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JP6334956B2 - Circuit breaker electromagnetic trip device - Google Patents
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JP6334956B2 - Circuit breaker electromagnetic trip device - Google Patents

Circuit breaker electromagnetic trip device Download PDF

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JP6334956B2
JP6334956B2 JP2014041856A JP2014041856A JP6334956B2 JP 6334956 B2 JP6334956 B2 JP 6334956B2 JP 2014041856 A JP2014041856 A JP 2014041856A JP 2014041856 A JP2014041856 A JP 2014041856A JP 6334956 B2 JP6334956 B2 JP 6334956B2
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electromagnetic piece
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JP2015170384A (en
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野村 啓幸
啓幸 野村
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Kawamura Electric Inc
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Description

本発明は、電路に短絡電流等の過大電流が流れた場合に、それを検知して電路を遮断させるための回路遮断器の電磁引き外し装置に関するものである。   The present invention relates to an electromagnetic trip device for a circuit breaker that detects when an excessive current such as a short-circuit current flows in an electric circuit and interrupts the electric circuit.

従来、一般的な回路遮断器の電磁引き外し装置としては、たとえば特許文献1に記載されているように、電路を囲むように略コ字状に折り曲げ形成された固定電磁片と、下側に板状部が、上側に電路を遮断する動作を引き起こすための操作部が夫々設けられているとともに、固定電磁片に対して板状部と操作部との間となる位置で回動可能に取り付けられており、回動によって板状部が固定電磁片の開放側に接触/解離する可動電磁片と、板状部を解離状態で保持するバネ部材とを有するものがある。そして、電路に短絡電流等の過大な電流が流れると、電路の周囲に発生する渦電流により可動電磁片の板状部に固定電磁片側への電磁力(吸着力)がかかり、当該吸着力により板状部がバネ部材の付勢力に抗して回動することで操作部も回動し、結果として電路を遮断する動作を引き起こすようになっている。   Conventionally, as an electromagnetic trip device for a general circuit breaker, for example, as described in Patent Document 1, a fixed electromagnetic piece bent in a substantially U shape so as to surround an electric circuit, and a lower side The plate-like part is provided with an operation part for causing the operation to cut off the electric circuit on the upper side, and is attached to the fixed electromagnetic piece so as to be rotatable at a position between the plate-like part and the operation part. Some have a movable electromagnetic piece in which the plate-like part comes into contact / dissociates with the open side of the fixed electromagnetic piece by rotation and a spring member that holds the plate-like part in a dissociated state. When an excessive current such as a short circuit current flows through the electric circuit, an eddy current generated around the electric circuit applies an electromagnetic force (adsorption force) to the fixed electromagnetic piece side on the plate-like portion of the movable electromagnetic piece. When the plate-like portion is turned against the urging force of the spring member, the operation portion is also turned, and as a result, an operation for interrupting the electric path is caused.

特開平9−50754号公報Japanese Patent Laid-Open No. 9-50754

しかしながら、上記従来の電磁引き外し装置では、可動電磁片が回動するほどの電流が流れていないもの拘わらず、可動電磁片が軸方向でガタ付くことがあるという問題があった。   However, the above-described conventional electromagnetic tripping device has a problem that the movable electromagnetic piece may rattle in the axial direction regardless of the fact that no current flows to the extent that the movable electromagnetic piece rotates.

そこで、本発明は、上記問題に鑑みなされたものであって、可動電磁片の軸方向でのガタきを防止することができる回路遮断器の電磁引き外し装置を提供しようとするものである。   Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to provide an electromagnetic trip device for a circuit breaker that can prevent the movable electromagnetic piece from rattling in the axial direction.

上記目的を達成するために、本発明は、電路を収容した状態で前記電路に固定される固定電磁片と、前記固定電磁片に対して左右方向を軸として回動可能に軸着され、その回動により所定部位が前記固定電磁片に対して前側から接触/解離する可動電磁片と、一端が前記固定電磁片に、他端が前記可動電磁片に夫々掛止され、前記可動電磁片を前記所定部位が解離した状態で保持するコイルバネとを有し、前記電路に所定値を超える電流が流れると、前記コイルバネの保持力に抗して前記所定部位が前記固定電磁片に接触する方向へ前記可動電磁片が回動する回路遮断器の電磁引き外し装置であって、前記固定電磁片と前記可動電磁片とに、後側へ対向状に突出する一対の腕部を夫々設けるとともに、各前記腕部に軸孔を設けており、前記固定電磁片における一つの前記腕部と前記可動電磁片における一つの前記腕部とで一組とし、各組において前記固定電磁片の前記腕部と前記可動電磁片の前記腕部とを左右に当接させた状態とし、且つ、一方の前記組においては、前記固定電磁片の前記腕部の外側に前記可動電磁片の前記腕部を位置させる一方、他方の前記組においては、前記固定電磁片の前記腕部の内側に前記可動電磁片の前記腕部を位置させた状態として、全ての前記軸孔を貫通するように軸部材を挿通させることにより、前記固定電磁片と前記可動電磁片とを軸着するとともに、前記コイルバネを、軸方向に縮めた状態で、両前記組の間にわたり前記軸部材に巻回させる格好で取り付け、各前記組において内側の前記腕部を外側の前記腕部へ押し付ける側へ付勢したことを特徴とする。 To achieve the above object, the present onset Ming, a fixed electromagnetic pieces attached to the path in a state of accommodating the electric path, rotatably axially mounted an axis in the lateral direction with respect to the fixed electromagnetic piece, A movable electromagnetic piece whose predetermined portion contacts / dissociates from the front side with respect to the fixed electromagnetic piece by the rotation, one end is hooked on the fixed electromagnetic piece, and the other end is hooked on the movable electromagnetic piece, and the movable electromagnetic piece A coil spring that holds the predetermined part in a dissociated state, and when a current exceeding a predetermined value flows through the electrical path, the predetermined part contacts the fixed electromagnetic piece against a holding force of the coil spring. An electromagnetic trip device for a circuit breaker in which the movable electromagnetic piece rotates, and a pair of arm portions projecting oppositely to the rear side are provided on the fixed electromagnetic piece and the movable electromagnetic piece , respectively. Each arm is provided with a shaft hole, One arm part of the electromagnetic piece and one arm part of the movable electromagnetic piece make a set, and in each set, the arm part of the fixed electromagnetic piece and the arm part of the movable electromagnetic piece are left and right. The arm portion of the movable electromagnetic piece is positioned outside the arm portion of the fixed electromagnetic piece in one of the sets, and the fixed electromagnetic piece in the other set. wherein the inside of the arm portion in a state in which is positioned the arm portion of the movable magnetic piece, by inserting the shaft member so as to penetrate all of the shaft hole, the movable electromagnetic piece and the fixed electromagnetic piece And the coil spring is attached in such a manner that the coil spring is wound around the shaft member in a state in which the coil spring is contracted in the axial direction , and the inner arm portion is attached to the outer arm in each of the sets. that urges to the side pressing the parts And features.

