JP6330187B2 - Board equipment wiring structure - Google Patents
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- JP6330187B2 JP6330187B2 JP2013210709A JP2013210709A JP6330187B2 JP 6330187 B2 JP6330187 B2 JP 6330187B2 JP 2013210709 A JP2013210709 A JP 2013210709A JP 2013210709 A JP2013210709 A JP 2013210709A JP 6330187 B2 JP6330187 B2 JP 6330187B2
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Description
本発明は、盤用機器の配線構造に関するものである。 The present invention relates to a wiring structure for board equipment.
太陽光発電システムで用いられる太陽光接続箱には、各ソーラーパネルで発電した電気が、複数本のケーブルを介して集められる。通常、各ケーブルは、太陽光接続箱の内部で接続され、遮断器を経て、1本の大容量の電線として出線される(例えば、特許文献1の図1)。 In the solar connection box used in the solar power generation system, electricity generated by each solar panel is collected via a plurality of cables. Usually, each cable is connected inside the solar connection box, and is output as one large-capacity electric wire through a circuit breaker (for example, FIG. 1 of Patent Document 1).
しかし、大容量の電線はケーブル径が大きくなるため、法的にケーブルサイズの制約等がある場合には、遮断器から複数本の電線(例えば、4条配線)として出線されることとなる。 However, since a large-capacity electric wire has a large cable diameter, if there are legal restrictions on the cable size, etc., it will be output from the circuit breaker as a plurality of electric wires (for example, four wires). .
遮断器の端子部と電線とは、電線の端部に設けた圧着端子を遮断器の端子部に圧着させて接続されるが、上記のように、出線する電線数を増加させる場合、一つの端子部に複数の圧着端子を圧着させて使用するか、あるいは、遮断器に隣接して、出線する電線数分の端子部を備えた端子台を新たに設けて配線を行っていた。 The terminal part of the breaker and the electric wire are connected by crimping the crimp terminal provided at the end of the electric wire to the terminal part of the circuit breaker. A plurality of crimp terminals are crimped to one terminal part, or wiring is performed by newly providing a terminal block having terminal parts for the number of outgoing wires adjacent to the circuit breaker.
しかし、一つの端子部に複数の圧着端子を圧着させて使用する場合には、一つの端子部に一つの圧着端子を圧着させて使用する場合と比べて、圧着に用いているネジに緩みが発生しやすく、複数本の電線の荷重による端子部への負荷が大きくなる問題があった。 However, when using multiple crimp terminals crimped on one terminal part, the screws used for crimping are looser than when using one crimp terminal crimped on one terminal part. There is a problem that the load is easily generated and the load on the terminal due to the load of a plurality of electric wires becomes large.
また、出線する電線数分の端子部を備えた端子台を新たに設けて配線を行う場合には、端子台の追加分、太陽光接続箱を大型化する必要があり、コンパクトな太陽光接続箱を実現できない問題があった。 In addition, when wiring is performed by newly providing a terminal block with terminal parts for the number of outgoing wires, it is necessary to increase the size of the solar connection box by adding the terminal block. There was a problem that the connection box could not be realized.
本発明の目的は前記問題を解決し、盤用機器の端子部から出線する電線数を増加させる場合にも、新たな端子台の増加という手段によらず、かつ、端子部と圧着端子との圧着に緩みを生じることなく、かつ、端子部への負担を増加させることなく出線を行うことができる技術を提供することである。 The object of the present invention is to solve the above-mentioned problem and to increase the number of wires coming out from the terminal part of the panel equipment, without increasing the number of new terminal blocks, and the terminal part and the crimp terminal. It is to provide a technique capable of performing outgoing wiring without loosening the crimping and without increasing the burden on the terminal portion.
