JP4839859B2 - Wiring duct - Google Patents

Wiring duct Download PDF

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JP4839859B2
JP4839859B2 JP2006018223A JP2006018223A JP4839859B2 JP 4839859 B2 JP4839859 B2 JP 4839859B2 JP 2006018223 A JP2006018223 A JP 2006018223A JP 2006018223 A JP2006018223 A JP 2006018223A JP 4839859 B2 JP4839859 B2 JP 4839859B2
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plug
voltage
commercial
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power
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JP2007200724A (en
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克行 清積
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Panasonic Corp
Panasonic Electric Works Co Ltd
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Panasonic Corp
Matsushita Electric Works Ltd
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Description

本発明は、配線ダクトに関するものである。   The present invention relates to a wiring duct.

従来より、図6に示すように天井等に敷設され、内部に商用交流電源を供給するための導電ライン1a,1bを備えた配線ダクト10と、配線ダクト10に結合されたプラグ20と、プラグ20にアーム22を介して吊り下げられ、プラグ20を介して導電ライン1a,1bから商用交流電源が供給される照明負荷30とで構成される配線システムが提供されている(例えば特許文献1参照)。   Conventionally, as shown in FIG. 6, a wiring duct 10 laid on the ceiling or the like and provided with conductive lines 1a and 1b for supplying commercial AC power therein, a plug 20 coupled to the wiring duct 10, and a plug A wiring system is provided that includes a lighting load 30 that is suspended from an arm 20 via an arm 22 and is supplied with commercial AC power from the conductive lines 1a and 1b via the plug 20 (see, for example, Patent Document 1). ).

配線ダクト10のダクト本体11は細長の角筒状であって、下側面には長手方向に沿った開口12を設けてある。また配線ダクト10の左右両側片11b,11bの内側面には、上下方向の中間部に、中央片11aと略平行に支持突片13,13を突設してあり、各支持突片13,13の上側面に帯板状の導電ライン1a,1bを配置してある。   The duct body 11 of the wiring duct 10 has an elongated rectangular tube shape, and an opening 12 along the longitudinal direction is provided on the lower surface. Further, on the inner side surfaces of the left and right side pieces 11b, 11b of the wiring duct 10, support projecting pieces 13, 13 project from the middle part in the vertical direction substantially parallel to the central piece 11a. Strip plate-like conductive lines 1 a and 1 b are arranged on the upper side surface of 13.

一方、プラグ20は、配線ダクト10の開口12を通してダクト内部に挿入される差込部24を箱型のボディ21の上面に設けてあり、差込部24の上端部には矩形板状の係止片25が一体的に設けられている。係止片25は、短幅方向の寸法が支持突片13,13の間の隙間や開口12よりも小さい寸法に形成されるとともに、長手方向の寸法が上記の隙間よりも長い寸法に形成されており、長手方向両端部の下側面には導電ライン1a,1bにそれぞれ電気的に接続される集電子26a,26bを設けてある。   On the other hand, the plug 20 is provided with an insertion portion 24 to be inserted into the duct through the opening 12 of the wiring duct 10 on the upper surface of the box-shaped body 21, and the upper end portion of the insertion portion 24 has a rectangular plate-like engagement. The stop piece 25 is provided integrally. The locking piece 25 is formed so that the dimension in the short width direction is smaller than the gap between the support protrusions 13 and 13 and the opening 12, and the dimension in the longitudinal direction is longer than the gap. Current collectors 26a and 26b that are electrically connected to the conductive lines 1a and 1b, respectively, are provided on the lower surfaces of both ends in the longitudinal direction.

而して、照明負荷30(プラグ20)を配線ダクト10に取り付けるに当たっては、図7(a)に示すように係止片25の長手方向を配線ダクト10の長手方向と略平行にした状態で、差込部24を開口12に通してダクト本体11の内部に挿入する。そして、プラグ20のボディ21上面が開口12の周縁部に当接するまで、差込部24をダクト本体11内部に挿入した後、プラグ20を約90度回転させると、係止片25の長手方向両端部が上下方向において支持突片13,13と重なることで、プラグ20の落下が防止されるとともに、プラグ20の集電子26a,26bがそれぞれ配線ダクト10の導電ライン1a,1bと電気的に接続される(図7(b)参照)。この時、プラグ20からアーム22を介して照明負荷30に商用交流電源が供給され、灯体31に設けた光源Laが点灯する。   Thus, when the lighting load 30 (plug 20) is attached to the wiring duct 10, the longitudinal direction of the locking piece 25 is substantially parallel to the longitudinal direction of the wiring duct 10 as shown in FIG. The insertion portion 24 is inserted into the duct body 11 through the opening 12. Then, after inserting the insertion portion 24 into the duct body 11 until the upper surface of the body 21 of the plug 20 contacts the peripheral edge of the opening 12, when the plug 20 is rotated about 90 degrees, the longitudinal direction of the locking piece 25 Since both ends overlap with the support protrusions 13 and 13 in the vertical direction, the plug 20 is prevented from dropping, and the current collectors 26a and 26b of the plug 20 are electrically connected to the conductive lines 1a and 1b of the wiring duct 10, respectively. They are connected (see FIG. 7B). At this time, commercial AC power is supplied from the plug 20 to the illumination load 30 via the arm 22, and the light source La provided on the lamp body 31 is turned on.