本発明によれば、固定電磁片と可動電磁片とに、後側へ対向状に突出する一対の腕部を夫々設けるとともに、各腕部に軸孔を設けており、固定電磁片における一つの腕部と可動電磁片における一つの腕部とで一組とし、各組において固定電磁片の腕部と可動電磁片の腕部とを左右に当接させた状態として、全ての軸孔を貫通するように軸部材を挿通させることにより、固定電磁片と可動電磁片とを軸着するとともに、コイルバネを、軸方向に縮めた状態で、両組の間にわたり軸部材に巻回させる格好で取り付け、各組において内側の腕部を外側の腕部へ押し付ける側へ付勢している。したがって、コイルバネが、各組において内側の腕部を外側の腕部へ押し付ける側へ付勢することになるため、可動電磁片が回動するほどの電流が流れていないもの拘わらず、可動電磁片が軸方向でガタ付くといった事態の発生を防止することができる。また、可動電磁片の回動時に発生するビリツキ音や唸り音の抑制といった効果もある。
また、一方の組においては、固定電磁片の腕部の外側に可動電磁片の腕部を位置させる一方、他方の組においては、固定電磁片の腕部の内側に可動電磁片の腕部を位置させているため、コイルバネの軸方向への付勢力を固定電磁片と可動電磁片との両方に直接作用させることができ、ガタ付き防止やビリツキ音や唸り音の抑制といった効果を一層顕著に発揮することができる。
According to the present invention, the fixed electromagnetic piece and the movable electromagnetic piece are each provided with a pair of arm portions projecting oppositely to the rear side, and each arm portion is provided with a shaft hole. One arm part of the arm part and the movable electromagnetic piece make a pair, and in each pair, the arm part of the fixed electromagnetic piece and the arm part of the movable electromagnetic piece are in contact with each other, and all the shaft holes are penetrated. By inserting the shaft member in such a manner, the fixed electromagnetic piece and the movable electromagnetic piece are axially attached, and the coil spring is attached in a state of being wound around the shaft member between both sets in a state of being contracted in the axial direction. In each group, the inner arm is biased toward the side pressing against the outer arm . Therefore, since the coil spring urges the inner arm part to the side pressing the outer arm part in each set, the movable electromagnetic piece is used regardless of whether no current is flowing enough to rotate the movable electromagnetic piece. It is possible to prevent the occurrence of a situation in which there is a backlash in the axial direction. In addition, there is an effect of suppressing the flickering sound and the roaring sound that occur when the movable electromagnetic piece rotates.
In the hand set, while positioning the arm portion of the movable magnetic piece on the outside of the arm portion of the fixed magnetic strip, in the other set, the arm portion of the movable magnetic piece on the inside of the arm portion of the fixed magnetic piece Therefore, the biasing force in the axial direction of the coil spring can be directly applied to both the fixed electromagnetic piece and the movable electromagnetic piece, and the effects such as prevention of rattling and suppression of rattling noise and roaring sound are further remarkable. Can be demonstrated.

回路遮断器の一部を示した斜視説明図である。It is perspective explanatory drawing which showed a part of circuit breaker. 図1に示す回路遮断器から本体ケースを取り外した状態を示した斜視説明図である。FIG. 2 is an explanatory perspective view showing a state where a main body case is removed from the circuit breaker shown in FIG. 1. 電路に組み付けられた電磁引き外し装置を前側から示した斜視説明図である。It is the isometric view explanatory view which showed the electromagnetic trip apparatus assembled | attached to the electrical circuit from the front side. 電路に組み付けられた電磁引き外し装置を後側から示した斜視説明図である。It is perspective explanatory drawing which showed the electromagnetic trip apparatus assembled | attached to the electrical circuit from the rear side. (a)は、電路に組み付けられた電磁引き外し装置の後面側を示した説明図であり、(b)は、(a)中のA−A線断面を示した説明図である。(A) is explanatory drawing which showed the rear surface side of the electromagnetic trip apparatus assembled | attached to the electrical circuit, (b) is explanatory drawing which showed the AA line cross section in (a). 電路を含めて分解状態にある電磁引き外し装置を前側から示した斜視説明図である。It is the isometric view explanatory view which showed the electromagnetic trip apparatus in a decomposition | disassembly state including an electrical path from the front side. 電路を含めて分解状態にある電磁引き外し装置を後側から示した斜視説明図である。It is the isometric view explanatory view which showed the electromagnetic trip apparatus in a decomposition | disassembly state including an electrical path from the rear side. 通常状態にある電磁引き外し装置を側方から示した説明図である。It is explanatory drawing which showed the electromagnetic trip apparatus in a normal state from the side. 短絡電流が流れる等して作動した状態にある電磁引き外し装置を側方から示した説明図である。It is explanatory drawing which showed from the side the electromagnetic trip apparatus in the state which act | operated because the short circuit current flowed.

