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JP3671363B2 - Wiring / piping material moving tool - Google Patents
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JP3671363B2 - Wiring / piping material moving tool - Google Patents

Wiring / piping material moving tool Download PDF

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JP3671363B2
JP3671363B2 JP4665098A JP4665098A JP3671363B2 JP 3671363 B2 JP3671363 B2 JP 3671363B2 JP 4665098 A JP4665098 A JP 4665098A JP 4665098 A JP4665098 A JP 4665098A JP 3671363 B2 JP3671363 B2 JP 3671363B2
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wiring
piping material
moving
tool
path
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JPH11252732A (en
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昭八 清水
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Mirai Industry Co Ltd
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Mirai Industry Co Ltd
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Description

【0001】
【発明の属する技術分野】
本発明は、ケーブル等の配線や電線管等の配管材をケーブルラックやダクト等の受具に布設するときに使用する配線・配管材の移動具に関するもので、特に、布設方向に引込路と収容路とに区画形成された受具に複数の配線・配管材を布設するときに使用する配線・配管材の移動具に関するものである。
【0002】
【従来の技術】
従来より、建物内や駅構内等において配線・配管材を布設するためにケーブルラックやダクト等の受具が使用されている。
配線・配管材の受具への布設に関しては、特開平8−280116号公報等に記載の技術が開示されている。
【0003】
しかし、従来の配線・配管材の受具は、複数の配線・配管材を布設する場合において、先の配線・配管材を布設した後、次の配線・配管材を布設するとき、既設の配線・配管材と接触して大きな引込抵抗を受けるため引込みが困難であった。また、既設の配線・配管材の布設状態を乱すことがあった。更に、配線・配管材同士の接触によってきずが付き易く、相互に絡み合った状態で引き込めば、破損、断線のおそれもあって危険であった。
【0004】
このため、出願人は、先の特願平9−361399号の出願において、複数の配線・配管材をきず付けることなく、順次円滑かつ楽に布設、収容できる受具への配線・配管材の布設方法の技術を開示している。
この受具への配線・配管材の布設方法は、配線・配管材の布設方向に区画形成された引込路と収容路とを備えた受具の前記引込路に、引込手段により前記配線・配管材を引き込んだ後、移動手段により前記引込路に引き込まれた前記配線・配管材を前記収容路に移動させて布設するものである。
【0005】
【発明が解決しようとする課題】
ところで、一般に、ケーブルラック等の受具は高所に設置されていることが多い。したがって、前記特願平9−361399号の出願において、一旦受具の引込路に引き込まれた配線・配管材を収容路に移動する作業も高所作業となることが多いため、高所に登っての作業は危険であり、また、作業効率も良くない。
【0006】
そこで、本発明は、高所に設置された受具においても一旦引き込まれた配線・配管材を楽にかつ安全に所定位置に移動させることができる配線・配管材の移動具の提供を課題とするものである。
【0007】
【課題を解決するための手段】
請求項1の発明にかかる配線・配管材の移動具は、長尺に形成された移動具本体と、前記移動具本体に上下方向に回動可能に設けられ、前記配線・配管材を下方から支持する支持手段と、前記支持手段に設けられ、前記移動具本体がその長手方向を軸として水平方向に回動するに伴って一体に水平方向に回動し、支持されている前記配線・配管材を水平方向に押し寄せて該配線・配管材の位置を移動させ得る押寄部と、前記支持手段により支持されて位置移動した前記配線・配管材を下方に落下させるため、前記支持手段による支持を解除して該支持手段を下方に回動させる解除手段と、前記解除手段を作動させるための操作手段とを備え、前記支持手段は、前記押寄部が前記配線・配管材を押し寄せる前から押し寄せを完了するまでの間該配線・配管材を支持しているものである。
【0008】
請求項2の発明にかかる配線・配管材の移動具は、請求項1に記載の支持手段が、前記移動具本体から水平方向に延設されてなるものである。
【0009】
請求項3の発明にかかる配線・配管材の移動具は、請求項2に記載の支持手段が、配線・配管材の下方から当接して、前記配線・配管材を載置する載置部を備え、前記載置部は、移動前において前記配線・配管材を前記支持手段の延設方向と平行する状態で載置するとともに、前記移動具本体の回動により前記押寄部で押し寄せるときには前記配線・配管材を前記平行する状態から前記押寄部を軸として水平方向に回動した状態で載置すべく形成されたものである
【0010】
請求項4の発明にかかる配線・配管材の移動具は、長尺のポール部と、前記ポール部の上部に外方向にアームが延設されるとともに、下方から当接して前記配線・配管材を載置する載置部が前記アームの先端に上下方向に回動可能に取付けられてなる支持手段と、前記支持手段の載置部に取付けられ、前記ポール部が長手方向を軸として水平方向に回動するに伴って一体に水平方向に回動し、前記載置部に載置されている前記配線・配管材を水平方向に押し寄せて該配線・配管材の位置を移動させ得る押寄部と、前記支持手段の載置部に載置されて位置移動した前記配線・配管材を下方に落下させるため、前記支持手段による支持を解除して前記載置部を下方に回動させる解除手段と、前記解除手段を作動させるための操作手段とを備え、前記支持手段は、前記押寄部が前記配線・配管材を押し寄せる前から押し寄せを完了するまでの間該配線・配管材を支持しているものである。
【0011】
請求項5の発明にかかる配線・配管材の移動具は、請求項1乃至請求項4のいずれか1項に記載の解除手段が、前記支持手段の下方への回動を防止すべく前記支持手段と掛合し、前記操作手段の操作により前記掛合を解除すべく作動する掛合部を備えたものである。
【0012】
請求項6の発明にかかる配線・配管材の移動具は、請求項1乃至請求項5のいずれか1項に記載の操作手段が、移動具本体の下部またはポール部の下部に設けられたものである。
【0016】
【発明の実施の形態】
本発明の実施例の配線・配管材の移動具を図1乃至図16に基づいて説明する。
図において、配線・配管材Wが布設される受具1は金属製の丸棒2aを四角枠状に屈曲した複数の枠状体の相互を水平方向の直線状の金属製の丸棒2aで連結して筒枠状の受具本体2を形成し、図15及び図16に示すような一定断面の内部空間を長手方向即ち布設方向に形成したものである。但し、前記受具本体2は、筒枠状の底面部の中央において布設方向に沿って開口が形成されており、その開口端部の丸棒2aは上方に屈曲し、所定高さの左右一対の仕切部3が形成されている。この受具本体2の内部空間は内部側に立設した前記仕切部3によって区画され、開口の形成されている中央部には前記配線・配管材Wを引込むための引込路4が後述の引込路形成部材11によって形成されている。また、受具本体2の内部空間の左右には配線・配管材Wを収容する収容路5が形成されている。前記仕切部3の上端と受具本体2の上面部7との間には配線・配管材Wを水平方向に移動できる移動空間6が形成され、引込路4と収容路5とが連通するようになっている。
【0017】
前記引込路4には、略コ字状に形成された一定幅の金属板、合成樹脂板等からなる支持板11aにローラ12が枢着されてなる引込路形成部材11が布設方向に所定間隔で取付けられている。前記引込路形成部材11は両端部が外方に折曲する掛止部11bによって前記受具本体2の左右一対の仕切部3の上端部における丸棒2aに着脱自在に架設されている。
【0018】
