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JP6734759B2 - Wiring equipment - Google Patents
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JP6734759B2 - Wiring equipment - Google Patents

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JP6734759B2
JP6734759B2 JP2016214093A JP2016214093A JP6734759B2 JP 6734759 B2 JP6734759 B2 JP 6734759B2 JP 2016214093 A JP2016214093 A JP 2016214093A JP 2016214093 A JP2016214093 A JP 2016214093A JP 6734759 B2 JP6734759 B2 JP 6734759B2
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cable
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rack
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JP2018074821A (en
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純平 武本
純平 武本
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株式会社関電工
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Description

本発明は、高所に設置されているケーブルラック(以下、「ラック」と称する。)上にケーブル等の線状部材を配線するための配線用器具に関する。 The present invention relates to a wiring device for wiring a linear member such as a cable on a cable rack (hereinafter, referred to as “rack”) installed at a high place.

一般的に、例えばビル等の建物内の天井部にケーブルを配線する場合には、梯子型のラックを天井から吊り下げて設置し、このラック上に適宜ケーブルを敷設する。 Generally, for example, when wiring a cable in a ceiling portion of a building such as a building, a ladder-type rack is hung from the ceiling and installed, and the cable is appropriately laid on the rack.

ところで、このようなケーブルの配線作業では、通常、作業者が床面に立設した立ち馬等の足場に登って、ラック上に足場板を載せ、この足場板に作業員が乗ってケーブルを手作業で順次手渡しして、ラック上を通過させて配線していた。 By the way, in such cable wiring work, an operator usually climbs on a scaffolding such as a standing horse standing on the floor, places a scaffolding board on a rack, and a worker rides on the scaffolding board to mount the cable. They were handed to each other one by one and passed over the rack for wiring.

また、ケーブルの配線作業を効率よく行うために、種々の配線用器具が知られている(例えば、特許文献1参照)。特許文献1に開示されている配線用器具は、ケーブルを保持する保持体と、一対の連結体を介して保持体を支持する支持体と、を備え、一対の連結体は、支持体と保持体との連結を解除可能であって、一方の連結体が解除される際に他方の連結体は連結されるように操作される工具である。 Further, various wiring devices are known in order to efficiently perform cable wiring work (see, for example, Patent Document 1). The wiring device disclosed in Patent Document 1 includes a holding body that holds a cable and a support body that supports the holding body via a pair of connecting bodies, and the pair of connecting bodies holds the supporting body and the holding body. It is a tool that can be disconnected from the body and is operated so that when one of the connected bodies is released, the other connected body is connected.

特開2005−117715号公報JP, 2005-117715, A

ところで、このような従来のケーブルの配線作業では、高所での移動と、足場板の設置等の高所で作業を行うための準備に多くの時間を要するとともに、足場板上での作業は、高所で且つ狭い領域で作業を行うために作業性が極めて悪く、落下事故等の危険性を伴う。 By the way, in such conventional cable wiring work, it takes a lot of time to move at a high place and prepare for carrying out work at a high place such as installation of a scaffolding board, and the work on the scaffolding board is difficult. Since work is performed in a high place and in a narrow area, workability is extremely poor, and there is a risk of a fall accident or the like.

また、特許文献1に示す配線用器具は、電気的な部品で構成されているため、故障等の不具合の発生や製造コストの高騰が懸念される。また、保持体を移動する際の阻害要因となる杆材を回避するための操作が杆材を回避するたびに必要であり、作業性が悪い。 Further, since the wiring device disclosed in Patent Document 1 is composed of electrical parts, there is a concern that malfunctions such as breakdowns may occur and manufacturing costs may rise. In addition, an operation for avoiding the rod, which is an obstructive factor when the holder is moved, is required every time the rod is avoided, and workability is poor.

そこで、このような課題の一例を解消するために、本願は、高所への配線作業を安全且つ容易に行えるとともに作業性の良い配線用器具を提供することを目的とする。 Therefore, in order to solve an example of such a problem, an object of the present invention is to provide a wiring device that can perform wiring work to a high place safely and easily and has good workability.

