JP2901927B2 - Earth leakage breaker - Google Patents

Earth leakage breaker

Info

Publication number
JP2901927B2
JP2901927B2 JP28369096A JP28369096A JP2901927B2 JP 2901927 B2 JP2901927 B2 JP 2901927B2 JP 28369096 A JP28369096 A JP 28369096A JP 28369096 A JP28369096 A JP 28369096A JP 2901927 B2 JP2901927 B2 JP 2901927B2
Authority
JP
Japan
Prior art keywords
zero
current transformer
earth leakage
overcurrent
phase current
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP28369096A
Other languages
Japanese (ja)
Other versions
JPH09167555A (en
Inventor
宏 松田
輝美 嶋野
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hitachi Ltd
Hitachi Plant Technologies Ltd
Original Assignee
Hitachi Techno Engineering Co Ltd
Hitachi Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hitachi Techno Engineering Co Ltd, Hitachi Ltd filed Critical Hitachi Techno Engineering Co Ltd
Priority to JP28369096A priority Critical patent/JP2901927B2/en
Publication of JPH09167555A publication Critical patent/JPH09167555A/en
Application granted granted Critical
Publication of JP2901927B2 publication Critical patent/JP2901927B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】本発明は、零相変流器、可動接点
台、導電線、漏電検出部、過電流リレー部を有する漏電
遮断器に係り、特に零相変流器と過電流リレー部の組立
作業性と絶縁信頼性の向上に好適な漏電遮断器に関す
る。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an earth leakage circuit breaker having a zero-phase current transformer, a movable contact block, a conductive wire, an earth leakage detector, and an overcurrent relay, and more particularly to a zero-phase current transformer and an overcurrent relay. The present invention relates to an earth leakage breaker suitable for improving the workability of assembly and insulation reliability.

【0002】[0002]

【従来の技術】従来の漏電遮断器は特開昭60−230
333号公報に開示されているように、漏電遮断器の外
形寸法が比較的大きく余裕があるため、零相変流器を過
電流検出装置と負荷側端子との間に配置していた。
2. Description of the Related Art A conventional earth leakage breaker is disclosed in Japanese Patent Application Laid-Open No. 60-230.
As disclosed in Japanese Patent No. 333, the outer dimensions of the earth leakage breaker are relatively large and there is a margin, so that the zero-phase current transformer is arranged between the overcurrent detection device and the load side terminal.

【0003】[0003]

【発明が解決しようとする課題】上記従来技術は、過電
流検出装置と負荷側端子との間に零相変流器を設置する
ためのスペースを必要とし、漏電遮断器の電源側端子か
ら負荷側端子に至る寸法が大きくなり、漏電遮断器を小
型化して協約形寸法に仕上げることが非常に困難であっ
た。
The above prior art requires a space for installing a zero-phase current transformer between the overcurrent detection device and the load terminal, and the load is connected from the power supply terminal of the earth leakage breaker to the load. The dimensions up to the side terminals have become large, and it has been very difficult to reduce the size of the earth leakage breaker to a contracted size.

【0004】また、本発明に至る過程で漏電遮断器の小
型化を図るために図12〜図16に示すように、オイル
ダッシュポットリレーの下部に零相変流器を納めること
が検討された。すなわち、図13に示すように底面にケ
ース穴部1a’を有する漏電遮断器ケース1’に図12
に示すような負荷側端子15’、ダッシュポットリレー
部14、貫通線11’、零相変流器13、可動絶縁軸体
7’可動接点台8’の組み立て品を装着することが検討
された。漏電遮断器ケース1’のダッシュポットリレー
部14の取り付け部分はケース底面を上げ底にした形で
他の部分と一体に形成され、この取り付け部分の上側に
はダッシュポットリレー部14が装着され、下側には零
相変流器13と漏電検出部27’が装着される。図14
〜図16はこの漏電遮断器の組立段階を示し、ダッシュ
ポットリレー部14を装着後、各極の貫通線11’が貫
通する零相変流器13と漏電検出部27’をケース穴部
1a’へ挿入してダッシュポットリレー下側の所定位置
に固定する過程を順に示している。
Further, in order to reduce the size of the earth leakage breaker in the process leading to the present invention, it has been considered to install a zero-phase current transformer below the oil dash pot relay as shown in FIGS. . That is, as shown in FIG. 13, the earth leakage breaker case 1 ′ having the case hole
It has been considered to attach an assembly of the load side terminal 15 ', the dashpot relay section 14, the through wire 11', the zero-phase current transformer 13, the movable insulating shaft 7 'and the movable contact stand 8' as shown in FIG. . The mounting portion of the dashpot relay portion 14 of the earth leakage circuit breaker case 1 'is formed integrally with the other portion with the case bottom raised and the bottom, and the dashpot relay portion 14 is mounted above the mounting portion, and The zero-phase current transformer 13 and the leakage detection unit 27 'are mounted on the side. FIG.
16 to 16 show the steps of assembling the earth leakage breaker. After the dashpot relay section 14 is mounted, the zero-phase current transformer 13 through which the through wire 11 'of each pole penetrates and the earth leakage detection section 27' are inserted into the case hole 1a. , And the process of fixing the dashpot relay at a predetermined position below the dashpot relay is shown in order.