以下、本発明の一実施形態となる回路遮断器の電磁引き外し装置について、図面にもとづき詳細に説明する。   Hereinafter, an electromagnetic trip device for a circuit breaker according to an embodiment of the present invention will be described in detail with reference to the drawings.

図1は、回路遮断器1の一部を示した斜視説明図である。図2は、図1に示す回路遮断器1から本体ケース5を取り外した状態を示した斜視説明図である。
回路遮断器1は、合成樹脂製の本体ケース5の前部に電源側端子2を、後部に負荷側端子3を夫々備えてなるものであって、本体ケース5内には、電源側端子2と負荷側端子3とを電気的に接続すべく、3つの電路4、4・・が左右方向に並設されている。また、各電路4毎に、電路4を開閉する固定接点6と可動接点7とからなる接点部、接点部を開操作するための遮断機構部(図示せず)、電路4に短絡電流等の過大な電流が流れると遮断機構部を動作させるべく作動する電磁引き外し装置10、電磁引き外し装置10の作動をうけて遮断機構部を直接動作させる操作部材8等が設けられている。なお、9は、電路4をオン/オフ操作するための操作レバーである。
FIG. 1 is a perspective explanatory view showing a part of the circuit breaker 1. FIG. 2 is a perspective explanatory view showing a state in which the main body case 5 is removed from the circuit breaker 1 shown in FIG.
The circuit breaker 1 includes a power supply side terminal 2 at a front portion of a body case 5 made of synthetic resin and a load side terminal 3 at a rear portion thereof. In order to electrically connect the load side terminal 3 to each other, three electric paths 4, 4,. Further, for each electric circuit 4, a contact part composed of a fixed contact 6 and a movable contact 7 that opens and closes the electric circuit 4, a blocking mechanism part (not shown) for opening the contact part, a short circuit current etc. in the electric circuit 4 An electromagnetic trip device 10 that operates to operate the shut-off mechanism when an excessive current flows, an operation member 8 that directly operates the shut-off mechanism by receiving the operation of the electromagnetic trip device 10 and the like are provided. Reference numeral 9 denotes an operation lever for turning on / off the electric circuit 4.

ここで、本発明の要部となる電磁引き外し装置10について、図3〜図9をもとに詳細に説明する。
図3は、電路4に組み付けられた電磁引き外し装置10を前側から示した斜視説明図である。図4は、電路4に組み付けられた電磁引き外し装置10を後側から示した説明図である。図5(a)は、電路4に組み付けられた電磁引き外し装置10の後面側を示した説明図であり、図5(b)は、図5(a)中のA−A線断面を示した説明図である。図6は、電路4を含めて分解状態にある電磁引き外し装置10を前側から示した斜視説明図である。図7は、電路4を含めて分解状態にある電磁引き外し装置10を後側から示した斜視説明図である。図8は、通常状態にある電磁引き外し装置10を側方から示した説明図である。図9は、短絡電流が流れる等して作動した状態にある電磁引き外し装置10を側方から示した説明図である。
Here, the electromagnetic trip device 10 which is a main part of the present invention will be described in detail with reference to FIGS.
FIG. 3 is a perspective explanatory view showing the electromagnetic trip device 10 assembled to the electric circuit 4 from the front side. FIG. 4 is an explanatory view showing the electromagnetic tripping device 10 assembled to the electric circuit 4 from the rear side. FIG. 5A is an explanatory view showing the rear surface side of the electromagnetic trip device 10 assembled in the electric circuit 4, and FIG. 5B shows a cross section taken along the line AA in FIG. 5A. FIG. FIG. 6 is a perspective explanatory view showing the electromagnetic tripping device 10 in an exploded state including the electric circuit 4 from the front side. FIG. 7 is an explanatory perspective view showing the electromagnetic trip device 10 in an exploded state including the electric circuit 4 from the rear side. FIG. 8 is an explanatory view showing the electromagnetic tripping device 10 in a normal state from the side. FIG. 9 is an explanatory view showing the electromagnetic tripping device 10 in a state where it is activated by a short circuit current flowing from the side.

