 21B is a plan view.
22 shows a state in which the plug inserted into the wiring duct is rotationally locked in the above, (a) is a view as seen from the longitudinal direction of the wiring duct, and (b) is a plan view. FIG.
FIG. 23 is a view showing a state in which the plug is inserted into the wiring duct in the wrong direction in the above.
FIG. 24 is a view showing a state where the test needle is inserted toward the conductor from the opening of the wiring duct in the same as above.
[Explanation of symbols]
1 case
1a Inner wall surface
10 opening
14 Through hole
21 Conductor
22 Earth conductor
22a Through hole
23 Conduction auxiliary member
50 through holes
5 Conductor holding member
51 Back plate
51a Mounting surface
51b Ground conductor attachment surface
6 Fastening member
61 Shaft
62a Locking part
62b Locking part

Claims (2)

長尺中空のケースに長手方向に開口部を形成し、ケース内部に長尺の導体を保持する配線ダクトにおいて、ケースを金属で形成すると共に、ケース内部の壁面に合成樹脂製の導体保持部材を取付けて該導体保持部材にて導体を保持し、ケース内部の壁面に取付けられる導体保持部材の背板部の前記壁面への取付面と反対側の面に前記導体とは別体の略板状をしたアース導体を取付け、背板部とケースの背板部が取付けられる部分とアース導体とにそれぞれに連通する貫通孔を形成し、前記貫通孔は、導体保持部材の貫通孔の内径をアース導体の貫通孔及びケースの貫通孔の内径よりも大径に形成し、導体保持部材の貫通孔にケースとアース導体との導通を補助する導通補助部材を設け、前記導通補助部材は、その外径を前記導体保持部材の貫通孔の内径と略同径に形成すると共に内径がアース導体の貫通孔及びケースの貫通孔の内径と略同径の孔部を形成し、導体保持部材の貫通孔に導通補助部材を嵌合し、前記連通する貫通孔に挿通される軸部と、該軸部の両端部に形成されてケース外部の壁面とアース導体とにそれぞれ係止される係止部とからなる締結部材にてアース導体と導体保持部材と導通補助部材とケースとを締結したことを特徴とする配線ダクト。In a wiring duct that forms an opening in the longitudinal direction in a long hollow case and holds a long conductor inside the case, the case is made of metal, and a conductor holding member made of a synthetic resin is formed on the wall inside the case The conductor is held by the conductor holding member, and the conductor holding member attached to the wall surface inside the case has a substantially plate shape separate from the conductor on the surface opposite to the mounting surface to the wall surface of the back plate portion. A through-hole communicating with the back plate portion, the portion to which the back plate portion of the case is attached, and the ground conductor is formed, and the through hole is configured to ground the inner diameter of the through-hole of the conductor holding member. The conductor through hole and the through hole of the case are formed to have a diameter larger than that of the through hole of the case, and a conduction auxiliary member for assisting conduction between the case and the ground conductor is provided in the through hole of the conductor holding member. The diameter of the conductor holding member The inner diameter of the hole is substantially the same as the inner diameter of the through hole of the ground conductor and the inner diameter of the through hole of the case, and the conduction auxiliary member is fitted into the through hole of the conductor holding member. The ground conductor is a fastening member comprising a shaft portion inserted into the communicating through hole, and a locking portion formed at both ends of the shaft portion and locked to the wall surface outside the case and the ground conductor. A wiring duct comprising: a conductor holding member; a conduction auxiliary member; and a case. 導通補助部材の外径を締結部材のアース導体に係止される係止部の外径と略同径に形成したことを特徴とする請求項１記載の配線ダクト。2. The wiring duct according to claim 1, wherein the outer diameter of the conduction assisting member is formed to be substantially the same as the outer diameter of the locking portion locked to the ground conductor of the fastening member.

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