【0005】この案では、漏電遮断器のケース上面側か
ら零相変流器、漏電検出回路用プリント基板を含む漏電
検出手段、過電流検出手段であるダッシュポットリレー
部を組付けるに際して、零相変流器13および漏電検出
部27’の装着の作業性が悪いとともに零相変流器13
を貫通する導線の絶縁チューブの損傷を招くなど絶縁信
頼性の点で問題がある。
In this case, when assembling a zero-phase current transformer, a leakage detecting means including a printed circuit board for a leakage detecting circuit, and a dashpot relay portion as an overcurrent detecting means from the upper surface side of the case of the leakage breaker. The workability of mounting the current transformer 13 and the leakage detector 27 'is poor, and the zero-phase current transformer 13
There is a problem in terms of insulation reliability, such as damage to the insulating tube of the conducting wire passing through the wire.

【0006】本発明の目的は上記問題点に鑑み、小型化
を図れるとともにケース内への部品装着の作業性の向上
および、絶縁信頼性の向上を図れる漏電遮断器を提供す
ることにある。
SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide an earth leakage circuit breaker that can be downsized, workability for mounting components in a case, and insulation reliability can be improved.

【0007】[0007]

【課題を解決するための手段】上記の目的は、複数極を
有する漏電遮断器の各極にそれぞれ設けられた固定接触
子と、これらの固定接触子のそれぞれに対応して各極に
設けられた可動接触子と、各極の可動接触子を実質的に
同時に開閉させる開閉機構と、過電流時に開閉機構の引
外しを行なう引外し機構と、各極の可動接触子にそれぞ
れ接続された接続線が貫通する零相変流器と、この零相
変流器に接続された検出回路と、この検出回路の出力に
より駆動される漏電引外し装置と、接続線に接続されて
各極毎に設けられて過電流を検出して引外しのための機
械的出力を発生する過電流検出部と、この過電流検出部
が装着される取付部材と、過電流検出部に接続された負
荷側端子と、固定接触子と可動接触子と開閉機構と引外
し機構と零相変流器と検出回路と漏電引外し装置と過電
流検出部と取付部材とを収納する筐体を備えた漏電遮断
器において、筐体は底部に各極の固定接触子が配設され
たケースを備え、取付部材は一方の側に過電流検出部を
複数極分装着するとともに他方の側に零相変流器を配設
できるよう構成され、過電流検出部と取付部材と負荷側
端子と接続線と零相変流器と可動接触子と開閉機構とを
一体に接続して組立品を構成し、零相変流器がケースの
底面に面するような向きに取付部材を配設して組立品を
筐体に着脱自在に装着したことにより達成される
An object of the present invention is to provide a multi-pole circuit.
Fixed contacts provided for each pole of the earth leakage breaker
And each pole corresponding to each of these fixed contacts
The movable contact provided and the movable contact of each pole are substantially
Opening / closing mechanism that opens and closes at the same time
A trip mechanism for removal and a movable contact for each pole
And a connected zero-phase current transformer
The detection circuit connected to the current transformer and the output of this detection circuit
Connected to the connection line with the earth leakage trip device driven by
A device provided for each pole for detecting overcurrent and tripping
Overcurrent detector that generates mechanical output, and this overcurrent detector
The mounting member to which is attached and the negative
Load side terminal, fixed contact, movable contact, switching mechanism and trip
Mechanism, zero-phase current transformer, detection circuit, earth leakage trip device and overcurrent
Leakage interrupter with housing for accommodating flow detector and mounting member
In the container, the fixed contact of each pole is arranged at the bottom of the housing.
The case has an overcurrent detector on one side.
Attach multiple poles and place zero-phase current transformer on the other side
So that the overcurrent detector, mounting member, and load
Terminals, connecting wires, zero-phase current transformers, movable contacts, and switching mechanisms
Connected together to form an assembly, and the zero-phase current transformer is
Install the mounting member so that it faces the bottom and
This is achieved by being detachably attached to the housing .

【0008】[0008]

【作用】零相変流器は電路の電流の不平衡により出力を
発生し、検出回路は零相変流器の出力から漏電を検出し
て引き外しのための出力を発生する。漏電引外装置は検
出回路の出力により駆動されて引き外し機構をトリップ
させる。可動接触子は開閉機構により固定接触子と開閉
動作を行なう。消弧装置は開閉の際のアークを消滅させ
る。過電流検出部は過電流を検出して過電流引き外し装
置を動作させ、引き外し機構をトリップさせる。取り付
け部材には過電流検出部および過電流引き外し装置が取
り付けられる。筐体は上記の構成要素を収納する。取り
付け部材は筐体底部から所定間隔離間して筐体に着脱自
在に装着されるので零相変流器の筐体への装着が容易に
なる。取り付け部材の上側に過電流検出部と過電流引き
外し装置が配置され、取り付け部材と筐体底部との間に
零相変流器が配置されるので過電流検出部を流れる電流
により発生する熱は筐体の上側に伝達され、零相変流器
の側に伝わるのが防止され、零相変流器を貫通する接続
線の絶縁被覆の熱による劣化を防止できる。組立品は可
動接触子から負荷側端子に至る部品を一つの部品として
筐体内に装着できるので部品装着の作業性が向上する。
また、過電流検出部と零相変流器とは取付部材の両側に
配置されているので省スペ−ス化を図れる。
The zero-phase current transformer generates an output due to the imbalance of the current in the electric circuit, and the detection circuit detects a leakage from the output of the zero-phase current transformer and generates an output for tripping. The earth leakage trip device is driven by the output of the detection circuit to trip the trip mechanism. The movable contact performs an opening and closing operation with the fixed contact by an opening and closing mechanism. The arc extinguishing device extinguishes the arc at the time of opening and closing. The overcurrent detecting section detects the overcurrent, operates the overcurrent trip device, and trips the trip mechanism. An overcurrent detection unit and an overcurrent trip device are attached to the attachment member. The housing houses the above components. Since the mounting member is detachably mounted on the housing at a predetermined distance from the housing bottom, the mounting of the zero-phase current transformer on the housing is facilitated. An overcurrent detection unit and an overcurrent trip device are disposed above the mounting member, and a zero-phase current transformer is disposed between the mounting member and the bottom of the housing, so that heat generated by a current flowing through the overcurrent detection unit is provided. Is transmitted to the upper side of the housing, is prevented from being transmitted to the zero-phase current transformer, and the insulation coating of the connection wire passing through the zero-phase current transformer can be prevented from being deteriorated by heat. In the assembly, the parts from the movable contact to the load-side terminals can be mounted as one part in the housing, so that the workability of mounting the parts is improved.
Further, since the overcurrent detector and the zero-phase current transformer are arranged on both sides of the mounting member, space can be saved.