上記課題を解決するためになされた本発明は、キャビネットの機器取り付け面に取り付けた盤用機器の複数の端子部から、リードバーを介して、電線の出線を行う盤用機器の配線構造であって、前記リードバーは、前記端子部と接続され、前記機器取り付け面と平行配置される端子接続部と、この端子接続部とは別部材として構成された延設部とを備え、前記延設部は、前記機器取り付け面と反対方向に向けて折り曲げ形成した折り曲げ辺を有する略L字形状であり、前記折り曲げ辺に、電線を接続する電線接続部を、電線出線方向に対して垂直方向に並設して複数形成し、前記端子部への接続方向から電線を出線可能としたことを特徴とするものである。 This invention made in order to solve the said subject is the wiring structure of the apparatus for board | boards which leads an electric wire through the lead bar from the several terminal part of the apparatus for board | substrates attached to the apparatus attachment surface of a cabinet. The lead bar includes a terminal connecting portion connected to the terminal portion and arranged in parallel with the device mounting surface, and an extending portion configured as a separate member from the terminal connecting portion. The installation portion has a substantially L-shape having a bent side that is bent in the direction opposite to the device mounting surface, and the electric wire connecting portion that connects the electric wire is perpendicular to the electric wire outgoing direction. A plurality of wires are formed side by side in the direction, and an electric wire can be led out from the connecting direction to the terminal portion.
請求項2記載の発明は、請求項1記載の盤用機器の配線構造において、前記延設部は、前記端子接続部に重ねて配置される接合辺と、該接合辺を、前記機器取り付け面と反対方向に向けて垂直に折り曲げ形成した折り曲げ辺からなることを特徴とするものである。 The invention according to claim 2 is the wiring structure for board equipment according to claim 1 , wherein the extended portion is arranged so as to overlap the terminal connection portion, and the joint side is connected to the device mounting surface. It is characterized by comprising bent sides that are vertically bent in the opposite direction.
請求項3記載の発明は、請求項1または請求項2記載の盤用機器の配線構造において、前記盤用機器の端部には、端子部の上端及びリードバーを被覆するように前記機器取り付け面と平行配置される保護カバーを備え、前記延設部を、該保護カバーと前記端子接続部との間に形成される空間に配置したことを特徴とするものである。 According to a third aspect of the present invention, in the wiring structure of the board equipment according to the first or second aspect , the equipment is attached to the end of the board equipment so as to cover the upper end of the terminal portion and the lead bar. A protective cover arranged in parallel with the surface is provided, and the extending portion is arranged in a space formed between the protective cover and the terminal connecting portion.
本発明に係る盤用機器の配線構造は、キャビネットの機器取り付け面に取り付けた盤用機器の複数の端子部から、リードバーを介して、電線の出線を行う盤用機器の配線構造であって、前記リードバーは、前記端子部と接続され、前記機器取り付け面と平行配置される端子接続部と、この端子接続部とは別部材として構成された延設部とを備え、前記延設部は、前記機器取り付け面と反対方向に向けて折り曲げ形成した折り曲げ辺を有する略L字形状であり、前記折り曲げ辺に、電線を接続する電線接続部を、電線出線方向に対して垂直方向に並設して複数形成し、前記端子部への接続方向から電線を出線可能とした。これにより、電線の圧着端子を重ねることなく、1つの相に複数の電線を省スペースで配線することが可能となり、端子部と圧着端子との圧着に緩みを生じることなく、かつ、端子部への負担を増加させることのない出線が実現可能となる。 The wiring structure of a board device according to the present invention is a wiring structure of a board device that leads out an electric wire from a plurality of terminal portions of the board device attached to the equipment mounting surface of the cabinet via a lead bar. Te, the lead bar is connected to the terminal portion, a terminal connecting portion that is arranged in parallel with the device mounting surface, and a extended portion configured as a separate member from this terminal connection portion, the extension The portion has a substantially L shape having a bent side that is bent in a direction opposite to the device mounting surface, and a wire connecting portion that connects an electric wire to the bent side is perpendicular to the wire outgoing direction. A plurality of wires are arranged in parallel, and the wires can be drawn out from the connecting direction to the terminal portion. As a result, it is possible to wire a plurality of electric wires in one phase in a space-saving manner without overlapping the crimp terminals of the wires, without causing looseness in crimping between the terminal portion and the crimp terminal, and to the terminal portion. It is possible to realize an outgoing line that does not increase the burden on the customer.