まず、電磁引き外し装置10が組み付けられる箇所の電路4の構成について説明すると、当該箇所での電路4は、負荷側端子3を構成する負荷座32を有する第1電路部材31と、第1電路部材31と一体化され、更に前方(電源側端子2側)へ延びる第2電路部材33と、第2電路部材33に固定される熱応動素子34とから構成されている。第1電路部材31は、上述したように負荷座32を有しているとともに、該負荷座32から前方へ延びる帯状の導電部35を有している。そして、導電部35の前端部は、上方へ折り曲げられており、第2電路部材33と一体化するための一体化部として機能するようになっている。第2電路部材33は、所謂ヒーターとして機能するものであって、連結孔を有する板状の連結部36と、連結部36の後端から上方へ立ち上げられた固定部37と、固定部37の上端から更に折り曲げられてなる一体化部38とを有する。そして、第1電路部材31の導電部35の前端と第2電路部材33の一体化部38とを一体化するとともに、熱応動素子34を、その下部が固定部37の前面に当接し、その上部が固定部37の上端を越えて大きく上方へ突出するような起立姿勢として固定部37に固定することにより、電路4は形成されている。なお、39は、熱応動素子34の上端部に取り付けられ、電路4に過大な電流が流れて熱応動素子34が変形した際に遮断機構部を作動させるための作動部材である。また、40は、熱応動素子34と固定部37、更には後述する固定電磁片11を一体化するためのリベットである。   First, the configuration of the electric circuit 4 where the electromagnetic trip device 10 is assembled will be described. The electric circuit 4 at the position includes a first electric circuit member 31 having a load seat 32 that constitutes the load-side terminal 3, and a first electric circuit. The second electric path member 33 is integrated with the member 31 and extends further forward (on the power supply side terminal 2 side), and a thermal responsive element 34 fixed to the second electric path member 33. The first electric circuit member 31 has the load seat 32 as described above, and has a strip-shaped conductive portion 35 extending forward from the load seat 32. The front end portion of the conductive portion 35 is bent upward and functions as an integrated portion for integrating with the second electric path member 33. The second electric circuit member 33 functions as a so-called heater, and includes a plate-like connecting portion 36 having a connecting hole, a fixing portion 37 raised upward from the rear end of the connecting portion 36, and a fixing portion 37. And an integrated portion 38 that is further bent from the upper end of the. And while integrating the front end of the electroconductive part 35 of the 1st electric circuit member 31, and the integrated part 38 of the 2nd electric circuit member 33, the lower part contact | abuts the front surface of the fixing | fixed part 37, and the thermoresponsive element 34, The electric circuit 4 is formed by being fixed to the fixing portion 37 in an upright posture in which the upper portion protrudes greatly upward beyond the upper end of the fixing portion 37. Reference numeral 39 denotes an operating member that is attached to the upper end portion of the thermally responsive element 34 and operates the shut-off mechanism when an excessive current flows through the electric circuit 4 and the thermally responsive element 34 is deformed. Reference numeral 40 denotes a rivet for integrating the thermally responsive element 34, the fixing portion 37, and the fixed electromagnetic piece 11 described later.

上述したような電路4に対して組み付けられる電磁引き外し装置10は、第2電路部材33の固定部37に固定される固定電磁片11と、固定電磁片11に対して回動可能に取り付けられ、回動により所定部位(後述する板状部12a)が固定電磁片11に対して接触/解離する可動電磁片12と、所定部位と固定電磁片11との解離状態を保持するコイルバネ13と、可動電磁片12の回動軸となる軸部材14とを備えてなる。固定電磁片11は、鉄等の常磁性材料で形成され、略コ字状に折り曲げて形成された背面部11a及び左右側面部11b、11bを有している。そして、折り曲げることで形成された内部空間を、第2電路部材33の固定部37を収容する電路収容空間15としている。また、各側面部11bの上部には、背面部11aの上端を越えて上方へ突出する腕部11cが設けられている。腕部11cは、側面部11bの前部から後斜め上方へ突出しており、先端部には第1軸孔16が穿設されている。なお、17は、固定部37の後面側で、熱応動素子34と共に固定電磁片11を固定部37と一体化するための固定孔である。   The electromagnetic tripping device 10 assembled to the electric circuit 4 as described above is fixed to the fixed electromagnetic piece 11 fixed to the fixing portion 37 of the second electric circuit member 33, and is attached to be rotatable with respect to the fixed electromagnetic piece 11. A movable electromagnetic piece 12 in which a predetermined part (plate-like portion 12a described later) contacts / dissociates with the fixed electromagnetic piece 11 by rotation, and a coil spring 13 that holds a dissociated state between the predetermined part and the fixed electromagnetic piece 11; A shaft member 14 serving as a rotation shaft of the movable electromagnetic piece 12 is provided. The fixed electromagnetic piece 11 is made of a paramagnetic material such as iron and has a back surface portion 11a and left and right side surface portions 11b and 11b formed by being bent into a substantially U shape. The internal space formed by bending is defined as an electric circuit accommodating space 15 for accommodating the fixing portion 37 of the second electric circuit member 33. Moreover, the arm part 11c which protrudes upwards beyond the upper end of the back part 11a is provided in the upper part of each side part 11b. The arm portion 11c projects rearward and obliquely upward from the front portion of the side surface portion 11b, and a first shaft hole 16 is formed at the tip portion. Reference numeral 17 denotes a fixed hole for integrating the fixed electromagnetic piece 11 with the fixed portion 37 together with the thermally responsive element 34 on the rear surface side of the fixed portion 37.