一方、照明負荷30(プラグ20)を配線ダクト10から取り外す際には、図7(b)に示す状態からプラグ20を約90度回転させると、プラグ20の集電子26a,26bが導電ライン1a,1bから解離するとともに、プラグ20の係止片25が開口12の長手方向と略平行に配置され、この状態でプラグ20を下側に移動させると、プラグ20を配線ダクト10から容易に取り外すことができる。   On the other hand, when removing the illumination load 30 (plug 20) from the wiring duct 10, when the plug 20 is rotated about 90 degrees from the state shown in FIG. 7B, the current collectors 26a and 26b of the plug 20 are connected to the conductive line 1a. , 1b, and the locking piece 25 of the plug 20 is disposed substantially parallel to the longitudinal direction of the opening 12. If the plug 20 is moved downward in this state, the plug 20 is easily removed from the wiring duct 10. be able to.

この配線システムでは、配線ダクト10において長手方向の所望の位置にプラグ20を結合することで、照明負荷30を所望の位置に吊り下げることができ、また配線ダクト10の敷設されている範囲内で照明負荷30(プラグ20)の取付位置を移動できるから、例えば美術館や商店などで展示物や商品の配置を変更する場合にも容易に対応することができる。
特開2001−250649号公報(段落番号[0010]、及び、第2図、第4図)
In this wiring system, by connecting the plug 20 to a desired position in the longitudinal direction in the wiring duct 10, the lighting load 30 can be suspended to the desired position, and within the range where the wiring duct 10 is laid. Since the mounting position of the illumination load 30 (plug 20) can be moved, for example, it is possible to easily cope with changing the arrangement of exhibits and products in a museum or a store.
JP 2001-250649 A (paragraph number [0010] and FIGS. 2 and 4)

ところで、近年、光源として発光ダイオードや低圧用のハロゲンランプを用いた照明器具が提供されており、これらの照明器具は、商用交流電源に比べて低圧の交流電源(例えばAC12V)で動作するため、発光ダイオードやハロゲンランプを光源とする照明器具を上述の配線ダクト10に接続して使用する場合は、照明器具側に商用交流電源の電源電圧を低圧の交流電圧に変換する変圧器を設ける必要があり、照明器具の大型化やコスト高を招くという問題があった。   By the way, in recent years, lighting fixtures using light-emitting diodes or low-pressure halogen lamps as light sources have been provided, and these lighting fixtures operate with a low-voltage AC power supply (for example, AC12V) compared to a commercial AC power supply. When a lighting fixture using a light emitting diode or a halogen lamp as a light source is connected to the wiring duct 10 described above, it is necessary to provide a transformer for converting the power supply voltage of the commercial AC power source into a low-voltage AC voltage on the lighting fixture side. There was a problem that the lighting equipment was increased in size and cost.

本発明は上記問題点に鑑みて為されたものであり、その目的とするところは、照明器具の側に変圧器を設けることなく、商用交流電源で動作する負荷に加えて、商用交流電源よりも低圧の交流電源で動作する負荷を直接接続して使用できる配線ダクトを提供することにある。   The present invention has been made in view of the above-described problems, and the object of the present invention is to use a commercial AC power supply in addition to a load that operates with a commercial AC power supply without providing a transformer on the lighting equipment side. Another object of the present invention is to provide a wiring duct that can be used by directly connecting a load that operates with a low-voltage AC power supply.

上記目的を達成するために、請求項1の発明は、断面が矩形状に形成された筒状であって、一面に内部と外部を連通する開口が長手方向に沿って形成されたダクト本体を備え、ダクト本体の内部に、開口を通してダクト本体の内部に挿入された商用交流電源用のプラグに電気的に接続され、商用交流電源用のプラグを介して負荷に商用交流電源を供給する第1の導電ラインと、開口を通してダクト本体の内部に挿入された低圧交流電源用のプラグに電気的に接続され、低圧交流電源用のプラグを介して負荷に商用交流電源よりも低圧の交流電源を供給する第2の導電ラインとを、ダクト本体の長手方向に沿って配置するとともに、隣接する2つのダクト本体の間を連結する連結用モジュールに、両側のダクト本体に収納された第1の導電ラインの間を電気的に接続する導電部材と、導電部材から供給された商用交流電源を低圧の交流電源に降圧して、隣接する2つのダクト本体のうち一方のダクト本体に収納された第2の導電ラインのみに低圧の交流電源を供給する電圧変換部とを設けたことを特徴とする。 In order to achieve the above-mentioned object, the invention of claim 1 is a cylindrical body having a rectangular cross section, and an opening that communicates the inside and the outside is formed on one side along the longitudinal direction. provided, inside the da transfected body, is electrically connected to the plug for the commercial AC power source that is inserted into the duct body through the opening, the supplying commercial AC power source to the load through a plug of commercial AC power source 1 is electrically connected to a low-voltage AC power supply plug inserted into the duct body through the conductive line, and the load is connected to the load via a low-voltage AC power supply plug. The second conductive line to be supplied is arranged along the longitudinal direction of the duct main body, and the first conductive material accommodated in the duct main bodies on both sides is connected to a connecting module that connects between two adjacent duct main bodies. Rye A conductive member for electrically connecting between the commercial AC power supplied from the conductive member to step down to the low pressure of the AC power source, a second housed in one of the duct body of the two adjacent duct body And a voltage converter for supplying a low- voltage AC power source only to the conductive line.

請求項2の発明は、請求項1の発明において、第1の導電ラインが、第2の導電ラインに対して、開口からより遠い位置に配置されたことを特徴とする。   The invention of claim 2 is characterized in that, in the invention of claim 1, the first conductive line is arranged at a position farther from the opening than the second conductive line.

