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JP6939348B2 - Wiring structure of columns - Google Patents
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JP6939348B2 - Wiring structure of columns - Google Patents

Wiring structure of columns Download PDF

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JP6939348B2
JP6939348B2 JP2017189711A JP2017189711A JP6939348B2 JP 6939348 B2 JP6939348 B2 JP 6939348B2 JP 2017189711 A JP2017189711 A JP 2017189711A JP 2017189711 A JP2017189711 A JP 2017189711A JP 6939348 B2 JP6939348 B2 JP 6939348B2
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wiring
post
rampage
stopper
locking
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JP2019063097A (en
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賢訓 湯川
賢訓 湯川
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Itoki Corp
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Description

本発明は、支柱の内部空間に配線を上下方向へ挿通する配線構造に関する。 The present invention relates to a wiring structure in which wiring is inserted vertically into the internal space of a column.

支柱の内部空間に配線を上下方向へ挿通する配線構造として、テーブル(2)の支柱である、横断面円管状の脚柱(3)の周面に上下方向に延びる開口(13)を形成して脚柱(3)の内部を配線の収納空間(S)とし、開口(13)内に、カバー体(30)の内面に突設した係止片(31,31)の先端の係止爪(32,32)が係脱可能な係止部(33,33)を形成してなるものがある(例えば、特許文献1参照)。
特許文献1の支柱の配線構造では、カバー体(30)を外した状態で脚柱(3)内部の収納空間(S)に配線(C)を収納した後、カバー体(30)の係止爪(32,32)を脚柱(3)の係止部(33,33)に係止させてカバー体(30)を取り付けることにより、カバー体(30)で開口(13)を塞いでいる。
As a wiring structure for inserting wiring in the vertical direction into the internal space of the support column, an opening (13) extending in the vertical direction is formed on the peripheral surface of the pedestal column (3) having a circular tubular cross section, which is the support column of the table (2). The inside of the pedestal (3) is used as a storage space (S) for wiring, and the locking claws at the tips of the locking pieces (31, 31) projecting from the inner surface of the cover body (30) inside the opening (13). (32, 32) may form a locking portion (33, 33) that can be engaged and disengaged (see, for example, Patent Document 1).
In the wiring structure of the support column of Patent Document 1, after the wiring (C) is stored in the storage space (S) inside the pedestal (3) with the cover body (30) removed, the cover body (30) is locked. By locking the claws (32, 32) to the locking portions (33, 33) of the pedestal (3) and attaching the cover body (30), the opening (13) is closed by the cover body (30). ..

特開2001−128747号公報Japanese Unexamined Patent Publication No. 2001-128747

特許文献1のような支柱の配線構造では、支柱の内部空間に配線を上下方向へ挿通した状態で、配線の暴れを防ぐために、クリップ、結束バンド、又はスパイラルチューブ等の結束具を用いて配線をまとめる配線処理を行うのが一般的である。
このような配線処理作業は煩雑であるので、特許文献1のような支柱の配線構造には改良の余地がある。
In the wiring structure of the support column as in Patent Document 1, in the state where the wiring is inserted in the internal space of the support column in the vertical direction, wiring is performed using a binding tool such as a clip, a binding band, or a spiral tube in order to prevent the wiring from violent. It is common to perform wiring processing to put together.
Since such wiring processing work is complicated, there is room for improvement in the wiring structure of the columns as in Patent Document 1.

そこで、本発明が前述の状況に鑑み、解決しようとするところは、支柱の内部空間に配線を上下方向へ挿通して配線をまとめる配線処理作業を簡略化できる支柱の配線構造を提供する点にある。 Therefore, in view of the above-mentioned situation, the present invention attempts to solve the problem by providing a wiring structure of the support column that can simplify the wiring processing work of inserting the wiring in the vertical direction into the internal space of the support column to organize the wiring. be.

本発明に係る支柱の配線構造は、前述の課題解決のために、支柱の内部空間に繋がる、上下方向に延びる開口と、前記開口を塞ぐカバー体とを備えた、前記内部空間に配線を上下方向へ挿通する配線構造であって、
前記支柱に着脱可能な、前記配線の暴れを防ぐ配線暴れ止め具を備え、
前記配線暴れ止め具は、前記カバー体を係止する係止部を有することを特徴とする(請求項1)。
In order to solve the above-mentioned problems, the wiring structure of the support column according to the present invention includes an opening extending in the vertical direction connected to the internal space of the support column and a cover body for closing the opening. It is a wiring structure that inserts in the direction.
A wiring rampage stopper that can be attached to and detached from the support column to prevent the wiring from rampaging is provided.
The wiring rampage stopper is characterized by having a locking portion for locking the cover body (claim 1).

ここで、前記配線暴れ止め具は、
上下方向へ延びて前記開口を形成する、前記開口に向かって左右に位置する前記支柱の縁部と、前記内部空間を仕切る、前記開口に向かって左右に位置する前記支柱の壁部との間に取り付け可能な一対の取付部と、
前記一対の取付部間を連結し、前記内部空間内の前記配線が径方向外方へ移動することを規制する外方移動規制部と、
前記カバー体の係止爪を係止する、前記開口に向かって左右に位置する一対の係止部とを有するのが好ましい実施態様である(請求項2)。
Here, the wiring rampage stopper is
Between the edge of the column located on the left and right toward the opening, which extends in the vertical direction to form the opening, and the wall of the column located on the left and right of the opening, which partitions the internal space. With a pair of mounting parts that can be mounted on
An outward movement restricting portion that connects the pair of mounting portions and restricts the wiring in the internal space from moving outward in the radial direction.
It is a preferred embodiment to have a pair of locking portions located on the left and right sides of the opening for locking the locking claws of the cover body (claim 2).

これらの構成によれば、支柱に着脱可能な配線暴れ止め具がカバー体を係止する係止部を有する。
それにより、配線暴れ止め具及びカバー体を支柱から外した状態で、支柱の内部空間に配線を上下方向へ挿通する作業を行い、支柱に配線暴れ止め具を装着した後、配線暴れ止め具の係止部にカバー体を係止する。
あるいは、配線暴れ止め具を支柱に取り付けてカバー体を外した状態で、支柱の内部空間に配線を上下方向へ挿通する作業を行った後、配線暴れ止め具の係止部にカバー体を係止する。
According to these configurations, a wiring rampage stopper that can be attached to and detached from the support column has a locking portion that locks the cover body.
As a result, with the wiring rampage stopper and the cover removed from the column, the work of inserting the wiring into the internal space of the column in the vertical direction is performed, and after the wiring rampage stopper is attached to the column, the wiring rampage stopper is installed. The cover body is locked to the locking portion.
Alternatively, with the wiring rampage stopper attached to the column and the cover body removed, after performing the work of inserting the wiring vertically into the internal space of the column, the cover body is engaged with the locking portion of the wiring rampage stopper. Stop.

したがって、支柱へ配線暴れ止め具を装着した状態で、配線暴れ止め具により支柱の内部空間における配線の暴れを容易に防ぐことができるとともに、配線暴れ止め具の係止部にカバー体を係止することで支柱の開口をカバー体で容易に塞ぐことができる。
よって、支柱の内部空間に配線を上下方向へ挿通して配線をまとめる配線処理作業を簡略化できる。
その上、支柱に装着した配線暴れ止め具にカバー体を取り付けることから、カバー体に設けた取付部材によりカバー体を直接支柱に取り付ける構造よりも、カバー体の厚みを薄くすることができるとともに、カバー体を例えばアルミニウム合金等のみで成形できる。
よって、カバー体を保管又は輸送する際に省スペースになるとともに取り扱いが容易になる。
Therefore, with the wiring rampage stopper attached to the strut, the wiring rampage stopper can easily prevent the wiring rampage in the internal space of the strut, and the cover body is locked to the locking portion of the wiring rampage stopper. By doing so, the opening of the support column can be easily closed with the cover body.
Therefore, it is possible to simplify the wiring processing work in which the wiring is inserted into the internal space of the column in the vertical direction to organize the wiring.
In addition, since the cover body is attached to the wiring rampage stopper attached to the support column, the thickness of the cover body can be made thinner than the structure in which the cover body is directly attached to the support column by the attachment member provided on the cover body. The cover body can be molded only with, for example, an aluminum alloy.
Therefore, when the cover body is stored or transported, space is saved and handling becomes easy.