上述した課題を解決するため、本願請求項1に記載の配線用器具(10A)は、線状部材(2)を保持する本体(11)と、前記本体を移動させる操作体(21)と、を備え、前記本体は、弾性変形可能な弾性部材(33)を介して磁力により連結された2つの部材(13、14)を備え、2つの前記部材の連結状態を維持しつつ、前記本体の移動の際の阻害要因となる阻害部材(15)が前記弾性部材の弾性変形により2つの前記部材間に通過可能に受け入れられることを特徴とする。 In order to solve the above-mentioned problems, a wiring device (10A) according to claim 1 of the present application includes a main body (11) that holds a linear member (2), and an operating body (21) that moves the main body. The main body includes two members (13, 14) connected by a magnetic force via an elastically deformable elastic member (33), while maintaining the connected state of the two members, The blocking member (15), which becomes a blocking factor during movement, is received by the elastic deformation of the elastic member so as to be able to pass between the two members.

また、請求項2に記載の配線用器具は、請求項1に記載の配線用器具において、2つの前記部材は、前記阻害部材を通過可能に相対して配置される複数の磁性体(35a)を有し、前記磁性体は、前記弾性部材の弾性変形により分離可能に設けられ、前記本体は、前記阻害部材が2つの前記部材間を通過することで一部の相対する磁性体が離反した際に、他の磁性体により2つの前記部材の連結状態を維持することを特徴とする。 Further, the wiring device according to claim 2 is the wiring device according to claim 1, wherein the two members are arranged to face each other so as to pass through the inhibition member. And the magnetic body is provided so as to be separable by elastic deformation of the elastic member, and in the main body, some of the opposing magnetic bodies are separated by the inhibition member passing between the two members. At this time, another magnetic body is used to maintain the connected state of the two members.

また、請求項3に記載の配線用器具は、請求項2に記載の配線用器具において、前記磁性体は、複数の球体(35a)であって、全方向に回転可能であることを特徴とする。 The wiring device according to claim 3 is the wiring device according to claim 2, characterized in that the magnetic body is a plurality of spherical bodies (35a) and is rotatable in all directions. To do.

高所に設置されたラック上へのケーブルの配線作業において、下側から移動用部材を把持して本体をケーブルの敷設方向に移動するのみで、阻害部材を回避してケーブルの配線作業を安全且つ容易に行えるとともに従来のケーブルの配線作業と比較して作業性の向上を図れる。 When laying a cable on a rack installed at a high place, simply hold the moving member from below and move the main body in the cable laying direction, avoiding obstructing members and ensuring safe cable wiring work. In addition, the workability can be improved and the workability can be improved as compared with the conventional cable wiring work.

本実施形態の配線用器具の概要を説明するための模式図である。It is a schematic diagram for demonstrating the outline of the wiring tool of this embodiment. 図1のA−A断面を示す模式図である。It is a schematic diagram which shows the AA cross section of FIG. 配線用器具の構成例を示す模式図である。It is a schematic diagram which shows the structural example of the wiring tool. 実施例1の配線用器具の構成例を示す模式図である。FIG. 3 is a schematic diagram showing a configuration example of a wiring device of Example 1. 図4のB−B断面を示す模式図である。It is a schematic diagram which shows the BB cross section of FIG. 実施例2の配線用器具の構成例を示す模式図である。7 is a schematic diagram showing a configuration example of a wiring device of Example 2. FIG.

本願を実施するための形態について、図1〜図3を用いて説明する。
本実施形態の配線用器具10は、図1に示すように、ケーブルラック(以下、「ラック5」と称する。)上に電力幹線や通信幹線等の各種ケーブル類(以下、「ケーブル2(本願の線状部材)」と称する)を敷設して配線する際に用いられる。
A mode for carrying out the present application will be described with reference to FIGS. 1 to 3.
As shown in FIG. 1, the wiring device 10 of the present embodiment includes various cables (hereinafter, referred to as “cable 2 (hereinafter referred to as “the cable 2” in the present application) on a cable rack (hereinafter, referred to as “rack 5”)). ))) is laid and wired.