一方、移動具14は長尺の円筒からなるポール部15の上部先端にアーム16が水平方向に延設されており、そのアーム16の先端部に取付けられた2枚の板材からなるアーム支持板16aには配線・配管材Wを下方から支持するケーブル受け17が略90度の範囲で上下方向に回動可能に取付けられている。ここで、前記ポール部15は請求項の移動具本体に、前記ケーブル受け17は請求項の支持手段の載置部に相当する。前記ケーブル受け17は直交する2個の円柱17a、円柱17bの間に三角形状の支持板17cが水平面上に取付けられたものであり、移動具14の操作によって前記円柱17a、円柱17bのいずれか及び支持板17cにおいて配線・配管材Wを載置するものである。前記円柱17a及び円柱17bは配線・配管材Wのきず付き防止のため、外周が塩化ビニルなどの合成樹脂で被覆されている。ピン体17fは後述のように移動具14を水平方向に回動操作したときに配線・配管材Wに側方から当接し、前記配線・配管材Wを引込路4から収容路5側に押寄せるものであり、請求項の押寄部に相当する。なお、ポール部15は自身の長さが伸縮可能なものとしてもよく、この場合は、受具1の設置高さに自在に対応して操作することができる。
【0019】
前記ケーブル受け17は通常は前記アーム支持板16aの2枚の板材の間で回動するラチェット掛止部17dがその上方に配設されたラチェット18と掛止して水平方向に保持されている。前記ラチェット18は請求項の解除手段の掛合部に相当し、ラチェット引き板18aを介してポール部15の上端部の回動体18bに連結されており、更に、この回動体18bは軸部18cを軸として、レバー19を操作することにより、ポール部15内に挿通されたワイヤ20を介して略90度上下方向に回動できるようになっている。ここで、前記レバー19は請求項の操作手段に相当する。
【0020】
このように構成された移動具14はレバー19を握ることによってワイヤ20を介して回動体18bが図3の時計方向に略90度回動し、ラチェット18が図3の時計方向に回動する。そして、これによって、ケーブル受け17との掛合が解除され、前記ケーブル受け17はその自重により、図3及び図4に示す水平位置から、軸部17eを軸として図の反時計方向に回動し、図5及び図6に示すように、垂直方向に垂れ下がるようになっている。
【0021】
次に、上記のように構成された受具に配線・配管材を布設する方法を図7乃至図14に基づいて説明する。
まず、受具1の引込路4に配線・配管材Wを引き込む方法を図7乃至図11に基づいて説明する。
引込路4に配線・配管材Wを引き込むには各種の方法があるが、ここでは、図7に示す引込具21を使用して引き込む場合を示す。
【0022】
図7に示す引込具21は、スキー板状に形成されて引込路4に案内される先頭部22と、前記先頭部22の後端に接続され、前記引込路4に送り込み可能かつ巻回可能な剛性を有する剛性長尺部23とで形成されている。前記先頭部22は引込路4を移動可能な一定幅の板材で形成され、全体が少なくと3個の引込路形成部材11に跨ってその引込路形成部材11間から落下しない長さ即ち図8の2スパンである2L以上の長さに形成されている。また、引込具21の先頭部22は押込み時に引込路形成部材11のローラ12につかえて押込み不能となるのを防止すべく、先端部を所定角度上方に湾曲させている。取付孔22aは後述の牽引ロープ24または配線・配管材W等を接続するための孔である。なお、剛性長尺部23は板材で形成しているが、それに限られることはなく、例えば、断面が円形或いは方形の線材で形成してもよい。
【0023】
このように構成された前記引込具21を使用して引込路4に配線・配管材Wを引き込むには、まず、図8及び図9に示すように、先頭部22を引込路4の引込路形成部材11に載置し、この先頭部22を案内として剛性長尺部23を押込んで引込具21を受具1の一端側から送り込み、引込路4上に他端まで載置する。次に、他端側で引込具21の取付孔22aに牽引ロープ24の先端部を接続し、図10に示すように、前記引込具21を引き戻す。そして、前記牽引ロープ24を引込路4全体に至って載置した後は、前記牽引ロープ24の先端または後端に周知の網袋状のケーブル保持体25の収束部を接続するとともに、前記ケーブル保持体25の他端部を配線・配管材Wの先端部に被着し、図11に示すように、前記牽引ロープ24を引き戻す。これによって、配線・配管材Wは引込路4の引込路形成部材11上に載置される。なお、配線・配管材Wは牽引ロープ24を介して引込路4に載置しているが、必ずしもこれに限るものではなく、引込具21に直接配線・配管材Wを接続して引き戻してもよい。また、引込具21の送り込みとともに、牽引ロープ24も同時に送り込み、他端側で配線・配管材Wを接続して引き戻すようにすることもできる。
【0024】
なお、配線・配管材Wは受具1において布設路の引込路形成部材11間の任意の開口から引込路4に引き込むこともでき、この場合、引込路形成部材11のローラ12によって引き込む際の配線・配管材Wのきず付きが防止される。
【0025】
このようにして、引込路形成部材11上に配線・配管材Wを載置し、引込路4に引込んだ後は、前記配線・配管材Wを図15に示す状態から移動空間6を通して受具1の幅方向に移動させ、図16に示すような状態に、収容路5内に収容する。
【0026】
次に、引込路4に引き込まれた、図15に示す状態の配線・配管材Wを、移動具を14を使用して、移動空間6から収容路5内に載せ替えて図16の状態に収容する操作を図1、図3乃至図6、図12乃至図14に基づいて説明する。
【0027】
まず、高所に設置されている受具1において、図12に示すように、下方から移動具14を引込路4に載置されている配線・配管材Wに向けて真上に押上げ、図1に示すように、受具1の引込路4における引込路形成部材11間の細長の開口に挿入し、ケーブル受け17上に配線・配管材Wを載置する。次に、移動具14を更に押上げて配線・配管材Wを仕切部3の上端より上方まで持上げ、その状態で、図13に示すように、移動具14のポール部15を略90度水平方向に回動する。これにより、ケーブル受け17における配線・配管材Wはピン体17fを当接支点として押し曲げられて円柱17bの載置位置から円柱17aの載置位置に移動しつつ収容路5の上方に押寄せられる。そこで、移動具14のレバー19を握ってラチェット18の掛合を解除すれば、図14に示すように、ケーブル受け17は下方に略90度回動するため、前記ケーブル受け17上に載置されていた配線・配管材Wは収容路5上に落とし込まれる。このようにして、その部分の配線・配管材Wは引込路4から収容路5に載せ替えられる。この操作を順次布設方向に移動しながら布設路の一端側から他端側に向かって行なうことにより、布設路全体に至って配線・配管材Wを移動し、載せ替えることができる。
【0028】
以下、第2番目以降の配線・配管材Wを布設する場合も同様の操作を繰返せばよい。なお、先の配線・配管材Wは、次に布設する予定の配線・配管材Wのための収容空間を確保すべく、収容路5内において幅方向のいずれか一側に片寄せしておくのが望ましい。
【0029】
このように、本実施例の配線・配管材の移動具は、移動具本体としてのポール部15のアーム16の先端に、受具1の引込路4に一旦引き込まれた配線・配管材Wに下方から当接して載置する載置部としてのケーブル受け17を下方向に回動自在に保持し、前記ケーブル受け17に、前記ポール部15を水平方向に回動するに伴って前記ケーブル受け17に載置された配線・配管材Wに側方から当接して収容路5側に押寄せる押寄部としてのピン体17fを取付けるとともに、前記ポール部15の下部から操作して前記アーム16への前記ケーブル受け17の保持を解除して前記ケーブル受け17を下方向に回動させ、前記ケーブル受け17に載置された前記配線・配管材Wを収容路5に落下させる操作手段を設けたものである。
【0030】
したがって、布設方向に引込路4と収容路5とに区画形成された受具1において、前記受具1が高所に設置されている場合でも、移動具14を使用することにより、高所に登ることなく、一旦受具1の引込路4に引き込まれた配線・配管材Wを収容路5に移動する作業を楽にかつ安全に行なうことができる。
【0031】
なお、配線・配管材Wは受具1の収容路5に直接布設するものではなく、一旦、引込路4に引き込んだ後、単に収容路5に移し替えるだけの操作で布設するものであるから、収容路5内に既設の配線・配管材Wが存在する状態で次の配線・配管材Wを布設するときに、既設の配線・配管材Wと接触して大きな引込抵抗を受けることがない。その結果、円滑かつ楽に配線・配管材Wを布設することができる。また、既設の配線・配管材Wの布設状態を乱すこともない。更に、配線・配管材W同士は摺動方向の接触による抵抗を受けることがないため、相互のきず付きを防止でき、かつ、相互に絡み合うこともないので、配線・配管材Wの破損、断線を確実に防止することができる。
【0032】
ところで、上記実施例の移動具14は、図17に示すように、別途にケーブル受け17のピン体17fにワイヤ20aの先端部を取付けるとともに、前記ワイヤ20aをポール部15の内部に挿通し、更に、図示しないが、ポール部15の下端部において、前記ワイヤ20aの他端部にレバーを増設してもよい。