また、前記配線暴れ止め具は合成樹脂製であり、
前記外方移動規制部は、平面視アーチ状で、前記連結部に近い両端部から前記アーチ状の凸部中央へ向かって肉厚が漸減するのが一層好ましい実施態様である(請求項3)。
Further, the wiring rampage stopper is made of synthetic resin and is made of synthetic resin.
It is a more preferable embodiment that the outward movement restricting portion has an arch shape in a plan view, and the wall thickness gradually decreases from both ends near the connecting portion toward the center of the arch-shaped convex portion (claim 3). ..

このような構成によれば、合成樹脂製である配線暴れ止め具の平面視アーチ状の外方移動規制部が、その両端部からアーチ状の凸部中央へ向かって肉厚が漸減することから、平面視アーチ状の外方移動規制部が前記両端部を近づける方向へ弾性変形しやすい。
よって、前記アーチ状の外方移動規制部を容易に弾性変形させながら、ワンアクションで支柱に対して配線暴れ止め具を簡単に装着できるので、支柱に配線暴れ止め具を装着する作業の作業性を向上できる。
According to such a configuration, the wall thickness of the arch-shaped outward movement restricting portion of the wiring rampage stopper made of synthetic resin gradually decreases from both ends thereof toward the center of the arch-shaped convex portion. , The arch-shaped outward movement restricting portion in a plan view is likely to be elastically deformed in the direction in which both ends thereof are brought closer to each other.
Therefore, the wiring rampage stopper can be easily attached to the support column with one action while the arch-shaped outward movement restricting portion is easily elastically deformed. Can be improved.

さらに、前記支柱により前記配線暴れ止め具を上下方向へスライド可能に支持してなるのがより一層好ましい実施態様である(請求項4)。 Further, it is an even more preferable embodiment that the wiring rampage stopper is slidably supported in the vertical direction by the support column (claim 4).

このような構成によれば、支柱により配線暴れ止め具を上下方向へスライド可能に支持していることから、支柱の内部空間に挿通した配線の暴れが生じている位置へ配線暴れ止め具をスライドすることにより、配線の暴れを効果的に抑制できるとともに、使用する配線暴れ止め具の数を少なくできる。
その上、配線暴れ止め具を支柱に取り付けた状態で配線暴れ止め具を上下方向へ移動できるので、配線暴れ止め具を支柱に取り付けた状態で支柱の内部空間に配線を上下方向へ挿通する作業を行う場合における作業性を向上できる。
According to such a configuration, since the wiring rampage stopper is slidably supported in the vertical direction by the support column, the wiring rampage stopper is slid to the position where the wiring rampage inserted in the internal space of the column is occurring. By doing so, it is possible to effectively suppress the runaway of the wiring and reduce the number of wiring runaway stoppers to be used.
In addition, since the wiring rampage stopper can be moved vertically with the wiring rampage stopper attached to the column, the work of inserting the wiring vertically into the internal space of the column with the wiring rampage stopper attached to the column. Workability can be improved when performing the above.

以上のように、本発明に係る支柱の配線構造によれば、支柱の内部空間に配線を上下方向へ挿通して配線をまとめる配線処理作業を簡略化できること等の顕著な効果を奏する。 As described above, according to the wiring structure of the support column according to the present invention, it is possible to obtain a remarkable effect such as simplification of the wiring processing work of inserting the wiring into the internal space of the support column in the vertical direction to organize the wiring.

本発明の実施の形態に係る支柱の配線構造を適用したゾーニング什器を示す斜視図である。It is a perspective view which shows the zoning fixture which applied the wiring structure of the column which concerns on embodiment of this invention. 支柱と横架部材との連結部を示す要部拡大斜視図である。It is an enlarged perspective view of the main part which shows the connecting part of a support | support and a horizontal member. 支柱へのカバー体及びキャップ体の取付けを示す部分分解斜視図である。It is a partial decomposition perspective view which shows the attachment of a cover body and a cap body to a support column. 支柱と横架部材との連結部を示す要部拡大平面図であり、キャップ体を外した状態を示している。It is an enlarged plan view of the main part which shows the connecting part between a support column and a horizontal member, and shows the state which the cap body is removed. 同じく要部拡大縦断側面図であり、キャップ体を取り付けた状態を示している。Similarly, it is an enlarged vertical sectional side view of the main part, showing a state in which the cap body is attached. 支柱の横断平面図である。It is a cross-sectional plan view of a support. 支柱及びカバー体を横断して示す、支柱、カバー体、及び配線暴れ止め具の分解斜視図である。It is an exploded perspective view of the support column, the cover body, and the wiring rampage stopper shown across the support column and the cover body. 支柱への配線暴れ止め具の取付けを示す横断平面図である。It is a cross-sectional plan view which shows the attachment of the wiring rampage stopper to a support column. 配線暴れ止め具の係止部にカバー体の係止爪を係止してカバー体を支柱に取り付けた状態を示す横断平面図である。It is a cross-sectional plan view which shows the state which locked the locking claw of the cover body to the locking part of the wiring rampage stopper, and attached the cover body to a support column. 横架部材の要部拡大分解斜視図である。It is an enlarged exploded perspective view of the main part of a horizontal member. 横架部材の端部の斜視図である。It is a perspective view of the end part of a horizontal member. 横架部材への連結部材の取付方法を示す部分分解斜視図である。It is a partial decomposition perspective view which shows the method of attaching the connecting member to a horizontal member. 横架部材に連結部材を取り付けた状態を示す要部拡大斜視図である。It is an enlarged perspective view of the main part which shows the state which attached the connecting member to a horizontal member. 支柱への横架部材の取付方法を示す部分分解斜視図である。It is a partial decomposition perspective view which shows the method of attaching a horizontal member to a support column. 支柱に横架部材を取り付けた状態を示す要部拡大斜視図である。It is an enlarged perspective view of the main part which shows the state which attached the horizontal member to a support. 支柱・横架部材間連結補強具の取付方法を示す部分分解斜視図である。It is a partially disassembled perspective view which shows the attachment method of the connection reinforcement tool between a support column and a horizontal member. 支柱・横架部材間連結補強具を支柱及び横架部材に取り付けた状態を示す要部拡大斜視図である。It is an enlarged perspective view of the main part which shows the state which the connection reinforcement tool between a support | support and a horizontal member is attached to a support and a horizontal member. 横架部材間連結補強具の取付方法を示す分解斜視図である。It is an exploded perspective view which shows the attachment method of the connection reinforcement tool between horizontal members. 支柱の鉛直軸まわりに周方向へ90°ずつ方向を変えた四方向に横架部材を取り付けた状態を示す要部拡大平面図であり、キャップ体を外した状態を示している。It is an enlarged plan view of the main part which shows the state which the horizontal member was attached in four directions which changed the direction by 90 ° in the circumferential direction around the vertical axis of a column, and shows the state which the cap body was removed.

次に、添付図面に示した実施形態に基づき、本発明を更に詳細に説明する。
以下の実施形態では、床面に立設する複数の支柱であるポストと、隣り合う前記ポスト同士の上端部間を繋ぐ横架部材である横ビームとにより構成されるゾーニング什器について説明する。
本発明の支柱の配線構造が適用される支柱は、前記ゾーニング什器のポストに限定されるものではなく、間仕切パネルを連結するコーナーポスト、電源コンセント支柱、又はテーブルの脚柱等であってもよい。
以下において、横架部材である横ビームの長手方向に直交する水平方向を、「幅方向」という。
Next, the present invention will be described in more detail based on the embodiments shown in the accompanying drawings.
In the following embodiment, a zoning fixture including a post which is a plurality of columns erected on a floor surface and a horizontal beam which is a horizontal member connecting the upper ends of the adjacent posts will be described.
The columns to which the wiring structure of the columns of the present invention is applied are not limited to the posts of the zoning fixtures, but may be corner posts connecting partition panels, power outlet columns, table pedestals, or the like. ..
Hereinafter, the horizontal direction orthogonal to the longitudinal direction of the horizontal beam, which is a horizontal member, is referred to as a "width direction".