請求項1の発明によれば、ダクト本体には、商用交流電源を負荷に供給するための第1の導電ラインと、低圧の交流電源を負荷に供給するための第2の導電ラインとが配置されているので、商用交流電源用の負荷に加えて、低圧交流電源用の負荷を接続して使用することができ、且つ、第2の導電ラインから負荷へは低圧の交流電源が供給されるから、低圧交流電源用の負荷に、商用交流電源を低圧の交流電源に降圧するトランスなどを設ける必要が無く、低圧交流電源用の負荷の小型化、低コスト化を実現することができる。しかも、2つのダクト本体の間を連結用モジュールにより連結すると、連結用モジュールの導電部材を介して両側のダクト本体に収納された第1の導電ラインの間が電気的に接続されるから、連結されたダクト本体の間で連結用モジュールを介して商用交流電源を供給することができる。さらに、連結用モジュールの電圧変換部は、導電部材から供給された商用交流電源を低圧の交流電源に降圧して、隣接する2つのダクト本体のうち一方のダクト本体に収納された第2の導電ラインのみに低圧の交流電源を供給しており、1つのダクト本体に接続される負荷のみに低圧交流電源を供給しているので、複数のダクト本体に接続される負荷に対して低圧交流電源を給電する場合に比べて、電圧変換部に接続される負荷の数を減らすことができる。したがって、電圧変換部の電流容量を小さくして、電圧変換部の小型化や低コスト化を図ることができ、且つ、第2の導電ラインに流れる電流も小さくなるから、第2の導電ラインの断面積を小さくして、収納スペースの小型化を図ることができる。 According to the first aspect of the present invention, the duct body includes the first conductive line for supplying commercial AC power to the load and the second conductive line for supplying low-voltage AC power to the load. Therefore, in addition to a load for a commercial AC power supply, a load for a low-voltage AC power supply can be connected and used, and a low-voltage AC power supply is supplied from the second conductive line to the load. Therefore, it is not necessary to provide a transformer for stepping down the commercial AC power supply to the low-voltage AC power supply in the load for the low-voltage AC power supply, and the load for the low-voltage AC power supply can be reduced in size and cost. In addition, when the two duct bodies are connected by the connecting module, the first conductive lines housed in the duct bodies on both sides are electrically connected via the conductive member of the connecting module. Commercial AC power can be supplied through the connecting module between the duct bodies. Further, the voltage conversion unit of the connecting module steps down the commercial AC power supplied from the conductive member to a low-voltage AC power source, and stores the second conductive material stored in one of the two adjacent duct bodies. Low-voltage AC power is supplied only to the line, and low-voltage AC power is supplied only to the load connected to one duct body. The number of loads connected to the voltage conversion unit can be reduced as compared with the case where power is supplied. Therefore, it is possible to reduce the current capacity of the voltage conversion unit, to reduce the size and cost of the voltage conversion unit, and to reduce the current flowing through the second conductive line. By reducing the cross-sectional area, the storage space can be downsized.

請求項2の発明によれば、低圧の第2の導電ラインに対して、高圧の第1の導電ラインが、プラグ本体の開口からより遠い位置に配置されているので、安全性が向上するという効果がある。   According to the second aspect of the present invention, since the high-voltage first conductive line is disposed farther from the opening of the plug body than the low-voltage second conductive line, safety is improved. effective.

以下に本発明の実施の形態を図面に基づいて説明する。本実施形態の配線ダクトは、図1〜図3に示すように、断面が矩形状に形成された長尺の筒状であって、一面に内部と外部とを連通する開口12が長手方向に沿って形成されたダクト本体11を備え、ダクト本体11の内部に、商用交流電源を負荷に供給するための一対の第1の導電ライン(以下、導電ラインと略称する。)1a,1bと、商用交流電源よりも低圧の交流電源を負荷に供給するための一対の第2の導電ライン(以下、導電ラインと略称する。)2a,2bとを収納してある。なお以下の説明では特に断りが無いかぎり、図1(a)に示す向きにおいて上下左右の方向を規定し、同図(a)の正面を前面とする。従って、同図(b)の右端は後端となる。   Embodiments of the present invention will be described below with reference to the drawings. As shown in FIGS. 1 to 3, the wiring duct of the present embodiment has a long cylindrical shape with a rectangular cross section, and an opening 12 that communicates the inside and the outside is formed in the longitudinal direction on one side. A pair of first conductive lines (hereinafter abbreviated as conductive lines) 1a and 1b for supplying a commercial AC power source to a load. A pair of second conductive lines (hereinafter abbreviated as conductive lines) 2a and 2b for supplying an AC power supply having a lower voltage than the commercial AC power supply to the load is housed. In the following description, unless otherwise specified, the vertical and horizontal directions are defined in the direction shown in FIG. 1A, and the front of FIG. Accordingly, the right end of FIG.

配線ダクト10のダクト本体11は、図1(a)(b)に示すように中央片11aの左右両側縁から下向きに側片11b,11bが突出して断面コ字形に形成されている。左右の側片11b,11bの先端部からは中央片11aと平行に内鍔片11c,11cが延設され、内鍔片11c,11cの先端縁の間が上述の開口12となっており、ダクト本体11は開口12を下向きにして天井等に配設されるのである。また左右両側片11b,11bの内側面には、上下方向の中間部に、中央片11aと略平行に支持突片13,13を設けてある。ここで、支持突片13よりも上側の内部空間が商用交流電源用の導電ライン1a,1bの収納空間となり、支持突片13よりも下側の内部空間が低圧電源用の導電ライン2a,2bの収納空間となっている。すなわち、支持突片13,13の上側面に、商用交流電源を負荷に供給するための帯板状の導電ライン1a,1bをそれぞれ配置するとともに、内鍔片11c,11cの上側面に、商用交流電源よりも低圧(例えばAC12V)の交流電源を負荷に供給するための帯板状の導電ライン2a,2bをそれぞれ配置してある。   As shown in FIGS. 1A and 1B, the duct body 11 of the wiring duct 10 is formed in a U-shaped cross section with side pieces 11b and 11b protruding downward from the left and right side edges of the central piece 11a. Inner flange pieces 11c, 11c extend in parallel to the central piece 11a from the distal ends of the left and right side pieces 11b, 11b, and the opening 12 is between the distal edges of the inner flange pieces 11c, 11c. The duct body 11 is disposed on the ceiling or the like with the opening 12 facing downward. Further, on the inner side surfaces of the left and right side pieces 11b, 11b, support projecting pieces 13, 13 are provided at a middle portion in the vertical direction substantially parallel to the central piece 11a. Here, the internal space above the support protrusion 13 is a storage space for the conductive lines 1a and 1b for commercial AC power, and the internal space below the support protrusion 13 is for the low-voltage power supply lines 2a and 2b. Storage space. That is, strip plate-like conductive lines 1a and 1b for supplying commercial AC power to the load are arranged on the upper side surfaces of the support protrusions 13 and 13, respectively, and commercial wires are placed on the upper side surfaces of the inner collar pieces 11c and 11c. Strip plate-like conductive lines 2a and 2b for supplying an AC power source having a lower voltage (for example, AC 12V) than the AC power source to the load are arranged.

