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JP5422708B2 - Circuit breaker having a thermal electromagnetic relay and circuit breaker having a complete electromagnetic relay - Google Patents
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JP5422708B2 - Circuit breaker having a thermal electromagnetic relay and circuit breaker having a complete electromagnetic relay - Google Patents

Circuit breaker having a thermal electromagnetic relay and circuit breaker having a complete electromagnetic relay Download PDF

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Publication number
JP5422708B2
JP5422708B2 JP2012156283A JP2012156283A JP5422708B2 JP 5422708 B2 JP5422708 B2 JP 5422708B2 JP 2012156283 A JP2012156283 A JP 2012156283A JP 2012156283 A JP2012156283 A JP 2012156283A JP 5422708 B2 JP5422708 B2 JP 5422708B2
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Prior art keywords
rotating member
contact
electromagnetic relay
movable
circuit breaker
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JP2012230908A (en
Inventor
大輔 中村
裕輔 清水
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Hitachi Industrial Equipment Systems Co Ltd
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Hitachi Industrial Equipment Systems Co Ltd
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Description

本発明は、電路の過電流及び短絡電流を遮断する回路遮断器に係り、特に、開閉機構部
を作動させる引外し手段の構成に関する。
The present invention relates to a circuit breaker that cuts off an overcurrent and a short-circuit current of an electric circuit, and more particularly to a configuration of a tripping unit that operates an opening / closing mechanism.

本発明に関連した従来技術であって、特許文献に記載されたものとしては、例えば、特
開平11−3648号公報(特許文献1)、特開平10−269922号公報(特許文献
2)、特開2005−339997号公報(特許文献3)及び特開平11−224587
号公報(特許文献4)に記載された技術がある。特開平11−3648号公報には、電路
の異常電流を検出したとき、ヒータ8により引き外し装置16を駆動する方式の回路遮断
器が記載され、特開平10−269922号公報には、短絡電流を、PTCサーミスタ素
子などの限流素子9と並列抵抗10により限流する方式の限流素子付回路遮断器が記載さ
れている。また、特開2005−339997号公報や特開平11−224587号公報
には、短絡電流が流れたとき、開閉機構部を開動作させる引き外し装置を、バイメタル式
の短絡電流検知部材と電磁式の短絡電流検知部材とにより駆動するとした回路遮断器が記
載されている。
Prior arts related to the present invention and described in patent documents include, for example, Japanese Patent Application Laid-Open No. 11-3648 (Patent Document 1), Japanese Patent Application Laid-Open No. 10-269922 (Patent Document 2), and the like. Japanese Unexamined Patent Publication No. 2005-339997 (Patent Document 3) and Japanese Patent Laid-Open No. 11-224587
There is a technique described in Japanese Patent Publication (Patent Document 4). Japanese Patent Application Laid-Open No. 11-3648 discloses a circuit breaker that drives the tripping device 16 with a heater 8 when an abnormal current in an electric circuit is detected. Japanese Patent Application Laid-Open No. 10-269922 discloses a short circuit current. A circuit breaker with a current limiting element is described in which current is limited by a current limiting element 9 such as a PTC thermistor element and a parallel resistor 10. JP 2005-339997 A and JP 11-224587 A disclose a tripping device that opens the switching mechanism when a short-circuit current flows. A circuit breaker that is driven by a short-circuit current detection member is described.

特開平11−3648号公報Japanese Patent Laid-Open No. 11-3648 特開平10−269922号公報Japanese Patent Laid-Open No. 10-269922 特開2005−339997号公報JP 2005-339997 A 特開平11−224587号公報JP-A-11-224587

例えば、上記特開平11−3648号公報記載の技術では、短絡電流が電路に流れたと
き、ヒータ8の温度上昇及び引き外し装置16を駆動する部材の熱変形に時間がかかるた
め、回路遮断器内で短絡電流の通電時間が長くなり、電路上の部品が焼損するおそれがあ
るし、また、上記特開平10−269922号公報記載の技術では、限流素子9や並列抵
抗10を接続するため、回路遮断器の全体寸法が増大しかつ製造コストも増大することが
考えられる。また、特開2005−339997号公報や特開平11−224587号公
報に記載の技術においては、短絡電流やいろいろな電流レベルの過電流を検知した全ての
場合に、引き外し装置を電磁力で駆動することは不可能である。
For example, in the technique described in Japanese Patent Laid-Open No. 11-3648, when the short circuit current flows in the electric circuit, the temperature rise of the heater 8 and the thermal deformation of the member that drives the tripping device 16 take time. In the technology described in Japanese Patent Application Laid-Open No. 10-269922, the current limiting element 9 and the parallel resistor 10 are connected. It is conceivable that the overall size of the circuit breaker increases and the manufacturing cost also increases. In the techniques described in Japanese Patent Application Laid-Open No. 2005-339997 and Japanese Patent Application Laid-Open No. 11-224587, the tripping device is driven by electromagnetic force in all cases where a short circuit current or overcurrent at various current levels is detected. It is impossible to do.

本発明の課題点は、上記従来技術の状況に鑑み、回路遮断器において、限流素子や抵抗
を接続しなくとも、電路に短絡電流が流れた場合に部品の焼損などをなくすことができる
ようにするとともに、引き外し装置(引外し手段)の駆動手段として、バイメタルと電磁
力を利用する熱動電磁式リレーまたは電磁力を利用する完全電磁式リレーのいずれかを選
択することができるようにすることである。
The problem of the present invention is that, in view of the situation of the above prior art, in a circuit breaker, it is possible to eliminate burning of a component or the like when a short-circuit current flows in an electric circuit without connecting a current limiting element or a resistor. As a driving means of the tripping device (tripping means), either a thermal electromagnetic relay using bimetal and electromagnetic force or a complete electromagnetic relay using electromagnetic force can be selected. It is to be.

本発明の目的は、かかる課題点を解決して、動作が安定で使い勝手が良く、部品の信頼
性が確保された回路遮断器を提供することにある。
An object of the present invention is to provide a circuit breaker that solves such problems and is stable in operation, easy to use, and ensures reliability of components.

上記課題点を解決するために、本発明では、回路遮断器として、熱動電磁式リレーと完
全電磁式リレーを択一的に組込み可能な構成とし、かつ、接点部の可動接点が固定接点に
対し非接触状態となるように開閉機構部を作動させる引外し手段を、該両リレーのいずれ
かで駆動する。該引外し手段は、熱動電磁式リレーの可動部の変位に基づく外力を受け第
1の支点周りに回動変位する第1の回動部材と、完全電磁式リレーの可動部の変位に基づ
く外力を受け第2の支点周りに回動変位する第2の回動部材と、該第1、第2の回動部材
が互いに異なる位置において当接し、該第1、第2の回動部材の回動変位に付随して第3
の支点周りに回動変位する第3の回動部材とを備え、該第3の回動部材の該回動変位によ
り開閉機構部を作動させる構成とする。
In order to solve the above problems, in the present invention, a circuit breaker is configured such that a thermal electromagnetic relay and a complete electromagnetic relay can be alternatively incorporated, and the movable contact of the contact portion is a fixed contact. On the other hand, tripping means for operating the opening / closing mechanism so as to be in a non-contact state is driven by either of the relays. The tripping means is based on a first rotating member that rotates around a first fulcrum by receiving an external force based on a displacement of the movable part of the thermal electromagnetic relay, and a displacement of the movable part of the complete electromagnetic relay. A second rotating member that rotates and displaces around the second fulcrum by receiving an external force and the first and second rotating members come into contact with each other at different positions, and the first and second rotating members A third associated with rotational displacement
And a third rotating member that rotates and displaces around the fulcrum, and the opening / closing mechanism is operated by the rotating displacement of the third rotating member.

本発明によれば、回路遮断器において、電流レンジに対応して、リレーとして熱動電磁
式リレーまたは完全電磁式リレーのいずれかを適宜択一的に組込むことができる。また、
限流素子を用いない構成であるため、電路に短絡電流が流れた場合には、部品を焼損等さ
せることなく短時間で該短絡電流を遮断することができ、部品の信頼性を向上させること
ができる。また、電路に過電流が流れた場合には、電流遮断までの応答時間を電流レベル
に応じて長くする(=長限時領域を形成する)ことができ、回路遮断器の過敏な動作を回
避して安定な動作を行わせることができ、使い勝手性を向上させることができる。さらに
、回路遮断器の小形化も図ることができる。
According to the present invention, in the circuit breaker, either a thermal electromagnetic relay or a complete electromagnetic relay can be appropriately and selectively incorporated as a relay corresponding to the current range. Also,
Since it is a configuration that does not use a current limiting element, when a short-circuit current flows in the electric circuit, the short-circuit current can be cut off in a short time without burning out the component, and the reliability of the component is improved. Can do. Also, when an overcurrent flows in the circuit, the response time until the current is interrupted can be lengthened according to the current level (= form a long time limit region), avoiding the sensitive operation of the circuit breaker. And stable operation can be performed, and usability can be improved. Further, the circuit breaker can be downsized.

本発明の実施例としての回路遮断器の構造を示し、熱動電磁式リレーが組込まれたときの構造図である。It is a structural diagram when the structure of a circuit breaker as an embodiment of the present invention is shown and a thermal electromagnetic relay is incorporated. 図1の回路遮断器における引外し手段の説明図である。It is explanatory drawing of the trip means in the circuit breaker of FIG. 本発明の実施例としての回路遮断器の構造を示し、完全電磁式リレーが組込まれたときの構造図である。It is a structural diagram when the structure of a circuit breaker as an embodiment of the present invention is shown and a complete electromagnetic relay is incorporated. 図3の回路遮断器における引外し手段の説明図である。It is explanatory drawing of the trip means in the circuit breaker of FIG. 図2、図4の引外し手段における第3の回動部材の平面構造を示す図である。It is a figure which shows the planar structure of the 3rd rotation member in the tripping means of FIG. 2, FIG.