【0009】[0009]

【実施例】以下本発明の実施例を図1〜図11および図
17、図18により説明する。
DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS.

【0010】本発明の第1実施例を図1〜図11を用い
て説明する。本実施例は3相用の漏電遮断器であり、図
1は本発明の第1実施例における漏電遮断器の側断面
図、図2は同平面図、図3は本実施例の要部組立斜視
図、図4は本実施例の可動接点台の組立斜視図、図5は
本実施例のオイルダッシュポットリレー部斜視図、図6
は本実施例の極間絶縁台の斜視図、図7は本実施例のオ
イルダッシュポットリレー部と極間絶縁台組立斜視図、
図8は本実施例の漏電遮断器ケースの平面図、図9は本
実施例におけるオイルダッシュポットリレー部のケース
への組込み作業図である。
A first embodiment of the present invention will be described with reference to FIGS. This embodiment is an earth leakage breaker for three phases. FIG. 1 is a side sectional view of an earth leakage breaker according to a first embodiment of the present invention, FIG. 2 is a plan view thereof, and FIG. FIG. 4 is an assembled perspective view of the movable contact stand of the present embodiment, FIG. 5 is a perspective view of an oil dash pot relay portion of the present embodiment, and FIG.
FIG. 7 is a perspective view of the gap insulating table of the present embodiment, FIG. 7 is an assembly perspective view of the oil dashpot relay section and the gap insulating table of the present embodiment,
FIG. 8 is a plan view of the earth leakage breaker case of the present embodiment, and FIG. 9 is a work view of assembling the oil dashpot relay portion in the case of the present embodiment.

【0011】本実施例の漏電遮断器は図1に示されるよ
うにケース1に格納された電源側端子に接続されて固定
接点23を有する固定接点台16、可動接点22を有し
固定接点台16と対向して配置された可動接点台8、可
動接点台8を保持する可動絶縁軸体7と操作ハンドル4
の動作を可動絶縁軸体7に伝達するレバー5を有する可
動接点台4の開閉機構、漏電電流を検出する零相変流器
13、零相変流器13の出力から漏電を検出して引き外
しのための出力を発生する漏電検出部27、漏電検出部
27に接続されその電気的出力により動作して引き外し
のための機械的出力を発生する引き外し装置19、過電
流を検出して引き外しのための機械的出力を発生するオ
イルダッシュポットリレー部(以下リレー部と略称す
る)14、漏電電流または過電流が流れたとき引き外し
装置19またはリレー部14の出力によりトリップ動作
をして開閉機構を引き外す引き外し機構30、負荷側端
子台15を有し、さらにケース1はその底面が裏蓋3で
覆われ、上面(操作ハンドル4のある側)がモールドカ
バー2で覆われている。
As shown in FIG. 1, the earth leakage breaker of this embodiment is connected to a power supply terminal stored in a case 1 and has a fixed contact base 16 having a fixed contact 23 and a fixed contact base having a movable contact 22. A movable contact shaft 8, a movable insulating shaft 7 holding the movable contact plate 8, and an operation handle 4.
Of the movable contact block 4 having the lever 5 for transmitting the above operation to the movable insulating shaft 7, a zero-phase current transformer 13 for detecting a leakage current, and detecting and drawing a leakage from the output of the zero-phase current transformer 13. A leakage detecting unit 27 that generates an output for disconnection; a tripping device 19 that is connected to the leakage detecting unit 27 and operates by the electric output to generate a mechanical output for tripping; An oil dashpot relay section (hereinafter abbreviated as a relay section) 14 for generating a mechanical output for tripping, and tripping is performed by an output of the tripping device 19 or the relay section 14 when leakage current or overcurrent flows. The case 1 further includes a trip mechanism 30 for tripping the opening / closing mechanism, and the load-side terminal block 15. The case 1 is covered with a back cover 3 on the bottom surface and covered with a mold cover 2 on the top surface (the side with the operation handle 4). And .

【0012】リレー部14は図1に示されるように過電
流を検出する検出部としてのコイル部分14bと、過電
流時にこのコイル部分に流れる電流によりコイルが励磁
されると吸引される可動コア14cの動作を機械的出力
として発生する過電流引き外し装置としてのオイルダッ
シュポットリレーを有し、この出力は可動コアの一部を
介して引き外し機構30に伝達される。
As shown in FIG. 1, the relay section 14 has a coil section 14b as a detecting section for detecting an overcurrent, and a movable core 14c which is attracted when the coil is excited by a current flowing through the coil section at the time of the overcurrent. Has an oil dashpot relay as an overcurrent tripping device that generates the above operation as a mechanical output, and this output is transmitted to the tripping mechanism 30 through a part of the movable core.