本実施形態の配線ダクト10は、商用交流電源が供給される導電ライン1a,1bと、後述の低圧電源部42から商用交流電源よりも低圧(例えばAC12V)の交流電源が供給される導電ライン2a,2bとを備えており、図2(a)(b)に示す商用交流電源用のプラグ20Aや、図3(a)(b)に示す低圧電源用のプラグ20Bを接続して、商用交流電源用の負荷や低圧電源用の負荷(例えばLED照明器具)に電源を供給できるようになっている。   The wiring duct 10 of this embodiment includes conductive lines 1a and 1b to which commercial AC power is supplied, and a conductive line 2a to which AC power having a lower voltage (for example, AC 12V) than the commercial AC power is supplied from a low-voltage power supply unit 42 described later. 2b, and a commercial AC power plug 20A shown in FIGS. 2A and 2B and a low voltage power plug 20B shown in FIGS. Power can be supplied to a load for power supply or a load for low-voltage power supply (for example, an LED lighting device).

商用交流電源用のプラグ20Aは、図2(a)(b)に示すようにダクト本体11の開口12を通してダクト内部に挿入される差込部24を箱型のボディ21の上面に設けてあり、差込部24の上端部には矩形板状の係止片25が一体的に設けられている。係止片25は、短幅方向の寸法が支持突片13,13の間の隙間や開口12よりも小さい寸法に形成されるとともに、長手方向の寸法が上記の隙間より長い寸法に形成されており、長手方向両端部の下側面には導電ライン1a,1bにそれぞれ電気的に接続される集電子26a,26bを設けてある。   As shown in FIGS. 2A and 2B, the plug 20A for commercial AC power is provided with an insertion portion 24 to be inserted into the duct through the opening 12 of the duct body 11 on the upper surface of the box-shaped body 21. A rectangular plate-like locking piece 25 is integrally provided at the upper end portion of the insertion portion 24. The locking piece 25 is formed such that the dimension in the short width direction is smaller than the gap between the support protrusions 13 and 13 and the opening 12 and the dimension in the longitudinal direction is longer than the gap. In addition, current collectors 26a and 26b that are electrically connected to the conductive lines 1a and 1b, respectively, are provided on the lower surfaces of both ends in the longitudinal direction.

また、低圧電源用のプラグ20Bは、上述した商用交流電源用のプラグ20Aと略同様の構造を有しており、図3(a)(b)に示すようにダクト本体11の開口12を通してダクト内部に挿入される差込部24を箱型のボディ21の上面に設けてあり、差込部24の上端部には矩形状の係止片25が一体的に設けられる。また差込部24の上下方向中間部には、内鍔片11cと支持突片13との間に挿入される係止片23,23が係止片25の下側に突設されている。各係止片23,23は、係止片25の短幅方向に沿う方向の寸法が、開口12の幅寸法よりも小さい寸法に形成されるとともに、両係止片23,23の先端部の間の距離が開口12の幅寸法よりも大きい寸法に形成されている。そして、各係止片23,23の先端部の下側面には、導電ライン2a,2bにそれぞれ電気的に接続される集電子27a,27bを設けてある。   Further, the plug 20B for the low-voltage power supply has substantially the same structure as the plug 20A for the commercial AC power supply described above, and the duct 20B is opened through the opening 12 of the duct body 11 as shown in FIGS. An insertion portion 24 to be inserted inside is provided on the upper surface of the box-shaped body 21, and a rectangular locking piece 25 is integrally provided on the upper end portion of the insertion portion 24. Further, locking pieces 23, 23 inserted between the inner flange piece 11 c and the support protruding piece 13 are provided on the lower side of the locking piece 25 at the intermediate portion in the vertical direction of the insertion portion 24. Each locking piece 23, 23 is formed so that the dimension along the short width direction of the locking piece 25 is smaller than the width dimension of the opening 12, and at the tip of both locking pieces 23, 23. The distance between them is formed to be larger than the width of the opening 12. Further, current collectors 27a and 27b that are electrically connected to the conductive lines 2a and 2b, respectively, are provided on the lower side surfaces of the front ends of the locking pieces 23 and 23, respectively.