以下、本発明の実施例につき、図面を用いて説明する。   Embodiments of the present invention will be described below with reference to the drawings.

図1〜図5は、本発明の実施例としての回路遮断器の説明図である。図1は、本発明の
実施例としての回路遮断器の構造を示し、熱動電磁式リレーが組込まれたときの構造図、
図2は、図1の回路遮断器における引外し手段の説明図、図3は、本発明の実施例として
の回路遮断器の構造を示し、完全電磁式リレーが組込まれたときの構造図、図4は、図3
の回路遮断器における引外し手段の説明図、図5は、図2、図4の引外し手段における第
3の回動部材の平面構造を示す図である。
1-5 is explanatory drawing of the circuit breaker as an Example of this invention. FIG. 1 shows a structure of a circuit breaker as an embodiment of the present invention, and a structure diagram when a thermal electromagnetic relay is incorporated,
FIG. 2 is an explanatory diagram of tripping means in the circuit breaker of FIG. 1, FIG. 3 shows the structure of a circuit breaker as an embodiment of the present invention, and a structural diagram when a complete electromagnetic relay is incorporated, 4 is similar to FIG.
FIG. 5 is a diagram illustrating a planar structure of a third rotating member in the tripping means of FIGS. 2 and 4.

図1において、1は、本発明の実施例としての回路遮断器、10a、10bは、回路遮
断器1が接続される外部電路、11aは、外部電路10aに接続される回路遮断器1の電
路接続用端子、11bは、外部電路10bに接続される回路遮断器1の電路接続用端子、
12は接点部を形成する固定接点、13は接点部を形成する可動接点、13aは、可動接
点13が回動変位するときの回動支点、14は、可動接点13を回動支点13a周りに回
動変位させ、該可動接点13を固定接点12に対し、非接触状態から接触状態にするまた
は接触状態から非接触状態にする開閉機構部、15は、開閉機構部14を、接点部の上記
可動接点13が上記固定接点12に対し接触状態から非接触状態となるように作動させる
引外し手段、151Aは、引外し手段15における第1の回動部材としての連動板、15
2は、引外し手段15における第3の回動部材としてのトリップ金具、151Aaは、第
1の回動部材としての連動板151Aが回動変位するときの回動支点(第1の支点)、1
52aは、第3の回動部材としてのトリップ金具152が回動変位するときの回動支点(
第3の支点)、17はハンドル、18は、可動接点13が固定接点12に対し接触状態か
ら非接触状態になるときに該固定接点12との間に発生するアークを抑える消弧部、19
はケース、23は、開閉機構部14内のフック、5は熱動電磁式リレー、50は、熱動電
磁式リレー5内のヒータ、51は、熱動電磁式リレー5内のバイメタル、55は、バイメ
タル51の変形により変位する熱動電磁式リレー5の可動部、53は、熱動電磁式リレー
5内の電磁石を構成する固定コア、54は、熱動電磁式リレー5内の電磁石を構成する可
動コア、52は、弾性復元力により可動コア54を、固定コア53との間の電磁力(磁気
吸引力)に抗する方向に付勢するばねである。回路遮断器1の内部の電路(以下、内部電
路という)は、端子11a、11b間に固定接点12、可動接点13を介して形成される
。以下、上記外部電路10a、10bと内部電路を総称して単に電路ということとする。
固定接点12と可動接点13は接点部を構成し、該接点部は、電路に接続され、可動接点
13と固定接点12との間の接触、非接触によって該電路を閉状態、開状態にする。ヒー
タ50は、電路に過電流が流れたときにバイメタル51が十分変形するように、バイメタ
ル51をバイアス的に加熱する。すなわち、過電流が流れたとき、バイメタル51は、過
電流により発生した熱とヒータ50により発生した熱との和の熱により、十分な変形を生
ずることができるようにしている。引外し手段15は、その構成のうち、熱動電磁式リレ
ー5に対応する部分を示す。
In FIG. 1, 1 is a circuit breaker as an embodiment of the present invention, 10a and 10b are external electric circuits to which the circuit breaker 1 is connected, and 11a is an electric circuit of the circuit breaker 1 connected to the external electric circuit 10a. The connection terminal 11b is a circuit connection terminal of the circuit breaker 1 connected to the external circuit 10b.
12 is a fixed contact that forms a contact portion, 13 is a movable contact that forms a contact portion, 13a is a rotation fulcrum when the movable contact 13 is rotationally displaced, and 14 is a rotation fulcrum around the rotation fulcrum 13a. An opening / closing mechanism unit 15 that rotates and displaces the movable contact 13 with respect to the fixed contact 12 from a non-contact state to a contact state or from a contact state to a non-contact state. Tripping means 151 A for operating the movable contact 13 so as to change from the contact state to the non-contact state with respect to the fixed contact 12, 151 A is an interlocking plate as a first rotating member in the tripping means 15, 15
2 is a trip metal fitting as a third rotation member in the tripping means 15, 151Aa is a rotation fulcrum (first fulcrum) when the interlocking plate 151A as a first rotation member is rotationally displaced, 1
52a is a rotation fulcrum (when the trip metal fitting 152 as the third rotation member is rotationally displaced (
(Third fulcrum), 17 is a handle, 18 is an arc extinguishing section for suppressing an arc generated between the movable contact 13 and the fixed contact 12 when the movable contact 13 changes from a contact state to a non-contact state, 19
, 23 is a hook in the opening / closing mechanism 14, 5 is a thermal electromagnetic relay, 50 is a heater in the thermal electromagnetic relay 5, 51 is a bimetal in the thermal electromagnetic relay 5, 55 The movable part of the thermal electromagnetic relay 5 that is displaced by the deformation of the bimetal 51, 53 is a fixed core that constitutes an electromagnet in the thermal electromagnetic relay 5, and 54 is an electromagnet in the thermal electromagnetic relay 5. The movable core 52 is a spring that urges the movable core 54 in a direction against an electromagnetic force (magnetic attractive force) between the movable core 54 and the fixed core 53 by an elastic restoring force. An electric circuit inside the circuit breaker 1 (hereinafter referred to as an internal electric circuit) is formed between the terminals 11a and 11b via a fixed contact 12 and a movable contact 13. Hereinafter, the external electric circuits 10a and 10b and the internal electric circuit are collectively referred to as an electric circuit.
The fixed contact 12 and the movable contact 13 constitute a contact portion, and the contact portion is connected to an electric circuit, and the electric circuit is closed or opened by contact or non-contact between the movable contact 13 and the fixed contact 12. . The heater 50 heats the bimetal 51 in a bias manner so that the bimetal 51 is sufficiently deformed when an overcurrent flows through the electric circuit. That is, when an overcurrent flows, the bimetal 51 can be sufficiently deformed by the sum of the heat generated by the overcurrent and the heat generated by the heater 50. The tripping means 15 indicates a portion corresponding to the thermal electromagnetic relay 5 in the configuration.

開閉機構部14は、2節リンク機構を有して構成され、引外し手段15により、可動接
点13を回動支点13a周りに回動変位させて、該可動接点13を固定接点12に対して
接続状態から非接続状態にすることができるとともに、ハンドル17の操作によっても、
可動接点13を回動支点13a周りに回動変位させて、該可動接点13を固定接点12に
対して非接続状態から接続状態にしたり、接続状態から非接続状態にしたりすることがで
きるようになっている。開閉機構部14におけるフック23は、引外し手段15における
第3の回動部材としてのトリップ金具152と接続されている。
The opening / closing mechanism section 14 is configured to have a two-bar linkage mechanism, and the tripping means 15 rotates the movable contact 13 around the pivot fulcrum 13 a so that the movable contact 13 is moved with respect to the fixed contact 12. It can be changed from a connected state to a disconnected state, and also by operating the handle 17,
The movable contact 13 can be rotated and displaced about the rotation fulcrum 13a so that the movable contact 13 can be changed from the non-connected state to the connected state with respect to the fixed contact 12 or from the connected state to the non-connected state. It has become. The hook 23 in the opening / closing mechanism 14 is connected to a trip fitting 152 as a third rotating member in the tripping means 15.

熱動電磁式リレー5は、上記電路に過電流が流れたとき例えば定格電流の2倍程度の過
電流が流れたときは、該過電流が、バイメタル51中または該バイメタル51に接続され
た導体中を流れ、抵抗により熱を発生し、該熱によりバイメタル51が変形する。該変形
により可動部55が引外し手段15側に変位し、該引外し手段15を駆動する。定格電流
の2倍程度を超える過電流が電路に流れた場合も同様である。また、短絡電流が流れたと
きは、電磁石の固定コイルに該短絡電流が通電されて固定コア53が励磁され、ケース1
9内の空気中に配された可動コア54との間に電磁力(磁気吸引力)が働く。該可動コア
54は、該電磁力により、ばね52の弾性復元力に抗して固定コア53側に吸引され、可
動部55を引外し手段15側に変位させる。該可動部55の該変位は、該引外し手段15
を駆動し、開閉機構部14を作動させる。
When the overcurrent flows in the electric circuit, for example, when an overcurrent twice as much as the rated current flows, the thermal electromagnetic relay 5 is a conductor in the bimetal 51 or connected to the bimetal 51. It flows through and generates heat by resistance, and the bimetal 51 is deformed by the heat. Due to the deformation, the movable portion 55 is displaced toward the tripping means 15 and drives the tripping means 15. The same applies when an overcurrent exceeding about twice the rated current flows in the electric circuit. When a short-circuit current flows, the fixed core 53 is excited by energizing the fixed coil of the electromagnet, and the case 1
Electromagnetic force (magnetic attraction force) works between the movable core 54 arranged in the air in the inside 9. The movable core 54 is attracted to the fixed core 53 side against the elastic restoring force of the spring 52 by the electromagnetic force, and the movable part 55 is displaced to the tripping means 15 side. The displacement of the movable portion 55 is caused by the tripping means 15.
And the opening / closing mechanism 14 is operated.