ラック5は、例えば、図1に示すように、天井3から吊り下げられる梯子型が用いられ、ケーブル2の敷設方向に延びる2つの枠桁6、6と、この2つの枠桁6、6の間に一定間隔で架け渡された連結桁7と、で構成される。このラック5の材質は、例えば、アルミニウム鋼板、塗装鋼板、高耐食鋼板、ステンレス鋼板等が適宜選択されて用いられる。 As shown in FIG. 1, the rack 5 is, for example, a ladder type that is suspended from the ceiling 3, and includes two frame girders 6 and 6 extending in the laying direction of the cable 2 and two frame girders 6 and 6. It is composed of a connecting girder 7 spanned at regular intervals. As the material of the rack 5, for example, an aluminum steel plate, a coated steel plate, a high corrosion resistant steel plate, a stainless steel plate, or the like is appropriately selected and used.

また、ラック5は、天井3からの吊りボルト8によって一定間隔で吊り下げられた支持部材9によって支持される。 Further, the rack 5 is supported by a support member 9 suspended from the ceiling 3 by suspension bolts 8 at regular intervals.

配線用器具10は、ケーブル2が取り付けられた本体11と、この本体11を移動させる長尺の移動用部材21と、を備える。 The wiring device 10 includes a main body 11 to which the cable 2 is attached, and a long moving member 21 that moves the main body 11.

そして、ラック5上にケーブル2を敷設する場合には、図1に示すように、使用者1によって移動用部材21が操作されて、ラック5上において、本体11を移動させることでケーブル2をラック5上に敷設する。 When the cable 2 is laid on the rack 5, the user 1 operates the moving member 21 to move the main body 11 on the rack 5 to move the cable 2 as shown in FIG. 1. Lay on rack 5.

移動用部材21は、例えば、図1に示すように、棒状の部材であって一部が曲折して形成され、図示しないネジ等の固定具によって先端部が本体11に固定して取り付けられる。また、移動用部材21の後端部は使用者1によって把持され、この移動用部材21はラック5上において本体11を移動する際に操作される。 The moving member 21 is, for example, as shown in FIG. 1, a rod-shaped member formed by bending a part thereof, and has a tip end fixed to the main body 11 by a fixture such as a screw (not shown). The rear end portion of the moving member 21 is gripped by the user 1, and the moving member 21 is operated when moving the main body 11 on the rack 5.

また、移動用部材21は、図示しないが、径の異なる複数の円筒部材によって構成され、長さ調整可能であることが好ましい。 Although not shown, the moving member 21 is preferably composed of a plurality of cylindrical members having different diameters, and its length can be adjusted.

なお、このような配線用器具10を用いてラック5上において本体11を移動させる場合には、例えば、図1に示すように、ラック5の側方から移動用部材21を操作して本体11を移動させる場合や、図示しないが、ラック5の下方から移動用部材21を操作して本体11を移動させる場合があり、前者の場合には、吊りボルト8が本体11を移動させる際の阻害要因となり、後者の場合には、連結桁7および支持部材9が本体11を移動させる際の阻害要因となるが、これら吊りボルト8や連結桁7および支持部材9は以下の説明において「阻害部材15」と称して説明する。 In addition, when moving the main body 11 on the rack 5 using such a wiring device 10, for example, as shown in FIG. 1, the moving member 21 is operated from the side of the rack 5 to move the main body 11. May be moved, or, although not shown, the moving member 21 may be operated from below the rack 5 to move the main body 11. In the former case, the suspension bolt 8 impedes movement of the main body 11. In the latter case, the connecting girders 7 and the supporting members 9 hinder the movement of the main body 11. However, the hanging bolts 8, the connecting girders 7 and the supporting members 9 will be referred to as “inhibiting members” in the following description. 15” will be described.