また、本発明によれば、端子接続部に対して垂直方向の空間を、複数の電線を配線するスペースとすることができるとともに、電線同士の重なりを防止することが可能となる。 Moreover, according to this invention, while being able to make the space of the orthogonal | vertical direction with respect to a terminal connection part the space which wires a some electric wire, it becomes possible to prevent the electric wires from overlapping.
なお、端子接続部と延設部を別部材として構成し、延設部は、端子接続部に重ねて配置される接合辺と、接合辺を機器取り付け面と反対方向に向けて垂直に折り曲げ形成した折り曲げ辺からなるものとしてもよい。これにより、使用されない無駄な材料を減らすことができ、材料効率が良い。 The terminal connection part and the extension part are configured as separate members, and the extension part is formed by bending the joint side arranged to overlap with the terminal connection part and the joint side in a direction perpendicular to the device mounting surface. It may be composed of bent sides. Thereby, useless material which is not used can be reduced, and material efficiency is good.
また、折り曲げ辺に、電線接続部として、複数の孔部を、折り曲げ方向に並列して形成することが好ましく、これにより端子接続部に対して垂直方向の空間を利用して複数の電線を接続可能とするとともに、各圧着端子を確実に締め付けることが可能となる。 Moreover, it is preferable to form a plurality of holes in the bent side as a wire connecting portion in parallel in the bending direction, thereby connecting a plurality of wires using a space perpendicular to the terminal connecting portion. In addition, each crimp terminal can be securely tightened.
なお、盤用機器の端部には、端子部の上端及びリードバーを被覆するように機器取り付け面と平行配置される保護カバーを備え、延設部を、保護カバーと端子接続部との間に形成される空間に配置することがより好ましい。これにより、導電部への異物の侵入や手の接触等を防止することが可能となる。 In addition, the end part of the board equipment is provided with a protective cover arranged in parallel with the equipment mounting surface so as to cover the upper end of the terminal part and the lead bar, and the extension part is provided between the protective cover and the terminal connection part. It is more preferable to arrange in the space formed in the. As a result, it is possible to prevent foreign matter from entering the conductive portion, hand contact, and the like.
以下に本発明の好ましい実施形態を示す。
図1において、キャビネット1は太陽光接続箱である。キャビネット1内部には、図示しない太陽光パネルからの電流が入力される入力開閉器2が取り付けられており、入力開閉器2のP極からは、逆流防止ダイオード3とP極銅バー4とを介して、キャビネット1内部の出力側に取り付けられた出力側遮断器5の入力端子部6へと入力線7を介して電流が入力される。また、入力開閉器2のN極からは、N極銅バー8を介して、出力側遮断器5の入力端子部6へと、入力線7を介して電流が入力される。出力側遮断器5の入力端子部6と同側には、出力端子部9が形成されており、この出力端子部9から出力線10を図1の紙面下方向に出線することにより、客先である図示しないパワーコンディショナや集電箱等に電流が出力される。また、本実施形態では、入力端子部6と出力端子部9の反対側の端子部で入力端子部6と出力端子部9を直列に接続し、その直列回路内に2つの接点を設けることで、大きい電流容量が必要とされる使用環境に対応している。なお、本明細書において、上下方向、左右方向とは、図1のように出力側遮断器5をキャビネット1内部に取り付けた際の方向を、各々意味するものとする。
Preferred embodiments of the present invention are shown below.
In FIG. 1, the cabinet 1 is a solar connection box. An input switch 2 to which a current from a solar panel (not shown) is input is attached inside the cabinet 1. From the P pole of the input switch 2, a backflow prevention diode 3 and a P pole copper bar 4 are connected. Thus, current is input via the input line 7 to the input terminal portion 6 of the output-side circuit breaker 5 attached to the output side inside the cabinet 1. Further, current is input from the N pole of the input switch 2 to the input terminal portion 6 of the output side circuit breaker 5 via the input line 7 via the N pole copper bar 8. An output terminal portion 9 is formed on the same side as the input terminal portion 6 of the output side circuit breaker 5, and an output line 10 is output from the output terminal portion 9 downward in FIG. A current is output to a power conditioner, a current collection box or the like (not shown). Moreover, in this embodiment, the input terminal part 6 and the output terminal part 9 are connected in series at the terminal part opposite to the input terminal part 6 and the output terminal part 9, and two contacts are provided in the series circuit. Corresponding to the usage environment where a large current capacity is required. In addition, in this specification, the up-down direction and the left-right direction mean directions when the output-side circuit breaker 5 is attached inside the cabinet 1 as shown in FIG.