【0013】ケース1には図1、図3、図8および図9
に示すように、零相変流器13、リレー部14、漏電検
出部27が装着される部分の底面に開口する穴1aが形
成されている。この穴1aは各部品が装着された後下面
から取付けられた裏蓋3により覆われる。また、ケース
1、モールドカバー2および裏蓋3は筐体を形成してい
る。
FIGS. 1, 3, 8 and 9 show case 1.
As shown in FIG. 2, a hole 1a is formed on the bottom surface of the portion where the zero-phase current transformer 13, the relay unit 14, and the leakage detection unit 27 are mounted. This hole 1a is covered by a back cover 3 attached from the lower surface after each component is mounted. The case 1, the mold cover 2, and the back cover 3 form a housing.

【0014】本実施例では図3、図7、図9に示される
ようにリレー部14はその負荷側は負荷側端子15に接
続されるとともに、その電源側は零相変流器13を貫通
する接続線11により可動接点台8に接続された状態で
リレー部組み立て品としてあらかじめ組み立てられ、ケ
ース1に対して着脱自在に構成された取り付け部材とし
ての極間絶縁台20の上側に装着される。さらに本実施
例では可動接点台8はピン9により可動絶縁軸体7に回
動自在に軸支される。
In this embodiment, as shown in FIGS. 3, 7 and 9, the relay section 14 has its load side connected to the load terminal 15 and its power supply side penetrates the zero-phase current transformer 13. In a state where the movable contact base 8 is connected to the movable contact base 8 by a connecting wire 11, it is pre-assembled as a relay assembly and is mounted on the upper side of the inter-electrode insulating base 20 as a mounting member detachably attached to the case 1. . Further, in this embodiment, the movable contact stand 8 is rotatably supported on the movable insulating shaft 7 by a pin 9.

【0015】本実施例では可動接点台8と、この可動接
点台8の回動を支持するピン9を一体構造にして可動絶
縁軸体7に組み込むので、強度と耐磨耗性が向上して接
点圧の高い高定格電流フレームにも適用が可能となる。
In the present embodiment, the movable contact stand 8 and the pin 9 for supporting the rotation of the movable contact stand 8 are integrally formed and incorporated into the movable insulating shaft 7, so that the strength and wear resistance are improved. It can also be applied to high rated current frames with high contact pressure.

【0016】リレー部組み立て品は可動絶縁軸体7が装
着され、零相変流器13の上方にリレー部14が位置す
る状態でケース1に装着される。ケース1には零相変流
器13の上方となる位置に極間絶縁台20が着脱自在に
装着される。これによりリレー部組み立て品の装着後は
極間絶縁台20の上側に過電流検出部と過電流検出装置
を配置し、零相変流器13をケース1の底部と極間絶縁
台20の間に配置した構成となる。
The relay assembly is mounted on the case 1 with the movable insulating shaft 7 mounted thereon and the relay 14 positioned above the zero-phase current transformer 13. In the case 1, a gap insulating table 20 is detachably mounted at a position above the zero-phase current transformer 13. Thus, after the relay assembly is mounted, the overcurrent detecting unit and the overcurrent detecting device are arranged above the inter-electrode insulating stand 20, and the zero-phase current transformer 13 is connected between the bottom of the case 1 and the inter-electrode insulating stand 20. Is arranged.

【0017】また、極間絶縁台20は図6、図7に示さ
れるように各相のリレー部14間を仕切る隔壁部分20
bを有し、この隔壁部分20bは極間の絶縁壁として機
能する。
As shown in FIGS. 6 and 7, the inter-electrode insulating table 20 is a partition wall section 20 for separating the relay sections 14 of each phase.
b, and this partition wall portion 20b functions as an insulating wall between the poles.

【0018】可動絶縁軸体7の中央極部分には操作ハン
ドル4の動作を可動絶縁軸体7に伝達するレバー5を有
する可動接点台4の開閉機構が接続され、この開閉機構
には漏電電流または過電流が流れたとき引き外し装置1
9またはリレー部14の出力によりトリップ動作をして
開閉機構を引き外す引き外し機構30が接続される。引
き外し装置19は、中央極の隣の極に設けられ、引き外
し機構30に係合して漏電検出部27の出力により動作
して引き外し機構30をトリップさせる。
An opening / closing mechanism for a movable contact stand 4 having a lever 5 for transmitting the operation of the operating handle 4 to the movable insulating shaft 7 is connected to the central pole portion of the movable insulating shaft 7. Or trip device 1 when overcurrent flows
9 or a trip mechanism 30 for tripping by the output of the relay unit 14 to trip the opening / closing mechanism. The tripping device 19 is provided at the pole next to the center pole, engages with the tripping mechanism 30, operates by the output of the leakage detecting unit 27, and trips the tripping mechanism 30.

【0019】本実施例では上記構成により漏電遮断器の
底面積(据え付け面積)を従来のものに比べ小さくする
ことができる。
In the present embodiment, the bottom area (installation area) of the earth leakage breaker can be made smaller than the conventional one by the above configuration.