配線用器具10の本体11は、図3に示すように、ケーブル2を保持する保持部材13と、移動用部材21によって操作される操作部材14と、を備えている。保持部材13にはケーブル2を取り付ける取付部16が設けられ、この取付部16にケーブル2が取り付けられており、操作部材14には移動用部材21がネジ等の固定具によって固定される。 As shown in FIG. 3, the main body 11 of the wiring device 10 includes a holding member 13 that holds the cable 2 and an operation member 14 that is operated by the moving member 21. An attachment portion 16 for attaching the cable 2 is provided on the holding member 13, the cable 2 is attached to the attachment portion 16, and the moving member 21 is fixed to the operation member 14 by a fixture such as a screw.

また、本体11は、図3(b)に示すように、保持部材13と操作部材14の間に阻害部材15を通過可能となっており、さらに、阻害部材15を通過させつつ保持部材13と操作部材14の連結状態を維持する連結機構を備えている。 Further, as shown in FIG. 3B, the main body 11 can pass the inhibition member 15 between the holding member 13 and the operation member 14, and further, while passing the inhibition member 15, A connection mechanism for maintaining the connection state of the operation member 14 is provided.

そして、図1及び図2に示すように、使用者1によって移動用部材21が操作されて、図1中の矢印に示すように、使用者1がラック5の側方(又は下方)をケーブル2の敷設方向に移動し、ラック5上において本体11をケーブル2の敷設方向に移動させ、保持部材13と操作部材14の連結状態を保ちつつ、複数の阻害部材15を順々に保持部材13と操作部材14の間に通過させることで、ケーブル2はラック5上に敷設される。 Then, as shown in FIGS. 1 and 2, the moving member 21 is operated by the user 1, and as shown by the arrow in FIG. 2, the main body 11 is moved in the laying direction of the cable 2 on the rack 5 to keep the connecting state of the holding member 13 and the operating member 14 while the holding members 13 are sequentially held. The cable 2 is laid on the rack 5 by passing it between the control member 14 and the operating member 14.

(実施例1)
次に、配線用器具10の具体的形態について図4及び図5を用いて説明する。なお、本実施例において、図1〜図3と共通する部分には同一符号を付し、それらの具体的な説明は省略するものとする。
(Example 1)
Next, a specific form of the wiring device 10 will be described with reference to FIGS. 4 and 5. In addition, in the present embodiment, portions common to those in FIGS.

実施例1に示す配線用器具10Aは、ラック5上にケーブル2を敷設するための本体11と、この本体11を移動させる移動用部材21(本願の操作体)と、を備える。 The wiring device 10A according to the first embodiment includes a main body 11 for laying the cable 2 on the rack 5, and a moving member 21 (an operating body of the present application) for moving the main body 11.

本体11は、ケーブル2を取付部16に取り付けて保持する保持部材13と、移動用部材21によって操作される操作部材14と、を備え、保持部材13と操作部材14は、相対して設けられる複数の磁性体35を有して、この磁性体の吸引力により分離可能に連結される。 The main body 11 includes a holding member 13 that holds the cable 2 attached to the mounting portion 16 and an operating member 14 that is operated by the moving member 21, and the holding member 13 and the operating member 14 are provided opposite to each other. It has a plurality of magnetic bodies 35 and is separably connected by the attraction force of the magnetic bodies.

保持部材13と操作部材14は、図4及び図5に示すように、例えば、略円筒状の台座31を備え、この台座31には、弾性部材33を介して永久磁石で構成された複数の磁性体35が保持される。 As shown in FIGS. 4 and 5, the holding member 13 and the operating member 14 include, for example, a substantially cylindrical pedestal 31. The pedestal 31 is provided with a plurality of permanent magnets via elastic members 33. The magnetic body 35 is held.