出力側遮断器5における複数の出力端子部9と出力線10との配線構造は、第1の実施形態として図2に示すように、リードバー11を介して行われる。リードバー11は、出力端子部9と接続され、出力側遮断器5の取り付け面と平行に配置される端子接続部12と、端子接続部12に別部材として取り付けられる略L字状の延設部13とからなるものである。なお、延設部13は、図3のように、端子接続部12に重ねて配置される接合辺14と、接合辺14を出力側遮断器5の取り付け面と反対方向に向けて垂直に折り曲げ形成した折り曲げ辺15とからなるものとした。なお、折り曲げ辺15は、出力側遮断器5の取り付け面と反対方向に向けて垂直に折り曲げ形成したものに限定されず、出力側遮断器5の取り付け面と反対側に折り曲げ形成していればよいものである。さらに、延設部13の折り曲げ辺15には接続孔16を形成し、この接続孔16に出力線10の圧着端子を固定してなる電線接続部17を形成し、電線接続部17の電線を接続する面は図1の紙面下方向と並列して形成した。これらの電線接続部17は、電線出線方向に対して垂直方向に並設して複数形成されることとなる。接続孔16は、使用環境に応じて折り曲げ辺15の折り曲げ方向に複数形成されたものであり、第1の実施形態においては1つの相に各々2つの接続孔16を形成することにより、各々2つの電線接続部17を備えるものとした。 The wiring structure of the plurality of output terminal portions 9 and the output lines 10 in the output-side circuit breaker 5 is performed via a lead bar 11 as shown in FIG. 2 as the first embodiment. The lead bar 11 is connected to the output terminal unit 9 and is arranged in parallel with the mounting surface of the output-side circuit breaker 5, and the substantially L-shaped extension that is attached to the terminal connection unit 12 as a separate member. It consists of the part 13. As shown in FIG. 3, the extending portion 13 is bent vertically so that the joint side 14 arranged to overlap the terminal connection portion 12 and the joint side 14 are directed in the direction opposite to the mounting surface of the output circuit breaker 5. The bent side 15 was formed. The bent side 15 is not limited to the one that is bent perpendicularly in the direction opposite to the mounting surface of the output-side circuit breaker 5, as long as it is bent on the opposite side to the mounting surface of the output-side circuit breaker 5. It ’s good. Further, a connecting hole 16 is formed in the bent side 15 of the extending portion 13, an electric wire connecting portion 17 is formed by fixing the crimp terminal of the output line 10 to the connecting hole 16, and the electric wire of the electric wire connecting portion 17 is connected. The surface to be connected was formed in parallel with the downward direction in FIG. A plurality of these electric wire connecting portions 17 are formed side by side in the direction perpendicular to the electric wire outgoing direction . A plurality of the connection holes 16 are formed in the bending direction of the bending side 15 according to the use environment. In the first embodiment, two connection holes 16 are formed in one phase, so that each of the two connection holes 16 has two. Two electric wire connection portions 17 are provided.