而して、本実施形態の配線ダクト10に商用交流電源用のプラグ20Aを取り付けるに当たっては、係止片25の長手方向をダクト本体11の長手方向と略平行にした状態で、プラグ20Aの差込部24を、開口12を通してダクト本体11の内部に挿入する。そして、プラグ20Aのボディ21上面が開口12の周縁部に当接するまで、差込部24をダクト本体11内部に挿入した後、ボディ21を約90度回転させると、係止片25の長手方向両端部が支持突片13,13と上下方向において重なることで、プラグ20Aの落下を防止するとともに、プラグ20Aの集電子26a,26bがそれぞれ配線ダクト10の導電ライン1a,1bに電気的に接続されることで、配線ダクト10からプラグ20Aとアーム22とを介して照明負荷30に商用交流電源が供給される(図2(a)参照)。一方、プラグ20Aを配線ダクト10から取り外す際には、図2(a)に示す取付状態からボディ21を約90度回転させると、集電子26a,26bが導電ライン1a,1bから解離するとともに、係止片25の長手方向が開口12の長手方向と略平行し、係止片25と支持突片13,13との係止状態が解除されるので、プラグ20Aの差込部24を下側に移動させることで、配線ダクト10から容易に取り外すことができる。   Thus, when attaching the plug 20A for commercial AC power supply to the wiring duct 10 of the present embodiment, the difference between the plugs 20A is made in a state where the longitudinal direction of the locking piece 25 is substantially parallel to the longitudinal direction of the duct body 11. The insertion portion 24 is inserted into the duct body 11 through the opening 12. Then, after inserting the insertion portion 24 into the duct body 11 until the upper surface of the body 21 of the plug 20A comes into contact with the peripheral edge of the opening 12, when the body 21 is rotated about 90 degrees, the longitudinal direction of the locking piece 25 Since both ends overlap with the support protrusions 13 and 13 in the vertical direction, the plug 20A is prevented from dropping, and the current collectors 26a and 26b of the plug 20A are electrically connected to the conductive lines 1a and 1b of the wiring duct 10, respectively. As a result, commercial AC power is supplied from the wiring duct 10 to the illumination load 30 via the plug 20A and the arm 22 (see FIG. 2A). On the other hand, when removing the plug 20A from the wiring duct 10, when the body 21 is rotated about 90 degrees from the attached state shown in FIG. 2A, the current collectors 26a and 26b are dissociated from the conductive lines 1a and 1b. Since the longitudinal direction of the locking piece 25 is substantially parallel to the longitudinal direction of the opening 12 and the locking state between the locking piece 25 and the support protrusions 13 and 13 is released, the insertion portion 24 of the plug 20A is placed on the lower side. It can be easily removed from the wiring duct 10 by moving to.

また、配線ダクト10に低圧電源用のプラグ20Bを取り付けるに当たっては、係止片23,23の並ぶ方向をダクト本体11の長手方向と略平行にした状態で、プラグ20Bの差込部24を、開口12を通してダクト本体11の内部に挿入する。そして、プラグ20Bのボディ21上面が開口12の周縁部に当接するまで、差込部24をダクト本体11内部に挿入した後、ボディ21を約90度回転させると、係止片25の長手方向両端部が支持突片13,13と上下方向において重なるとともに、各係止片23,23の先端部が内鍔片11c,11cと上下方向において重なることで、プラグ20Bの落下を防止する(図3(a)参照)。またこの時、プラグ20Bの集電子27a,27bが配線ダクト10の導電ライン2a,2bにそれぞれ電気的に接続されることで、配線ダクト10からプラグ20Bとアーム22とを介して図示しない低圧電源用の負荷(例えば発光ダイオードを光源とする照明器具やAC12V用ハロゲンランプを光源とする照明器具など)に低圧の交流電源が供給される。一方、プラグ20Bを配線ダクト10から取り外す際には、図3(a)に示す取付状態からボディ21を約90度回転させると、集電子27a,27bが導電ライン2a,2bから解離するとともに、係止片23,23の配列方向および係止片25の長手方向が開口12の長手方向と略平行し、係止片23,23と支持突片13,13との係止状態が解除されるので、プラグ20Bの差込部24を下側に移動させることで、配線ダクト10からプラグ20Bを容易に取り外すことができる。   Further, when attaching the plug 20B for the low-voltage power source to the wiring duct 10, the plug portion 24B of the plug 20B is inserted in a state in which the alignment direction of the locking pieces 23, 23 is substantially parallel to the longitudinal direction of the duct body 11. It is inserted into the duct body 11 through the opening 12. Then, after inserting the insertion portion 24 into the duct body 11 until the upper surface of the body 21 of the plug 20B comes into contact with the peripheral edge of the opening 12, the body 21 is rotated about 90 degrees, and the longitudinal direction of the locking piece 25 Both ends overlap with the support protrusions 13 and 13 in the vertical direction, and tip portions of the locking pieces 23 and 23 overlap with the inner flange pieces 11c and 11c in the vertical direction, thereby preventing the plug 20B from dropping (see FIG. 3 (a)). At this time, the current collectors 27a and 27b of the plug 20B are electrically connected to the conductive lines 2a and 2b of the wiring duct 10, respectively, so that a low-voltage power source (not shown) is connected from the wiring duct 10 via the plug 20B and the arm 22. A low-voltage AC power supply is supplied to a load (for example, a lighting fixture using a light-emitting diode as a light source or a lighting fixture using a halogen lamp for AC12V as a light source). On the other hand, when removing the plug 20B from the wiring duct 10, when the body 21 is rotated about 90 degrees from the attached state shown in FIG. 3A, the current collectors 27a and 27b are dissociated from the conductive lines 2a and 2b. The arrangement direction of the locking pieces 23 and 23 and the longitudinal direction of the locking piece 25 are substantially parallel to the longitudinal direction of the opening 12, and the locking state between the locking pieces 23 and 23 and the support projecting pieces 13 and 13 is released. Therefore, the plug 20B can be easily removed from the wiring duct 10 by moving the insertion portion 24 of the plug 20B downward.