【0033】
この実施例の移動具14を使用した場合には、配線・配管材を収容路5に落下させた後、レバーを把持してワイヤ20aを引き戻し、ケーブル受け17を水平方向に戻す。次いで、前記ケーブル受け17を水平方向に戻した後、レバー19を開放状態とすることによってワイヤ20を二点鎖線で示す矢印方向に上動させ、ラチェット18を水平方向に戻されているケーブル受け17のラチェット掛止部17dに掛止させることができる。これによって、ケーブル受け17を、新たな配線・配管材Wを載置可能な待機状態に復帰させることができる。この結果、ワイヤ及びレバーをそれぞれ増設したことによって、布設方向に場所を移動しながら移動具14で引込路4の配線・配管材Wを収容路5に移動させるに際し、場所を移動する都度前記移動具14を降ろして載置可能な待機状態に復帰させる煩雑さを省くことができるため、作業を楽に行なうことができる。
【0034】
また、前記アーム16及びラチェット引き板18aは、その水平方向への突出長さを周知の手段によって可変できるようにしてもよい。この場合には、収容路5の巾寸法の異なる各種の受具1に対して1種類の移動具14で対応することができる。
【0035】
更に、この実施例では、解除手段の掛合部としてラチェット18を使用しているが、これに限定されるものではなく、例えば、周知の電磁ロックにより掛合、解除させることもできる。
【0036】
加えて、前記ポール部15を上端部で分割し、上端部のみを水平方向に回動可能とし、モータ等の駆動手段を使用して首振り構造とし、ポール部15の下部に切替スイッチを取付けて駆動を制御できるようにすることもできる。この場合は、配線・配管材Wを移動させる時にポール部15に回動方向のトルクが発生するが、駆動手段がその負荷を負担するので、移動具14で配線・配管材Wを移動させる作業が楽になる。
【0037】
なお、上記実施例においては、配線・配管材Wを引込路4に引き込むのに引込具21を使用しているが、例えば、図18に示すように、受具1にシュータ8を設け、このシュータ8に引込具41のシャトル42を挿通して配線・配管材Wを引き込むこともできる。
図18において、受具1は図1に示した受具1の受具本体2の上面部7の中央に布設方向にシュータ8が一体に取付けられたものである。このシュータ8は下方に布設方向に連続して開口が形成されている。
【0038】
一方、引込具41は先端部が紡錘状に形成されたシャトル42と、このシャトル42の後端に接続されて剛性を有する布設ロープ43とで形成されており、前記シャトル42の下部には接続孔44aを介して牽引ロープが接続される連結板44が取付けられている。
【0039】
この引込具41を使用して配線・配管材Wを布設するには、まず、引込具41の剛性を有する布設ロープ43を送り込んでシャトル42を受具1の一端側開口からシュータ8内に挿通する。次に、図10及び図11に示した手順と同様の操作で、他端側で引込具41の連結板44に牽引ロープを接続し、この牽引ロープを引き戻す。
【0040】
そして、前記牽引ロープを引込路4全体に至って載置した後は、前記牽引ロープの前端または後端に周知の網袋状のケーブル保持体の収束部を接続するとともに、前記ケーブル保持体の他端部を配線・配管材Wの先端部に被着し、前記牽引ロープを引き戻す。これによって、配線・配管材Wを引込路4の引込路形成部材11上に載置することができる。
【0041】
また、上記各実施例では、受具1は丸棒2aを使用してメッシュタイプのものとしているが、本発明を実施する場合には、例えば、図19に示すように、板材を屈曲させて底面中央部に開口を形成し、その開口の両側に立設した仕切部3の間に引込路形成部材11を架設したものとしてもよく、この場合にも、移動具14を使用して同様の操作で配線・配管材Wを布設することができる。
【0042】
更に、上記各実施例では、受具1の受具本体2は、上面を閉塞した枠状タイプのものを示しているが、これに限定されるものではなく、図20に示すように、上方開口のラックタイプのものにも同様に適用することができる。
【0043】
加えて、引込路形成部材11は底面中央部の開口に架設したものを示しているが、同じく図20に示すように、受具本体2の一側面に取付けたものにも同様に適用することができる。
【0044】
ところで、上記各実施例では、移動具14は、引込路4と収容路5とで区画形成された受具1において、一旦配線・配管材Wを引込路4に引込んだ後、前記移動具14を水平方向に回動させて収容路5に移動させる場合に使用しているが、本発明を実施する場合は、これに限定されるものではなく、例えば、左右一対の親桁間に布設方向に所定間隔で複数の子桁を架設して梯子状に形成した受具において、移動具14を水平方向に回動させることなく、受具に載置された配線・配管材Wを単に一側に片寄せするのに使用することもできる。この場合は、受具上に既に載置された配線・配管材Wを子桁間に下方から挿入した移動具14の載置部で支持し、移動具14を押上げた後、そのままの姿勢で受具の巾方向の一側に移動させ、載置部の掛合を解除して配線・配管材Wを受具の一側に落下させる。なお、これに使用する移動具14の載置部は配線・配管材Wの荷重によってポール部15に加わるモーメントを小さくするべく、水平方向の突出長さを短かくし、ポール部15側に寄せておくのが望ましい。このような使い方は受具上に複数の配線・配管材Wを順次整列して円滑に布設する場合などで効果を奏する。
【0045】
また、上記各実施例では、移動具14の載置部は下方に回動させて配線・配管材Wを落下させているが、前記配線・配管材Wを落下させるには、載置部を下方に回動させる手段に限られるものではない。
【0046】
【発明の効果】
以上のように、本発明の配線・配管材の移動具は、長尺に形成された移動具本体と、前記移動具本体に設けられ、前記配線・配管材を支持する支持手段と、前記支持手段に設けられ、前記移動具本体がその長手方向を軸として水平方向に回動するに伴って一体に水平方向に回動し、支持された前記配線・配管材を水平方向に押し寄せて該配線・配管材の位置を移動させる押寄部と、前記支持手段により支持されて位置移動した前記配線・配管材を下方に落下させるため、前記支持手段による支持を解除する解除手段と、前記解除手段を作動させるための操作手段とを備えたものである。したがって、受具が高所に設置されている場合でも、移動具を使用することにより、高所に登ることなく、配線・配管材を所定位置に楽にかつ安全に移動させることができる。
【図面の簡単な説明】
【図1】 本発明の実施例における配線・配管材の移動具を示す斜視図である。
【図2】 図1の受具を示す斜視図である。
【図3】 図1の移動具を示す正面図である。
【図4】 図3の移動具を示す要部斜視図である。
【図5】 図3の移動具においてケーブル受けが下方に回動した状態を示す正面図である。
【図6】 図3の移動具においてケーブル受けが下方に回動した状態を示す要部斜視図である。
【図7】 図2の受具の引込路に配線・配管材を引き込むために使用する引込具を示す斜視図である。
【図8】 図2の受具の引込路に配線・配管材を引き込む方法を説明する側面図である。
【図9】 図2の受具の引込路に配線・配管材を引き込む方法を説明する平面図である。
【図10】 図2の受具の引込路に配線・配管材を引き込む方法を説明する側面図である。
【図11】 図2の受具の引込路に配線・配管材を引き込む方法を説明する側面図である。
【図12】 図3の移動具を受具の引込路に向けて押上げる状態を示す斜視図である。
【図13】 図3の移動具の載置部に載置された配線・配管材を収容路側に移動させる状態を示す斜視図である。
【図14】 図3の移動具の載置部に載置された配線・配管材を収容路上に落下させる状態を示す斜視図である。
【図15】 図2の受具の引込路に配線・配管材を引き込んだ状態を示す正面図である。
【図16】 図2の受具の収容路に配線・配管材を収容した状態を示す正面図である。
【図17】 本発明の別の実施例の移動具を示す要部斜視図である。
【図18】 本発明の実施例に適用する別の受具及び引込具を示す斜視図である。
【図19】 本発明の実施例に適用する更に別の受具を示す斜視図である。
【図20】 本発明の実施例に適用する更に別の受具を示す斜視図である。
【符号の説明】
1 受具
4 引込路
5 収容路
14 移動具
15 ポール部
16 アーム
17 ケーブル受け
17a、17b 円柱
17c 支持板
17d ラチェット掛止部
17f ピン体
18 ラチェット
18a ラチェット引き板
19 レバー
20、20a ワイヤ
W 配線・配管材