<ゾーニング什器>
図1の斜視図に示すように、本発明の実施の形態に係る支柱の配線構造を適用したゾーニング什器Fは、床面に立設する支柱である4本のポスト1,1,…の上端間を横架部材である横ビーム2で連結して空間を演出するものである。
ポスト1,1,…の頂部には、キャップ体P,P,…を装着する(図3及び図5も参照)。
<Zoning fixtures>
As shown in the perspective view of FIG. 1, the zoning fixture F to which the wiring structure of the columns according to the embodiment of the present invention is applied is the upper ends of the four posts 1, 1, ... A space is created by connecting the spaces with a horizontal beam 2 which is a horizontal member.
Cap bodies P, P, ... Are attached to the tops of the posts 1, 1, ... (See also FIGS. 3 and 5).

図2の要部拡大斜視図、図3の部分分解斜視図、図4の要部拡大平面図、及び図5の要部拡大縦断側面図に示すように、ポスト1に取り付ける横ビーム2の端部には、上下方向の通線孔Bを有するとともに、ポスト1に向かって突出する突出部4を有する連結部材3を取り付ける。
そして、横ビーム2は、突出部4をポスト1内に挿入した状態で、突出部4がポスト1に固定され、通線孔Bは横ビーム2内からポスト1内にわたる大きさを有する。
よって、図5のように、横ビーム2からポスト1へ及び/又はポスト1から横ビーム2へ、配線Cを通線孔Bに通して受け渡すことができる。
As shown in the enlarged perspective view of the main part of FIG. 2, the partially exploded perspective view of FIG. 3, the enlarged plan view of the main part of FIG. 4, and the enlarged vertical sectional side view of the main part of FIG. 5, the end of the lateral beam 2 attached to the post 1. A connecting member 3 having a vertical through hole B and a protruding portion 4 projecting toward the post 1 is attached to the portion.
Then, in the lateral beam 2, the projecting portion 4 is fixed to the post 1 in a state where the projecting portion 4 is inserted into the post 1, and the through hole B has a size extending from the inside of the lateral beam 2 to the inside of the post 1.
Therefore, as shown in FIG. 5, the wiring C can be passed from the lateral beam 2 to the post 1 and / or from the post 1 to the lateral beam 2 through the wire hole B.

<支柱であるポスト>
ポスト1は、例えばアルミニウム合金製であり、図6の横断平面図に示すように、ポスト中央の中央構造体である、横断面が正方形状の角筒部11を有する。
また、ポスト1は、外壁形成体である、角筒部11の角部から、前記正方形状の対角線を外方へ延ばす方向(X1,X2,Y1,Y2)へ延びる4つの傾斜壁部12,12,…、及び、傾斜壁部12の先端を幅方向内方へ折り曲げてなる側壁部13,13を有し、側壁部13,13の先端は、角筒部11側へ折り曲げられた折曲部14,14を有する。
折曲部14,14,…は、ポスト1の縁部であり、対向する折曲部14,14間が、図2及び図3に示す上下方向に延びる開口Iとなる。
さらに、ポスト1の外壁形成体を構成する側壁部13,13は、図4のように横ビーム2に対向する端部側面13A,13Aを有する。
そして、隣り合う傾斜壁部12,12間には、周方向に分離した4つの平面視略台形状の内部空間A,A,…が形成される。
<Post that is a pillar>
The post 1 is made of, for example, an aluminum alloy, and has a square tubular portion 11 having a square cross section, which is a central structure at the center of the post, as shown in the cross-sectional plan view of FIG.
Further, the post 1 has four inclined wall portions 12 extending in a direction (X1, X2, Y1, Y2) extending the diagonal diagonal line of the square shape outward from the corner portion of the square cylinder portion 11, which is an outer wall forming body. 12, ... And has side wall portions 13, 13 formed by bending the tip of the inclined wall portion 12 inward in the width direction, and the tip of the side wall portion 13, 13 is bent toward the square tube portion 11. It has parts 14 and 14.
The bent portions 14, 14, ... Are the edges of the post 1, and the space between the bent portions 14, 14 is an opening I extending in the vertical direction shown in FIGS. 2 and 3.
Further, the side wall portions 13 and 13 constituting the outer wall forming body of the post 1 have end side surface portions 13A and 13A facing the lateral beam 2 as shown in FIG.
Then, four substantially trapezoidal internal spaces A, A, ... Separated in the circumferential direction are formed between the adjacent inclined wall portions 12, 12.

ポスト1の前記中央構造体は、主に強度を担う部材であり、ポスト1の前記外壁形成体は、前記中央構造体を補強するとともに、後述する、カバー体であるポストカバーJ、及び配線暴れ止め具Kを取り付ける部材となる。
なお、前記中央構造体は、角筒部11に限定されるものではなく、円筒状等の他の形状であってもよい。
また、前記傾斜壁部は、前記中央構造体の外面から横架部材2に向かう方向に行くにしたがって幅方向外方に傾斜するように延びるものであればよい。
The central structure of the post 1 is a member mainly responsible for strength, and the outer wall forming body of the post 1 reinforces the central structure, and also has a post cover J, which is a cover body, and wiring rampage, which will be described later. It is a member to attach the stopper K.
The central structure is not limited to the square tube portion 11, and may have another shape such as a cylindrical shape.
Further, the inclined wall portion may extend so as to incline outward in the width direction toward the horizontal member 2 from the outer surface of the central structure.

図7の分解斜視図に示すように、ポスト1の下端には、通孔26A,26A,…に皿頭タッピングねじ28,28,…を挿通してねじ込み孔部15,15,…に螺着することにより連結具26を取り付け、連結具26の螺孔26BにスタンドSのねじ部27を螺合することによりスタンドSを取り付ける。スタンドSを回動することによりポスト1の高さを調整できる。 As shown in the exploded perspective view of FIG. 7, at the lower end of the post 1, countersunk head tapping screws 28, 28, ... Are inserted into the through holes 26A, 26A, ... And screwed into the screwed holes 15, 15, ... By doing so, the connecting tool 26 is attached, and the stand S is attached by screwing the screw portion 27 of the stand S into the screw hole 26B of the connecting tool 26. The height of the post 1 can be adjusted by rotating the stand S.

<配線暴れ防止具、及びカバー体であるポストカバー>
図3及び図7に示すように、ポスト1の側面の横ビーム2が連結されない部分には、ポスト1に着脱可能な配線暴れ止め具K,K,…を取り付けた後、ポスト1の上下方向に延びる開口I,I,…を塞ぐカバー体であるポストカバーJ,J,…を装着する。
配線暴れ止め具Kは、例えば、ポリアセタール、ポリプロピレン、ポリエチレンテレフタレート、ナイロン又はABS等の合成樹脂製であり、ポストカバーJは、例えばアルミニウム合金製である。
<Wiring rampage prevention tool and post cover that is a cover body>
As shown in FIGS. 3 and 7, after attaching removable wiring rampage stoppers K, K, ... To the post 1 at a portion where the lateral beam 2 on the side surface of the post 1 is not connected, the post 1 is in the vertical direction. Post covers J, J, ... Which are cover bodies for closing the openings I, I, ...
The wiring rampage stopper K is made of, for example, a synthetic resin such as polyacetal, polypropylene, polyethylene terephthalate, nylon or ABS, and the post cover J is made of, for example, an aluminum alloy.

先ず、図8及び図9の横断平面図に示すように、ポスト1の内部空間Aに上下方向へ挿通した配線Cに対し、配線Cを押さえるように径方向外方から配線暴れ止め具Kを装着する。
配線暴れ止め具Kは、取付部19,19と、取付部19,19間を連結し、内部空間A内の配線Cが径方向外方へ移動することを規制する外方移動規制部20と、ポストカバーJの係止爪18,18を係止する係止部21,21とを有する。
取付部19は、摺動面19A、係合凸部19B、及び係止片19Cからなり、摺動面19Aはポスト1の傾斜壁部12に面接触し、係合凸部19Bはポスト1の傾斜壁部12の上下方向のガイド溝Gに係合し、係止片19Cはポスト1の縁部である折曲部14に係止する。
First, as shown in the cross-sectional plan views of FIGS. 8 and 9, for the wiring C inserted vertically into the internal space A of the post 1, the wiring rampage stopper K is attached from the outside in the radial direction so as to hold down the wiring C. Mounting.
The wiring rampage stopper K is connected to the mounting portions 19 and 19 and the mounting portions 19 and 19 and is connected to the outward movement restricting portion 20 that restricts the wiring C in the internal space A from moving outward in the radial direction. , Has locking portions 21 and 21 for locking the locking claws 18 and 18 of the post cover J.
The mounting portion 19 is composed of a sliding surface 19A, an engaging convex portion 19B, and a locking piece 19C. The sliding surface 19A is in surface contact with the inclined wall portion 12 of the post 1, and the engaging convex portion 19B is the post 1. Engages with the vertical guide groove G of the inclined wall portion 12, and the locking piece 19C is locked to the bent portion 14 which is the edge portion of the post 1.