引外し手段15において、第1の回動部材としての連動板151Aは、該連動板151
A上に第1の係合部を有し、第3の回動部材としてのトリップ金具152は、該トリップ
金具152上に上記第1の係合部と係合する第3の係合部を有する。電路に過電流または
短絡電流が流れたとき、連動板151Aは、上記熱動電磁式リレー5の可動部55の変位
に基づき第1の支点151Aa周りに回動変位する。該連動板151Aの該回動変位によ
り、該連動板151A上の第1の係合部も第1の支点151Aa周りに該連動板151A
と一体で回動変位する。該第1の係合部は、トリップ金具152と当接した状態で回動変
位する。このとき、トリップ金具152も、該第1の係合部の回動変位に付随して第3の
支点152a周りに回動変位する。該連動板151Aが、予め設定された変位量を回動変
位したとき、第1の係合部は、トリップ金具152上の第3の係合部と第1の位置におい
て係合される。該係合により、トリップ金具152は、第3の支点152a周りにさらに
連動板151Aに近づく方向に回動変位する。トリップ金具152の、該連動板151A
の回動変位に付随した回動変位により、引外し手段15は、上記開閉機構部14を作動さ
せる。すなわち、トリップ金具152の回動変位により、該トリップ金具152とフック
23との係合が外れ、該フック23が回転して可動接点13を支点13a周りに回動させ
、固定接点12から離間させて、可動接点13、固定接点12間を非接続状態にする。こ
れによって、回路遮断器1内において電路がオフ状態とされ、過電流または短絡電流が遮
断される。
In the tripping means 15, the interlocking plate 151 </ b> A as the first rotating member is connected to the interlocking plate 151.
A trip fitting 152 as a third rotating member having a first engagement portion on A is provided with a third engagement portion that engages with the first engagement portion on the trip fitting 152. Have. When an overcurrent or a short-circuit current flows through the electric circuit, the interlocking plate 151A is rotationally displaced around the first fulcrum 151Aa based on the displacement of the movable portion 55 of the thermal electromagnetic relay 5. Due to the rotational displacement of the interlocking plate 151A, the first engaging portion on the interlocking plate 151A also moves around the first fulcrum 151Aa.
Rotate and move together. The first engagement portion is rotationally displaced while being in contact with the trip fitting 152. At this time, the trip fitting 152 is also rotationally displaced around the third fulcrum 152a in association with the rotational displacement of the first engaging portion. When the interlocking plate 151A is rotationally displaced by a preset amount of displacement, the first engagement portion is engaged with the third engagement portion on the trip fitting 152 at the first position. By this engagement, the trip metal fitting 152 is rotationally displaced around the third fulcrum 152a in a direction closer to the interlocking plate 151A. The interlocking plate 151A of the trip fitting 152
The tripping means 15 operates the opening / closing mechanism section 14 by the rotational displacement accompanying the rotational displacement. In other words, the trip fitting 152 is disengaged from the hook 23 due to the rotational displacement of the trip fitting 152, and the hook 23 is rotated to rotate the movable contact 13 around the fulcrum 13a and away from the fixed contact 12. Thus, the movable contact 13 and the fixed contact 12 are disconnected. Thereby, the electric circuit is turned off in the circuit breaker 1, and the overcurrent or the short-circuit current is interrupted.

以下、説明中で用いる図1の構成における構成要素には、図1の場合と同じ符号を付し
て用いる。
In the following description, the same reference numerals as those in FIG. 1 are used for the components in the configuration of FIG. 1 used in the description.

図2は、図1の回路遮断器1における引外し手段15の説明図である。(a)は、熱動
電磁式リレー5の可動部55の変位に基づく外力が連動板151Aに作用し始めるときの
状態を示し、(b)は、熱動電磁式リレー5の可動部55の変位に基づく外力により、連
動板151Aが回動変位し、該連動板151Aの第1の係合部が、トリップ金具152の
第3の係合部と係合されたときの状態を示す。
FIG. 2 is an explanatory diagram of the tripping means 15 in the circuit breaker 1 of FIG. (A) shows a state when an external force based on the displacement of the movable portion 55 of the thermal electromagnetic relay 5 starts to act on the interlocking plate 151A, and (b) shows the state of the movable portion 55 of the thermal electromagnetic relay 5. The interlock plate 151 </ b> A is rotationally displaced by an external force based on the displacement, and shows a state when the first engagement portion of the interlock plate 151 </ b> A is engaged with the third engagement portion of the trip fitting 152.

図2において、151Apは、第1の回動部材である連動板151Aの第1の係合部(
突起状の係合部)としての突起部、152hは、第3の回動部材であるトリップ金具15
2の第3の係合部(孔状の係合部)としての孔、Fは、熱動電磁式リレー5の可動部5
5の変位に基づく外力、E1aは、突起部151Apの回動方向、E2aは、連動板15
1Aの回動方向、E3aは、トリップ金具152の回動方向である。過電流または短絡電
流が電路に流れたとき、熱動電磁式リレー5の可動部55の変位に基づき、外力Fが連
動板151Aに作用する。連動板151Aは、該外力Fによって、XZ平面内で、反時
計方向のE2a方向に第1の支点151Aa周りに回動変位する。これによって、突起部
151Apも、トリップ金具152に当接したままXZ平面内で、反時計方向のE1a
向に第1の支点151Aa周りに回動変位する。トリップ金具152は、連動板151A
の突起部151Apの回動変位に付随してXZ平面内で、時計方向のE3a方向に第3の
支点152a周りに回動変位する。連動板151Aが、予め設定された変位量をE2a
向に回動変位したとき、突起部151ApはさらにE1a方向に回動変位し、トリップ金
具152上の孔152h内に進入して該孔152hと係合される(該係合される位置を第
1の位置という)。該係合により、トリップ金具152は、第3の支点152a周りに連
動板151Aにさらに近づく方向すなわちE3a方向に回動変位する。連動板151Aの
回動変位に付随したトリップ金具152の該回動変位により、該トリップ金具152とフ
ック23との係合が外れ、該フック23が回転して可動接点13を支点13a周りに回動
させ、固定接点12から離間させて、可動接点13、固定接点12間を非接続状態にし、
電路をオフ状態にする。
In FIG. 2, 151Ap is a first engaging portion (the first engaging portion of the interlocking plate 151A which is the first rotating member).
A projecting portion 152h as a projecting engagement portion) is a trip fitting 15 which is a third rotating member.
2 of the third engaging portion (hole-shaped engaging portion) as of the hole, F A, the movable part 5 of the thermally activated electromagnetic relay 5
5 is an external force based on the displacement 5, E 1a is the rotation direction of the protrusion 151 Ap, and E 2a is the interlocking plate 15.
1A in the rotational direction, E 3a is a rotating direction of the trip bracket 152. When an overcurrent or a short-circuit current flows in the path, based on the displacement of the movable portion 55 of the thermally activated electromagnetic relay 5, the external force F A is applied to the interlock plate 151A. Interlock plate 151A, depending external force F A, in the XZ plane, rotationally displaced to the first supporting point 151Aa around the E 2a direction of counterclockwise. Thereby, protrusions 151Ap also reviews bracket 152 in contact with left XZ plane, rotationally displaced to the first supporting point 151Aa around the E 1a direction of counterclockwise. Trip bracket 152 is interlocking plate 151A.
In protrusions in the XZ plane in association with the rotational displacement of 151Ap, rotationally displaced to a third fulcrum 152a about the E 3a direction of clockwise. Interlock plate 151A is, when the rotational displacement of the preset amount of displacement E 2a direction, protrusions 151Ap is further rotated and displaced in the E 1a direction, enters into the hole 152h of the trip bracket 152 pores It is engaged with 152h (the engaged position is referred to as a first position). By engaging the trip bracket 152 is further rotated and displaced in the direction, that is E 3a direction approaching the interlock plate 151A to the third pivot point 152a around. Due to the rotational displacement of the trip fitting 152 accompanying the rotational displacement of the interlocking plate 151A, the trip fitting 152 and the hook 23 are disengaged, and the hook 23 rotates to rotate the movable contact 13 around the fulcrum 13a. And move away from the fixed contact 12 to make the movable contact 13 and the fixed contact 12 disconnected.
Turn off the circuit.