前記構成により、出力線10の圧着端子を重ねることなく、1つの相に複数の出力線10を省スペースで配線することが可能となり、電線接続部17における圧着端子の圧着に緩みを生じることなく、かつ、電線接続部17への負担を増加させることのない出線が実現可能となる。また、電線接続部17の電線を接続する面を図1の紙面下方向と並列して形成することで、出力線10は同一方向すなわち図1の紙面下方向に出線可能となり、出力線10を1箇所にまとめて出線することができるので、客先での配線が容易となる。一方、P極とN極のそれぞれの出力線10を分岐して配線する場合、端子接続部12に対する延設部13の取付角度を変更するなど、出力線10を異方向に出線することも可能である。また、延設部13には出力側遮断器5の取り付け面と反対側に折り曲げ形成した折り曲げ辺15を備えたことにより、図3のように端子接続部12に対して出力側遮断器5の取り付け面と反対側の空間を複数の出力線10を配線するスペースとすることができることから、入力線7と電線接続部17とが重複せず、また出力線10同士の重なりも防止することが可能となる。さらに、折り曲げ辺15の折り曲げ方向に複数の接続孔16を形成したことにより、端子接続部12に対して出力側遮断器5の取り付け面と反対側の空間を利用して複数の出力線10を接続可能とするとともに、各圧着端子を確実に締め付けることが可能となる。 With the above-described configuration, it is possible to wire a plurality of output wires 10 in one phase in a space-saving manner without overlapping the crimp terminals of the output wires 10, and without loosening the crimping of the crimp terminals at the wire connection portion 17. And the outgoing line which does not increase the burden to the electric wire connection part 17 is realizable. Further, by forming the surface of the electric wire connecting portion 17 to which the electric wires are connected in parallel with the downward direction of the paper of FIG. 1, the output line 10 can be output in the same direction, that is, the downward direction of the paper of FIG. Can be wired in one place, making wiring at the customer easier. On the other hand, when the P-pole and N-pole output lines 10 are branched and wired, the output line 10 may be routed in different directions, for example, by changing the mounting angle of the extended portion 13 with respect to the terminal connection portion 12. Is possible. Further, since the extended portion 13 is provided with a bent side 15 that is bent on the opposite side of the mounting surface of the output side circuit breaker 5, the output side circuit breaker 5 is connected to the terminal connection portion 12 as shown in FIG. 3. Since the space on the opposite side of the mounting surface can be used as a space for wiring the plurality of output lines 10, the input line 7 and the electric wire connecting portion 17 do not overlap, and the output lines 10 can be prevented from overlapping each other. It becomes possible. Further, by forming the plurality of connection holes 16 in the bending direction of the bent side 15, the plurality of output lines 10 can be connected to the terminal connection portion 12 using the space opposite to the mounting surface of the output side circuit breaker 5. In addition to being connectable, each crimp terminal can be securely tightened.
また、異極間の短絡防止のため、図3のように各相の電線接続部17が離れた位置となるよう折り曲げ辺15を形成することが好ましい。なお、接続孔16の両側に圧着端子を取り付けて、1つの電線接続部17とすることもできる。 Further, in order to prevent short circuit between the different poles, it is preferable to form the bent side 15 so that the electric wire connecting portions 17 of the respective phases are separated as shown in FIG. In addition, a crimp terminal can be attached to both sides of the connection hole 16 to form one wire connection portion 17.
出力側遮断器5の端部には、図3のように出力端子部9の上端及びリードバー11を被覆するように出力側遮断器5の取り付け面と平行配置される保護カバー18を備え、延設部13を保護カバー18と端子接続部12との間に形成される空間に配置するものとした。これにより、導電部への異物の侵入や手の接触等を防止することが可能となる。 At the end of the output-side circuit breaker 5, as shown in FIG. 3, a protective cover 18 is provided that is arranged in parallel with the mounting surface of the output-side circuit breaker 5 so as to cover the upper end of the output terminal unit 9 and the lead bar 11. The extending portion 13 is disposed in a space formed between the protective cover 18 and the terminal connecting portion 12. As a result, it is possible to prevent foreign matter from entering the conductive portion, hand contact, and the like.
第1の実施形態において、図2及び図3のようにリードバー11と出力側遮断器5の取り付け面との間に形成される空間には、碍子19を介してリードバー11を固定するための土台部20が形成されている。これにより、リードバー11と出力側遮断器5の取り付け面との間の絶縁を図ることが可能となると同時に、出力線10やリードバー11の荷重による、出力端子部9への負荷を軽減させることができる。 In the first embodiment, the lead bar 11 is fixed to the space formed between the lead bar 11 and the mounting surface of the output circuit breaker 5 as shown in FIGS. The base part 20 is formed. Thereby, insulation between the lead bar 11 and the mounting surface of the output circuit breaker 5 can be achieved, and at the same time, the load on the output terminal portion 9 due to the load of the output wire 10 and the lead bar 11 is reduced. be able to.