図8の矢印のようにポスト1に配線暴れ止め具Kを取り付けた後、図9のように、配線暴れ止め具Kの係止部21,21にポストカバーJの係止爪18,18を係止することでポストカバーJの取付けが完了する。 After attaching the wiring rampage stopper K to the post 1 as shown by the arrow in FIG. 8, the locking claws 18 and 18 of the post cover J are attached to the locking portions 21 and 21 of the wiring rampage stopper K as shown in FIG. By locking, the installation of the post cover J is completed.

このような配線暴れ止め具Kを用いたポスト1の配線構造によれば、ポスト1に着脱可能な配線暴れ止め具KがポストカバーJを係止する係止部21,21を有する。
それにより、配線暴れ止め具K及びカバー体Jをポスト1から外した状態で、ポスト1の内部空間Aに配線Cを上下方向へ挿通する作業を行い、ポスト1に配線暴れ止め具Kを装着した後、配線暴れ止め具Kの係止部21,21にポストカバーJを係止する。
あるいは、配線暴れ止め具Kをポスト1に取り付けてポストカバーJを外した状態で、ポスト1の内部空間Aに配線Cを上下方向へ挿通する作業を行った後、配線暴れ止め具Kの係止部21,21にポストカバーJを係止する。
According to the wiring structure of the post 1 using such a wiring rampage stopper K, the wiring rampage stopper K detachable from the post 1 has locking portions 21 and 21 for locking the post cover J.
As a result, with the wiring rampage stopper K and the cover body J removed from the post 1, the work of inserting the wiring C into the internal space A of the post 1 in the vertical direction is performed, and the wiring rampage stopper K is attached to the post 1. After that, the post cover J is locked to the locking portions 21 and 21 of the wiring rampage stopper K.
Alternatively, after the wiring rampage stopper K is attached to the post 1 and the post cover J is removed, the wiring C is inserted into the internal space A of the post 1 in the vertical direction, and then the wiring rampage stopper K is engaged. The post cover J is locked to the stopping portions 21 and 21.

したがって、ポスト1へ配線暴れ止め具Kを装着した状態で、配線暴れ止め具Kによりポスト1の内部空間Aにおける配線Cの暴れを容易に防ぐことができるとともに、配線暴れ止め具Kの係止部21,21にポストカバーJを係止することでポスト1の開口IをポストカバーJで容易に塞ぐことができる。
よって、ポスト1の内部空間Aに配線Cを上下方向へ挿通して配線Cをまとめる配線処理作業を簡略化できる。
Therefore, with the wiring rampage stopper K attached to the post 1, the wiring rampage stopper K can easily prevent the wiring C from rampaging in the internal space A of the post 1, and the wiring rampage stopper K is locked. By locking the post cover J to the portions 21 and 21, the opening I of the post 1 can be easily closed by the post cover J.
Therefore, it is possible to simplify the wiring processing work in which the wiring C is inserted into the internal space A of the post 1 in the vertical direction to organize the wiring C.

その上、ポスト1に装着した配線暴れ止め具KにポストカバーJを取り付けることから、ポストカバーJに設けた取付部材によりポストカバーJを直接ポスト1に取り付ける構造よりも、ポストカバーJの厚みを薄くすることができるとともに、ポストカバーJを例えばアルミニウム合金等のみで成形できる。
よって、ポストカバーJ,J,…を保管又は輸送する際に省スペースになるとともに取り扱いが容易になる。
Further, since the post cover J is attached to the wiring rampage stopper K attached to the post 1, the thickness of the post cover J is made larger than the structure in which the post cover J is directly attached to the post 1 by the attachment member provided on the post cover J. It can be made thinner, and the post cover J can be formed only with, for example, an aluminum alloy.
Therefore, when storing or transporting the post covers J, J, ..., Space is saved and handling becomes easy.

また、配線暴れ防止具Kは合成樹脂製であるとともに、図8に示すように、外方移動規制部20は平面視アーチ状で、取付部19,19に近い両端部からアーチ状の凸部中央Hへ向かって肉厚Tが漸減する。
したがって、アーチ状の外方移動規制部20は、前記両端部を近づける方向(幅方向内方)へ弾性変形しやすい。
よって、アーチ状の外方移動規制部20を容易に弾性変形させながら、ワンアクションでポスト1に対して配線暴れ止め具Kを簡単に装着できるので、ポスト1に配線暴れ止め具Kを装着する作業の作業性を向上できる。
Further, the wiring rampage prevention tool K is made of synthetic resin, and as shown in FIG. 8, the outward movement restricting portion 20 has an arch shape in a plan view, and arch-shaped convex portions from both ends near the mounting portions 19 and 19. The wall thickness T gradually decreases toward the center H.
Therefore, the arch-shaped outward movement restricting portion 20 is likely to be elastically deformed in the direction in which both end portions are brought closer to each other (inward in the width direction).
Therefore, the wiring rampage stopper K can be easily attached to the post 1 with one action while the arch-shaped outward movement restricting portion 20 is easily elastically deformed. Therefore, the wiring rampage stopper K is attached to the post 1. Workability can be improved.

さらに、配線暴れ防止具Kは、左右の摺動面19A,19Aがポスト1の左右の傾斜壁部12,12に面接触し、左右の係合凸部19B,19Bがポスト1の左右の上下方向のガイド溝G,Gに係合するとともに、左右の係止片19C,19Cがポスト1の左右の折曲部14,14に係止した状態で、ポスト1に取り付けられる。
よって、配線暴れ防止具Kはポスト1により上下方向へスライド可能に支持されており、容易かつ確実に上下方向へスライドできるので、ポスト1の内部空間Aに挿通した配線Cの暴れが生じている位置へ配線暴れ止め具Kをスライドすることにより、配線Cの暴れを効果的に抑制できるとともに、使用する配線暴れ止め具K,K,…の数を少なくできる。
その上、配線暴れ止め具Kをポスト1に取り付けた状態で配線暴れ止め具Kを上下方向へ移動できるので、配線暴れ止め具Kをポスト1に取り付けた状態でポスト1の内部空間Aに配線を上下方向へ挿通する作業を行う場合における作業性を向上できる。
Further, in the wiring rampage prevention tool K, the left and right sliding surfaces 19A and 19A come into surface contact with the left and right inclined wall portions 12 and 12 of the post 1, and the left and right engaging convex portions 19B and 19B are left and right up and down of the post 1. It is attached to the post 1 in a state where the left and right locking pieces 19C and 19C are locked to the left and right bent portions 14 and 14 of the post 1 while engaging with the guide grooves G and G in the direction.
Therefore, the wiring rampage prevention tool K is supported by the post 1 so as to be slidable in the vertical direction, and can be easily and surely slid in the vertical direction. Therefore, the wiring C inserted into the internal space A of the post 1 is violent. By sliding the wiring rampage stopper K to the position, the rampage of the wiring C can be effectively suppressed, and the number of the wiring rampage stoppers K, K, ... To be used can be reduced.
In addition, since the wiring rampage stopper K can be moved in the vertical direction with the wiring rampage stopper K attached to the post 1, wiring to the internal space A of the post 1 with the wiring rampage stopper K attached to the post 1. Workability can be improved when the work of inserting the wire in the vertical direction is performed.