[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wiring / piping material moving tool used when laying wiring materials such as cables and piping materials such as conduits on a receiving device such as a cable rack or duct, and in particular, with a lead-in path in the laying direction. The present invention relates to a wiring / piping material moving tool used when laying a plurality of wiring / piping materials on a receiving tool partitioned into a receiving path.
[0002]
[Prior art]
Conventionally, receiving devices such as cable racks and ducts have been used for laying wiring and piping materials in buildings and station buildings.
Regarding the laying of the wiring / pipe material on the receiving tool, a technique described in JP-A-8-280116 is disclosed.
[0003]
However, the conventional wiring / piping material holder is installed when multiple wiring / piping materials are installed, the existing wiring / piping material is installed after the previous wiring / piping material is installed.・ It was difficult to pull in because it was in contact with the piping material and received a large pulling resistance. In addition, the existing wiring / piping material may be disturbed. Furthermore, it is easy to be scratched due to contact between wiring and piping materials, and if pulled in a state where they are entangled with each other, there is a risk of breakage or disconnection, which is dangerous.
[0004]
For this reason, the applicant, in the earlier application of Japanese Patent Application No. 9-361399, lays the wiring / piping material on a receiving device that can be laid and accommodated smoothly and smoothly without damaging a plurality of wiring / piping materials. A method technique is disclosed.
The wiring / piping material laying method to the receiver includes the drawing / retracting means provided in the drawing path of the receiving device provided with a drawing path and a receiving path partitioned in the wiring / pipe material laying direction. After the material is drawn in, the wiring / pipe material drawn into the drawing-in path by the moving means is moved to the accommodating path and installed.
[0005]
[Problems to be solved by the invention]
By the way, generally, a receiving device such as a cable rack is often installed at a high place. Therefore, in the application of Japanese Patent Application No. 9-361399, the work of moving the wiring / pipe material once drawn into the receiving path of the receiving tool to the receiving path is often a high place work. All work is dangerous and the work efficiency is not good.
[0006]
Accordingly, an object of the present invention is to provide a wiring / piping material moving tool that can easily and safely move a wiring / piping material once drawn even in a receiving device installed at a high place to a predetermined position. Is.
[0007]
[Means for Solving the Problems]
Moving unit of the wiring and piping material according to the invention of claim 1 includes a mobile device body formed in an elongated, rotatably provided in the vertical direction in the mobile device body, from below the wiring and piping material supporting means for supporting, the provided on the support means, the moving member body is rotated in the horizontal direction together with the pivoted horizontally to its longitudinal direction axis, the wires and pipes that are supported A pushing portion that can move the position of the wiring / pipe material by pushing the material horizontally, and the support member that supports the support means for dropping the wiring / pipe material that has been moved and supported by the support means. A releasing means for releasing and rotating the supporting means downward, and an operating means for operating the releasing means , wherein the supporting means pushes before the pushing portion pushes the wiring / pipe material. Until completion Those supporting the wire and piping material.
[0008]
According to a second aspect of the present invention, there is provided a wiring / piping material moving tool in which the support means according to the first aspect is extended in a horizontal direction from the moving tool main body .