図4には、第1の参考形態を示す。延設部13は、端子接続部12に重ねて配置される接合辺14と、接合辺14を出力側遮断器5の取り付け面と反対方向に向けて垂直に折り曲げ形成した折り曲げ辺15と、折り曲げ辺15の端部から、出力側遮断器5の取り付け面と平行配置される平行辺21を左右方向に延設したクランク形状とすることができる。これにより、第1の実施形態と同様に、端子接続部12に対して出力側遮断器5の取り付け面と反対側の空間を複数の出力線10を配線するスペースとすることができることから、入力線7と電線接続部17とが重複せず、また出力線10同士の重なりも防止することが可能となる。このとき、接続孔16は平行辺21に延設方向に亘って並列に形成されるが、使用環境に応じて接続孔16を折り曲げ辺15に形成してもよい。なお、その他の構造については、前述した第1の実施形態と同様である。 FIG. 4 shows a first reference form . The extending portion 13 includes a joining side 14 that is disposed so as to overlap the terminal connection portion 12, a folding side 15 that is formed by bending the joining side 14 in a direction perpendicular to the mounting surface of the output-side circuit breaker 5, From the end of the side 15, a crank shape in which a parallel side 21 arranged in parallel with the mounting surface of the output-side circuit breaker 5 extends in the left-right direction can be formed. As a result, as in the first embodiment, the space opposite to the mounting surface of the output circuit breaker 5 with respect to the terminal connection portion 12 can be used as a space for wiring the plurality of output lines 10. The line 7 and the electric wire connection part 17 do not overlap, and the output lines 10 can be prevented from overlapping each other. At this time, the connection hole 16 is formed in parallel to the parallel side 21 in the extending direction, but the connection hole 16 may be formed in the bent side 15 according to the use environment. Other structures are the same as those in the first embodiment described above.
図5には、第2の参考形態を示す。これは、前述した第1の参考形態の平行辺21を、出力線10の出線方向、すなわち下方向に延びるよう形成したものである。このとき、電線接続部17は、端子接続部12の端部と平行辺21の端部とに形成するものとしたが、使用状況に応じて変更可能である。なお、その他の構造については、前述した第1の実施形態と同様である。 FIG. 5 shows a second reference form . In this configuration , the parallel sides 21 of the first reference embodiment described above are formed so as to extend in the outgoing line direction of the output line 10, that is, in the downward direction. At this time, although the electric wire connection part 17 shall be formed in the edge part of the terminal connection part 12, and the edge part of the parallel side 21, it can change according to a use condition. Other structures are the same as those in the first embodiment described above.
以上のように、出力線10は図1の紙面下方向に出線するものであるが、例えば屋内設置等の理由から図1の紙面左右方向への出線を行う際には、第3の参考形態として図6に示すように、延設部13の取り付け方向を変更することによって出力線10の出線方向を変更することができる。なお、第1の実施形態においては、リードバー11を構成する端子接続部12と延設部13とを別部材とすることにより、使用されない無駄な材料を減らし材料効率を良くしたが、図6の第3の参考形態に示すように、端子接続部12と延設部13とを一体形成してもよい。 More than one time, as the output line 10 is for outgoing line to the downward direction as viewed in FIG. 1, for example, for reasons such as indoor installation when making outgoing to the left-right direction in FIG. 1, third As shown in FIG. 6 as a reference form , the outgoing line direction of the output line 10 can be changed by changing the mounting direction of the extending portion 13. In the first embodiment , the terminal connecting portion 12 and the extending portion 13 constituting the lead bar 11 are separated from each other, thereby reducing unnecessary materials that are not used and improving the material efficiency. As shown in the third reference form , the terminal connecting portion 12 and the extending portion 13 may be integrally formed.