<横架部材である横ビーム>
横ビーム2は、例えばアルミニウム合金製であり、図10の要部拡大分解斜視図、及び図11の斜視図に示すように、幅方向両端部に、緩衝体6,6、及び掛止片7,7を取り付ける。ここで、緩衝体6は、例えば、ポリアセタール、ポリプロピレン、ポリエチレンテレフタレート、ナイロン又はABS等の合成樹脂製であり、掛止片7は、例えば鋼等の金属製である。
図10に示すように、緩衝体6の通孔(皿穴)6Aに皿頭タッピングねじ8Aを通して、横ビーム2のねじ込み穴部2Cに螺着することにより、横ビーム2に緩衝体6を取り付ける。また、掛止片7の通孔(皿穴)7A,7A、及び緩衝体6の通孔6B,6Bに皿頭タッピングねじ8B,8Bを通して、横ビーム2のねじ込み穴部2D,2Dに螺着することにより、横ビーム2に掛止片7を取り付ける。
<Horizontal beam, which is a horizontal member>
The lateral beam 2 is made of, for example, an aluminum alloy, and as shown in the enlarged exploded perspective view of the main part of FIG. 10 and the perspective view of FIG. , 7 are installed. Here, the buffer 6 is made of a synthetic resin such as polyacetal, polypropylene, polyethylene terephthalate, nylon or ABS, and the hook 7 is made of a metal such as steel.
As shown in FIG. 10, the buffer 6 is attached to the lateral beam 2 by passing the countersunk head tapping screw 8A through the through hole (counterbore) 6A of the buffer 6 and screwing it into the screwed hole 2C of the lateral beam 2. .. Further, the countersunk head tapping screws 8B and 8B are passed through the through holes (counterbore holes) 7A and 7A of the hook piece 7 and the through holes 6B and 6B of the buffer body 6 and screwed into the screw holes 2D and 2D of the lateral beam 2. By doing so, the hook piece 7 is attached to the lateral beam 2.

<横ビームの連結部材>
連結部材3は、例えばアルミニウム合金製であり、図12の部分分解斜視図、及び図13の要部拡大斜視図に示すように、横ビーム2の開口部Dに、連結部材3の基端部E(図12)を嵌合し、横ビーム2の通孔(皿穴)2Aに皿頭締付ねじ9を通して、連結部材3の螺孔3Aに螺合することにより、連結部材3は横ビーム2に取り付けられる(図5も参照)。
横ビーム2は、その上部及び下部に、長手方向の上部凹溝17A及び下部凹溝17Bを備える。ここで、横ビーム2に連結部材3を取り付けた状態で連結部材3の通線孔Bを塞がないように、上部凹溝17A及び下部凹溝17Bの長手方向の端部には切欠部2B,2Bを形成している。
<Horizontal beam connecting member>
The connecting member 3 is made of, for example, an aluminum alloy, and as shown in the partially disassembled perspective view of FIG. 12 and the enlarged perspective view of the main part of FIG. 13, the base end portion of the connecting member 3 is formed in the opening D of the lateral beam 2. By fitting E (FIG. 12), passing the countersunk head tightening screw 9 through the through hole (counterbore) 2A of the lateral beam 2 and screwing it into the screw hole 3A of the connecting member 3, the connecting member 3 is formed by the lateral beam. Attached to 2 (see also Figure 5).
The lateral beam 2 is provided with an upper concave groove 17A and a lower concave groove 17B in the longitudinal direction in the upper portion and the lower portion thereof. Here, in order not to block the through hole B of the connecting member 3 with the connecting member 3 attached to the lateral beam 2, a notch 2B is provided at the longitudinal end of the upper concave groove 17A and the lower concave groove 17B. , 2B is formed.

<ポストへの横ビームの取付構造>
図4の要部拡大平面図、図5の要部拡大縦断側面図、及び図14の部分分解斜視図に示すように、ポスト1の角筒部11の内部に、例えば鋼製である角筒状の取付部材Oを収容し、取付ねじ32を角筒部11の通孔16Bに通して取付部材Oの螺孔31Bに螺合することにより、ポスト1に取付部材Oを固定する。
横ビーム2に取り付けた連結部材3の突出部4は、ポスト1内の平面視略台形状の内部空間A内に収容されるとともに、内部空間A,A,…を仕切る傾斜壁部12,12の壁面12A,12Aに当接する傾斜面5,5を有する。
また、連結部材3の突出部4には、幅方向中央の上下に、通孔3B、及び下向き切欠孔3Cを形成しており、ポスト1の角筒部11の側面11Aには、突出部4の上下の通孔3B及び切欠孔3Cに対向するように、幅方向中央の上下に、通孔16A,16Aを形成している。
そして、前記のとおりポスト1の角筒部11内に固定された取付部材Oにおける上下の螺孔31A,31Aは、ポスト1の角筒部11の幅方向中央の上下の通孔16A,16Aと位置が合っている。
<Mounting structure of horizontal beam to post>
As shown in the enlarged plan view of the main part of FIG. 4, the enlarged vertical sectional side view of the main part of FIG. 5, and the partially disassembled perspective view of FIG. 14, the inside of the square cylinder portion 11 of the post 1, for example, a square cylinder made of steel. The mounting member O is fixed to the post 1 by accommodating the mounting member O having a shape, passing the mounting screw 32 through the through hole 16B of the square cylinder portion 11 and screwing it into the screw hole 31B of the mounting member O.
The protruding portion 4 of the connecting member 3 attached to the lateral beam 2 is housed in the substantially trapezoidal internal space A in the post 1, and the inclined wall portions 12, 12 for partitioning the internal spaces A, A, ... It has inclined surfaces 5 and 5 that abut on the wall surfaces 12A and 12A.
Further, a through hole 3B and a downward notch hole 3C are formed in the protruding portion 4 of the connecting member 3 above and below the center in the width direction, and the protruding portion 4 is formed on the side surface 11A of the square cylinder portion 11 of the post 1. The through holes 16A and 16A are formed above and below the center in the width direction so as to face the upper and lower through holes 3B and the notch holes 3C.
Then, as described above, the upper and lower screw holes 31A and 31A in the mounting member O fixed in the square tube portion 11 of the post 1 are the upper and lower through holes 16A and 16A in the center of the square tube portion 11 of the post 1 in the width direction. The position is correct.

ポスト1への横ビーム2の取付けは、先ず、図14に示す状態から、図11に示す横ビーム2の幅方向両端部の掛止片7,7の掛止部7Bを、図4及び図6に示すポスト1の側壁部13に掛止させる。
その状態では、掛止片7,7の当止部7C,7Cが側壁部13,13の上面に当接して当て止めされ、図5のように、突出部4の上下の通孔3B及び切欠孔3Cと、角筒部11の上下の通孔16A,16Aとが位置合わせされる。
よって、横ビーム2側から、なべ頭締付ねじ10,10を上下の通孔3B及び切欠孔3C、並びに通孔16A,16Aに通して、取付部材Oの上下の螺孔31A,31Aに螺合する作業が容易であるので、ポスト1に横ビーム2を連結する作業の作業性を向上できる。
To attach the lateral beam 2 to the post 1, first, from the state shown in FIG. 14, the hooking portions 7B of the hooking pieces 7 and 7 at both ends in the width direction of the lateral beam 2 shown in FIG. It is hooked on the side wall portion 13 of the post 1 shown in 6.
In that state, the fastening portions 7C and 7C of the hooking pieces 7 and 7 are brought into contact with the upper surfaces of the side wall portions 13 and 13 to be held in contact with each other, and as shown in FIG. The holes 3C and the upper and lower through holes 16A and 16A of the square tube portion 11 are aligned.
Therefore, from the lateral beam 2 side, the pan head tightening screws 10 and 10 are passed through the upper and lower through holes 3B and the notch holes 3C and the through holes 16A and 16A, and are screwed into the upper and lower screw holes 31A and 31A of the mounting member O. Since the matching work is easy, the workability of the work of connecting the lateral beam 2 to the post 1 can be improved.

図15の要部拡大斜視図に示すようにポスト1に横ビーム2,2を取り付けた状態(図4の要部拡大平面図、及び図6の横断平面図も参照)では、ポスト1の傾斜壁部12,12の壁面12A,12Aに、横ビーム2に取り付けた連結部材3の突出部4の傾斜面5,5が当接し、その当接状態が維持されるので、ポスト1に対して横ビーム2を強固に連結できる。 As shown in the enlarged perspective view of the main part of FIG. 15, in the state where the lateral beams 2 and 2 are attached to the post 1 (see also the enlarged plan view of the main part of FIG. 4 and the cross-sectional plan view of FIG. 6), the post 1 is tilted. The inclined surfaces 5 and 5 of the protruding portion 4 of the connecting member 3 attached to the lateral beam 2 come into contact with the wall surfaces 12A and 12A of the wall portions 12 and 12, and the contact state is maintained. The lateral beam 2 can be firmly connected.