[0009]
Moving unit of the wiring and piping material according to the invention of claim 3, the supporting means according to Motomeko 2, abuts from below the wiring and piping material, for mounting thereon the wiring and piping material portion comprising a, the placement section is adapted to the mounting location in a state parallel to the wiring and piping material before moving the extending direction of the supporting means, the Rutoki flooded by the押寄portion by rotation of the moving member body The wiring / piping material is formed to be placed in a state of being rotated in the horizontal direction from the parallel state with the pressing portion as an axis .
[0010]
According to a fourth aspect of the present invention, there is provided a wiring / piping material moving tool, comprising: a long pole portion; and an arm extending outwardly from an upper portion of the pole portion; And a support means that is mounted on the tip of the arm so as to be pivotable in the vertical direction, and is attached to the support part of the support means, and the pole portion is horizontally oriented with the longitudinal direction as an axis.押寄portion with the pivot rotates horizontally together, may the wiring and piping material placed on the placing part to move the position of the wiring and piping material rushing horizontally And a release means for releasing the support by the support means and rotating the placement part downward in order to drop the wiring / piping material placed and moved on the placement part of the support means downward. If, and an operation means for operating said releasing means, before Supporting means is that the押寄portion supports the wiring and piping material until completing the pouring before the surging of the wiring and piping material.
[0011]
According to a fifth aspect of the present invention, in the wiring / piping material moving tool, the release means according to any one of the first to fourth aspects is provided with the support means for preventing the support means from rotating downward. And a hooking portion that operates to release the hooking by operating the operating means.
[0012]
Those moving unit of the wiring and piping material according to the invention of claim 6, in which the operating means according to any one of claims 1 to 5, provided under the lower or pole portion of the moving member body It is.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
A wiring / piping material moving tool according to an embodiment of the present invention will be described with reference to FIGS.
In the figure, the receiving device 1 on which the wiring / pipe material W is laid is a linear metal round bar 2a in a horizontal direction between a plurality of frame bodies obtained by bending a metal round bar 2a into a square frame shape. A cylindrical frame-shaped receiving body 2 is connected to form an internal space having a constant cross section as shown in FIGS. 15 and 16 in the longitudinal direction, that is, the laying direction. However, the receiving body 2 is formed with an opening along the laying direction in the center of the bottom portion of the cylindrical frame shape, and the round bar 2a at the opening end is bent upward, and a pair of left and right of a predetermined height. The partition part 3 is formed. The internal space of the receiver body 2 is partitioned by the partition portion 3 erected on the inner side, and a retracting path 4 for retracting the wiring / piping material W is provided in a center portion where an opening is formed, which will be described later. It is formed by the path forming member 11. In addition, accommodation paths 5 for accommodating the wiring / pipe material W are formed on the left and right sides of the internal space of the receiver body 2. A moving space 6 in which the wiring / pipe material W can be moved in the horizontal direction is formed between the upper end of the partition part 3 and the upper surface part 7 of the receiving body 2 so that the lead-in path 4 and the accommodating path 5 communicate with each other. It has become.
[0017]
In the lead-in path 4, a lead-in path forming member 11 in which a roller 12 is pivotally attached to a support plate 11a made of a metal plate, a synthetic resin plate or the like having a substantially U-shape is provided at a predetermined interval in the laying direction. Installed in. The pull-in path forming member 11 is detachably mounted on the round bar 2a at the upper end portions of the pair of left and right partition portions 3 of the receiver body 2 by hooking portions 11b whose both ends are bent outward.
[0018]
On the other hand, the moving tool 14 has an arm 16 extending horizontally at the upper end of a pole portion 15 made of a long cylinder, and an arm support plate made of two plates attached to the end of the arm 16. A cable receiver 17 that supports the wiring / pipe material W from below is attached to 16a so as to be rotatable in the vertical direction within a range of approximately 90 degrees. Here, the pole portion 15 corresponds to a moving tool main body according to the claims, and the cable receiver 17 corresponds to a placement portion of the support means according to the claims. In the cable receiver 17, a triangular support plate 17c is mounted on a horizontal plane between two orthogonal cylinders 17a and 17b, and either the cylinder 17a or the cylinder 17b is operated by operating the moving tool 14. In addition, the wiring / pipe material W is placed on the support plate 17c. The cylinder 17a and the cylinder 17b are covered with a synthetic resin such as vinyl chloride in order to prevent the wiring / pipe material W from being scratched. As will be described later, the pin body 17f abuts against the wiring / pipe material W from the side when the moving tool 14 is rotated in the horizontal direction, and pushes the wiring / pipe material W from the retracting path 4 to the accommodating path 5 side. This corresponds to the pushing portion of the claims. In addition, the pole part 15 is good also as what can expand-contract itself, and in this case, it can operate according to the installation height of the holder 1 freely.
[0019]
The cable receiver 17 is held horizontally by a ratchet latching portion 17d that normally rotates between two plate members of the arm support plate 16a and latches with a ratchet 18 disposed above it. . The ratchet 18 corresponds to a latching portion of a release means in claims, and is connected to a rotating body 18b at the upper end portion of the pole portion 15 via a ratchet pulling plate 18a. The rotating body 18b further includes a shaft portion 18c. By operating the lever 19 as a shaft, it can be turned up and down approximately 90 degrees through the wire 20 inserted into the pole portion 15. Here, the lever 19 corresponds to the operating means in the claims.
[0020]
In the moving tool 14 configured as described above, when the lever 19 is gripped, the rotating body 18b is rotated approximately 90 degrees in the clockwise direction in FIG. 3 via the wire 20, and the ratchet 18 is rotated in the clockwise direction in FIG. . As a result, the engagement with the cable receiver 17 is released, and the cable receiver 17 rotates from the horizontal position shown in FIGS. 3 and 4 in the counterclockwise direction with the shaft portion 17e as an axis. As shown in FIGS. 5 and 6, it hangs down in the vertical direction.
[0021]
Next, a method for laying the wiring / piping material on the receiver configured as described above will be described with reference to FIGS.
First, a method for drawing the wiring / pipe material W into the lead-in path 4 of the receiving tool 1 will be described with reference to FIGS.
There are various methods for drawing the wiring / pipe material W into the drawing-in path 4, but here, a case of drawing in using the drawing tool 21 shown in FIG. 7 is shown.
[0022]
The retracting tool 21 shown in FIG. 7 is formed in a ski plate shape and is connected to the leading end 22 guided to the retracting path 4 and the rear end of the leading end 22, and can be fed into the retracting path 4 and wound. It is formed with a rigid long portion 23 having a sufficient rigidity. The leading portion 22 is formed of a plate material having a constant width that can move along the lead-in path 4, and has a length that does not fall from between the lead-in path forming members 11 across at least three lead-in path forming members 11, that is, FIG. It is formed in a length of 2 L or more, which is two spans. In addition, the leading end portion 22 of the retracting tool 21 is bent upward by a predetermined angle so as to prevent the leading portion 22 from being pushed by the roller 12 of the retracting path forming member 11 during pressing. The attachment hole 22a is a hole for connecting a traction rope 24 or a wiring / pipe material W, which will be described later. In addition, although the rigid elongate part 23 is formed with the board | plate material, it is not restricted to it, For example, you may form with a circular or square wire.