【0020】また、過電流検出部としてのコイル部14
bが零相変流器13の上側にあるので、コイル部14b
を流れる電流による発熱は上側に伝達されてモールドカ
バー2を介して放熱される。そのため、コイル部14b
からの発熱が零相変流器13に伝わるのが防止でき、零
相変流器13を貫通する接続線11の絶縁被覆の熱によ
る劣化を防止できる。
The coil section 14 as an overcurrent detecting section
b is on the upper side of the zero-phase current transformer 13, so that the coil portion 14b
The heat generated by the current flowing through is transmitted upward and is radiated through the mold cover 2. Therefore, the coil portion 14b
Can be prevented from being transmitted to the zero-phase current transformer 13, and deterioration of the insulating coating of the connection wire 11 passing through the zero-phase current transformer 13 due to heat can be prevented.

【0021】本実施例の漏電遮断器のON−OFFはモ
ールドカバー2の表面から突出した操作ハンドル4を図
1の矢印A−B方向へ回動操作することによってなされ
る。ON操作はハンドル4を矢印A方向に回動させる
と、2節リンクを構成するレバー5を経てローラ6がモ
ールドケース1の下方に向かって可動絶縁軸体7を押圧
し、これにより可動絶縁軸体に支持された複数の可動接
点台8の可動接点22がモールドケース1に配設された
固定接点台16の固定接点23と接触し電源ONの状態
となる。
The ON / OFF operation of the earth leakage breaker of this embodiment is performed by rotating the operation handle 4 projecting from the surface of the mold cover 2 in the direction of arrows AB in FIG. In the ON operation, when the handle 4 is rotated in the direction of the arrow A, the roller 6 presses the movable insulating shaft 7 downward through the lever 5 forming the two-node link, thereby moving the movable insulating shaft 7 downward. The movable contacts 22 of the plurality of movable contact stands 8 supported by the body come into contact with the fixed contacts 23 of the fixed contact stand 16 disposed in the mold case 1 to be in a power ON state.

【0022】可動絶縁軸体7は圧縮ばね26により図1
中でその上側に向かう方向に付勢されており、また可動
接点台8の一端に係着されるCNばね10により、ON
時には可動接点台8をピン9を中心として反時計方向に
回動付勢されて接点圧が付与されている。この接点圧の
反力はピン9を経て可動絶縁軸体7に図示上方への負荷
として作用するように構成される。
The movable insulating shaft 7 is compressed by a compression spring 26 as shown in FIG.
And is turned on by a CN spring 10 which is engaged with one end of the movable contact stand 8.
Occasionally, the movable contact table 8 is urged to rotate counterclockwise about the pin 9 to apply a contact pressure. The reaction force of the contact pressure is configured to act as a load on the movable insulating shaft 7 via the pin 9 in the upward direction in the drawing.

【0023】極間絶縁台20の一部には可動接点台8の
動作の範囲を規制するストッパ部20aが形成され、こ
のストッパ部20aは可動接点22と固定接点23間が
開極するとき、可動接点台8の可動接点22の反対側端
の上限を規制する機能を有する。
A stopper 20a for regulating the range of operation of the movable contact stand 8 is formed in a part of the inter-electrode insulating stand 20, and this stopper 20a is used when the movable contact 22 and the fixed contact 23 are opened. It has a function of regulating the upper limit of the end of the movable contact stand 8 opposite to the movable contact 22.

【0024】可動接点台8に連結された接続線11は3
相分の接続線全てが零相変流器13を貫通して負荷側端
子15に接続されている。
The connection line 11 connected to the movable contact stand 8 is 3
All of the connection wires for the phases pass through the zero-phase current transformer 13 and are connected to the load-side terminals 15.

【0025】負荷側端子15に漏電電流が流れた場合
は、各相の電流のバランスが崩れて零相変流器13に出
力が発生し、この零相変流器13の出力により漏電を検
知してプリント基板上に構成された電子回路を有する漏
電検出部27(図9)で増幅し、引き外し装置19(図
2)を動作させて引き外し機構30をトリップ動作さ
せ、レバー5の2節リンクを折りまげて漏電遮断器を開
極状態に至らせる。
When a leakage current flows through the load-side terminal 15, the current of each phase is out of balance and an output is generated at the zero-phase current transformer 13, and the leakage is detected based on the output of the zero-phase current transformer 13. Then, the signal is amplified by the electric leakage detecting section 27 (FIG. 9) having an electronic circuit formed on the printed circuit board, the tripping device 19 (FIG. 2) is operated, and the tripping mechanism 30 is tripped. Fold the node link to open the earth leakage breaker.

【0026】一方、負荷側端子15に過電流が流れた場
合は、リレー部14を動作させ、引き外し機構30をト
リップ動作させ、レバー5の2節リンクを折りまげて漏
電遮断器を開極状態に至らせる。
On the other hand, when an overcurrent flows through the load terminal 15, the relay unit 14 is operated, the trip mechanism 30 is tripped, the two-node link of the lever 5 is folded, and the earth leakage breaker is opened. Let it reach a state.

【0027】上記の各部品の組付け手順について図3〜
図9を用いて説明する。負荷側端子15、絶縁チューブ
で覆われた接続線11、可動接点台8、リレー部14、
零相変流器13、漏電検出部27と連なるリレー組立品
と可動絶縁軸体7を図5に示すように予め組み立ててお
く。
The procedure for assembling the above parts is shown in FIGS.
This will be described with reference to FIG. A load terminal 15, a connection wire 11 covered with an insulating tube, a movable contact block 8, a relay section 14,
The relay assembly connected to the zero-phase current transformer 13 and the leakage detecting unit 27 and the movable insulating shaft 7 are assembled in advance as shown in FIG.