また、突出部4を取付部材Oにねじ締結する途中で、横ビーム2の幅方向両端部の緩衝体6,6がポスト1の端部側面13A,13Aに当接し、端部側面13A,13Aに緩衝体6,6が当接した際に、傾斜壁部12,12の壁面12A,12Aから突出部4の傾斜面5,5が離間している。
よって、端部側面13A,13Aに緩衝体6,6が当接した状態から、さらに前記ねじ締結が進行し、前記ねじ締結が完了した図4に示す状態では、幅方向両端部の緩衝体6,6を圧縮変形させる力が作用しており、緩衝体6,6を圧縮するように、ポスト1に対して横ビーム2が引き付けられた状態で、傾斜壁部12,12の壁面12A,12Aに突出部4の傾斜面5,5が当接する。
すなわち、横ビーム2の幅方向両端部の緩衝体6,6がポスト1の端部側面13A,13Aに圧接するとともに、横ビーム2に取り付けられた連結部材3の突出部4の傾斜面5,5がポスト1の傾斜壁部12,12の壁面12A,12Aに当接した状態となるので、ポスト1に対して横ビーム2をさらに強固に連結できる。
Further, while the projecting portion 4 is screwed to the mounting member O, the shock absorbers 6 and 6 at both ends in the width direction of the lateral beam 2 come into contact with the end side surfaces 13A and 13A of the post 1, and the end side surfaces 13A and 13A. When the shock absorbers 6 and 6 come into contact with each other, the inclined surfaces 5 and 5 of the protruding portion 4 are separated from the wall surfaces 12A and 12A of the inclined wall portions 12 and 12.
Therefore, in the state shown in FIG. 4 in which the screw fastening is further advanced from the state where the shock absorbers 6 and 6 are in contact with the end side surfaces 13A and 13A and the screw fastening is completed, the buffer bodies 6 at both ends in the width direction , 6 is acting to compress and deform, and the side beams 2 are attracted to the post 1 so as to compress the buffers 6 and 6, and the wall surfaces 12A and 12A of the inclined wall portions 12 and 12 are attracted. The inclined surfaces 5 and 5 of the protruding portion 4 come into contact with the surface.
That is, the shock absorbers 6 and 6 at both ends of the lateral beam 2 in the width direction are in pressure contact with the end side surfaces 13A and 13A of the post 1, and the inclined surfaces 5 and 5 of the protruding portion 4 of the connecting member 3 attached to the lateral beam 2. Since 5 is in contact with the wall surfaces 12A and 12A of the inclined wall portions 12 and 12 of the post 1, the lateral beam 2 can be more firmly connected to the post 1.

図4及び図6に示すように、周方向90°等分の4方向から横ビーム2が取り付けられるポスト1内に、中央構造体である角筒部11の径方向外方に、周方向に分離した4つの平面視略台形状の空間A,A,…が形成される。
そして、角筒部11の側面11Aは平面であり、傾斜壁部12,12の壁面12A,12Aも平面に形成できる。
それにより、前記4方向から横架部材2をポスト1に取り付ける際に、横ビーム2に取り付けた連結部材3の突出部4をポスト1の角筒部11に締結すると、締結面の接触、並びに突出部4の傾斜面5,5及び傾斜壁部12,12の壁面12A,12Aの接触が、平面同士の接触になる。
よって、ポスト1に対して横架部材2を、より安定した状態で精度良く連結できる。
その上、角筒部11への通孔等の加工を含め、中央構造体である角筒部11を含むポスト1と連結部材3の製造が容易になるので、製造コストを低減できる。
As shown in FIGS. 4 and 6, in the post 1 to which the lateral beam 2 is attached from four directions equal to 90 ° in the circumferential direction, in the radial direction and outward of the square tube portion 11 which is the central structure, in the circumferential direction. Four separated planar trapezoidal spaces A, A, ... Are formed.
The side surface 11A of the square tube portion 11 is flat, and the wall surfaces 12A and 12A of the inclined wall portions 12 and 12 can also be formed flat.
As a result, when the horizontal member 2 is attached to the post 1 from the four directions, when the protruding portion 4 of the connecting member 3 attached to the lateral beam 2 is fastened to the square tubular portion 11 of the post 1, the fastening surfaces come into contact with each other. The contact between the inclined surfaces 5 and 5 of the protruding portion 4 and the wall surfaces 12A and 12A of the inclined wall portions 12 and 12 is the contact between the planes.
Therefore, the horizontal member 2 can be connected to the post 1 in a more stable state with high accuracy.
In addition, since the post 1 including the square tube portion 11 which is the central structure and the connecting member 3 can be easily manufactured, including the processing of holes for passing through the square tube portion 11, the manufacturing cost can be reduced.

ポスト1に横ビーム2,2を連結固定した、例えば図15の状態において、図4及び図5のように横ビーム2内からポスト1内にわたる大きさを有する通線孔Bがあるので、大きな配線挿通空間を確保できる。
その上、図6の平面形状のポスト1により、ポスト1内の平面視略台形状の内部空間A,A,…内に連結部材3の突出部4を収容でき、その状態で取付部材Oにより突出部4を角筒部11に固定して横ビーム2をポスト1に連結固定できる。
よって、連結部材3に設ける上下方向の通線孔Bを平面方向に大きくすることが容易になるので、配線作業性が高くなる。
その上さらに、図5及び図15のように、横ビーム2は、その上部及び下部に、長手方向の上部凹溝17A及び下部凹溝17Bを備える。
よって、横ビーム2に取り付けられている連結部材3の、配線挿通空間が大きい上下方向の通線孔Bを通して、横ビーム2の長手方向の上部凹溝17A及び下部凹溝17Bの間の配線を容易に行うことができるので、配線の自由度が向上する。
その上、例えば図15の状態において、横ビーム2,2の一方から他方への配線も、ポスト1の上方を通して容易に行うことができる。
In the state of FIG. 15 in which the lateral beams 2 and 2 are connected and fixed to the post 1, for example, since there is a through hole B having a size extending from the inside of the transverse beam 2 to the inside of the post 1 as shown in FIGS. 4 and 5, it is large. Wiring insertion space can be secured.
Further, the plan-shaped post 1 of FIG. 6 can accommodate the protruding portion 4 of the connecting member 3 in the planar viewing trapezoidal internal spaces A, A, ... In the post 1, and in that state, the mounting member O can accommodate the projecting portion 4. The projecting portion 4 can be fixed to the square tube portion 11 and the lateral beam 2 can be connected and fixed to the post 1.
Therefore, it becomes easy to increase the vertical wire hole B provided in the connecting member 3 in the plane direction, so that the wiring workability is improved.
Further, as shown in FIGS. 5 and 15, the lateral beam 2 is provided with an upper concave groove 17A and a lower concave groove 17B in the longitudinal direction in the upper portion and the lower portion thereof.
Therefore, the wiring between the upper concave groove 17A and the lower concave groove 17B in the longitudinal direction of the lateral beam 2 is routed through the vertical through hole B in which the wiring insertion space of the connecting member 3 attached to the lateral beam 2 is large. Since it can be easily performed, the degree of freedom in wiring is improved.
Moreover, for example, in the state of FIG. 15, wiring from one of the lateral beams 2 and 2 to the other can also be easily performed through the upper part of the post 1.

<支柱・横架部材間連結補強具>
ポスト1に横ビーム2,2を取り付けた図15の要部拡大斜視図に示す状態で、隣接するポスト1及び横ビーム2間に跨がり、これらを一体化するように連結固定する支柱・横架部材間連結補強具R1,R1を、図16の部分分解斜視図及び図17の要部拡大斜視図に示すように取り付ける。
支柱・横架部材間連結補強具R1は、例えば鋼板製であり、段部Lを有する形状であるので平面的な形状のものよりもねじり剛性が高い。
<Connecting reinforcement between columns and horizontal members>
In the state shown in the enlarged perspective view of the main part of FIG. 15 in which the lateral beams 2 and 2 are attached to the posts 1, the columns and the lateral beams straddle the adjacent posts 1 and the lateral beams 2 and are connected and fixed so as to be integrated. The inter-frame connection reinforcing tools R1 and R1 are attached as shown in the partially disassembled perspective view of FIG. 16 and the enlarged perspective view of the main part of FIG.
The strut-horizontal member connecting reinforcing tool R1 is made of, for example, a steel plate and has a shape having a step portion L, so that the torsional rigidity is higher than that of a flat shape.