一方、可動電磁片12は、固定電磁片11と同様に鉄等の常磁性材料で形成され、固定電磁片11と略同じ左右幅を有する平坦な板状部12aと、板状部12aの左右側部の上端から更に上方へ突出する左腕部18及び右腕部19とを設けてなるもので、重心が板状部12aの略中央上寄りに位置するように成形されている。左腕部18は、固定電磁片11の腕部11cの如く板状部12aから後斜め上方へ延びる第1腕部18aと、第1腕部18aの先端から屈曲して前斜め上方へ延びる第2腕部18bとを有しており、第2腕部18bの先端に前方へ突出する凸部が設けられ、該凸部が、操作部材8を操作するための操作部22として機能するようになっている。また、第1腕部18aの先端(左腕部18の屈曲部で、板状部12aと操作部22との間となる位置)に、第2軸孔20が穿設されている。さらに、第1腕部18aの板状部12a寄りとなる位置には、下方へ延びる舌状の係止片21が設けられており、固定電磁片11の腕部11cに係止することで、当該係止位置を越えて可動電磁片12の板状部12aが固定電磁片11からの解離方向へ回動することを規制可能としている。一方、右腕部19は、左腕部18の第1腕部18aと対向状に設けられており、右腕部19の先端部で、左腕部18の第2軸孔20と対向する位置に第2軸孔20が穿設されている。なお、左腕部18と右腕部19との左右方向での距離は、固定電磁片11の腕部11c、11c間の距離と略同じとなっている。   On the other hand, the movable electromagnetic piece 12 is formed of a paramagnetic material such as iron like the fixed electromagnetic piece 11, and has a flat plate-like portion 12a having substantially the same left-right width as the fixed electromagnetic piece 11, and left and right of the plate-like portion 12a. A left arm portion 18 and a right arm portion 19 that protrude further upward from the upper end of the side portion are provided, and the center of gravity is formed so as to be positioned substantially above the center of the plate-like portion 12a. The left arm portion 18 includes a first arm portion 18a that extends rearward and obliquely upward from the plate-like portion 12a like the arm portion 11c of the fixed electromagnetic piece 11, and a second arm that is bent from the front end of the first arm portion 18a and extends obliquely forward and upward. And a convex portion projecting forward is provided at the tip of the second arm portion 18b, and the convex portion functions as an operation portion 22 for operating the operation member 8. ing. Further, a second shaft hole 20 is formed at the tip of the first arm portion 18a (a position between the plate-like portion 12a and the operation portion 22 at the bent portion of the left arm portion 18). Further, a tongue-like locking piece 21 extending downward is provided at a position close to the plate-like portion 12a of the first arm portion 18a, and by locking with the arm portion 11c of the fixed electromagnetic piece 11, The plate-like portion 12a of the movable electromagnetic piece 12 can be restricted from rotating in the disengagement direction from the fixed electromagnetic piece 11 beyond the locking position. On the other hand, the right arm portion 19 is provided so as to face the first arm portion 18a of the left arm portion 18, and the second axis is located at the tip of the right arm portion 19 at a position facing the second shaft hole 20 of the left arm portion 18. A hole 20 is formed. The distance in the left-right direction between the left arm portion 18 and the right arm portion 19 is substantially the same as the distance between the arm portions 11c and 11c of the fixed electromagnetic piece 11.

そして、電磁引き外し装置10は、以下のようにして電路4に組み付けられる。まず、固定電磁片11を固定部37の後方から密着させることで、電路収容空間15内に固定部37を収容し、リベット40、40を用いて熱応動素子34、固定部37、及び固定電磁片11を一体化する。このとき、固定電磁片11の腕部11c、11cの先端部(特に第1軸孔16、16の穿設箇所)が熱応動素子34よりも後側まで突出した状態となる。次に、可動電磁片12の板状部12aを熱応動素子34の前側に位置させた状態で、左側の腕部11cの外面に左腕部18の内面を、右側の腕部11cの内面に右腕部19の外面を夫々当接させて(左から左腕部18、左側の腕部11c、右腕部19、右側の腕部11cの順となるように腕部同士を当接させて)第1軸孔16、16と第2軸孔20、20とを一致させる。最後に、両軸孔16、20を貫通するように軸部材14を挿通させて固定電磁片11と可動電磁片12とを軸着すればよい。すると、可動電磁片12の板状部12aと固定電磁片11とにより固定部37及び熱応動素子34の下部を囲った状態で、可動電磁片12が固定電磁片11に対し左右方向を軸として回動可能に取り付けられることになり、電磁引き外し装置10の電路4への組み付けは完了となる。なお、この組み付け状態における固定電磁片11と可動電磁片12との軸着位置は、当然ながら熱応動素子34の後側となる。   And the electromagnetic trip device 10 is assembled | attached to the electric circuit 4 as follows. First, the fixed electromagnetic piece 11 is brought into close contact with the fixed portion 37 from behind, so that the fixed portion 37 is accommodated in the electric circuit accommodating space 15, and the thermally responsive element 34, the fixed portion 37, and the fixed electromagnetic wave using the rivets 40 and 40. The pieces 11 are integrated. At this time, the end portions of the arm portions 11c and 11c of the fixed electromagnetic piece 11 (particularly, the positions where the first shaft holes 16 and 16 are drilled) are in a state of projecting to the rear side of the thermally responsive element 34. Next, with the plate-like portion 12a of the movable electromagnetic piece 12 positioned on the front side of the thermal actuator 34, the inner surface of the left arm portion 18 is disposed on the outer surface of the left arm portion 11c, and the right arm is disposed on the inner surface of the right arm portion 11c. The outer surfaces of the portions 19 are brought into contact with each other (from the left to the left arm 18, the left arm 11 c, the right arm 19, and the right arm 11 c in this order). The holes 16 and 16 are aligned with the second shaft holes 20 and 20. Finally, the fixed electromagnetic piece 11 and the movable electromagnetic piece 12 may be attached to each other by inserting the shaft member 14 so as to penetrate both the shaft holes 16 and 20. Then, in a state in which the plate-like portion 12a of the movable electromagnetic piece 12 and the fixed electromagnetic piece 11 surround the lower portion of the fixed portion 37 and the thermally responsive element 34, the movable electromagnetic piece 12 has the left-right direction as an axis with respect to the fixed electromagnetic piece 11. It will be attached so that rotation is possible, and the assembly | attachment to the electric circuit 4 of the electromagnetic trip apparatus 10 will be completed. It should be noted that the fixed position of the fixed electromagnetic piece 11 and the movable electromagnetic piece 12 in this assembled state is naturally the rear side of the thermally responsive element 34.