熱動電磁式リレー5において、電路に過電流が流れたときの熱動電磁式リレー5のバイ
メタル51の変形量及び変形速度は過電流の電流レベルによって異なる。すなわち、過電
流の電流レベルが高い場合は、バイメタル51の変形量は大きく、変形速度も速いが、過
電流の電流レベルが低い場合は、バイメタル51の変形量は小さく、変形速度も遅い。こ
のため、過電流の電流レベルが低く、予め設定された電流レベルに達していない場合は、
バイメタル51の変形量が小さいために可動部55の変位量が小さく、該可動部55が連
動板151Aに当接しない。この場合は、連動板151Aは回動変位せず、引外し手段1
5は駆動されない。過電流の電流レベルが、予め設定された電流レベルに達している場合
であって、該電流レベルが相対的に低い場合は、バイメタル51は相対的に長い時間をか
けて変形し、可動部55も、該バイメタル51の変形に付随して相対的に長い時間をかけ
て変位する。このため、この場合は、可動部55が連動板151Aに長い時間の後、当接
することになり、かつ、該当接後も、該連動板151Aを、長い時間をかけて回動変位さ
せる。この結果、この場合は、電路に過電流が流れた時点から連動板151Aが回動変位
を開始するまでの時間も、また、連動板151Aが回動変位を開始した時点から、開閉機
構部14が作動され、電路がオフ状態にされるまでの時間も、相対的に長い。また、過電
流の電流レベルが、相対的に高い場合は、バイメタル51は、上記過電流の電流レベルが
低い場合よりは相対的に短い時間をかけて変形し、可動部55も、該バイメタル51の変
形に付随して上記過電流の電流レベルが低い場合よりは相対的に短い時間をかけて変位す
る。このため、過電流の電流レベルが、相対的に高い場合は、可動部55が連動板151
Aに上記過電流の電流レベルが低い場合よりは短い時間の後、当接することになり、かつ
、該当接後も、可動部55は、該連動板151Aを、上記過電流の電流レベルが低い場合
よりは短い時間をかけて回動変位させる。この結果、過電流の電流レベルが相対的に高い
場合は、電路に過電流が流れた時点から連動板151Aが回動変位を開始するまでの時間
も、また、連動板151Aが回動変位を開始した時点から、開閉機構部14が作動され、
電路がオフ状態にされるまでの時間も上記過電流の電流レベルが低い場合よりは相対的に
短い。このように、回路遮断器が、熱動電磁式リレー5が組込まれている構成のとき、電
路に過電流が流れた場合には、電流遮断までの応答時間が電流レベルに応じて長くなる(
=長限時領域が形成される)ようになっているため、過電流の電流レベルが低い場合に過
敏な応答をせず、回路遮断器としての動作の安定性と使い勝手性とを向上させることがで
きる。
In the thermal electromagnetic relay 5, the deformation amount and the deformation speed of the bimetal 51 of the thermal electromagnetic relay 5 when an overcurrent flows through the electric circuit vary depending on the current level of the overcurrent. That is, when the overcurrent current level is high, the deformation amount of the bimetal 51 is large and the deformation speed is fast, but when the overcurrent current level is low, the deformation amount of the bimetal 51 is small and the deformation speed is slow. For this reason, if the current level of the overcurrent is low and has not reached the preset current level,
Since the deformation amount of the bimetal 51 is small, the displacement amount of the movable portion 55 is small, and the movable portion 55 does not contact the interlocking plate 151A. In this case, the interlocking plate 151A is not rotationally displaced, but the tripping means 1
5 is not driven. When the current level of the overcurrent has reached a preset current level and the current level is relatively low, the bimetal 51 is deformed over a relatively long time, and the movable portion 55 However, it is displaced over a relatively long time accompanying the deformation of the bimetal 51. For this reason, in this case, the movable portion 55 comes into contact with the interlocking plate 151A after a long time, and the interlocking plate 151A is rotationally displaced over a long time after the contact. As a result, in this case, the time from when the overcurrent flows in the electric circuit until the interlocking plate 151A starts to rotate and from the time when the interlocking plate 151A starts to rotate is also changed. The time until the electric circuit is activated and the electric circuit is turned off is also relatively long. When the overcurrent current level is relatively high, the bimetal 51 is deformed over a relatively shorter time than when the overcurrent current level is low, and the movable part 55 is also deformed. As a result of the deformation, the displacement takes a relatively short time compared to the case where the current level of the overcurrent is low. For this reason, when the current level of the overcurrent is relatively high, the movable portion 55 is connected to the interlocking plate 151.
A will be in contact with A after a shorter time than when the overcurrent current level is low, and even after the contact, the movable portion 55 keeps the interlock plate 151A at a low overcurrent current level. It is rotated and displaced over a shorter time than the case. As a result, when the current level of the overcurrent is relatively high, the time from when the overcurrent flows through the electric circuit until the interlocking plate 151A starts to rotate is also changed. From the start, the opening / closing mechanism 14 is activated,
The time until the electric circuit is turned off is also relatively shorter than when the overcurrent current level is low. Thus, when the circuit breaker has a configuration in which the thermal electromagnetic relay 5 is incorporated, if an overcurrent flows through the electric circuit, the response time until the current is interrupted becomes longer according to the current level (
= A long time limit area is formed), so that when the current level of the overcurrent is low, there is no sensitive response and the stability and usability of the circuit breaker can be improved. it can.

また、熱動電磁式リレー5において、電路に短絡電流が流れたときには、電磁石の固定
コイルに通電されて固定コア53が直ちに励磁され、ケース19内で空気中に配されてい
る可動コア54との間に電磁力(磁気吸引力)が働き、該可動コア54が該電磁力により
瞬時に固定コア53側に吸引され、可動部55を引外し手段15側に瞬時に大きく変位さ
せ、該変位により、極めて短時間のうちに、該引外し手段15の連動板151Aを回動変
位させ、これに付随させてトリップ金具152を回動変位させて開閉機構部14を作動さ
せ、電路をオフ状態にする。このように、回路遮断器1が、熱動電磁式リレー5が組込ま
れている構成のとき、電路に短絡電流が流れた場合には、電流遮断までの応答時間が極め
て短くなるため、該短絡電流による部品の焼損なども回避され、回路遮断器としての信頼
性を向上させることができる。
Further, in the thermal electromagnetic relay 5, when a short-circuit current flows in the electric circuit, the fixed core 53 is energized immediately by energizing the fixed coil of the electromagnet, and the movable core 54 arranged in the air in the case 19 Electromagnetic force (magnetic attraction force) acts between the movable core 54 and the movable core 54 is instantaneously attracted to the fixed core 53 side by the electromagnetic force, and the movable portion 55 is instantaneously greatly displaced toward the tripping means 15 side. Thus, in a very short time, the interlocking plate 151A of the tripping means 15 is rotationally displaced, and the trip fitting 152 is rotationally displaced in association with the interlocking plate 151A to operate the opening / closing mechanism unit 14, and the electric circuit is turned off. To. As described above, when the circuit breaker 1 has the configuration in which the thermal electromagnetic relay 5 is incorporated, when a short-circuit current flows in the electric circuit, the response time until the current is interrupted becomes extremely short. Burnout of parts due to electric current is also avoided, and the reliability as a circuit breaker can be improved.

以下、説明中で用いる図2の構成における構成要素には、図2の場合と同じ符号を付し
て用いる。
Hereinafter, the same reference numerals as those in FIG. 2 are used for the components in the configuration of FIG. 2 used in the description.

図3は、本発明の実施例としての回路遮断器1の構造を示し、完全電磁式リレーが組み
込まれたときの構造図である。
FIG. 3 shows the structure of the circuit breaker 1 as an embodiment of the present invention, and is a structural diagram when a complete electromagnetic relay is incorporated.

図3において、1は、本発明の実施例としての回路遮断器、10a、10bは、回路遮
断器1が接続される外部電路、11aは、外部電路10aに接続される回路遮断器1の電
路接続用端子、11bは、外部電路10bに接続される回路遮断器1の電路接続用端子、
12は接点部を形成する固定接点、13は接点部を形成する可動接点、13aは、可動接
点13が回動変位するときの回動支点、14は、可動接点13を回動支点13a周りに回
動変位させ、該可動接点13を固定接点12に対し、非接触状態から接触状態にするまた
は接触状態から非接触状態にする開閉機構部、15は、開閉機構部14を、接点部の上記
可動接点13が上記固定接点12に対し接触状態から非接触状態となるように作動させる
引外し手段、151Bは、引外し手段15における回動部材(第2の回動部材)としての
回動レバー、152は、引外し手段15における回動部材(第3の回動部材)としてのト
リップ金具、151Baは、第2の回動部材としての回動レバー151Bが回動変位する
ときの回動支点(第2の支点)、151Bpは、回動レバー151B上に設けられトリッ
プ金具152に係合する係合部(第2の係合部)としての突起部、152aは、第3の回
動部材としてのトリップ金具152が回動変位するときの回動支点(第3の支点)、17
はハンドル、18は、可動接点13が固定接点12に対し接触状態から非接触状態になる
ときに該固定接点12との間に発生するアークを抑える消弧部、19はケース、23は、
開閉機構部14内のフック、6は完全電磁式リレー、61は、完全電磁式リレー6内の励
磁用コイル、64aは、完全電磁式リレー6の可動部、62は、完全電磁式リレー6内の
オイルダッシュポット、66は、オイルダッシュポット62内に配され、電磁力によりオ
イル中を移動変位する可動コア、65は、完全電磁式リレー6内の固定コア、63は、完
全電磁式リレー6内のヨーク、64は、完全電磁式リレー6内の可動鉄片、67は、弾性
復元力により可動鉄片64を、固定コア65との間の電磁力(磁気吸引力)に抗する方向
に付勢するばねである。可動部64aは、可動鉄片64に結合され、該可動鉄片64の変
位に対応して変位するようになっている。引外し手段15は、その構成のうち、完全電磁
式リレー6に対応する部分を示す。
In FIG. 3, 1 is a circuit breaker as an embodiment of the present invention, 10a and 10b are external electric circuits to which the circuit breaker 1 is connected, and 11a is an electric circuit of the circuit breaker 1 connected to the external electric circuit 10a. The connection terminal 11b is a circuit connection terminal of the circuit breaker 1 connected to the external circuit 10b.
12 is a fixed contact that forms a contact portion, 13 is a movable contact that forms a contact portion, 13a is a rotation fulcrum when the movable contact 13 is rotationally displaced, and 14 is a rotation fulcrum around the rotation fulcrum 13a. An opening / closing mechanism unit 15 that rotates and displaces the movable contact 13 with respect to the fixed contact 12 from a non-contact state to a contact state or from a contact state to a non-contact state. Tripping means 151B for operating the movable contact 13 so as to change from the contact state to the non-contact state with respect to the fixed contact 12, 151B is a turning lever as a turning member (second turning member) in the tripping means 15. , 152 is a trip fitting as a turning member (third turning member) in the tripping means 15, and 151Ba is a turning fulcrum when the turning lever 151B as the second turning member is rotationally displaced. (Second fulcrum , 151Bp is a protrusion as an engaging portion (second engaging portion) that is provided on the rotating lever 151B and engages the trip fitting 152, and 152a is a trip fitting 152 as a third rotating member. Rotation fulcrum (third fulcrum) for rotational displacement, 17
Is a handle, 18 is an arc extinguishing part that suppresses an arc generated between the movable contact 13 and the fixed contact 12 from a contact state to a non-contact state, 19 is a case, 23 is a
Hook in the opening / closing mechanism 14, 6 is a complete electromagnetic relay, 61 is an excitation coil in the complete electromagnetic relay 6, 64 a is a movable part of the complete electromagnetic relay 6, and 62 is in the complete electromagnetic relay 6 The oil dash pot 66 is disposed in the oil dash pot 62 and is movable in the oil by electromagnetic force, 65 is a fixed core in the complete electromagnetic relay 6, and 63 is the complete electromagnetic relay 6. An inner yoke 64 is a movable iron piece in the complete electromagnetic relay 6, and 67 is an elastic restoring force that urges the movable iron piece 64 in a direction against an electromagnetic force (magnetic attraction force) with the fixed core 65. Spring. The movable portion 64 a is coupled to the movable iron piece 64 and is displaced corresponding to the displacement of the movable iron piece 64. The tripping means 15 indicates a portion corresponding to the complete electromagnetic relay 6 in the configuration.