このように本実施形態では配線ダクト10に、商用交流電源を負荷に供給するための導電ライン1a,1bと、商用交流電源よりも低圧の交流電源を負荷に供給するための導電ライン2a,2bとを設けているので、商用交流電源で動作する負荷のプラグ20Aに加えて、低圧の交流電源で動作する負荷のプラグ20Bを接続することができる。しかも、低圧用の負荷にはプラグ20Bを介して低圧の交流電源が直接供給されるので、プラグ20Bに接続される負荷に、商用交流電源を降圧する電圧変換トランスのような低圧電源部を設ける必要がなく、負荷の小型化やコストダウンを図ることができる。また本実施形態では、ダクト本体11の内部において、第1の導電ライン1a,1bを、第2の導電ライン2a,2bに対して、開口12からより遠い位置に配置してあるので、高圧側の導電ライン1a,1bを低圧側の導電ライン2a,2bよりも奥側に配置することで安全性を向上させている。   As described above, in this embodiment, the conductive lines 1a and 1b for supplying commercial AC power to the load and the conductive lines 2a and 2b for supplying AC power having a lower voltage than the commercial AC power to the load are connected to the wiring duct 10. Therefore, in addition to the load plug 20A that operates with a commercial AC power supply, a load plug 20B that operates with a low-voltage AC power supply can be connected. In addition, since the low-voltage AC power is directly supplied to the low-voltage load via the plug 20B, a low-voltage power supply unit such as a voltage conversion transformer that steps down the commercial AC power is provided in the load connected to the plug 20B. This is unnecessary, and the load can be reduced and the cost can be reduced. In the present embodiment, in the duct body 11, the first conductive lines 1a and 1b are arranged farther from the opening 12 than the second conductive lines 2a and 2b. The safety lines are improved by arranging the conductive lines 1a and 1b on the back side of the low-voltage conductive lines 2a and 2b.

また本実施形態の配線ダクト10の長手方向寸法は一定長に規格化されており、配線ダクト10の配線長を延ばすために、複数の配線ダクト10を連結できるようになっている。ここで、複数の配線ダクト10にそれぞれ収納された低圧用の導電ライン2a,2bを電気的に接続した場合、複数の配線ダクト10に接続された低圧用の負荷(図示せず)が同一の低圧電源部に接続されることになり、1台の低圧電源部に接続可能な負荷の台数が増えることになる。そして、低圧の交流電源で動作する負荷は、消費電力が同じであれば、商用交流電源で動作する負荷に比べて消費電流が大きくなるため、接続される負荷の台数が増えると、低圧電源部の電流容量を大きくしなければならず、低圧電源部の大型化やコスト高を招くことになる。また導電ライン2a,2bに流れる電流の電流値が増加するため、導電ライン2a,2bの断面積が大きくなり、導電ライン2a,2bを収納するために広い収納スペースが必要になる。   Further, the longitudinal dimension of the wiring duct 10 of the present embodiment is standardized to a certain length, and a plurality of wiring ducts 10 can be connected to extend the wiring length of the wiring duct 10. Here, when the low-voltage conductive lines 2a and 2b respectively housed in the plurality of wiring ducts 10 are electrically connected, the low-voltage loads (not shown) connected to the plurality of wiring ducts 10 are the same. As a result, the number of loads that can be connected to one low-voltage power supply unit increases. And, if the load that operates with the low-voltage AC power supply has the same power consumption, the current consumption becomes larger than the load that operates with the commercial AC power supply. The current capacity of the power supply must be increased, resulting in an increase in the size and cost of the low-voltage power supply unit. Further, since the value of the current flowing through the conductive lines 2a and 2b increases, the cross-sectional area of the conductive lines 2a and 2b increases, and a large storage space is required to store the conductive lines 2a and 2b.

そこで、本実施形態では複数の配線ダクト10を連結するために、図4(a)(b)に示すような連結用モジュール40を用いている。この連結用モジュール40は、断面が矩形状に形成された筒状であって、上下方向および左右方向の外形寸法がダクト本体11と略同じ寸法に形成されており、長手方向(前後方向)の外形寸法がダクト本体11よりも短い寸法に形成されている。そして、連結用モジュール40の内部には、隣接する2つの配線ダクト10,10にそれぞれ収納された導電ライン1a,1a間、および、導電ライン1b,1b間をそれぞれ電気的に接続する導電部材41が収納されている。また連結用モジュール40の内部には、導電部材41を介して供給される商用交流電源を降圧して、低圧の交流電源に変換する電圧変換トランスのような低圧電源部42と、何れか一方(例えば図4(b)中の右側)の配線ダクト10に収納された低圧用の導電ライン2a,2bを低圧電源部42の出力端子に電気的に接続するための導電ライン43とが収納されている。また連結用モジュール40の前後方向両端部には、配線ダクト10と機械的に結合するための適宜の結合手段(図示せず)が設けられており、この結合手段を用いて連結用モジュール40と配線ダクト10とが確実に結合されるようになっている。   Therefore, in the present embodiment, a connecting module 40 as shown in FIGS. 4A and 4B is used to connect the plurality of wiring ducts 10. The connecting module 40 has a cylindrical shape with a rectangular cross section, and the outer dimensions in the vertical direction and the horizontal direction are substantially the same as those of the duct body 11, and the longitudinal direction (front and rear direction) is the same. The outer dimension is formed to be shorter than the duct body 11. In the connection module 40, conductive members 41 that electrically connect the conductive lines 1a and 1a and the conductive lines 1b and 1b respectively housed in the two adjacent wiring ducts 10 and 10, respectively. Is stored. Further, in the connection module 40, either one of a low-voltage power supply unit 42 such as a voltage conversion transformer that steps down the commercial AC power supplied via the conductive member 41 and converts it to a low-voltage AC power ( For example, a conductive line 43 for electrically connecting the low-voltage conductive lines 2a and 2b housed in the wiring duct 10 shown in the right side of FIG. 4B to the output terminal of the low-voltage power supply unit 42 is housed. Yes. Further, appropriate coupling means (not shown) for mechanically coupling with the wiring duct 10 are provided at both ends in the front-rear direction of the coupling module 40. The coupling module 40 is connected to the coupling module 40 using the coupling means. The wiring duct 10 is securely coupled.