なお、コイルバネ13は、左側の腕部11cと右腕部19との間にわたり、軸部材14に巻回するような格好で取り付けられる。このとき、コイルバネ13は、左右方向(軸方向)で縮ませた状態で左側の腕部11cと右腕部19との間に収容されており、左側の腕部11c及び右腕部19を夫々外側へ(すなわち、左側の腕部11cについては左腕部18との当接側へ、右腕部19については右側の腕部11cとの当接側へ)押圧するようになっている。さらに、コイルバネ13の一端は可動電磁片12の左腕部18の第2腕部18bの前縁に、他端は固定電磁片11の右側の腕部11cの前縁に夫々掛止しており、可動電磁片12の板状部12aを固定電磁片11から解離する方向へ付勢し、板状部12aと固定電磁片11との解離状態を保持することになる。   The coil spring 13 is attached so as to be wound around the shaft member 14 between the left arm portion 11 c and the right arm portion 19. At this time, the coil spring 13 is housed between the left arm portion 11c and the right arm portion 19 in a state of being contracted in the left-right direction (axial direction), and the left arm portion 11c and the right arm portion 19 are respectively outward. (In other words, the left arm portion 11c is pressed toward the contact side with the left arm portion 18 and the right arm portion 19 is pressed toward the contact side with the right arm portion 11c). Furthermore, one end of the coil spring 13 is hooked to the front edge of the second arm portion 18b of the left arm portion 18 of the movable electromagnetic piece 12, and the other end is hooked to the front edge of the right arm portion 11c of the fixed electromagnetic piece 11, The plate-like portion 12a of the movable electromagnetic piece 12 is urged in a direction to dissociate from the fixed electromagnetic piece 11, and the dissociated state between the plate-like portion 12a and the fixed electromagnetic piece 11 is maintained.

上述の如くして電路4に組み付けられた電磁引き外し装置10は、通常、コイルバネ13の付勢力によって可動電磁片12の板状部12aと固定電磁片11の開放された前面とが解離した状態にある(図8)。ここで電路4に短絡電流等の所定値を超える過大な電流が流れると、第2電路部材33の周囲に発生する渦電流の作用で、可動電磁片12の板状部12aが固定電磁片11に接触する方向へ電磁力(すなわち吸着力)が発生する。その結果、コイルバネ13の付勢力に抗して可動電磁片12が軸部材14を軸として回動し、可動電磁片12の板状部12aが固定電磁片11(特に左右側面部11bの前端面)に密着する。したがって、可動電磁片12の操作部8は前方へ移動することになり、操作部材9が操作され(図9)、遮断機構部により引き外し動作が行われ、接点部が解離動作して電路4が遮断される。   In the electromagnetic trip device 10 assembled in the electric circuit 4 as described above, the plate-like portion 12a of the movable electromagnetic piece 12 and the open front surface of the fixed electromagnetic piece 11 are usually dissociated by the biasing force of the coil spring 13. (FIG. 8). Here, when an excessive current exceeding a predetermined value such as a short circuit current flows through the electric circuit 4, the plate-like portion 12 a of the movable electromagnetic piece 12 is fixed to the fixed electromagnetic piece 11 by the action of the eddy current generated around the second electric circuit member 33. Electromagnetic force (i.e., adsorption force) is generated in the direction in contact with the surface. As a result, the movable electromagnetic piece 12 rotates around the shaft member 14 against the urging force of the coil spring 13, and the plate-like portion 12a of the movable electromagnetic piece 12 is fixed to the fixed electromagnetic piece 11 (particularly the front end face of the left and right side surface portions 11b). ). Therefore, the operation portion 8 of the movable electromagnetic piece 12 moves forward, the operation member 9 is operated (FIG. 9), the tripping operation is performed by the blocking mechanism portion, the contact portion is dissociated, and the electric circuit 4 Is cut off.

以上のような構成を有する電磁引き外し装置10によれば、固定電磁片11に後側へ突出する一対の腕部11c、11cを設けるとともに、可動電磁片12の板状部12aにも後側へ突出する一対の腕部18、19を設け、各腕部11c、18、19の熱応動素子34よりも後側となる箇所で固定電磁片11と可動電磁片12とを軸着することにより、熱応動素子34よりも後側に可動電磁片12の回動軸を設けている。したがって、通常時(すなわち、板状部12aと固定電磁片11とが解離した状態)における固定電磁片11と可動電磁片12の板状部12aとの前後方向での距離を従来よりも近づけることができ、電路4に短絡電流等の過大な電流が流れた際に、板状部12aに従来よりも大きな吸着力を作用させることができる。   According to the electromagnetic trip device 10 having the above-described configuration, the stationary electromagnetic piece 11 is provided with the pair of arms 11c and 11c protruding rearward, and the plate-like portion 12a of the movable electromagnetic piece 12 is also provided on the rear side. By providing a pair of arm portions 18 and 19 projecting toward each other, and by attaching the fixed electromagnetic piece 11 and the movable electromagnetic piece 12 at a location on the rear side of the thermal response element 34 of each arm portion 11c, 18 and 19 The rotating shaft of the movable electromagnetic piece 12 is provided on the rear side of the thermally responsive element 34. Therefore, the distance in the front-rear direction between the fixed electromagnetic piece 11 and the plate-like part 12a of the movable electromagnetic piece 12 in the normal state (that is, the state where the plate-like part 12a and the fixed electromagnetic piece 11 are dissociated) is made closer than before. When an excessive current such as a short-circuit current flows through the electric circuit 4, it is possible to apply a larger adsorption force to the plate-like portion 12a than before.