磁性体35には、例えば、複数の球体35aが用いられ、これらの球体35aは各々の回転方向が規制されることなく全方向に回転可能であって一部が台座31の表面から露出して保持される。また、保持部材13と操作部材14にそれぞれ設けられる磁性体35は、互いに極性が異なっており、相対する互いの磁性体35が磁力により密着して吸着され、保持部材13と操作部材14はこれらの磁性体35によって分離可能に連結される。 For the magnetic body 35, for example, a plurality of spheres 35a are used, and these spheres 35a can rotate in all directions without restricting the rotation direction of each, and a part thereof is exposed from the surface of the pedestal 31. Retained. Further, the magnetic members 35 provided in the holding member 13 and the operating member 14, respectively, have polarities different from each other, and the opposing magnetic members 35 are closely adhered and attracted by the magnetic force. The magnetic material 35 of FIG.

また、弾性部材33は、外力によって変形した後、復元する復元力を有する例えば、ゴム、スポンジ等の材料が用いられ、この弾性部材の弾性変形によって、各磁性体35は、分離方向に移動可能に設けられ、外力が加えられると弾性部材33の付勢力に抗して相対する磁性体35から離反するように移動するとともに、外力が取り除かれると復元力によって元の位置に戻る。 Further, the elastic member 33 is made of a material such as rubber or sponge having a restoring force to be restored after being deformed by an external force, and the elastic deformation of the elastic member allows each magnetic body 35 to move in the separating direction. When the external force is applied, the elastic member 33 moves so as to separate from the opposing magnetic body 35 against the biasing force of the elastic member 33, and when the external force is removed, it returns to the original position by the restoring force.

したがって、保持部材13と操作部材14にそれぞれ設けられる磁性体35は、図4に示すように、阻害部材15によって外力を受けた際に相対する磁性体35が離反しつつ阻害部材15を受け入れる一方で、外力を受けない他の磁性体35は磁力によって吸着され連結状態が維持される。 Therefore, as shown in FIG. 4, when the magnetic members 35 provided on the holding member 13 and the operating member 14 respectively receive the inhibiting member 15 while the opposing magnetic members 35 separate from each other when an external force is applied by the inhibiting member 15. Then, the other magnetic body 35 that does not receive an external force is attracted by the magnetic force and the connected state is maintained.

このように、本実施例の配線用器具10Aは、阻害部材15を通過可能に相対して配置される複数の磁性体35を有して、磁性体35の吸引力により分離可能に連結された保持部材13と操作部材14を備え、この保持部材13と操作部材14は、阻害部材15が磁性体35間を通過することで一部の相対する磁性体35が離反した際に、他の磁性体35により連結状態を維持する。 As described above, the wiring device 10A of the present embodiment has the plurality of magnetic bodies 35 arranged to face each other so as to pass through the inhibition member 15, and is separably connected by the attraction force of the magnetic bodies 35. The holding member 13 and the operating member 14 are provided, and the holding member 13 and the operating member 14 are arranged such that when the inhibiting members 15 pass between the magnetic bodies 35 and some of the opposing magnetic bodies 35 separate from each other, another magnetic material is generated. The body 35 maintains the connected state.

そして、このように構成された本実施例の配線用器具10Aは、使用者1による移動用部材21の操作によりケーブル2の敷設方向に本体11が移動されて、阻害部材15が保持部材13と操作部材14の間を通過する際に、阻害部材15と接触する一部の相対する球体35aがこの阻害部材15の通過により離反する一方で、阻害部材15と接触しない相対する他の球体35aは、磁力による吸引力により互いに連結し、保持部材13と操作部材14との連結状態が維持される。 In the wiring device 10A of the present embodiment configured as described above, the main body 11 is moved in the laying direction of the cable 2 by the operation of the moving member 21 by the user 1, and the inhibiting member 15 becomes the holding member 13. While passing between the operation members 14, some of the opposing spheres 35a that come into contact with the inhibiting member 15 are separated by the passage of the inhibiting member 15, while the other opposing spheres 35a that do not come into contact with the inhibiting member 15 are , And the holding member 13 and the operating member 14 are connected to each other by the attraction force of the magnetic force.