開閉機構部14は、2節リンク機構を有して構成され、引外し手段15により、可動接
点13を回動支点13a周りに回動変位させて、該可動接点13を固定接点12に対して
接続状態から非接続状態にすることができるとともに、ハンドル17の操作によっても、
可動接点13を回動支点13a周りに回動変位させて、該可動接点13を固定接点12に
対して非接続状態から接続状態にしたり、接続状態から非接続状態にしたりすることがで
きるようになっている。開閉機構部14におけるフック23は、引外し手段15における
第3の回動部材としてのトリップ金具152と接続されている。
The opening / closing mechanism section 14 is configured to have a two-bar linkage mechanism, and the tripping means 15 rotates the movable contact 13 around the pivot fulcrum 13 a so that the movable contact 13 is moved with respect to the fixed contact 12. It can be changed from a connected state to a disconnected state, and also by operating the handle 17,
The movable contact 13 can be rotated and displaced about the rotation fulcrum 13a so that the movable contact 13 can be changed from the non-connected state to the connected state with respect to the fixed contact 12 or from the connected state to the non-connected state. It has become. The hook 23 in the opening / closing mechanism 14 is connected to a trip fitting 152 as a third rotating member in the tripping means 15.

完全電磁式リレー6は、電路に過電流が流れたとき例えば定格電流の2倍程度の過電流
が流れたときは、該過電流が励磁用コイル61中を流れ、該過電流と該励磁コイル61に
よって形成された磁界に基づき可動コア66に電磁力が作用する。可動コア66は該電磁
力により、オイルダッシュポット62内をZ軸方向に移動変位する。可動コア66がオイ
ルダッシュポット62内の最上部に到達すると、ケース19内の空気中に配された可動鉄
片64が固定コア65側に電磁力(磁気吸引力)によって吸引される。この結果、可動部
64aが引外し手段15側に変位し、該引外し手段15を駆動する。定格電流の2倍程度
を超える過電流が電路に流れた場合も同様である。また、短絡電流が流れたときは、励磁
用コイル61に該短絡電流が通電されて固定コア65が励磁され、オイルダッシュポット
62内の可動コア66のZ軸方向への移動変位を待たずに、該固定コア65と可動鉄片6
4との間に大きな電磁力(磁気吸引力)が働く。可動鉄片64は、該電磁力により、ばね
67の弾性復元力に抗して固定コア65側に吸引され、可動部64aを引外し手段15側
に変位させる。該可動部64aの該変位は、該引外し手段15を駆動し、開閉機構部14
を作動させる。
When the overcurrent flows in the electric circuit, for example, when an overcurrent twice as much as the rated current flows, the complete electromagnetic relay 6 flows in the exciting coil 61, and the overcurrent and the exciting coil An electromagnetic force acts on the movable core 66 based on the magnetic field formed by 61. The movable core 66 is moved and displaced in the Z-axis direction within the oil dash pot 62 by the electromagnetic force. When the movable core 66 reaches the uppermost part in the oil dash pot 62, the movable iron piece 64 disposed in the air in the case 19 is attracted to the fixed core 65 side by electromagnetic force (magnetic attraction force). As a result, the movable portion 64a is displaced toward the tripping means 15 and drives the tripping means 15. The same applies when an overcurrent exceeding about twice the rated current flows in the electric circuit. When a short-circuit current flows, the excitation coil 61 is energized to excite the fixed core 65 without waiting for the displacement of the movable core 66 in the oil dash pot 62 in the Z-axis direction. The fixed core 65 and the movable iron piece 6
A large electromagnetic force (magnetic attraction force) works between 4 and 4. The movable iron piece 64 is attracted to the fixed core 65 side against the elastic restoring force of the spring 67 by the electromagnetic force, and displaces the movable part 64a to the tripping means 15 side. The displacement of the movable portion 64a drives the tripping means 15, and the opening / closing mechanism portion 14 is driven.
Is activated.

引外し手段15において、第2の回動部材としての回動レバー151Bは、該回動レバ
ー151B上に第2の係合部を有し、第3の回動部材としてのトリップ金具152は、該
トリップ金具152上に上記第2の係合部と係合する第4の係合部を有する。電路に過電
流または短絡電流が流れたとき、回動レバー151Bは、上記完全電磁式リレー6の可動
部64aの変位に基づき第2の支点151Ba周りに回動変位する。該回動レバー151
Bの該回動変位により、該回動レバー151B上の第2の係合部も第2の支点151Ba
周りに該回動レバー151Bと一体で回動変位する。該第2の係合部は、トリップ金具1
52に当接した状態で回動変位する。このとき、トリップ金具152も、該第2の係合部
の回動変位に付随して第3の支点152a周りに回動変位する。該回動レバー151Bが
、予め設定された変位量を回動変位したとき、第2の係合部は、トリップ金具152上の
第4の係合部と第2の位置において係合される。該係合により、トリップ金具152は、
第3の支点152a周りにさらに回動レバー151Bに近づく方向に回動変位する。トリ
ップ金具152の、該回動レバー151Bの回動変位に付随した回動変位により、引外し
手段15は、上記開閉機構部14を作動させる。すなわち、トリップ金具152の回動変
位により、該トリップ金具152とフック23との係合が外れ、該フック23が回転して
可動接点13を支点13a周りに回動させ、固定接点12から離間させて、可動接点13
、固定接点12間を非接続状態にする。これによって、回路遮断器1内において電路がオ
フ状態とされ、過電流または短絡電流が遮断される。
In the tripping means 15, the rotation lever 151B as the second rotation member has a second engaging portion on the rotation lever 151B, and the trip fitting 152 as the third rotation member is: The trip fitting 152 has a fourth engagement portion that engages with the second engagement portion. When an overcurrent or a short-circuit current flows through the electric circuit, the turning lever 151B is turned around the second fulcrum 151Ba based on the displacement of the movable portion 64a of the complete electromagnetic relay 6. The rotating lever 151
Due to the rotation displacement of B, the second engagement portion on the rotation lever 151B is also moved to the second fulcrum 151Ba.
It is rotated and displaced integrally with the rotating lever 151B. The second engaging portion is a trip fitting 1
In a state where it is in contact with 52, it is rotationally displaced. At this time, the trip fitting 152 is also rotationally displaced around the third fulcrum 152a in association with the rotational displacement of the second engaging portion. When the rotation lever 151B is rotated and displaced by a preset amount of displacement, the second engagement portion is engaged with the fourth engagement portion on the trip fitting 152 at the second position. By this engagement, the trip fitting 152 is
The third fulcrum 152a is further rotated and displaced in a direction approaching the rotation lever 151B. The tripping means 15 operates the opening / closing mechanism section 14 by the rotational displacement of the trip metal fitting 152 accompanying the rotational displacement of the rotational lever 151B. In other words, the trip fitting 152 is disengaged from the hook 23 due to the rotational displacement of the trip fitting 152, and the hook 23 is rotated to rotate the movable contact 13 around the fulcrum 13a and away from the fixed contact 12. The movable contact 13
The fixed contacts 12 are disconnected. Thereby, the electric circuit is turned off in the circuit breaker 1, and the overcurrent or the short-circuit current is interrupted.

以下、説明中で用いる図3の構成における構成要素には、図3の場合と同じ符号を付し
て用いる。
Hereinafter, the same reference numerals as those in FIG. 3 are used for the components in the configuration of FIG. 3 used in the description.

図4は、図3の回路遮断器1における引外し手段15の説明図である。(a)は、完全
電磁式リレー6の可動部64aの変位に基づく外力が回動レバー151Bに作用し始める
ときの状態を示し、(b)は、完全電磁式リレー6の可動部64aの変位に基づく外力に
より、回動レバー151Bが回動変位し、該回動レバー151Bの第2の係合部が、トリ
ップ金具152の第4の係合部と係合されたときの状態を示す。
FIG. 4 is an explanatory diagram of the tripping means 15 in the circuit breaker 1 of FIG. (A) shows the state when an external force based on the displacement of the movable part 64a of the complete electromagnetic relay 6 starts to act on the rotating lever 151B, and (b) shows the displacement of the movable part 64a of the complete electromagnetic relay 6. The rotation lever 151B is rotationally displaced by the external force based on the above, and the second engagement portion of the rotation lever 151B is engaged with the fourth engagement portion of the trip fitting 152.