[0023]
In order to draw the wiring / pipe material W into the lead-in path 4 using the pull-in tool 21 configured as described above, first, as shown in FIG. 8 and FIG. Placed on the forming member 11, the rigid long portion 23 is pushed in with the leading portion 22 as a guide to feed the retracting tool 21 from one end side of the receiving device 1, and is mounted on the retracting path 4 to the other end. Next, the tip of the traction rope 24 is connected to the attachment hole 22a of the retractor 21 on the other end side, and the retractor 21 is pulled back as shown in FIG. After the traction rope 24 is placed over the entire drawing-in path 4, a converging portion of a well-known net bag-like cable holder 25 is connected to the front end or the rear end of the traction rope 24 and the cable holding The other end of the body 25 is attached to the tip of the wiring / pipe material W, and the pulling rope 24 is pulled back as shown in FIG. As a result, the wiring / pipe material W is placed on the drawing path forming member 11 of the drawing path 4. The wiring / pipe material W is placed on the lead-in path 4 via the tow rope 24, but is not necessarily limited to this. Even if the wiring / pipe material W is directly connected to the pull-in tool 21 and pulled back. Good. Also, the pulling rope 24 can be fed simultaneously with the feeding tool 21 and the wiring / pipe material W can be connected and pulled back on the other end side.
[0024]
The wiring / pipe material W can also be drawn into the lead-in path 4 from any opening between the lead-in path forming members 11 of the laying path in the receiver 1, and in this case, when pulling in by the rollers 12 of the lead-in path forming member 11 Scratching of the wiring / pipe material W is prevented.
[0025]
In this way, after the wiring / pipe material W is placed on the lead-in path forming member 11 and drawn into the lead-in path 4, the wiring / pipe material W is received from the state shown in FIG. The tool 1 is moved in the width direction and accommodated in the accommodating path 5 in a state as shown in FIG.
[0026]
Next, the wiring / pipe material W in the state shown in FIG. 15 drawn into the drawing-in path 4 is transferred from the moving space 6 into the accommodating path 5 using the moving tool 14 to the state shown in FIG. The housing operation will be described with reference to FIGS. 1, 3 to 6, and 12 to 14. FIG.
[0027]
First, in the receiving tool 1 installed at a high place, as shown in FIG. 12, the moving tool 14 is pushed up from the lower side toward the wiring / pipe material W placed on the drawing-in path 4, As shown in FIG. 1, the wiring / pipe material W is placed on the cable receiver 17 by being inserted into an elongated opening between the service path forming members 11 in the service path 4 of the receiver 1. Next, the moving tool 14 is further pushed up and the wiring / pipe material W is lifted above the upper end of the partition part 3, and in this state, as shown in FIG. Rotate in the direction. As a result, the wiring / pipe material W in the cable receiver 17 is pushed and bent with the pin body 17f as the contact fulcrum, and moves upward from the receiving path of the cylinder 17b to the mounting position of the cylinder 17a. It is done. Therefore, when the latch 19 is released by grasping the lever 19 of the moving tool 14, the cable receiver 17 rotates downward by approximately 90 degrees as shown in FIG. 14, so that it is placed on the cable receiver 17. The wiring / pipe material W that has been dropped is dropped onto the accommodation path 5. In this manner, the wiring / piping material W in that portion is transferred from the lead-in path 4 to the accommodating path 5. By performing this operation from one end side to the other end side of the laying path while sequentially moving in the laying direction, the wiring / pipe material W can be moved and replaced over the entire laying path.
[0028]
Hereinafter, the same operation may be repeated when laying the second and subsequent wiring / piping materials W. The previous wiring / piping material W is shifted to one side in the width direction in the housing path 5 in order to secure a housing space for the wiring / piping material W to be installed next. Is desirable.
[0029]
As described above, the wiring / pipe material moving tool of the present embodiment is connected to the wiring / pipe material W once drawn into the lead-in path 4 of the receiving tool 1 at the tip of the arm 16 of the pole portion 15 as the moving tool body. A cable receiver 17 serving as a mounting portion that is placed in contact with the lower side is rotatably held downward, and the cable receiver 17 receives the cable receiver 17 as the pole portion 15 rotates in the horizontal direction. A pin body 17f is attached as a pressing portion that abuts against the wiring / pipe material W placed on the side 17 from the side and presses toward the housing path 5, and is operated from the lower portion of the pole portion 15 to the arm 16. An operation means for releasing the holding of the cable receiver 17 and rotating the cable receiver 17 downward to drop the wiring / pipe material W placed on the cable receiver 17 into the receiving path 5 is provided. Is.
[0030]
Therefore, in the receiving device 1 that is partitioned into the lead-in path 4 and the receiving path 5 in the laying direction, even when the receiving device 1 is installed at a high place, by using the moving tool 14, The work of moving the wiring / pipe material W once drawn into the lead-in path 4 of the receiving tool 1 to the accommodating path 5 without climbing can be performed easily and safely.
[0031]
Note that the wiring / pipe material W is not laid directly in the receiving path 5 of the receiver 1 but is laid by an operation that is simply transferred to the receiving path 5 after being drawn into the drawing path 4 once. When the next wiring / pipe material W is laid in a state where the existing wiring / pipe material W exists in the accommodation path 5, it does not contact the existing wiring / pipe material W and receive a large pull-in resistance. . As a result, the wiring / pipe material W can be laid smoothly and easily. Further, the installed state of the existing wiring / piping material W is not disturbed. Furthermore, since the wiring / pipe material W is not subjected to resistance due to contact in the sliding direction, it is possible to prevent mutual flaws and entanglement with each other. Can be reliably prevented.
[0032]
By the way, as shown in FIG. 17, the moving tool 14 of the above embodiment separately attaches the distal end portion of the wire 20 a to the pin body 17 f of the cable receiver 17, and inserts the wire 20 a into the pole portion 15. Further, although not shown, a lever may be added to the other end portion of the wire 20a at the lower end portion of the pole portion 15.
[0033]
When the moving tool 14 of this embodiment is used, after the wiring / pipe material is dropped into the accommodation path 5, the lever 20 is gripped to pull back the wire 20a, and the cable receiver 17 is returned to the horizontal direction. Next, after the cable receiver 17 is returned to the horizontal direction, the lever 19 is opened to move the wire 20 upward in the direction of the arrow indicated by the two-dot chain line, and the ratchet 18 is returned to the horizontal direction. It can be hooked on the 17 ratchet hooks 17d. As a result, the cable receiver 17 can be returned to a standby state in which a new wiring / pipe material W can be placed. As a result, by adding wires and levers, the movement tool 14 moves the wiring / pipe material W of the lead-in path 4 to the receiving path 5 while moving the position in the laying direction. Since it is possible to save the trouble of lowering the tool 14 and returning it to the standby state where it can be placed, the work can be performed easily.
[0034]
Further, the arm 16 and the ratchet pulling plate 18a may be configured such that the protruding length in the horizontal direction can be changed by a known means. In this case, it is possible to cope with various kinds of receiving devices 1 having different width dimensions of the accommodation path 5 with one type of moving device 14.