【0028】この組み立て品をモールドケース1内に装
着するにあたり、まず図7に示されるようにリレー部1
4を図6の極間絶縁台20上に装着し、次いで図3、図
9に示すようにケース1の上部側から可動接点台8を組
付けた可動絶縁軸体7を挿入し、同時に3相分の接続線
11、零相変流器13、漏電検出部27も挿入する。ケ
ース1には図8に示すように、前記の各部品装着対応部
に穴1aが大きく開口されているから、部品の装着組付
作業は極めて容易である。
When mounting the assembled product in the mold case 1, first, as shown in FIG.
4 is mounted on the inter-electrode insulating stand 20 shown in FIG. 6, and then, as shown in FIGS. The connection line 11 for the phases, the zero-phase current transformer 13, and the leakage detection unit 27 are also inserted. As shown in FIG. 8, the case 1 has a large opening 1a in each of the above-mentioned parts mounting corresponding parts, so that the work of mounting and assembling the parts is extremely easy.

【0029】次いでリレー部14が装着された極間絶縁
台20を零相変流器13の上部に載置してケース1内に
固定する。さらに、ハンドル4を含む開閉機構部、引き
外し装置19を順次装着し、モールドカバー2で上面を
覆い、裏蓋3を下面から取付けて全組立を終了する。
Next, the inter-electrode insulating stand 20 on which the relay section 14 is mounted is mounted on the upper part of the zero-phase current transformer 13 and fixed in the case 1. Further, the opening / closing mechanism including the handle 4 and the trip device 19 are sequentially mounted, the upper surface is covered with the mold cover 2, and the back cover 3 is attached from the lower surface, thereby completing the entire assembly.

【0030】本実施例では極間絶縁台20にリレー部1
4を予め装着してケース1に固定したが、これに限るこ
とはなく、極間絶縁台20を零相変流器13の上部に固
定した後にリレー部14を極間絶縁台20上に装着して
もよい。
In this embodiment, the relay section 1
4 is fixed to the case 1 by mounting it in advance, but the present invention is not limited to this, and the relay unit 14 is mounted on the pole insulating table 20 after the pole insulating table 20 is fixed above the zero-phase current transformer 13. May be.

【0031】リレー部14のコイルと負荷側端子15と
の接続部は図10に示すように、接続部24aに幅広の
編織導電体24を使用すると、リレー部14の多少の移
動や、コイルと負荷側端子15間の位置ずれ誤差を吸収
して組立作業性を向上するのに好適である。
As shown in FIG. 10, the connection between the coil of the relay section 14 and the load-side terminal 15 is made by using a wide woven conductor 24 for the connection section 24a. It is suitable for absorbing a displacement error between the load-side terminals 15 and improving the assembly workability.

【0032】図11(a)、(b)は固定接点台16の
一端にアークホーン25を固定する手順を示す。まず同
図(a)のように固定接点台16の切欠き溝16aにア
ークホーン25を嵌装する。次いで、アークホーン25
の足部25aを折り曲げ、塑性変形加工により固定接点
台16に密着させて同図(b)のように固定した後、固
定接点23と共に固定接点台16にロー付けする。
FIGS. 11A and 11B show a procedure for fixing the arc horn 25 to one end of the fixed contact stand 16. First, the arc horn 25 is fitted into the notch groove 16a of the fixed contact stand 16 as shown in FIG. Next, Arc Horn 25
Is bent and plastically deformed to make it closely adhere to the fixed contact base 16 and fixed as shown in FIG. 2B, and then brazed to the fixed contact base 16 together with the fixed contacts 23.

【0033】これにより、アークホーン25は塑性変形
加工による密着とロー付けによる2重の固定手段により
固定接点台16に強固に固定され、衝撃力や振動による
緩みの発生が防止できて部品点数を増加することなしに
固定信頼性を高めることができるとともに固定接点23
との間の電気抵抗が減少してアークを導きやすくなる。
As a result, the arc horn 25 is firmly fixed to the fixed contact base 16 by double fixing means by adhesion and brazing by plastic deformation processing, and it is possible to prevent the occurrence of loosening due to impact force and vibration and reduce the number of parts. The fixing reliability can be increased without increasing the number of the fixed contacts 23.
And the electric resistance between them decreases, so that an arc can be easily led.

【0034】本発明の第2実施例を図17、図18によ
り説明する。本実施例は図17に示すように、リレー部
14の各極間を仕切ると共にヨーク14aの両端及び零
相変流器13を絶縁して収容する絶縁箱体28と、可動
接点台8を組み込んだ可動絶縁軸体7を設け、これらの
組立品を図18に示す漏電遮断器ケース1”に装着した
ものである。図18の穴部1”aは絶縁箱体28が挿入
される穴である。本実施例はリレー部14関連部品の組
立が安定し作業性が一層向上する。他の部分の構成は第
1実施例と同じである。
A second embodiment of the present invention will be described with reference to FIGS. As shown in FIG. 17, the present embodiment incorporates an insulating box 28 which partitions between the poles of the relay section 14 and insulates and accommodates both ends of the yoke 14a and the zero-phase current transformer 13, and a movable contact stand 8. A movable insulating shaft 7 is provided, and these assemblies are mounted on an earth leakage breaker case 1 "shown in Fig. 18. A hole 1" a in Fig. 18 is a hole into which the insulating box 28 is inserted. is there. In this embodiment, the assembly of the parts related to the relay section 14 is stabilized, and the workability is further improved. The configuration of other parts is the same as that of the first embodiment.