支柱・横架部材間連結補強具R1の通孔(皿穴)22Aに皿頭締付ねじ9を通して、連結部材3のポスト1側の螺孔3Aに螺合することにより、支柱・横架部材間連結補強具R1は横架部材である横ビーム2の上面に取り付けられる。
また、支柱・横架部材間連結補強具R1の通孔(皿穴)22Bに皿頭タッピングねじ29を通して、ポスト1のねじ込み孔部15に螺着することにより、支柱・横架部材間連結補強具R1は支柱であるポスト1の上面に取り付けられる。
By passing the countersunk head tightening screw 9 through the through hole (counterbore hole) 22A of the connecting reinforcing tool R1 between the strut and the horizontal member and screwing it into the screw hole 3A on the post 1 side of the connecting member 3, the strut / horizontal member The inter-connection reinforcing tool R1 is attached to the upper surface of the horizontal beam 2 which is a horizontal member.
Further, by passing the countersunk head tapping screw 29 through the through hole (counterbore hole) 22B of the strut-horizontal member connection reinforcing tool R1 and screwing it into the screw-in hole portion 15 of the post 1, the strut-horizontal member connection reinforcement The tool R1 is attached to the upper surface of the post 1 which is a support.

ポスト1及び横ビーム2間に跨がり、これらを一体化するように連結固定する支柱・横架部材間連結補強具R1を取り付けることにより、地震で大きな揺れを受けた際であっても横ビーム2がポスト1から落下しないように、ポスト1と横ビーム2との連結部を効果的に補強できる。 By attaching the support / horizontal member connection reinforcement R1 that straddles the post 1 and the horizontal beam 2 and connects and fixes them so as to integrate them, the horizontal beam can be used even when a large shaking is received due to an earthquake. The connecting portion between the post 1 and the lateral beam 2 can be effectively reinforced so that the 2 does not fall from the post 1.

また、ポスト1は、鉛直軸まわりに周方向へ90°ずつ方向を変えた四方向(周方向90°等分の4方向)から横ビーム2を取り付け可能であり、よって、ポスト1と横ビーム2との連結部は、図4の要部拡大平面図、及び図17の要部拡大斜視図のような平面視L字状に交差する形態の他、平面視T字状に交差する形態、又は図19の要部拡大平面図のような平面視十字状に交差する形態を成す。
それらの全ての形態において、支柱・横架部材間連結補強具R1を共通化しており、例えば図19のように支柱・横架部材間連結補強具R1,R1,…は干渉せずに配置でき、前記全ての形態で同一形状の支柱・横架部材間連結補強具R1,R1,…を用いて補強できるので、製造コスト及び部品管理コストを低減できる。
Further, the post 1 can be equipped with the lateral beam 2 from four directions (four directions equally divided by 90 ° in the circumferential direction) in which the directions are changed by 90 ° in the circumferential direction around the vertical axis. Therefore, the post 1 and the lateral beam can be attached. The connecting portion with 2 may intersect in an L-shape in a plan view as shown in the enlarged plan view of the main part in FIG. 4 and an enlarged perspective view of the main part in FIG. 17, as well as in a T-shape in a plan view. Alternatively, it forms a form that intersects in a cross shape in a plan view as shown in the enlarged plan view of the main part in FIG.
In all of these forms, the strut-horizontal member connecting reinforcement R1 is standardized, and for example, as shown in FIG. 19, the strut-horizontal connecting reinforcing tools R1, R1, ... Can be arranged without interference. Since all of the above-mentioned forms can be reinforced by using the supporters R1, R1, ... Of the same shape between the columns and the horizontal members, the manufacturing cost and the component management cost can be reduced.

その上、支柱・横架部材間連結補強具R1は、図16のように開口部23を有しており、開口部23は連結部材3の上下方向の通線孔Bの上方に位置する。
よって、支柱・横架部材間連結補強具R1によりポスト1と横ビーム2との連結部を効果的に補強しながら、支柱・横架部材間連結補強具の開口部23及び連結部材3の通線孔Bから上下方向へ配線を通すことができるので、配線作業性が高くなる。
Further, the support / horizontal member connecting reinforcing tool R1 has an opening 23 as shown in FIG. 16, and the opening 23 is located above the vertical through hole B of the connecting member 3.
Therefore, while effectively reinforcing the connecting portion between the post 1 and the lateral beam 2 by the strut-horizontal member connecting reinforcing tool R1, the opening 23 of the strut-horizontal member connecting reinforcing tool and the connecting member 3 pass through. Since the wiring can be passed from the wire hole B in the vertical direction, the wiring workability is improved.

<横架部材間連結補強具>
図17に示すように、ポスト1及び横ビーム2,2の連結部を支柱・横架部材間連結補強具R1,R1で補強した状態で、隣接する横ビーム2,2間の隅部に跨がり、これらを一体化するように連結固定する横架部材間連結補強具R2を、図2に示すように取り付ける。
<Connecting reinforcement between horizontal members>
As shown in FIG. 17, in a state where the connecting portion between the post 1 and the lateral beams 2 and 2 is reinforced by the connecting reinforcing tools R1 and R1 between the columns and the horizontal members, the connecting portion straddles the corner portion between the adjacent lateral beams 2 and 2. A connecting reinforcing tool R2 between horizontal members is attached as shown in FIG.

横架部材間連結補強具R2の取付けは、その説明用の図18の分解斜視図を参照して説明する。なお、図18では、横ビーム2の端部の連結部材3、緩衝体6、及び掛止片7等の図示を省略している。
横架部材間連結補強具R2は、基体24、及び取付体25からなり、これらは例えば鋼板製である。
The attachment of the connecting reinforcing tool R2 between the horizontal members will be described with reference to the exploded perspective view of FIG. 18 for explanation. In FIG. 18, the connecting member 3, the buffer body 6, the hooking piece 7, and the like at the end of the lateral beam 2 are not shown.
The connecting reinforcing tool R2 between the horizontal members includes a base 24 and a mounting body 25, which are made of, for example, a steel plate.

基体24は、垂直板部24A、垂直板部24Aの上端縁から折り曲げた上板部24B、及び垂直板部24Aの下端縁から折り曲げた下板部24C、並びに、下板部24Cの端縁部に立起片M,Mを有する。立起片M,Mの長手方向は直交する。
取付体25は、基体24の上板部24Bに添う添板部25A、及び添板部25Aの端縁部に垂下片N,Nを有する。垂下片N,Nの長手方向は直交する。
また、基体24の上板部24Bは螺孔24D,24Dを有するとともに、取付体25の添板部25Aは螺孔24D,24Dに位置が合う通孔25B,25Bを有する。
The substrate 24 includes a vertical plate portion 24A, an upper plate portion 24B bent from the upper end edge of the vertical plate portion 24A, a lower plate portion 24C bent from the lower end edge of the vertical plate portion 24A, and an end edge portion of the lower plate portion 24C. It has standing pieces M and M. The longitudinal directions of the standing pieces M and M are orthogonal to each other.
The mounting body 25 has a supplement plate portion 25A along the upper plate portion 24B of the base 24, and hanging pieces N and N at the edge portions of the supplement plate portion 25A. The longitudinal directions of the hanging pieces N and N are orthogonal to each other.
Further, the upper plate portion 24B of the base 24 has screw holes 24D and 24D, and the auxiliary plate portion 25A of the mounting body 25 has through holes 25B and 25B aligned with the screw holes 24D and 24D.