[0035]
Further, in this embodiment, the ratchet 18 is used as the engaging portion of the releasing means. However, the ratchet 18 is not limited to this, and can be engaged and released by a known electromagnetic lock, for example.
[0036]
In addition, the pole portion 15 is divided at the upper end portion, only the upper end portion can be rotated in the horizontal direction, and a swinging structure is formed using a driving means such as a motor, and a changeover switch is attached to the lower portion of the pole portion 15 It is also possible to control the drive. In this case, when the wiring / pipe material W is moved, torque in the rotation direction is generated in the pole portion 15, but the driving means bears the load, and therefore the operation of moving the wiring / pipe material W by the moving tool 14. Becomes easier.
[0037]
In the above embodiment, the retracting tool 21 is used to draw the wiring / pipe material W into the retracting path 4, but for example, as shown in FIG. It is also possible to insert the wiring / pipe material W through the shuttle 8 through the shuttle 42 of the retractor 41.
In FIG. 18, the receiver 1 is one in which a shooter 8 is integrally attached to the center of the upper surface portion 7 of the receiver body 2 of the receiver 1 shown in FIG. The shooter 8 has an opening formed continuously downward in the laying direction.
[0038]
On the other hand, the retractor 41 is formed of a shuttle 42 whose tip is formed in a spindle shape and a rigid laying rope 43 connected to the rear end of the shuttle 42 and connected to the lower part of the shuttle 42. A connecting plate 44 to which the traction rope is connected through the hole 44a is attached.
[0039]
In order to lay the wiring / pipe material W using the retractor 41, first, the laying rope 43 having rigidity of the retractor 41 is fed and the shuttle 42 is inserted into the shooter 8 from the opening on one end side of the receiver 1. To do. Next, the traction rope is connected to the connecting plate 44 of the retractor 41 on the other end side by the same operation as the procedure shown in FIGS. 10 and 11, and the traction rope is pulled back.
[0040]
Then, after the traction rope is placed over the entire pull-in path 4, a converging portion of a well-known net bag-like cable holder is connected to the front end or the rear end of the traction rope, and the other of the cable holder The end is attached to the tip of the wiring / pipe material W, and the pulling rope is pulled back. Accordingly, the wiring / pipe material W can be placed on the drawing path forming member 11 of the drawing path 4.
[0041]
Further, in each of the above embodiments, the receiving device 1 is a mesh type using the round bar 2a. However, when the present invention is carried out, for example, as shown in FIG. An opening may be formed in the center of the bottom surface, and the drawing-in path forming member 11 may be installed between the partition portions 3 erected on both sides of the opening. Wiring / pipe material W can be laid by operation.
[0042]
Further, in each of the above-described embodiments, the receiver main body 2 of the receiver 1 is a frame type with the upper surface closed, but is not limited to this, and as shown in FIG. The same can be applied to a rack type with an opening.
[0043]
In addition, the drawing-in path forming member 11 is shown as being installed in the opening at the center of the bottom surface. However, as shown in FIG. Can do.
[0044]
By the way, in each said Example, the moving tool 14 is the said moving tool, after drawing the wiring and piping material W into the drawing-in path 4 once in the receiving tool 1 divided and formed by the drawing-in path 4 and the accommodating path 5. FIG. 14 is used to rotate the container 14 in the horizontal direction and move it to the receiving path 5. However, the present invention is not limited to this, and for example, it is laid between a pair of left and right parent beams. In a receiving device formed in a ladder shape by laying a plurality of child beams at predetermined intervals in the direction, the wiring / pipe material W placed on the receiving device is simply put together without rotating the moving device 14 in the horizontal direction. It can also be used to shift it to the side. In this case, the wiring / pipe material W already placed on the support is supported by the placement part of the moving tool 14 inserted from below between the child beams, and after the moving tool 14 is pushed up, the posture is maintained as it is. Then, it is moved to one side in the width direction of the receiving tool, the hooking of the placing portion is released, and the wiring / pipe material W is dropped to one side of the receiving tool. It should be noted that the mounting portion of the moving tool 14 used for this is shortened in the horizontal projection length and brought closer to the pole portion 15 side in order to reduce the moment applied to the pole portion 15 due to the load of the wiring / pipe material W. It is desirable to leave. Such usage is effective when a plurality of wiring / pipe materials W are sequentially arranged on the support and are smoothly laid.
[0045]
In each of the above embodiments, the placement portion of the moving tool 14 is rotated downward to drop the wiring / pipe material W. However, in order to drop the wiring / piping material W, the placement portion is used. It is not restricted to the means to rotate downward.
[0046]
【The invention's effect】
As described above, the wiring / piping material moving tool of the present invention has a long moving tool main body, a support means provided on the moving tool main body for supporting the wiring / piping material, and the support. As the movable body is rotated in the horizontal direction about the longitudinal direction as an axis , the movable body is rotated in the horizontal direction integrally, and the supported wiring / pipe material is pushed in the horizontal direction to move the wiring body. · a押寄portion that obtained by moving the position of the piping material, in order to drop the wiring and piping material positioned moved being supported by said support means downward, and release means that dividing the solution a support by the supporting means, And operating means for operating the releasing means. Therefore, even when the receiving tool is installed at a high place, by using the moving tool, the wiring / pipe material can be easily and safely moved to a predetermined position without climbing the high place.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a wiring / piping material moving tool in an embodiment of the present invention.
FIG. 2 is a perspective view showing the receiving device of FIG. 1;
FIG. 3 is a front view showing the moving tool of FIG. 1;
4 is a perspective view of a main part showing the moving tool of FIG. 3. FIG.
5 is a front view showing a state in which the cable receiver is rotated downward in the moving tool of FIG. 3; FIG.
6 is a perspective view of the main part showing a state in which the cable receiver is rotated downward in the moving tool of FIG. 3; FIG.
7 is a perspective view showing a drawing tool used for drawing wiring / piping material into the drawing path of the receiving tool of FIG. 2; FIG.
8 is a side view for explaining a method of drawing wiring / piping material into the drawing-in path of the receiving device of FIG. 2; FIG.
9 is a plan view for explaining a method of drawing wiring / pipe material into the lead-in path of the receiving tool of FIG. 2; FIG.
10 is a side view for explaining a method of drawing wiring / piping material into the drawing-in path of the receiving tool of FIG. 2; FIG.
11 is a side view for explaining a method of drawing wiring / piping material into the drawing-in path of the receiving tool of FIG. 2; FIG.
12 is a perspective view showing a state in which the moving tool of FIG. 3 is pushed up toward the retracting path of the receiving tool. FIG.
13 is a perspective view showing a state where the wiring / pipe material placed on the placement portion of the moving tool in FIG. 3 is moved to the accommodation path side.
14 is a perspective view illustrating a state in which the wiring / pipe material placed on the placement portion of the moving tool in FIG. 3 is dropped onto the accommodation path.
15 is a front view showing a state in which wiring / pipe material is drawn into the lead-in path of the receiving device of FIG. 2; FIG.
16 is a front view showing a state in which wiring / piping material is housed in the housing passage of the receiving device of FIG. 2. FIG.