而して、隣接する配線ダクト10の間に連結用モジュール40を介装した状態で、複数の配線ダクト10を連結すると、各々の配線ダクト10に収納された商用交流電源用の導電ライン1a,1a間、及び、導電ライン1b,1b間が連結用モジュール40の導電部材41を介して電気的に接続されるとともに、各々の配線ダクト10に収納された低圧用の導電ライン2a,2bが隣接する連結用モジュール40の導電ライン43を介して低圧電源部32の出力端子に電気的に接続される。そして、連結方向の端部に位置する連結用モジュール40の導電部材41、又は、配線ダクト10の導電ライン1a,1bに商用交流電源を供給すると、連結された全ての配線ダクト10の導電ライン1a,1bに商用交流電源が供給されることになり、各配線ダクト10に取り付けられたプラグ20Aを介して負荷に商用交流電源が供給されることになる。また連結用モジュール40に収納された低圧電源部42に導電部材41を介して商用交流電源が供給され、低圧電源部42により商用交流電源が低圧の交流電源に変換されて、当該連結用モジュール40に連結された配線ダクト10の導電ライン2a,2bに低圧の交流電源が供給されるので、配線ダクト10に取り付けられたプラグ20Bを介して負荷に低圧の交流電源を供給することができる。   Thus, when a plurality of wiring ducts 10 are connected in a state where the connecting module 40 is interposed between the adjacent wiring ducts 10, the conductive lines 1 a for commercial AC power housed in the respective wiring ducts 10, 1a and the conductive lines 1b and 1b are electrically connected via the conductive member 41 of the connecting module 40, and the low-voltage conductive lines 2a and 2b accommodated in the respective wiring ducts 10 are adjacent to each other. It is electrically connected to the output terminal of the low-voltage power supply unit 32 through the conductive line 43 of the connecting module 40. When commercial AC power is supplied to the conductive member 41 of the connecting module 40 located at the end in the connecting direction or the conductive lines 1a and 1b of the wiring duct 10, the conductive lines 1a of all the connected wiring ducts 10 are supplied. , 1b is supplied with commercial AC power, and commercial AC power is supplied to the load through the plug 20A attached to each wiring duct 10. Further, commercial AC power is supplied to the low-voltage power supply unit 42 accommodated in the connection module 40 via the conductive member 41, and the commercial AC power is converted into a low-voltage AC power supply by the low-voltage power supply unit 42. Since the low-voltage AC power is supplied to the conductive lines 2a and 2b of the wiring duct 10 connected to the wiring duct 10, the low-voltage AC power can be supplied to the load through the plug 20B attached to the wiring duct 10.

このように複数の配線ダクト10を、隣接する2つの配線ダクト10の間に連結用モジュール40を介装した状態で連結すると、各々の配線ダクト10の導電ライン1a,1bに商用交流電源を供給するとともに、導電ライン2a,2bに低圧の交流電源を供給することができ、配線ダクト10の配線長を延長することができる。また連結用モジュール40に設けた低圧電源部42では、当該連結用モジュール40に直接連結された配線ダクト10のみに低圧の交流電源を供給しているので、低圧電源部42に接続される負荷の台数が、1つの配線ダクト10に接続可能な台数以下に制限されるから、低圧電源部42の電流容量を小さくでき、低圧電源部42の小型化や低コスト化を図ることができる。また配線ダクト10に設けた低圧側の導電ライン2a,2bに流れる電流の電流値も、低圧電源部42に接続可能な負荷の台数が制限されることで、所定の電流値以下に制限されるから、導電ライン2a,2bの断面積やその収納スペースを小さくできる。   When a plurality of wiring ducts 10 are connected in such a manner that the connecting module 40 is interposed between two adjacent wiring ducts 10, commercial AC power is supplied to the conductive lines 1 a and 1 b of each wiring duct 10. In addition, low-voltage AC power can be supplied to the conductive lines 2a and 2b, and the wiring length of the wiring duct 10 can be extended. In addition, since the low voltage power source 42 provided in the connecting module 40 supplies the low voltage AC power only to the wiring duct 10 directly connected to the connecting module 40, the load connected to the low voltage power source 42 is reduced. Since the number is limited to the number that can be connected to one wiring duct 10, the current capacity of the low-voltage power supply unit 42 can be reduced, and the low-voltage power supply unit 42 can be reduced in size and cost. Further, the current value of the current flowing through the low-voltage conductive lines 2a and 2b provided in the wiring duct 10 is also limited to a predetermined current value or less by limiting the number of loads that can be connected to the low-voltage power supply unit 42. Therefore, the cross-sectional area of the conductive lines 2a and 2b and the storage space thereof can be reduced.