このように本実施例の配線用器具10Aは、阻害部材15が保持部材13と操作部材14の間を通過している間、常に保持部材13と操作部材14の連結が維持されるため、阻害部材15があっても、本体11の移動が妨げられずにラック5上を移動することができ、ラック5上にケーブル2を簡単に敷設することができる。 As described above, in the wiring device 10A of the present embodiment, while the inhibition member 15 passes between the holding member 13 and the operation member 14, the connection between the holding member 13 and the operation member 14 is always maintained, so Even with the member 15, the main body 11 can be moved on the rack 5 without being hindered from moving, and the cable 2 can be easily laid on the rack 5.

したがって、高所に設置されたラック5上へのケーブル2の配線作業において、下側から移動用部材21を操作して本体11をケーブル2の敷設方向に移動するのみで、ケーブル2の配線作業を安全且つ容易に行えるとともに従来のケーブル2の配線作業と比較して作業性の向上を図れる。 Therefore, in the wiring work of the cable 2 on the rack 5 installed at a high place, it is only necessary to move the main body 11 in the laying direction of the cable 2 by operating the moving member 21 from below. Can be performed safely and easily, and the workability can be improved as compared with the conventional wiring work of the cable 2.

また、本実施例の磁性体35は、保持部材13及び操作部材14に設けられる両方の磁性体35が弾性部材33によって可動するものであるが、保持部材13又は操作部材14に設けられる磁性体35の一方を固定し、他方を可動させるようにしても構わない。このようにすれば、保持部材13と操作部材14のどちらか一方に弾性部材33を設けるだけでよく、製造コストの低減化を図れる。 Further, in the magnetic body 35 of the present embodiment, both the magnetic bodies 35 provided in the holding member 13 and the operating member 14 are movable by the elastic member 33, but the magnetic body provided in the holding member 13 or the operating member 14 is the same. One of 35 may be fixed and the other may be movable. By doing so, it is sufficient to provide the elastic member 33 on either one of the holding member 13 and the operating member 14, and the manufacturing cost can be reduced.

(実施例2)
次に、配線用器具10の他の具体的形態について図6を用いて説明する。なお、本実施例において、図4と共通する部分には同一符号を付し、それらの具体的な説明は省略するものとする。
(Example 2)
Next, another specific form of the wiring device 10 will be described with reference to FIG. In this embodiment, the same parts as those in FIG. 4 are designated by the same reference numerals, and their detailed description will be omitted.

実施例2に示す配線用器具10Bは、ラック5上にケーブル2を敷設するための本体11と、この本体11を移動させる移動用部材21(本願の操作体)と、を備える。 The wiring device 10B according to the second embodiment includes a main body 11 for laying the cable 2 on the rack 5 and a moving member 21 (an operating body of the present application) for moving the main body 11.

本体11は、ケーブル2を取付部16に取り付けて保持する保持部材13と、移動用部材21によって操作される操作部材14と、を備え、保持部材と操作部材14は、相対して設けられる弾性部材33、33を介して離間して配置される。 The main body 11 includes a holding member 13 that attaches and holds the cable 2 to the attaching portion 16, and an operation member 14 that is operated by the moving member 21, and the holding member and the operation member 14 are elastic members provided to face each other. The members 33, 33 are spaced apart from each other.

また、弾性部材33は、外力によって変形した後、復元する復元力を有する。例えば、ゴム、スポンジ等の材料が用いられる。弾性変形可能な材料内にエアーを充填しても構わない。 Further, the elastic member 33 has a restoring force that restores after being deformed by an external force. For example, materials such as rubber and sponge are used. Air may be filled in the elastically deformable material.

このように、弾性部材33は、阻害部材を通過する際に変形して受け入れることができればよい。 In this way, the elastic member 33 may be deformed and received when passing through the inhibition member.

また、この保持部材13と操作部材14は、例えば、夫々が極性の異なる磁性材料によって形成され、この磁性材料が有する磁力(吸引力)により分離可能に連結される。 The holding member 13 and the operating member 14 are made of, for example, magnetic materials having different polarities, and are separably connected by a magnetic force (attracting force) of the magnetic materials.