【0035】以上の実施例によれば、可動接点台8、可
動接点台8に接続する導電性の接続線11、零相変流器
13、極間絶縁台20及び漏電検出部27を有するリレ
ー部組立品を、ケース上面側からケース内に落し込んで
挿入し、次いで極間絶縁台20をケース内に装着固定す
ればよく、漏電遮断器のケース内への上記各部品の収納
部分は極間絶縁台20がケースと着脱自在であるため、
空間が広くなって組立時に上記部品の挿入が容易とな
り、アークホーンの固定の簡易化、リレー部14のコイ
ルと負荷側端子15の接続の容易化とあいまって作業性
が向上する。
According to the above embodiment, the relay having the movable contact stand 8, the conductive connection line 11 connected to the movable contact stand 8, the zero-phase current transformer 13, the inter-electrode insulating stand 20, and the leakage detecting section 27. The part assembly may be dropped into the case from the top side of the case and inserted, and then the inter-electrode insulating stand 20 may be mounted and fixed in the case. Since the insulating stand 20 is detachable from the case,
The space is widened so that the above components can be easily inserted at the time of assembling, and the workability is improved by simplifying fixing of the arc horn and facilitating connection between the coil of the relay section 14 and the load terminal 15.

【0036】また、接続線11を被覆している絶縁チュ
ーブの損傷が防止され絶縁信頼性が向上する。
Further, damage of the insulating tube covering the connection wire 11 is prevented, and insulation reliability is improved.

【0037】また、零相変流器をリレー部の下部に配置
することにより小型化を前提とした協約形寸法への対応
が容易にできる。
Further, by arranging the zero-phase current transformer at the lower part of the relay section, it is possible to easily cope with the agreement-type dimensions assuming miniaturization.

【0038】[0038]

【発明の効果】本発明によれば、小型化を図れるととも
にケース内への部品装着の作業性の向上および、絶縁信
頼性の向上を図れる漏電遮断器を得ることができる。
According to the present invention, it is possible to obtain an earth leakage circuit breaker that can be downsized, workability of mounting components in a case, and insulation reliability can be improved.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の第1実施例における漏電遮断器の側断
面図である。
FIG. 1 is a side sectional view of an earth leakage breaker according to a first embodiment of the present invention.

【図2】本発明の第1実施例における漏電遮断器の平面
図である。
FIG. 2 is a plan view of an earth leakage breaker according to the first embodiment of the present invention.

【図3】本発明の第1実施例における漏電遮断器の要部
組立斜視図である。
FIG. 3 is an assembled perspective view of a main part of the earth leakage breaker according to the first embodiment of the present invention.

【図4】本発明の第1実施例における漏電遮断器の可動
接点台の組立斜視図である。
FIG. 4 is an assembled perspective view of a movable contact block of the earth leakage breaker according to the first embodiment of the present invention.

【図5】本発明の第1実施例における漏電遮断器のリレ
ー部斜視図である。
FIG. 5 is a perspective view of a relay section of the earth leakage breaker according to the first embodiment of the present invention.

【図6】本発明の第1実施例における漏電遮断器の極間
絶縁台の斜視図である。
FIG. 6 is a perspective view of a gap insulating stand of the earth leakage breaker according to the first embodiment of the present invention.

【図7】本発明の第1実施例における漏電遮断器のリレ
ー部と極間絶縁台組立斜視図である。
FIG. 7 is an assembled perspective view of a relay part and a gap insulating base of the earth leakage breaker according to the first embodiment of the present invention.

【図8】本発明の第1実施例における漏電遮断器のケー
スの平面図である。
FIG. 8 is a plan view of a case of an earth leakage breaker according to the first embodiment of the present invention.

【図9】本発明の第1実施例における漏電遮断器のリレ
ー部のケースへの組込み作業図である。
FIG. 9 is a work view of assembling a relay portion of the earth leakage breaker into a case according to the first embodiment of the present invention.

【図10】本発明の第1実施例における漏電遮断器のリ
レーコイルと負荷端子板との接続部の斜視図である。
FIG. 10 is a perspective view of a connection portion between a relay coil and a load terminal plate of the earth leakage breaker according to the first embodiment of the present invention.

【図11】本発明の第1実施例における漏電遮断器の固
定接点台とアークホーンの組付けを示す手順図を示す斜
視図で同図(a)は固定前の状態、同図(b)は固定後
の状態をそれぞれ示す図である。
FIG. 11 is a perspective view showing a procedure of assembling the fixed contact block and the arc horn of the earth leakage breaker according to the first embodiment of the present invention, wherein FIG. 11 (a) is a state before fixing, and FIG. FIG. 4 is a view showing a state after fixing.

【図12】従来のリレー部の平面図である。FIG. 12 is a plan view of a conventional relay unit.

【図13】従来の漏電遮断器のケースの平面図である。FIG. 13 is a plan view of a case of a conventional earth leakage breaker.

【図14】従来のリレー部のケースへの組込み作業の初
期状態を示す図である。
FIG. 14 is a diagram illustrating an initial state of a work of assembling a conventional relay unit into a case.

【図15】従来のリレー部のケースへの組込み作業の途
中状態を示す図である。
FIG. 15 is a view showing a state in the middle of a work of assembling a conventional relay unit into a case.

【図16】従来のリレー部のケースへの組込み作業の終
了状態を示す図である。
FIG. 16 is a diagram showing a state in which a conventional operation of assembling a relay unit into a case is completed.