図4において、151Bpは、第2の回動部材である回動レバー151Bの第2の係合
部(突起状の係合部)としての突起部、152tは、第3の回動部材であるトリップ金具
152の第4の係合部(切欠状の係合部)としての端面部、Fは、完全電磁式リレー6
の可動部64aの変位に基づく外力、E1bは、突起部151Bpの回動方向、E2b
、回動レバー151Bの回動方向、E3bは、トリップ金具152の回動方向である。過
電流または短絡電流が電路に流れたとき、完全電磁式リレー6の可動部64aの変位に基
づき、外力Fが回動レバー151Bに作用する。回動レバー151Bは、該外力F
よって、XZ平面内で、時計方向のE2b方向に第2の支点151Ba周りに回動変位す
る。これによって、突起部151Bpも、トリップ金具152に当接したままXZ平面内
で、時計方向のE1b方向に第2の支点151Ba周りに回動変位する。トリップ金具1
52は、回動レバー151Bの突起部151Bpの回動変位に付随してXZ平面内で、時
計方向のE3b方向に第3の支点152a周りに回動変位する。回動レバー151Bが、
予め設定された変位量をE2b方向に回動変位したとき、突起部151Bpは、さらにE
1b方向に回動変位し、トリップ金具152のZ軸方向の端面部152tに乗り上げ、該
端面部152tに側面(突起部151Bpの側面)が当接された状態で係合される(該係
合される位置を第2の位置という)。該係合により、トリップ金具152は、第3の支点
152a周りに回動レバー151Bにさらに近づく方向すなわちE3b方向に回動変位す
る。回動レバー151Bの回動変位に付随したトリップ金具152の該回動変位により、
該トリップ金具152とフック23との係合が外れ、該フック23が回転して可動接点1
3を支点13a周りに回動させ、固定接点12から離間させて、可動接点13、固定接点
12間を非接続状態にし、電路をオフ状態にする。
In FIG. 4, 151Bp is a projection as a second engagement portion (projection-like engagement portion) of a rotation lever 151B, which is a second rotation member, and 152t is a third rotation member. fourth end face of the engagement portion (notched engaging portions) of the trip bracket 152, F B is completely electromagnetic relay 6
The external force based on the displacement of the movable portion 64 a, E 1 b is the rotation direction of the protrusion 151 Bp, E 2 b is the rotation direction of the rotation lever 151 B, and E 3 b is the rotation direction of the trip fitting 152. When an overcurrent or a short-circuit current flows in the path, based on the displacement of the movable portion 64a of the full electromagnetic relay 6, the external force F B acts on the pivot lever 151B. Rotating lever 151B is the external force F B, in the XZ plane, rotationally displaced to the second supporting point 151Ba around the E 2b direction of clockwise. Thus, projections 151Bp also in contact with left XZ plane trip bracket 152, rotationally displaced to the second supporting point 151Ba around the E 1b direction of clockwise. Trip fitting 1
52 is rotationally displaced about the third fulcrum 152a in the clockwise E3b direction in the XZ plane in association with the rotational displacement of the protrusion 151Bp of the rotational lever 151B. The rotating lever 151B is
When a preset amount of displacement was rotationally displaced in the E 2b direction, projections 151Bp further E
1b is rotated and displaced, rides on the end surface portion 152t of the trip fitting 152 in the Z-axis direction, and is engaged with the end surface portion 152t in contact with the side surface (the side surface of the protrusion 151Bp) (the engagement). This position is called the second position). By engaging the trip bracket 152 is further rotated and displaced in the direction, that is E 3b direction approaching the rotating lever 151B to the third pivot point 152a around. By the rotational displacement of the trip fitting 152 accompanying the rotational displacement of the rotational lever 151B,
The trip fitting 152 and the hook 23 are disengaged, and the hook 23 rotates to move the movable contact 1.
3 is rotated around the fulcrum 13a and separated from the fixed contact 12, the movable contact 13 and the fixed contact 12 are disconnected, and the electric circuit is turned off.

完全電磁式リレー6において、電路に過電流が流れたときのオイルダッシュポット62
内の可動コア66のZ軸方向への移動変位量及び移動速度は過電流の電流レベルによって
異なる。すなわち、過電流の電流レベルが高い場合は、可動コア66の移動変位量は大き
く、移動速度も速いが、過電流の電流レベルが低い場合は、可動コア66の移動変位量は
小さく、移動速度も遅い。このため、過電流の電流レベルが低く、予め設定された電流レ
ベルに達していない場合は、可動コア66の移動変位量が小さいために該可動コア66は
オイルダッシュポット62内の最上部に到達せず、可動鉄片64は固定コア65側に吸引
されないか、または吸引されたとしても固定コア65側への移動変位量が小さいため、可
動部64aが回動レバー151Bに当接しない。この場合は、回動レバー151Bは回動
変位せず、引外し手段15は駆動されない。また、過電流の電流レベルが、予め設定され
た電流レベルに達している場合であって、該電流レベルが相対的に低い場合は、オイルダ
ッシュポット62内の可動コア66は相対的に長い時間をかけてZ軸方向に移動し、可動
鉄片64及び可動部64aも、該可動コア66のかかる移動変位動作に対応して、電路に
過電流が流れた時点からは相対的に長い時間の後に、相対的に長い時間をかけて変位する
。このため、この場合は、可動部64aは、過電流が流れた時点から長い時間の後に回動
レバー151Bに当接することになり、かつ、該当接後も、該可動部64aは、該回動レ
バー151Bを、長い時間をかけて回動変位させる。この結果、この場合は、電路に過電
流が流れた時点から回動レバー151Bが回動変位を開始するまでの時間も、また、回動
レバー151Bが回動変位を開始した時点から、開閉機構部14が作動され、電路がオフ
状態にされるまでの時間も、相対的に長くなる。また、過電流の電流レベルが、相対的に
高い場合は、オイルダッシュポット62内の可動コア66は、上記過電流の電流レベルが
低い場合よりは相対的に短い時間のうちにZ軸方向に移動し、可動鉄片64及び可動部6
4aも、該可動コア66の移動動作に対応して上記過電流の電流レベルが低い場合よりは
相対的に短い時間のうちに変位する。このため、過電流の電流レベルが、相対的に高い場
合は、可動部64aが回動レバー151Bに上記過電流の電流レベルが低い場合よりは短
い時間の後当接することになり、かつ、該当接後も、可動部64aは、該回動レバー15
1Bを、上記過電流の電流レベルが低い場合よりは短い時間内で回動変位させる。この結
果、過電流の電流レベルが相対的に高い場合は、電路に過電流が流れた時点から回動レバ
ー151Bが回動変位を開始するまでの時間も、また、回動レバー151Bが回動変位を
開始した時点から、開閉機構部14が作動され、電路がオフ状態にされるまでの時間も上
記過電流の電流レベルが低い場合よりは相対的に短い。このように、回路遮断器1に完全
電磁式リレー6が組込まれている構成のとき、電路に過電流が流れた場合には、電流遮断
までの応答時間が電流レベルに応じて長くなる(=長限時領域が形成される)ようになっ
ているため、過電流の電流レベルが低い場合に過敏な応答をせず、回路遮断器としての動
作の安定性と使い勝手性とを向上させることができる。
In the complete electromagnetic relay 6, the oil dash pot 62 when an overcurrent flows in the electric circuit
The moving displacement amount and moving speed of the movable core 66 in the Z-axis direction vary depending on the overcurrent current level. That is, when the overcurrent current level is high, the moving displacement of the movable core 66 is large and the moving speed is fast, but when the overcurrent current level is low, the moving displacement of the movable core 66 is small and the moving speed is high. Is too slow. For this reason, when the current level of the overcurrent is low and does not reach the preset current level, the movable core 66 reaches the top in the oil dash pot 62 because the moving displacement of the movable core 66 is small. The movable iron piece 64 is not attracted to the fixed core 65 side, or even if it is attracted, the movable portion 64a does not come into contact with the rotating lever 151B because the moving displacement amount toward the fixed core 65 is small. In this case, the turning lever 151B is not turned and the tripping means 15 is not driven. When the overcurrent current level has reached a preset current level and the current level is relatively low, the movable core 66 in the oil dashpot 62 has a relatively long time. The movable iron piece 64 and the movable portion 64a are also moved after a relatively long time from the time when the overcurrent flows through the electric circuit, corresponding to the movement displacement operation of the movable core 66. Displace over a relatively long time. For this reason, in this case, the movable portion 64a comes into contact with the rotation lever 151B after a long time from the time when the overcurrent flows, and the movable portion 64a remains in the rotation after the contact. The lever 151B is rotationally displaced over a long time. As a result, in this case, the time from when the overcurrent flows through the electric circuit until the rotation lever 151B starts to rotate is also changed from the time when the rotation lever 151B starts to rotate. The time until the part 14 is activated and the electric circuit is turned off is also relatively long. When the overcurrent current level is relatively high, the movable core 66 in the oil dash pot 62 moves in the Z-axis direction in a relatively shorter time than when the overcurrent current level is low. Move, moveable iron piece 64 and moveable part 6
4a is also displaced in a relatively shorter time than the case where the current level of the overcurrent is low corresponding to the moving operation of the movable core 66. For this reason, when the current level of the overcurrent is relatively high, the movable portion 64a comes into contact with the rotating lever 151B after a shorter time than when the current level of the overcurrent is low, and Even after the contact, the movable portion 64a remains on the rotating lever 15.
1B is rotationally displaced within a shorter time than when the current level of the overcurrent is low. As a result, when the current level of the overcurrent is relatively high, the time from when the overcurrent flows through the electric circuit until the rotation lever 151B starts to rotate and the rotation lever 151B is also rotated. The time from when the displacement is started until the opening / closing mechanism unit 14 is operated and the electric circuit is turned off is relatively shorter than when the current level of the overcurrent is low. As described above, in the configuration in which the complete electromagnetic relay 6 is incorporated in the circuit breaker 1, when an overcurrent flows in the electric circuit, the response time until the current is interrupted becomes longer according to the current level (= A long time limit region is formed), so when the current level of overcurrent is low, there is no sensitive response and the stability and usability of the circuit breaker can be improved. .