なお、保持部材13と操作部材14間の長さは、少なくとも阻害部材15の直径よりも長く、保持部材13と操作部材14とが磁力により連結可能な範囲に設定されるように弾性部材33の厚みが適宜設計される。 The length between the holding member 13 and the operation member 14 is at least longer than the diameter of the inhibition member 15, and the elastic member 33 of the elastic member 33 is set so that the holding member 13 and the operation member 14 can be connected by magnetic force. The thickness is designed appropriately.

また、本実施例に示すように、保持部材13と操作部材14の双方を磁性材料によって形成してもよいが、一方の部材を金属製の部材で形成し、他方の部材のみを磁性材料で形成してもよい。 Further, as shown in this embodiment, both the holding member 13 and the operating member 14 may be made of a magnetic material, but one member is made of a metal member and only the other member is made of a magnetic material. It may be formed.

また、阻害部材を受け入れやすくするために、弾性部材33、33の境界部に図4に示すような球体35aを設けてもよい。なお、この球体35aは、磁力を有しない例えば樹脂製の球体とされる。 Further, in order to easily receive the blocking member, a sphere 35a as shown in FIG. 4 may be provided at the boundary between the elastic members 33, 33. The sphere 35a is, for example, a resin sphere having no magnetic force.

また、阻害部材15の通過を受け入れやすくするために、相対する弾性部材33の先端部を凹凸形状に形成し、双方の弾性部材33の先端部が係合するようにしてもよい。 In addition, in order to make it easier to receive the passage of the blocking member 15, the opposing end portions of the elastic members 33 may be formed in a concavo-convex shape so that the end portions of both elastic members 33 engage with each other.

そして、本実施例の配線用器具10Bは、使用者1による移動用部材21の操作によりケーブル2の敷設方向に本体11が移動されて、阻害部材15が弾性部材33、33の境界近傍に接触すると、弾性部材33の一部が弾性変形することで凹み、阻害部材15を通過可能に受け入れる。また、弾性部材33は、阻害部材15の通過により、外力が取り除かれると復元力によって元の位置に戻る。一方で、保持部材13と操作部材14は、磁力による吸引力により連結状態が維持される。 Then, in the wiring device 10B of the present embodiment, the main body 11 is moved in the laying direction of the cable 2 by the operation of the moving member 21 by the user 1, and the inhibiting member 15 comes into contact with the vicinity of the boundary between the elastic members 33, 33. Then, a part of the elastic member 33 is elastically deformed to be recessed, and the blocking member 15 is received so as to pass therethrough. Further, the elastic member 33 returns to the original position by the restoring force when the external force is removed by the passage of the blocking member 15. On the other hand, the holding member 13 and the operating member 14 are maintained in the connected state by the attractive force of the magnetic force.

そして、このように構成された本実施例の配線用器具10Bは、保持部材13と操作部材14の連結を維持しつつ、保持部材13と操作部材14間の阻害部材15の通過が許容されるため、阻害部材15の存在によって、本体11の移動が妨げられずにラック5上を移動することができ、ラック5上にケーブル2を簡単に敷設することができる。 Then, in the wiring instrument 10B of the present embodiment configured as described above, passage of the inhibition member 15 between the holding member 13 and the operating member 14 is allowed while maintaining the connection between the holding member 13 and the operating member 14. Therefore, the presence of the inhibiting member 15 allows the main body 11 to move on the rack 5 without being hindered from moving, and the cable 2 can be easily laid on the rack 5.

したがって、高所に設置されたラック5上へのケーブル2の配線作業において、下側から移動用部材21を操作して本体11をケーブル2の敷設方向に移動するのみで、ケーブル2の配線作業を安全且つ容易に行えるとともに従来のケーブル2の配線作業と比較して作業性の向上を図れる。 Therefore, in the wiring work of the cable 2 on the rack 5 installed at a high place, it is only necessary to move the main body 11 in the laying direction of the cable 2 by operating the moving member 21 from below. Can be performed safely and easily, and the workability can be improved as compared with the conventional wiring work of the cable 2.