また、上述の如く固定電磁片11と可動電磁片12とを軸着したことにより、可動電磁片12が回動する際の回動軸と可動電磁片12の重心との距離を従来よりも離すことができる。ここで、重心に同じ大きさの吸着力がかかるとすると、作用点となる操作部8に発生する力は、重心の回動軸からの距離が離れていればいるほど、強くなる。したがって、上述したように回動軸と可動電磁片12の重心との距離を従来よりも離した電磁引き外し装置10によれば、可動電磁片12が回動する際に、操作部8に従来よりも大きな力を発生させることができ、遮断機構部を確実に作動させることができる。   In addition, since the fixed electromagnetic piece 11 and the movable electromagnetic piece 12 are pivotally attached as described above, the distance between the rotating shaft and the center of gravity of the movable electromagnetic piece 12 when the movable electromagnetic piece 12 rotates is made larger than the conventional distance. be able to. Here, assuming that the same amount of suction force is applied to the center of gravity, the force generated in the operation unit 8 serving as the action point becomes stronger as the distance from the rotation axis of the center of gravity increases. Therefore, as described above, according to the electromagnetic trip device 10 in which the distance between the rotation shaft and the center of gravity of the movable electromagnetic piece 12 is larger than the conventional one, when the movable electromagnetic piece 12 is rotated, the operation unit 8 is conventionally provided. A greater force can be generated, and the blocking mechanism can be reliably operated.

さらに、固定電磁片11と可動電磁片12との軸着部において、左側の腕部11cの外面に左腕部18の内面を、右側の腕部11cの内面に右腕部19の外面を夫々当接させるとともに、コイルバネ13を、左右方向で縮ませた状態で左側の腕部11cと右腕部19との間に収容している。そして、コイルバネ13により、内側に位置する左側の腕部11c及び右腕部19を夫々外側、すなわち左腕部18や右側の腕部11c側へ押圧している。したがって、可動電磁片12が回動するほどの電流が流れていないもの拘わらず、可動電磁片12が軸方向でガタ付くといった事態の発生を防止することができる上、可動電磁片12の回動時に発生するビリツキ音や唸り音を抑制することもできる。
加えて、左から左腕部18、左側の腕部11c、右腕部19、右側の腕部11cの順となるように腕部同士を当接させているため、コイルバネ13の軸方向への付勢力を固定電磁片11と可動電磁片12との両方に直接作用させることができ、ガタ付き防止やビリツキ音や唸り音の抑制といった効果を一層顕著なものとすることができる。
Further, in the axially attached portion of the fixed electromagnetic piece 11 and the movable electromagnetic piece 12, the inner surface of the left arm portion 18 is in contact with the outer surface of the left arm portion 11c, and the outer surface of the right arm portion 19 is in contact with the inner surface of the right arm portion 11c. In addition, the coil spring 13 is accommodated between the left arm portion 11c and the right arm portion 19 in a contracted state in the left-right direction. The coil spring 13 presses the left arm portion 11c and the right arm portion 19 positioned on the inside to the outside, that is, the left arm portion 18 and the right arm portion 11c side. Therefore, it is possible to prevent the occurrence of a situation in which the movable electromagnetic piece 12 rattles in the axial direction regardless of whether the current that the movable electromagnetic piece 12 rotates does not flow, and the rotation of the movable electromagnetic piece 12. It is also possible to suppress the tingling and roaring sounds that sometimes occur.
In addition, since the arms are brought into contact with each other in the order of the left arm 18 from the left, the left arm 11c, the right arm 19 and the right arm 11c, the urging force of the coil spring 13 in the axial direction. Can be directly applied to both the fixed electromagnetic piece 11 and the movable electromagnetic piece 12, and the effects such as the prevention of rattling and the suppression of rattling and roaring sounds can be made more prominent.

なお、本発明に係る回路遮断器の電磁引き外し装置は、上記実施形態の態様に何ら限定されるものではなく、回路遮断器の全体的な構成は勿論、固定電磁片や可動電磁片等の構成についても、本発明の趣旨を逸脱しない範囲で、必要に応じて適宜変更することができる。   The electromagnetic trip device for a circuit breaker according to the present invention is not limited to the aspect of the above embodiment, and the overall configuration of the circuit breaker is, of course, a fixed electromagnetic piece, a movable electromagnetic piece, etc. The configuration can be appropriately changed as necessary without departing from the spirit of the present invention.

たとえば、上記実施形態では、電磁引き外し装置の組み付け箇所の電路を第1電路部材と第2電路部材とから構成しているが、第1電路部材の代わりに負荷座と熱応動素子とを電線等により接続するような電路、すなわち熱応動素子を電路の一部として構成するような電路としても何ら問題はない。
また、上記実施形態では、可動電磁片の左腕部に操作部を設けているが、右腕部に操作部を設けても何ら問題はないし、同様に係止片を右腕部に設けることも当然可能である。
For example, in the above embodiment, the electric circuit of the assembly location of the electromagnetic trip device is constituted by the first electric circuit member and the second electric circuit member. However, instead of the first electric circuit member, the load seat and the thermally responsive element are connected to the electric wire. There is no problem even if the electric circuit is connected by, for example, an electric circuit in which the thermally responsive element is configured as a part of the electric circuit.
In the above embodiment, the operating portion is provided on the left arm portion of the movable electromagnetic piece. However, there is no problem even if the operating portion is provided on the right arm portion, and it is naturally possible to similarly provide the locking piece on the right arm portion. It is.

さらに、上記実施形態では、左から左腕部、左側の腕部、右腕部、右側の腕部の順となるように腕部同士を当接させているが、左から左側の腕部、左腕部、右側の腕部、右腕部の順となるように腕部同士を当接させる、すなわち内外の関係を逆にしてもよく、固定電磁片における一つの腕部と可動電磁片における一つの腕部とで一組とすると、一方の組において、固定電磁片の腕部の外側に可動電磁片の腕部を位置させ、他方の組において、固定電磁片の腕部の内側に可動電磁片の腕部を位置させてもよい。一方、両組において固定電磁片の腕部の外側に可動電磁片の腕部を位置させたり、反対に可動電磁片の腕部の外側に固定電磁片の腕部を位置させることも可能である。   Furthermore, in the above-described embodiment, the arms are brought into contact with each other in the order of left to left arm, left arm, right arm, and right arm, but from left to left arm, left arm The right arm part and the right arm part are brought into contact with each other, that is, the inner and outer relations may be reversed, one arm part in the fixed electromagnetic piece and one arm part in the movable electromagnetic piece. In one set, the arm portion of the movable electromagnetic piece is positioned outside the arm portion of the fixed electromagnetic piece in one set, and the arm of the movable electromagnetic piece is positioned inside the arm portion of the fixed electromagnetic piece in the other set. The part may be located. On the other hand, in both sets, it is also possible to position the arm part of the movable electromagnetic piece outside the arm part of the fixed electromagnetic piece, or conversely position the arm part of the fixed electromagnetic piece outside the arm part of the movable electromagnetic piece. .