FIG. 17 is a perspective view showing a main part of a moving tool according to another embodiment of the present invention.
FIG. 18 is a perspective view showing another receiver and retractor applied to the embodiment of the present invention.
FIG. 19 is a perspective view showing still another receiver applied to the embodiment of the present invention.
FIG. 20 is a perspective view showing still another receiver applied to the embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Receptacle 4 Pull-in path 5 Accommodating path 14 Moving tool 15 Pole part 16 Arm 17 Cable receiver 17a, 17b Column 17c Support plate 17d Ratchet latching part 17f Pin body 18 Ratchet 18a Ratchet pulling board 19 Lever 20, 20a Wire W Wiring / Piping material

Claims (6)

受具上に布設された配線・配管材の位置を移動させるための配線・配管材の移動具であって、
長尺に形成された移動具本体と、
前記移動具本体に上下方向に回動可能に設けられ、前記配線・配管材を下方から支持する支持手段と、
前記支持手段に設けられ、前記移動具本体がその長手方向を軸として水平方向に回動するに伴って一体に水平方向に回動し、支持されている前記配線・配管材を水平方向に押し寄せて該配線・配管材の位置を移動させ得る押寄部と、
前記支持手段により支持されて位置移動した前記配線・配管材を下方に落下させるため、前記支持手段による支持を解除して該支持手段を下方に回動させる解除手段と、
前記解除手段を作動させるための操作手段とを備え
前記支持手段は、前記押寄部が前記配線・配管材を押し寄せる前から押し寄せを完了するまでの間該配線・配管材を支持していることを特徴とする配線・配管材の移動具。
Wiring / piping material moving tool for moving the position of wiring / piping material laid on the receiving tool,
A moving tool body formed in a long length;
A support means provided on the movable body to be rotatable in the vertical direction, and supporting the wiring / piping material from below ;
Provided on the support means, rotates in a horizontal direction together with the moving member body is rotated in a horizontal direction the longitudinal direction axis, pouring the wiring and piping material, which is supported in a horizontal direction A pushing portion that can move the position of the wiring / piping material;
A release means for releasing the support by the support means and rotating the support means downward in order to drop the wiring / piping material supported and moved by the support means downward ;
Operating means for operating the release means ,
The wiring / piping material moving tool , wherein the supporting means supports the wiring / piping material from before the pushing portion pushes the wiring / piping material until the pushing is completed .
前記支持手段は、前記移動具本体から水平方向に延設されてなることを特徴とする請求項1に記載の配線・配管材の移動具。  The wiring / piping material moving tool according to claim 1, wherein the support means extends in a horizontal direction from the moving tool main body. 前記支持手段は、配線・配管材の下方から当接して、前記配線・配管材を載置する載置部を備え、
前記載置部は、移動前において前記配線・配管材を前記支持手段の延設方向と平行する状態で載置するとともに、前記移動具本体の回動により前記押寄部で押し寄せるときには前記配線・配管材を前記平行する状態から前記押寄部を軸として水平方向に回動した状態で載置すべく形成されたことを特徴とする請求項2に記載の配線・配管材の移動具。
The support means includes a mounting portion that contacts the wiring / piping material from below and places the wiring / piping material,
The placement section is adapted to the mounting location in a state parallel to the wiring and piping material before moving the extending direction of the supporting means, the Rutoki flooded by the押寄portion by rotation of the moving member body said wiring and moving unit of the wiring and piping material according piping material Motomeko 2 you characterized in that it is formed so as to put in a state of being rotated in the horizontal direction as an axis the押寄part from a state that the parallel.
受具上に布設された配線・配管材の位置を移動させるための配線・配管材の移動具であって、
長尺のポール部と、
前記ポール部の上部に外方向にアームが延設されるとともに、下方から当接して前記配線・配管材を載置する載置部が前記アームの先端に上下方向に回動可能に取付けられてなる支持手段と、
前記支持手段の載置部に取付けられ、前記ポール部が長手方向を軸として水平方向に回動するに伴って一体に水平方向に回動し、前記載置部に載置されている前記配線・配管材を水平方向に押し寄せて該配線・配管材の位置を移動させ得る押寄部と、
前記支持手段の載置部に載置されて位置移動した前記配線・配管材を下方に落下させるため、前記支持手段による支持を解除して前記載置部を下方に回動させる解除手段と、
前記解除手段を作動させるための操作手段とを備え
前記支持手段は、前記押寄部が前記配線・配管材を押し寄せる前から押し寄せを完了するまでの間該配線・配管材を支持していることを特徴とする配線・配管材の移動具。
Wiring / piping material moving tool for moving the position of wiring / piping material laid on the receiving tool,
A long pole,
An arm extends outwardly from the top of the pole portion, and a placement portion that contacts from below and places the wiring / piping material is attached to the tip of the arm so as to be pivotable in the vertical direction. A supporting means comprising:
Wherein mounted to mounting portion of the support means, rotates in a horizontal direction together with the pivoted horizontally the pole portion as an axis in the longitudinal direction, the wiring placed on the placing part A pushing portion that can move the position of the wiring / piping material by pushing the piping material horizontally;
Release means for releasing the support by the support means and rotating the placement part downward in order to drop the wiring / piping material placed and moved on the placement part of the support means downward,
Operating means for operating the release means ,
The wiring / piping material moving tool , wherein the supporting means supports the wiring / piping material from before the pushing portion pushes the wiring / piping material until the pushing is completed .
前記解除手段は、前記支持手段の下方への回動を防止すべく前記支持手段と掛合し、前記操作手段の操作により前記掛合を解除すべく作動する掛合部を備えたことを特徴とする請求項1乃至請求項4のいずれか1項に記載の配線・配管材の移動具。It said releasing means, according to said order to prevent downward rotation of the support means and the support means and engagement, characterized by comprising a fitting part which operates to release the engagement by operation of the operation means The moving tool for wiring and piping materials according to any one of claims 1 to 4 . 前記操作手段は、移動具本体の下部またはポール部の下部に設けられたことを特徴とする請求項1乃至請求項5のいずれか1項に記載の配線・配管材の移動具。The wiring / piping material moving tool according to any one of claims 1 to 5 , wherein the operating means is provided at a lower portion of the moving tool main body or a lower portion of the pole portion.
JP4665098A 1998-02-27 1998-02-27 Wiring / piping material moving tool Expired - Fee Related JP3671363B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP4665098A JP3671363B2 (en) 1998-02-27 1998-02-27 Wiring / piping material moving tool

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP4665098A JP3671363B2 (en) 1998-02-27 1998-02-27 Wiring / piping material moving tool

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Publication Number Publication Date
JPH11252732A JPH11252732A (en) 1999-09-17
JP3671363B2 true JP3671363B2 (en) 2005-07-13

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Publication number Priority date Publication date Assignee Title
JP5685479B2 (en) * 2011-04-21 2015-03-18 株式会社岡村製作所 Article placement fixtures
JP6755091B2 (en) * 2015-12-18 2020-09-16 株式会社永木精機 Free helper for work tools

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