なお、上述した実施例は一形態であって、この形態に限定されるものではない。例えば、本実施例においては、高所に設置されているラック5上にケーブル2等の線状部材を配線する場合について説明を行ったが、例えば、天井下地材やスラブ配筋内に配管するような場合に本実施例に係る配線用器具を用いることも可能である。 It should be noted that the above-described embodiment is one form and is not limited to this form. For example, in the present embodiment, the case where the linear member such as the cable 2 is wired on the rack 5 installed at a high place has been described. However, for example, the piping is installed in the ceiling base material or the slab reinforcement. In such a case, the wiring device according to this embodiment can be used.

また、本実施形態では、ラック5上に配線される各種ケーブル類をケーブル2と称しているが、このケーブル2には、通線用紐や呼び線も含まれる。 Further, in the present embodiment, various cables that are laid out on the rack 5 are referred to as the cables 2, but the cables 2 also include a string for connecting wires and a nominal line.

また、本実施形態では、ケーブル2が本体11の側面(保持部材13の表面)に取り付けられているが、ケーブル2の取付位置は所定の位置に規定されるものでなく、適宜変更可能であって、例えば、保持部材13の後端部(後端面)でも良い。また、ケーブル2の取付手法も本実施例以外の公知の技術を用いても構わない。 Further, in the present embodiment, the cable 2 is attached to the side surface of the main body 11 (the surface of the holding member 13), but the attachment position of the cable 2 is not limited to a predetermined position and can be changed as appropriate. For example, the rear end portion (rear end surface) of the holding member 13 may be used. Further, as the method of attaching the cable 2, a known technique other than this embodiment may be used.

2 ケーブル
10、10A、10B 配線用器具
11 本体
13 保持部材
14 操作部材
15 阻害部材
21 移動用部材
33 弾性部材
35 磁性体
35a 球体
2 cables 10, 10A, 10B wiring equipment 11 main body 13 holding member 14 operation member 15 inhibiting member 21 moving member 33 elastic member 35 magnetic body 35a spherical body

Claims (3)

線状部材を保持する本体と、
前記本体を移動させる操作体と、を備え、
前記本体は、弾性変形可能な弾性部材を介して磁力により連結された2つの部材を備え、
2つの前記部材の連結状態を維持しつつ、前記本体の移動の際の阻害要因となる阻害部材が前記弾性部材の弾性変形により2つの前記部材間に通過可能に受け入れられることを特徴とする配線用器具。
A main body for holding the linear member,
An operating body for moving the main body,
The main body includes two members connected by a magnetic force through an elastically deformable elastic member,
Wiring characterized in that, while maintaining the connection state of the two members, an inhibiting member that becomes an inhibiting factor when the main body moves is received by the elastic deformation of the elastic member so as to be able to pass between the two members. Equipment.
2つの前記部材は、前記阻害部材を通過可能に相対して配置される複数の磁性体を有し、
前記磁性体は、前記弾性部材の弾性変形により分離可能に設けられ、
前記本体は、前記阻害部材が2つの前記部材間を通過することで一部の相対する磁性体が離反した際に、他の磁性体により2つの前記部材の連結状態を維持することを特徴とする請求項1に記載の配線用器具。
The two members have a plurality of magnetic bodies arranged so as to be able to pass through the inhibition member,
The magnetic body is provided to be separable by elastic deformation of the elastic member,
The main body maintains the connected state of the two members by another magnetic body when some of the opposing magnetic bodies separate from each other due to the inhibition member passing between the two members. The wiring device according to claim 1.
前記磁性体は、複数の球体であって、全方向に回転可能であることを特徴とする請求項2に記載の配線用器具。 The wiring device according to claim 2, wherein the magnetic body is a plurality of spherical bodies and is rotatable in all directions.
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