1・・回路遮断器、4・・電路、8・・操作部材、10・・電磁引き外し装置、11・・固定電磁片、11a・・背面部、11b・・側面部、11c・・腕部、12・・可動電磁片、12a・・板状部、13・・コイルバネ、14・・軸部材、15・・電路収容空間、16・・第1軸孔、18・・左腕部(腕部)、18a・・第1腕部、18b・・第2腕部、19・・右腕部(腕部)、20・・第2軸孔、21・・係止片、22・・操作部、31・・第1電路部材(電路)、33・・第2電路部材(電路)、34・・熱応動素子、37・・固定部。   DESCRIPTION OF SYMBOLS 1 ... Circuit breaker 4 ... Electric circuit 8 ... Operation member 10 ... Electromagnetic tripping device 11 ... Fixed electromagnetic piece 11a ... Back part 11b ... Side part 11c ... Arm part , 12 .. Moving electromagnetic piece, 12 a .. Plate-like part, 13 .. Coil spring, 14 .. Shaft member, 15 .. Electric path housing space, 16 .. First shaft hole, 18 .. Left arm part (arm part) , 18a ··· First arm portion, 18b · · Second arm portion, 19 · · Right arm portion (arm portion), 20 · · Second shaft hole, 21 · · Locking piece, 22 · · Operation portion, 31 · · First electric circuit member (electric circuit), 33, second electric circuit member (electric circuit), 34, thermal response element, 37, fixed portion.

Claims (1)

電路を収容した状態で前記電路に固定される固定電磁片と、
前記固定電磁片に対して左右方向を軸として回動可能に軸着され、その回動により所定部位が前記固定電磁片に対して前側から接触/解離する可動電磁片と、
一端が前記固定電磁片に、他端が前記可動電磁片に夫々掛止され、前記可動電磁片を前記所定部位が解離した状態で保持するコイルバネとを有し、
前記電路に所定値を超える電流が流れると、前記コイルバネの保持力に抗して前記所定部位が前記固定電磁片に接触する方向へ前記可動電磁片が回動する回路遮断器の電磁引き外し装置であって、
前記固定電磁片と前記可動電磁片とに、後側へ対向状に突出する一対の腕部を夫々設けるとともに、各前記腕部に軸孔を設けており、前記固定電磁片における一つの前記腕部と前記可動電磁片における一つの前記腕部とで一組とし、各組において前記固定電磁片の前記腕部と前記可動電磁片の前記腕部とを左右に当接させた状態とし、且つ、一方の前記組においては、前記固定電磁片の前記腕部の外側に前記可動電磁片の前記腕部を位置させる一方、他方の前記組においては、前記固定電磁片の前記腕部の内側に前記可動電磁片の前記腕部を位置させた状態として、全ての前記軸孔を貫通するように軸部材を挿通させることにより、前記固定電磁片と前記可動電磁片とを軸着するとともに、
前記コイルバネを、軸方向に縮めた状態で、両前記組の間にわたり前記軸部材に巻回させる格好で取り付け、各前記組において内側の前記腕部を外側の前記腕部へ押し付ける側へ付勢したことを特徴とする回路遮断器の電磁引き外し装置。
A fixed electromagnetic piece fixed to the electric circuit in a state in which the electric circuit is accommodated,
A movable electromagnetic piece that is pivotally attached to the fixed electromagnetic piece so as to be pivotable about a left-right direction, and a predetermined part contacts / dissociates from the front side with respect to the fixed electromagnetic piece by the rotation,
A coil spring that has one end hooked to the fixed electromagnetic piece and the other end hooked to the movable electromagnetic piece, and holds the movable electromagnetic piece in a state where the predetermined portion is dissociated;
An electromagnetic trip device for a circuit breaker in which the movable electromagnetic piece rotates in a direction in which the predetermined portion contacts the fixed electromagnetic piece against a holding force of the coil spring when a current exceeding a predetermined value flows in the electric circuit Because
The fixed electromagnetic piece and the movable electromagnetic piece are each provided with a pair of arms that protrude rearward and oppositely, and each arm is provided with a shaft hole, and one arm in the fixed electromagnetic piece Each arm part of the movable electromagnetic piece and a pair of the arm part of the movable electromagnetic piece and the arm part of the movable electromagnetic piece are in contact with the left and right in each set , and In one set, the arm portion of the movable electromagnetic piece is positioned outside the arm portion of the fixed electromagnetic piece, while in the other set, the arm portion of the fixed electromagnetic piece is positioned inside the arm portion. and a state where said arm portions are positioned in the movable electromagnetic member, by inserting the shaft member so as to penetrate all of the shaft hole, thereby pivotally and said movable electromagnetic piece and the fixed electromagnetic piece,
The coil spring is attached in such a manner that the coil spring is wound around the shaft member in a state in which the coil spring is contracted in the axial direction , and the inner arm portion is biased toward the outer arm portion in each set. electromagnetic trip device of a circuit breaker, characterized in that the.
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