また、完全電磁式リレー6において、電路に短絡電流が流れたときには、該短絡電流が
励磁用コイル61に通電されて固定コア65が直ちに励磁され、ケース19内で空気中に
配されている可動鉄片64と該固定コア65との間に大きな電磁力(磁気吸引力)が働き
、該可動鉄片64が該電磁力により瞬時に固定コア65側に吸引され、可動部64aを引
外し手段15側に瞬時に大きく変位させ、該変位により、極めて短時間のうちに、該引外
し手段15の回動レバー151Bを回動変位させ、これに付随させてトリップ金具152
を回動変位させて開閉機構部14を作動させ、電路をオフ状態にする。このように、回路
遮断器1に完全電磁式リレー6が組込まれている構成のとき、電路に短絡電流が流れた場
合には、回路遮断器1においては、電流遮断までの応答時間が極めて短くなるため、該短
絡電流による部品の焼損なども回避され、回路遮断器としての信頼性を向上させることが
できる。
Further, in the complete electromagnetic relay 6, when a short-circuit current flows in the electric circuit, the short-circuit current is energized to the exciting coil 61 and the fixed core 65 is immediately excited, and the movable core disposed in the air in the case 19. A large electromagnetic force (magnetic attractive force) acts between the iron piece 64 and the fixed core 65, the movable iron piece 64 is instantaneously attracted to the fixed core 65 side by the electromagnetic force, and the movable portion 64a is tripped. The displacement lever 151B of the tripping means 15 is rotationally displaced in a very short time due to the displacement, and the trip fitting 152 is accompanied by the displacement.
Is rotated and displaced to operate the opening / closing mechanism 14 to turn off the electric circuit. As described above, when the complete electromagnetic relay 6 is incorporated in the circuit breaker 1 and the short circuit current flows in the circuit, the circuit breaker 1 has a very short response time until the current interruption. Therefore, burning of components due to the short-circuit current is avoided, and the reliability as a circuit breaker can be improved.

以下、説明中で用いる図4の構成における構成要素には、図4の場合と同じ符号を付し
て用いる。
Hereinafter, the same reference numerals as those in FIG. 4 are used for the components in the configuration of FIG. 4 used in the description.

上記のように、引外し手段15において、第3の回動部材であるトリップ金具152は
、第1の回動部材である連動板151Aと第2の回動部材である回動レバー151Bとの
いずれによっても駆動される構成を有する。
As described above, in the tripping means 15, the trip metal fitting 152 that is the third rotating member is between the interlocking plate 151 </ b> A that is the first rotating member and the rotating lever 151 </ b> B that is the second rotating member. It has the structure driven by either.

図5は、トリップ金具152の平面構造を示す図である。   FIG. 5 is a view showing a planar structure of the trip fitting 152.

図5において、152acは、トリップ金具152の回動中心すなわち第3の支点15
2a(図1〜図4)の中心である。回路遮断器1において、熱動電磁式リレー5が組込ま
れた構成においては、本トリップ金具152は、連動板151Aの突起部151Apと当
接した状態ですなわち本トリップ金具152の面上を突起部151Apの先端が摺動する
状態で、該連動板151Aの回動変位に付随して、第3の支点152a周りに回動し、孔
152hに連動板151Aの突起部151Apが合う位置(第1の位置)において、該孔
152h(第3の係合部)と該突起部151Ap(第1の係合部)とが係合され、また、
完全電磁式リレー6が組込まれた構成においては、本トリップ金具152は、回動レバー
151Bの突起部151Bpと当接した状態すなわち本トリップ金具152の面上を突起
部151Bpの先端が摺動した状態で、該回動レバー151Bの回動変位に付随して第3
の支点152a周りに回動し、端面部152tに回動レバー151Bの突起部151Bp
の側面が乗り上げる位置(第2の位置)で、該端面部152t(第4の係合部)と該突起
部151Bp(第2の係合部)とが係合される。第1の位置と第2の位置はトリップ金具
152上において異なった位置となる。
In FIG. 5, 152ac is the rotation center of the trip fitting 152, that is, the third fulcrum 15.
2a (FIGS. 1 to 4). In the circuit breaker 1, in the configuration in which the thermal electromagnetic relay 5 is incorporated, the trip metal fitting 152 is in contact with the protrusion 151Ap of the interlocking plate 151A, that is, the protrusion on the surface of the trip metal fitting 152. In a state where the tip of 151Ap is slid, it is rotated around the third fulcrum 152a along with the rotational displacement of the interlocking plate 151A, and the projection 151Ap of the interlocking plate 151A is aligned with the hole 152h (first position). ), The hole 152h (third engagement portion) and the protrusion 151Ap (first engagement portion) are engaged, and
In the configuration in which the complete electromagnetic relay 6 is incorporated, the trip fitting 152 is in contact with the projection 151Bp of the rotating lever 151B, that is, the tip of the projection 151Bp slides on the surface of the trip fitting 152. In the state, there is a third associated with the rotational displacement of the rotational lever 151B.
Rotate around the fulcrum 152a, and the protrusion 151Bp of the rotation lever 151B on the end surface 152t.
The end surface portion 152t (fourth engagement portion) and the projection portion 151Bp (second engagement portion) are engaged with each other at a position (second position) on which the side surface of the vehicle rides. The first position and the second position are different positions on the trip fitting 152.

上記本発明の実施例としての回路遮断器1によれば、電流レンジに対応して、リレーと
して熱動電磁式リレー5または完全電磁式リレー6のいずれかを適宜択一的に組込むこと
ができる。また、限流素子を用いない構成であるため、電路に短絡電流が流れた場合には
、部品を焼損等させることなく短時間で該短絡電流を遮断することができ、部品の信頼性
を向上させることができる。また、電路に過電流が流れた場合には、電流遮断までの応答
時間を電流レベルに応じて長くする(=長限時領域を形成する)ことができ、回路遮断器
の過敏な動作を回避して安定な動作を行わせることができ、使い勝手性を向上させること
ができる。さらに、回路遮断器の小形化も図ることができる。
According to the circuit breaker 1 as the embodiment of the present invention, either the thermal electromagnetic relay 5 or the complete electromagnetic relay 6 can be appropriately and selectively incorporated as a relay corresponding to the current range. . In addition, because it is a configuration that does not use a current limiting element, when a short-circuit current flows in the circuit, the short-circuit current can be interrupted in a short time without burning the component, improving the reliability of the component Can be made. Also, when an overcurrent flows in the circuit, the response time until the current is interrupted can be lengthened according to the current level (= form a long time limit region), avoiding the sensitive operation of the circuit breaker. And stable operation can be performed, and usability can be improved. Further, the circuit breaker can be downsized.

1…回路遮断器、
5…熱動電磁式リレー、
50…ヒータ、
51…バイメタル、
52、67…ばね、
53、65…固定コア、
54、66…可動コア、
55、64a…可動部、
10a、10b…外部電路、
11a、11b…電路接続用端子、
12…固定接点、
13…可動接点、
14…開閉機構部、
15…引外し手段、
151A…連動板、
151Aa…第1の支点、
151Ap、151Bp…突起部、
151B…回動レバー、
151Ba…第2の支点、
152…トリップ金具、
152a…第3の支点、
152h…孔、
152t…端面部、
17…ハンドル、
18…消弧部、
19…ケース、
23…フック、
6…完全電磁式リレー、
61…励磁用コイル、
62…オイルダッシュポット、
63…ヨーク、
64…可動鉄片。
1 ... Circuit breaker,
5 ... Thermal electromagnetic relay,
50 ... Heater,
51 ... Bimetal,
52, 67 ... springs,
53, 65 ... fixed core,
54, 66 ... movable core,
55, 64a ... movable parts,
10a, 10b ... external circuit,
11a, 11b ... Electric circuit connection terminals,
12: Fixed contact,
13 ... movable contact,
14 ... Opening / closing mechanism,
15: Tripping means,
151A ... interlocking plate,
151Aa ... first fulcrum,
151Ap, 151Bp ... protrusions,
151B ... rotating lever,
151Ba ... second fulcrum,
152 ... Trip fitting,
152a ... the third fulcrum,
152h ... hole,
152t ... end face part,
17 ... handle,
18 ... arc extinguishing part,
19 ... Case,
23 ... Hook,
6 ... Complete electromagnetic relay,
61 ... Excitation coil,
62 ... Oil dash pot,
63 ... York,
64 ... movable iron pieces.