また、電線接続部17が端子接続部12に対して出力側遮断器5の取り付け面と反対側に延びる位置に形成され、かつ入力線7と重ならない位置であり、かつ保護カバー18内に形成していれば、延設部13の形状は限定されることはない。 Further, the electric wire connecting portion 17 is formed at a position extending on the opposite side to the mounting surface of the output-side circuit breaker 5 with respect to the terminal connecting portion 12, and does not overlap the input line 7 and is formed in the protective cover 18. If it does, the shape of the extension part 13 will not be limited.
以上のように、本発明は太陽光接続箱に取り付けられた出力側遮断器5の配線構造に関するものであるが、その他にも、他の機器を収めた電気機器収納用箱においても適用可能であり、また出力側遮断器5のみならず、その他端子部を備えた機器にも本発明の配線構造は適用できるものである。 As described above, the present invention relates to the wiring structure of the output-side circuit breaker 5 attached to the solar connection box, but can also be applied to an electrical equipment storage box containing other equipment. In addition, the wiring structure of the present invention can be applied not only to the output-side circuit breaker 5 but also to other devices having terminal portions.
1 キャビネット
2 入力開閉器
3 逆流防止ダイオード
4 P極銅バー
5 出力側遮断器
6 入力端子部
7 入力線
8 N極銅バー
9 出力端子部
10 出力線
11 リードバー
12 端子接続部
13 延設部
14 接合辺
15 折り曲げ辺
16 接続孔
17 電線接続部
18 保護カバー
19 碍子
20 土台部
21 平行辺
DESCRIPTION OF SYMBOLS 1 Cabinet 2 Input switch 3 Backflow prevention diode 4 P pole copper bar 5 Output side circuit breaker 6 Input terminal part 7 Input line 8 N pole copper bar 9 Output terminal part 10 Output line 11 Lead bar 12 Terminal connection part 13 Extension part 14 Joining side 15 Bending side 16 Connection hole 17 Wire connection part 18 Protective cover 19 Insulator 20 Base part 21 Parallel side
Claims (3)
前記リードバーは、
前記端子部と接続され、前記機器取り付け面と平行配置される端子接続部と、この端子接続部とは別部材として構成された延設部とを備え、
前記延設部は、前記機器取り付け面と反対方向に向けて折り曲げ形成した折り曲げ辺を有する略L字形状であり、
前記折り曲げ辺に、電線を接続する電線接続部を、電線出線方向に対して垂直方向に並設して複数形成し、前記端子部への接続方向から電線を出線可能としたことを特徴とする盤用機器の配線構造。 It is a wiring structure of a panel device that leads out an electric wire from a plurality of terminal portions of the panel device attached to the device mounting surface of the cabinet via a lead bar,
The lead bar is
A terminal connecting portion connected to the terminal portion and arranged in parallel with the device mounting surface; and an extending portion configured as a separate member from the terminal connecting portion,
The extending portion is substantially L-shaped having a bent side that is bent in the opposite direction to the device mounting surface.
A plurality of electric wire connecting portions for connecting electric wires are arranged in the bent side in a direction perpendicular to the electric wire outgoing direction, and the electric wires can be outgoing from the connecting direction to the terminal portion. Wiring structure of the equipment for the board.
前記端子接続部に重ねて配置される接合辺と、該接合辺を、前記機器取り付け面と反対方向に向けて垂直に折り曲げ形成した折り曲げ辺からなることを特徴とする請求項1記載の盤用機器の配線構造。 The extending portion is
The board side according to claim 1 , comprising: a joining side arranged to overlap the terminal connection portion; and a folding side formed by bending the joining side perpendicularly in a direction opposite to the device mounting surface . Equipment wiring structure.
前記延設部を、該保護カバーと前記端子接続部との間に形成される空間に配置したことを特徴とする請求項1または2記載の盤用機器の配線構造。 At the end of the panel equipment is provided with a protective cover arranged in parallel with the equipment mounting surface so as to cover the upper end of the terminal portion and the lead bar,
The wiring structure for board equipment according to claim 1, wherein the extended portion is disposed in a space formed between the protective cover and the terminal connection portion .
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