隣接する横ビーム2,2の下面の溝部2E,2Eに基体24の立起片M,Mを差し込むとともに、前記横ビーム2,2の上面の溝部2E,2Eに取付体25の垂下片N,Nを差し込んだ状態で、なべ頭締付ねじ30,30を通孔25B,25Bに挿入して螺孔24D,24Dに螺合することにより、図2のように横架部材間連結補強具R2を取り付ける。
図2、及び図19に示すように、ポスト1と横ビーム2との連結部において、隣接するポスト1及び横ビーム2間に跨がり、これらを一体化するように連結固定する支柱・横架部材間連結補強具R1,R1,…に加え、隣接する横ビーム2,2間の隅部に跨がり、これらを一体化するように連結固定する横架部材間連結補強具R2,R2,…をさらに備えることにより、地震で大きな揺れを受けた際であっても横ビーム2がポスト1から落下しないように前記連結部を一層効果的に補強できる。
The upright pieces M and M of the base 24 are inserted into the grooves 2E and 2E on the lower surfaces of the adjacent lateral beams 2 and 2, and the hanging pieces N and N of the mounting body 25 are inserted into the grooves 2E and 2E on the upper surfaces of the lateral beams 2 and 2. With N inserted, the pan head tightening screws 30 and 30 are inserted into the through holes 25B and 25B and screwed into the screw holes 24D and 24D. To install.
As shown in FIGS. 2 and 19, at the connecting portion between the post 1 and the lateral beam 2, a strut / horizontal frame straddling the adjacent posts 1 and the lateral beam 2 and connecting and fixing them so as to be integrated. In addition to the inter-member connection reinforcements R1, R1, ..., the inter-member connection reinforcements R2, R2, ... By further providing the above, the connecting portion can be more effectively reinforced so that the lateral beam 2 does not fall from the post 1 even when it receives a large shaking due to an earthquake.

以上の実施の形態の記載はすべてすべて例示であり、これに制限されるものではない。本発明の範囲から逸脱することなく種々の改良及び変更を施すことができる。 All the descriptions of the above embodiments are examples, and the present invention is not limited thereto. Various improvements and modifications can be made without departing from the scope of the present invention.

1 ポスト(支柱) 2 横ビーム(横架部材)
2A 通孔 2B 切欠部
2C,2D ねじ込み穴部 2E 溝部
3 連結部材 3A 螺孔
3B 通孔 3C 切欠孔
4 突出部 5 傾斜面
6 緩衝体 6A,6B 通孔
7 掛止片 7A 通孔
7B 掛止部 7C 当止部
8A,8B 皿頭タッピングねじ 9 皿頭締付ねじ
10 なべ頭締付ねじ 11 角筒部(中央構造体)
11A 側面 12 傾斜壁部(外壁形成体)
12A 壁面 13 側壁部(外壁形成体)
13A 端部側面 14 折曲部(縁部)
15 ねじ込み孔部 16A,16B 通孔
17A 上部凹溝 17B 下部凹溝
18 係止爪 19 取付部
19A 摺動面 19B 係合凸部
19C 係止片 20 外方移動規制部
21 係止部 22A,22B 通孔
23 開口部 24 基体
24A 垂直板部 24B 上板部
24C 下板部 24D 螺孔
25 取付体 25A 添板部
25B 通孔 26 連結具
26A 通孔 26B 螺孔
27 ねじ部 28,29 皿頭タッピングねじ
30 なべ頭締付ねじ 31A,31B 螺孔
32 取付ねじ
A 内部空間 B 通線孔
C 配線 D 開口部
E 基端部 F ゾーニング什器
G ガイド溝 H 凸部中央
I 上下方向に延びる開口 J ポストカバー(カバー体)
K 配線暴れ止め具 L 段部
M 立起片 N 垂下片
O 取付部材 P キャップ体
R1 支柱・横架部材間連結補強具 R2 横架部材間連結補強具
S スタンド T 肉厚
1 Post (post) 2 Horizontal beam (horizontal member)
2A through hole 2B notch 2C, 2D screwed hole 2E groove 3 connecting member 3A screw hole 3B through hole 3C notch hole 4 protruding part 5 inclined surface 6 buffer 6A, 6B through hole 7 hook piece 7A through hole 7B hook Part 7C Stopping part 8A, 8B Countersunk head tapping screw 9 Countersunk head tightening screw 10 Pan head tightening screw 11 Square tube (central structure)
11A Side surface 12 Inclined wall part (outer wall forming body)
12A wall surface 13 side wall part (outer wall forming body)
13A End side surface 14 Bent part (edge)
15 Screw-in hole 16A, 16B Through hole 17A Upper concave groove 17B Lower concave groove 18 Locking claw 19 Mounting part 19A Sliding surface 19B Engaging convex part 19C Locking piece 20 External movement restricting part 21 Locking part 22A, 22B Through hole 23 Opening 24 Base 24A Vertical plate 24B Upper plate 24C Lower plate 24D Screw hole 25 Mounting body 25A Auxiliary plate 25B Through hole 26 Connector 26A Through hole 26B Screw hole 27 Threaded part 28,29 Countersunk head tapping Screw 30 Pan head tightening screw 31A, 31B Screw hole 32 Mounting screw A Internal space B Line hole C Wiring D Opening E Base end F Zoned fixture G Guide groove H Convex center I Opening extending in the vertical direction J Post cover (Cover body)
K Wiring rampage stopper L Step M Standing piece N Hanging piece O Mounting member P Cap body R1 Supporter / horizontal member connection reinforcement R2 Horizontal member connection reinforcement S Stand T Thickness

Claims (4)

支柱の内部空間に繋がる、上下方向に延びる開口と、前記開口を塞ぐカバー体とを備えた、前記内部空間に配線を上下方向へ挿通する配線構造であって、
前記支柱に着脱可能な、前記配線の暴れを防ぐ配線暴れ止め具を備え、
前記配線暴れ止め具は、前記カバー体を係止する係止部を有することを特徴とする、
支柱の配線構造。
A wiring structure for vertically inserting wiring into the internal space, which includes an opening extending in the vertical direction connected to the internal space of the column and a cover body for closing the opening.
A wiring rampage stopper that can be attached to and detached from the support column to prevent the wiring from rampaging is provided.
The wiring rampage stopper is characterized by having a locking portion for locking the cover body.
Wiring structure of columns.
前記配線暴れ止め具は、
上下方向へ延びて前記開口を形成する、前記開口に向かって左右に位置する前記支柱の縁部と、前記内部空間を仕切る、前記開口に向かって左右に位置する前記支柱の壁部との間に取り付け可能な一対の取付部と、
前記一対の取付部間を連結し、前記内部空間内の前記配線が径方向外方へ移動することを規制する外方移動規制部と、
前記カバー体の係止爪を係止する、前記開口に向かって左右に位置する一対の係止部とを有する、
請求項1記載の支柱の配線構造。
The wiring rampage stopper is
Between the edge of the column located on the left and right toward the opening, which extends in the vertical direction to form the opening, and the wall of the column located on the left and right of the opening, which partitions the internal space. With a pair of mounting parts that can be mounted on
An outward movement restricting portion that connects the pair of mounting portions and restricts the wiring in the internal space from moving outward in the radial direction.
It has a pair of locking portions located on the left and right sides of the opening for locking the locking claws of the cover body.
The wiring structure of the support column according to claim 1.
前記配線暴れ止め具は合成樹脂製であり、
前記外方移動規制部は、平面視アーチ状で、前記取付部に近い両端部から前記アーチ状の凸部中央へ向かって肉厚が漸減する、
請求項2記載の支柱の配線構造。
The wiring rampage stopper is made of synthetic resin and is made of synthetic resin.
The outward movement restricting portion has an arch shape in a plan view, and the wall thickness gradually decreases from both ends near the mounting portion toward the center of the arch-shaped convex portion.
The wiring structure of the support column according to claim 2.
前記支柱により前記配線暴れ止め具を上下方向へスライド可能に支持してなる、
請求項1〜3の何れか1項に記載の支柱の配線構造。
The support column supports the wiring rampage stopper so as to be slidable in the vertical direction.
The wiring structure of the support column according to any one of claims 1 to 3.
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JP3521677B2 (en) * 1997-04-23 2004-04-19 松下電工株式会社 Wiring system
JP2000152463A (en) * 1998-11-09 2000-05-30 Kawamura Electric Inc Wiring duct
JP3989770B2 (en) * 2002-04-30 2007-10-10 コクヨ株式会社 Prop
JP6367612B2 (en) * 2014-05-30 2018-08-01 ナカ工業株式会社 Handrail Kasagi and lighting unit

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