【図17】本発明の第2実施例のリレー部と極間絶縁台
組立斜視図である。
FIG. 17 is an assembled perspective view of a relay section and an inter-electrode insulating table according to a second embodiment of the present invention.

【図18】本発明の第2実施例の漏電遮断器のケースの
平面図である。
FIG. 18 is a plan view of a case of an earth leakage breaker according to a second embodiment of the present invention.

【符号の説明】[Explanation of symbols]

7…可動絶縁軸体、8…可動接点台、9…ピン、11…
接続線(貫通線)、13…零相変流器、14…リレー
部、20…極間絶縁台、24…幅広編織導電体、25…
アークホーン、28…絶縁箱体
7: movable insulating shaft, 8: movable contact stand, 9: pin, 11 ...
Connection line (through wire), 13: zero-phase current transformer, 14: relay unit, 20: inter-electrode insulating stand, 24: wide woven conductor, 25 ...
Arc horn, 28 ... Insulated box

───────────────────────────────────────────────────── フロントページの続き (56)参考文献 実開 昭62−40751(JP,U) (58)調査した分野(Int.Cl.6,DB名) H01H 69/00 - 83/22 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References Japanese Utility Model Sho 62-40751 (JP, U) (58) Field surveyed (Int. Cl. 6 , DB name) H01H 69/00-83/22

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】複数極を有する漏電遮断器の各極にそれぞ
れ設けられた固定接触子と、これらの固定接触子のそれ
ぞれに対応して各極に設けられた可動接触子と、各極の
上記可動接触子を実質的に同時に開閉させる開閉機構
と、過電流時に上記開閉機構の引外しを行なう引外し機
構と、上記各極の可動接触子にそれぞれ接続された接続
線が貫通する零相変流器と、この零相変流器に接続され
た検出回路と、この検出回路の出力により駆動される漏
電引外し装置と、上記接続線に接続されて各極毎に設け
られて過電流を検出して引外しのための機械的出力を発
生する過電流検出部と、この過電流検出部が装着される
取付部材と、上記過電流検出部に接続された負荷側端子
と、上記固定接触子と上記可動接触子と上記開閉機構と
上記引外し機構と上記零相変流器と上記検出回路と上記
漏電引外し装置と上記過電流検出部と上記取付部材とを
収納する筐体を備えた漏電遮断器において、上記筐体は
底部に上記各極の固定接触子が配設されたケースを備
え、上記取付部材は一方の側に上記過電流検出部を上記
複数極分装着するとともに他方の側に上記零相変流器を
配設できるよう構成され、上記過電流検出部と上記取付
部材と上記負荷側端子と上記接続線と上記零相変流器と
上記可動接触子と上記開閉機構とを一体に接続して組立
品を構成し、上記零相変流器が上記ケースの底面に面す
るような向きに上記取付部材を配設して上記組立品を上
記筐体に着脱自在に装着したことを特徴とする漏電遮断
器。
A fixed contact provided on each pole of an earth leakage breaker having a plurality of poles, a movable contact provided on each pole corresponding to each of the fixed contacts, An opening / closing mechanism for opening and closing the movable contacts substantially simultaneously; a tripping mechanism for tripping the opening / closing mechanism when an overcurrent occurs; and a zero-phase through which connection lines respectively connected to the movable contacts of the respective poles pass. A current transformer, a detection circuit connected to the zero-phase current transformer, an earth leakage trip device driven by an output of the detection circuit, and an overcurrent provided for each pole connected to the connection line. An overcurrent detection unit for detecting a mechanical output for tripping, a mounting member to which the overcurrent detection unit is attached, a load-side terminal connected to the overcurrent detection unit, and the fixed unit. The contact, the movable contact, the opening / closing mechanism, the tripping mechanism and In the earth leakage breaker having a housing for accommodating the zero-phase current transformer, the detection circuit, the earth leakage trip device, the overcurrent detection unit, and the mounting member, the housing has the bottom fixed to the poles. A case in which a contact is provided, the mounting member is configured such that the overcurrent detection unit is mounted on one side for the plurality of poles and the zero-phase current transformer is provided on the other side, The overcurrent detector, the mounting member, the load-side terminal, the connection line, the zero-phase current transformer, the movable contact, and the switching mechanism are integrally connected to form an assembly, and the zero-phase An earth leakage circuit breaker, wherein the mounting member is arranged in such a way that the current transformer faces the bottom surface of the case, and the assembly is detachably mounted on the housing.
JP28369096A 1996-10-25 1996-10-25 Earth leakage breaker Expired - Fee Related JP2901927B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP28369096A JP2901927B2 (en) 1996-10-25 1996-10-25 Earth leakage breaker

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP28369096A JP2901927B2 (en) 1996-10-25 1996-10-25 Earth leakage breaker

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
JP5144572A Division JP2651105B2 (en) 1993-06-16 1993-06-16 Earth leakage breaker

Publications (2)

Publication Number Publication Date
JPH09167555A JPH09167555A (en) 1997-06-24
JP2901927B2 true JP2901927B2 (en) 1999-06-07

Family

ID=17668824

Family Applications (1)

Application Number Title Priority Date Filing Date
JP28369096A Expired - Fee Related JP2901927B2 (en) 1996-10-25 1996-10-25 Earth leakage breaker

Country Status (1)

Country Link
JP (1) JP2901927B2 (en)

Also Published As

Publication number Publication date
JPH09167555A (en) 1997-06-24

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