Claims (8)

電路に過電流が流れたとき、バイメタルの変形により可動部が変位する熱動電磁式リレーによって上記電路を遮断する熱動電磁式リレーを有する回路遮断器において、
上記電路に接続され、可動接点と固定接点との接触、非接触によって該電路を閉状態、開状態にする接点部と、
上記可動接点を支点周りに回動変位させ、該可動接点を固定接点に対し接触状態または非接触状態にする開閉機構部と、
上記熱動電磁式リレーの上記可動部の変位に対応して第1の支点周りに回動変位する第1の回動部材と、該第1の回動部材と当接し、該第1の回動部材の回動変位に対応して第3の支点周りに回動変位する第3の回動部材と、該第3の回動部材の回動変位により上記開閉機構部を、上記接点部の可動接点が固定接点に対し非接触状態となるように作動させる引外し手段と、
を備え、
上記電路に過電流が流れたときにオイルダッシュポット中に配された可動コアの電磁力に基づく移動変位により可動部が変位する完全電磁式リレーが、上記熱動電磁式リレーに代えて組み込まれた状態においては、上記完全電磁式リレーの上記可動部の変位に対応して第2の支点周りに、前記第1の回動部材が回動変位する方向とは異なる方向に回動変位する第2の回動部材が上記第3の回動部材と当接し、該第2の回動部材の回動変位に対応して上記第3の回動部材が上記第3の支点周りに回動変位し、かつ、上記第3の回動部材上の、上記第2の回動部材が当接する位置が、上記第1の回動部材が当接する位置とは異なる
ことを特徴とする熱動電磁式リレーを有する回路遮断器。
In a circuit breaker having a thermal electromagnetic relay that interrupts the electric circuit by a thermal electromagnetic relay in which a movable part is displaced by deformation of a bimetal when an overcurrent flows in the electric circuit,
A contact portion that is connected to the electric circuit and that closes and opens the electric circuit by contact or non-contact between the movable contact and the fixed contact;
An opening / closing mechanism that rotationally displaces the movable contact around a fulcrum and places the movable contact in a contact state or a non-contact state with respect to the fixed contact;
A first rotating member that rotates around a first fulcrum corresponding to the displacement of the movable part of the thermal electromagnetic relay, abuts on the first rotating member, and the first rotation member A third rotating member that rotates around the third fulcrum corresponding to the rotational displacement of the moving member, and the opening / closing mechanism by the rotational displacement of the third rotating member. Tripping means for operating the movable contact so as to be in a non-contact state with respect to the fixed contact;
With
A fully electromagnetic relay in which the moving part is displaced by the moving displacement based on the electromagnetic force of the movable core arranged in the oil dashpot when an overcurrent flows in the electric circuit is incorporated in place of the thermal electromagnetic relay. In a state where the first rotating member rotates and displaces in a direction different from the direction in which the first rotating member rotates and displaces around the second fulcrum corresponding to the displacement of the movable part of the complete electromagnetic relay. The second rotating member is in contact with the third rotating member, and the third rotating member is rotated around the third fulcrum in response to the rotational displacement of the second rotating member. And a position on the third rotating member where the second rotating member abuts is different from a position where the first rotating member abuts. Circuit breaker with relay.
電路に過電流が流れたときは、オイルダッシュポット中に配された可動コアの電磁力により可動部が変位する完全電磁式リレーによって上記電路を遮断する完全電磁式リレーを有する回路遮断器において、
上記電路に接続され、可動接点と固定接点との接触、非接触によって該電路を閉状態、開状態にする接点部と、
上記可動接点を支点周りに回動変位させ、該可動接点を固定接点に対し接触状態または非接触状態にする開閉機構部と、
上記完全電磁式リレーの上記可動部の変位に対応して第2の支点周りに回動変位する第2の回動部材と、該第2の回動部材と当接し、該第2の回動部材の回動変位に対応して第3の支点周りに回動変位する第3の回動部材と、該第3の回動部材の回動変位により上記開閉機構部を、上記接点部の可動接点が固定接点に対し非接触状態となるように作動させる引外し手段と、
を備え、
上記電路に過電流が流れたときにバイメタルの変形により可動部が変位する熱動電磁式リレーが上記完全電磁式リレーに代えて組み込まれた状態においては、上記熱動電磁式リレーの上記可動部の変位に対応して第1の支点周りに、前記第2の回動部材が回動変位する方向とは異なる方向に回動変位する第1の回動部材が上記第3の回動部材と当接し、該第1の回動部材の回動変位に対応して上記第3の回動部材が第3の支点周りに回動変位し、かつ、上記第3の回動部材上の、上記第1の回動部材が当接する位置が、上記第2の回動部材が当接する位置とは異なる
ことを特徴とする完全電磁式リレーを有する回路遮断器。
When an overcurrent flows in the electric circuit, in a circuit breaker having a complete electromagnetic relay that interrupts the electric circuit by a complete electromagnetic relay in which the movable part is displaced by the electromagnetic force of the movable core arranged in the oil dashpot,
A contact portion that is connected to the electric circuit and that closes and opens the electric circuit by contact or non-contact between the movable contact and the fixed contact;
An opening / closing mechanism that rotationally displaces the movable contact around a fulcrum and places the movable contact in a contact state or a non-contact state with respect to the fixed contact;
A second rotating member that rotates around a second fulcrum in response to the displacement of the movable part of the complete electromagnetic relay; and the second rotating member that is in contact with the second rotating member; A third rotating member that rotates around the third fulcrum in response to the rotational displacement of the member, and the opening / closing mechanism portion is movable by the rotational displacement of the third rotating member. Tripping means for actuating the contact so that it is not in contact with the fixed contact;
With
In a state where a thermodynamic relay in which a movable portion is displaced by deformation of a bimetal when an overcurrent flows through the electric circuit is incorporated in place of the complete electromagnetic relay, the movable portion of the thermoelectromagnetic relay In response to the displacement of the first rotation member, the first rotation member that rotates and displaces in a direction different from the direction in which the second rotation member rotates and displaces around the first fulcrum and the third rotation member. The third rotating member is pivotally displaced about the third fulcrum in response to the rotational displacement of the first rotating member, and the third rotating member is on the third rotating member. A circuit breaker having a complete electromagnetic relay, wherein a position where the first rotating member abuts is different from a position where the second rotating member abuts.
上記第3の回動部材は、上記第1の回動部材とは、当接後、該第3の回動部材上の第1の位置において係合状態となり、上記第2の回動部材とは、当接後、該第3の回動部材上の第2の位置において係合状態となる構成である請求項1に記載の熱動電磁式リレーを有する回路遮断器。   The third rotating member is engaged with the first rotating member at a first position on the third rotating member after contacting with the first rotating member, and The circuit breaker having a thermal electromagnetic relay according to claim 1, wherein the circuit breaker is in an engaged state at a second position on the third rotating member after contact. 上記第1、第2の回動部材はそれぞれ、突起状の係合部を有し、上記第3の回動部材は、上記第1の位置に、該第1の回動部材の該突起状の係合部が挿入される孔状の係合部が形成され、かつ上記第2の位置に、該第2の回動部材の該突起状の係合部の側面が当接される切欠状の係合部が形成された構成である請求項3に記載の熱動電磁式リレーを有する回路遮断器。   Each of the first and second rotating members has a projecting engagement portion, and the third rotating member is in the projecting shape of the first rotating member at the first position. A hole-like engagement portion into which the engagement portion is inserted is formed, and a side surface of the projection-like engagement portion of the second rotating member is brought into contact with the second position. The circuit breaker having a thermal electromagnetic relay according to claim 3, wherein the engagement portion is formed. 上記熱動電磁式リレーの上記可動部の変位に基づき上記第1の回動部材が回動変位する方向と、上記完全電磁式リレーの上記可動部の変位に基づき上記第2の回動部材が回動変位する方向とは、互いに逆方向である請求項1に記載の熱動電磁式リレーを有する回路遮断器。   The direction in which the first rotating member is rotationally displaced based on the displacement of the movable portion of the thermal electromagnetic relay, and the second rotational member is based on the displacement of the movable portion of the complete electromagnetic relay. The circuit breaker having a thermal electromagnetic relay according to claim 1, wherein the direction of rotational displacement is opposite to each other. 上記第3の回動部材は、上記第1の回動部材とは、当接後、該第3の回動部材上の第1の位置において係合状態となり、上記第2の回動部材とは、当接後、該第3の回動部材上の第2の位置において係合状態となる構成である請求項2に記載の完全電磁式リレーを有する回路遮断器。   The third rotating member is engaged with the first rotating member at a first position on the third rotating member after contacting with the first rotating member, and The circuit breaker having a complete electromagnetic relay according to claim 2, wherein the circuit breaker is in an engaged state at a second position on the third rotating member after contact. 上記第1、第2の回動部材はそれぞれ、突起状の係合部を有し、上記第3の回動部材は、上記第1の位置に、該第1の回動部材の該突起状の係合部が挿入される孔状の係合部が形成され、かつ上記第2の位置に、該第2の回動部材の該突起状の係合部の側面が当接される切欠状の係合部が形成された構成である請求項6に記載の完全電磁式リレーを有する回路遮断器。   Each of the first and second rotating members has a projecting engagement portion, and the third rotating member is in the projecting shape of the first rotating member at the first position. A hole-like engagement portion into which the engagement portion is inserted is formed, and a side surface of the projection-like engagement portion of the second rotating member is brought into contact with the second position. The circuit breaker having a complete electromagnetic relay according to claim 6, wherein the engaging portion is formed. 上記熱動電磁式リレーの上記可動部の変位に基づき上記第1の回動部材が回動変位する方向と、上記完全電磁式リレーの上記可動部の変位に基づき上記第2の回動部材が回動変位する方向とは、互いに逆方向である請求項2に記載の完全電磁式リレーを有する回路遮断器。   The direction in which the first rotating member is rotationally displaced based on the displacement of the movable portion of the thermal electromagnetic relay, and the second rotational member is based on the displacement of the movable portion of the complete electromagnetic relay. The circuit breaker having a complete electromagnetic relay according to claim 2, wherein the rotational displacement directions are opposite to each other.
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