ところで、上述の実施形態では、商用交流電源を供給する導電ライン1a,1bに接続するためのプラグ20Aと、低圧の交流電源を供給する導電ライン2a,2bに接続するためのプラグ20Bとを別々に用意しているが、図5に示すように1つのプラグ20Cに、商用交流電源用の導電ライン1a,1bに電気的に接続するための集電子26a,26bと、低圧用の導電ライン2a,2bに電気的に接続するための集電子27a,27bとを設け、ボディ21に設けた切替スイッチ(図示せず)の切替操作に応じて、集電子26a,26bを介して供給される商用交流電源を負荷に供給するか、或いは、集電子27a,27bを介して供給される低圧交流電源を負荷に供給するかを選択するようにしても良く、1つのプラグ20Cで商用交流電源用のプラグと、低圧交流電源用のプラグとを兼用することができる。   By the way, in above-mentioned embodiment, the plug 20A for connecting to the conductive lines 1a and 1b for supplying commercial AC power and the plug 20B for connecting to the conductive lines 2a and 2b for supplying low-voltage AC power are separately provided. As shown in FIG. 5, current collectors 26a and 26b for electrically connecting to a commercial AC power source conductive lines 1a and 1b and a low voltage conductive line 2a are connected to one plug 20C as shown in FIG. , 2b are connected to current collectors 27a, 27b, and are supplied via current collectors 26a, 26b in response to a switching operation of a selector switch (not shown) provided on body 21. It may be possible to select whether to supply AC power to the load or to supply low voltage AC power supplied via the current collectors 27a and 27b to the load. And plug for the flow power can be used also a plug for low-voltage AC power source.

本実施形態の配線ダクトを示し、(a)は正面図、(b)は側面図である。The wiring duct of this embodiment is shown, (a) is a front view, (b) is a side view. (a)は同上の配線ダクトに商用交流電源用のプラグを取り付けた状態の外観斜視図、(b)は商用交流電源用のプラグの正面図である。(A) is an external perspective view of a state in which a plug for commercial AC power is attached to the above wiring duct, and (b) is a front view of the plug for commercial AC power. (a)は同上の配線ダクトに低圧電源用のプラグを取り付けた状態の外観斜視図、(b)は低圧電源用のプラグの正面図である。(A) is an external perspective view of a state where a plug for a low-voltage power supply is attached to the above-described wiring duct, and (b) is a front view of the plug for a low-voltage power supply. (a)は同上の配線ダクトに連結用ブロックを接続する前の状態の説明図、(b)は複数の配線ダクトを連結用ブロックを介して連結した状態の説明図である。(A) is explanatory drawing of the state before connecting a connection block to the same wiring duct, (b) is explanatory drawing of the state which connected the several wiring duct via the connection block. 同上の配線ダクトに用いる他のプラグの正面図である。It is a front view of the other plug used for a wiring duct same as the above. 従来の配線ダクトにプラグを接続した状態の外観斜視図である。It is an external appearance perspective view of the state which connected the plug to the conventional wiring duct. (a)は配線ダクトにプラグを接続する前の状態を示す正面図、(b)は配線ダクトにプラグを接続した状態の正面図である。(A) is a front view which shows the state before connecting a plug to a wiring duct, (b) is a front view of the state which connected the plug to the wiring duct.

符号の説明Explanation of symbols

1a,1b 第1の導電ライン
2a,2b 第2の導電ライン
10 配線ダクト
11 ダクト本体
12 開口
1a, 1b 1st conductive line 2a, 2b 2nd conductive line 10 Wiring duct 11 Duct body 12 Opening

Claims (2)

断面が矩形状に形成された筒状であって、一面に内部と外部を連通する開口が長手方向に沿って形成されたダクト本体を備え、
前記ダクト本体の内部に、前記開口を通して前記ダクト本体の内部に挿入された商用交流電源用のプラグに電気的に接続され、前記商用交流電源用のプラグを介して負荷に商用交流電源を供給する第1の導電ラインと、前記開口を通して前記ダクト本体の内部に挿入された低圧交流電源用のプラグに電気的に接続され、前記低圧交流電源用のプラグを介して負荷に商用交流電源よりも低圧の交流電源を供給する第2の導電ラインとを、前記ダクト本体の長手方向に沿って配置するとともに、
隣接する2つの前記ダクト本体の間を連結する連結用モジュールに、両側の前記ダクト本体に収納された前記第1の導電ラインの間を電気的に接続する導電部材と、前記導電部材から供給された商用交流電源を低圧の交流電源に降圧して、前記隣接する2つの前記ダクト本体のうち一方の前記ダクト本体に収納された前記第2の導電ラインのみに前記低圧の交流電源を供給する電圧変換部とを設けたことを特徴とする配線ダクト。
The cross section is formed in a rectangular shape, and includes a duct body in which an opening that communicates the inside and the outside is formed along the longitudinal direction on one surface.
Inside the duct body, the opened through the connection the commercial AC power source that is inserted into the duct body of the plug to electrically supply the commercial AC power source to the load via a plug for the commercial AC power source a first electrically conductive lines, wherein an opening through the connection the duct body of the plug for low-voltage AC power source which is inserted into the electrical, pressure lower than the commercial AC power source to the load via a plug for the low AC power supply a second conductive line for supplying the AC power, as well as arranged along the longitudinal direction of the duct body,
A connecting module for connecting the adjacent two of said duct body, and a conductive member electrically connecting the first conductive lines which is accommodated on both sides of the duct body, being supplied from said conductive member and the commercial AC power supply to step down to the low pressure of the AC power source, said adjacent two of said ducts one of said housed in duct body second conductive lines only voltage supplies AC power to the low pressure of the body A wiring duct comprising a conversion portion.
前記第1の導電ラインが、前記第2の導電ラインに対して、前記開口からより遠い位置に配置されたことを特徴とする請求項1記載の配線ダクト The wiring duct according to claim 1, wherein the first conductive line is disposed at a position farther from the opening than the second conductive line .
JP2006018223A 2006-01-26 2006-01-26 Wiring duct Expired - Fee Related JP4839859B2 (en)

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US7819676B1 (en) * 2009-11-12 2010-10-26 Power Distribution Inc. Electrical power distribution system
JP2012010484A (en) * 2010-06-24 2012-01-12 Panasonic Electric Works Co Ltd Wiring duct, wiring duct connection component and electrical apparatus for wiring duct
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JP2016181420A (en) * 2015-03-24 2016-10-13 東芝ライテック株式会社 Connection device
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