JP3117055B2 - Circuit breaker - Google Patents
Circuit breakerInfo
- Publication number
- JP3117055B2 JP3117055B2 JP06064587A JP6458794A JP3117055B2 JP 3117055 B2 JP3117055 B2 JP 3117055B2 JP 06064587 A JP06064587 A JP 06064587A JP 6458794 A JP6458794 A JP 6458794A JP 3117055 B2 JP3117055 B2 JP 3117055B2
- Authority
- JP
- Japan
- Prior art keywords
- circuit breaker
- phase
- internal pressure
- case
- insulating container
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Breakers (AREA)
Description
【0001】[0001]
【産業上の利用分野】この発明は、配線用遮断器や漏電
遮断器などの回路遮断器に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a circuit breaker such as a circuit breaker for a wiring or an earth leakage breaker.
【0002】[0002]
【従来の技術】配線用遮断器はケースとカバーとからな
る絶縁物容器内に開閉機構や過電流引外し装置が一体に
組み込まれた構成となっているが、漏電遮断器では配線
用遮断器に加えて更に漏電検出部やこれにより駆動され
るトリップコイルユニットが組み込まれている。このよ
うな配線用遮断器及び漏電遮断器において、その絶縁物
容器は一般に別々の大きさで作られてきたが、それは漏
電遮断器には配線用遮断器の構成部の他に漏電検出部が
加わることから、同じフレームサイズであっても漏電遮
断器の方が配線用遮断器より大形になると考えられてい
たためである。2. Description of the Related Art A circuit breaker for wiring has a structure in which an opening / closing mechanism and an overcurrent trip device are integrally incorporated in an insulating container including a case and a cover. In addition to the above, a leakage detection unit and a trip coil unit driven by the leakage detection unit are incorporated. In such wiring breakers and earth leakage breakers, the insulating containers are generally made in different sizes, but the earth leakage breaker has a leakage detection unit in addition to the components of the wiring breaker. This is because it was considered that the earth leakage breaker would be larger than the wiring breaker even with the same frame size.
【0003】しかし、配線用遮断器と漏電遮断器とで絶
縁物容器が異なると、漏電保護機能の有無による仕様変
更に柔軟に対応できず、また成形が別立てになるためモ
ールドコストも高くなる。そこで、この発明者らは先に
配線用遮断器と漏電遮断器とで絶縁物容器を統一できる
回路遮断器を開発し、本出願人により特許出願した(特
願平4−83301号)。これは絶縁物容器の過電流引
外し装置と負荷側端子との間に予備空間を形成し、配線
用遮断器に漏電引外し機能その他の機能を付加する場合
には、この予備空間を用いて漏電検出部などを設置する
ようにしたものである。[0003] However, if the insulating container is different between the circuit breaker for wiring and the earth leakage breaker, it is not possible to flexibly cope with a specification change due to the presence or absence of the earth leakage protection function, and the molding cost becomes high because the molding is separated. . Therefore, the present inventors have previously developed a circuit breaker that can unify the insulating container between the wiring breaker and the earth leakage breaker, and applied for a patent by the present applicant (Japanese Patent Application No. 4-83301). This is to form a spare space between the overcurrent trip device of the insulating container and the load side terminal, and use this spare space when adding a leakage leakage trip function or other functions to the circuit breaker for wiring. An earth leakage detection unit and the like are provided.
【0004】[0004]
【発明が解決しようとする課題】一方、上記回路遮断器
において、電流遮断時にはアークガスの発生により絶縁
物容器の内圧が上昇するが、この内圧は各相のアークエ
ネルギーで決定されるため各相間で均等ではない。その
ため、特に大電流遮断時に内圧上昇が左右いずれかの相
(R相あるいはT相)に片寄ると、過大な内圧が絶縁物
容器の一方の側壁に集中して作用し、これを損傷する危
険がある。したがって、上記内圧上昇の片寄りを相間に
分散できれば、絶縁物容器の破損を防止する上で有利で
ある。そこで、この発明は、絶縁物容器の負荷側に予備
空間を設けた場合において、電流遮断時の内圧上昇を相
間で均衡させ、内圧の過度の集中による絶縁物容器の破
損を防止した回路遮断器を提供することを目的とするも
のである。On the other hand, in the above-described circuit breaker, when the current is interrupted, the internal pressure of the insulating container rises due to the generation of arc gas. Not even. Therefore, when the internal pressure rises in one of the right and left phases (R phase or T phase), especially when a large current is interrupted, the excessive internal pressure acts on one side wall of the insulating container, and there is a risk of damaging the concentrated internal pressure. is there. Therefore, if the offset of the increase in the internal pressure can be dispersed between the phases, it is advantageous in preventing breakage of the insulating container. In view of the above, the present invention provides a circuit breaker in which, when a spare space is provided on the load side of an insulating container, the internal pressure rise during current interruption is balanced between the phases to prevent damage to the insulating container due to excessive concentration of the internal pressure. The purpose is to provide.
【0005】[0005]
【課題を解決するための手段】この発明は、予備空間を
区画する相間の仕切板に通気孔を設けることにより、上
記目的を達成するものとする。SUMMARY OF THE INVENTION The present invention achieves the above object by providing a ventilation hole in a partition plate between phases defining a spare space.
【0006】[0006]
【作用】従来は絶縁物容器内の相間は完全に閉鎖されて
いるが、相間の仕切板に通気孔を設けることにより、こ
の通気孔を通してアークガスを相間で流動させることが
可能となるので、左右相の一方で内圧上昇の片寄りが生
じた場合にもそのアークガスを中央相、あるいはその先
の他方の相に逃がして内圧を均等化することができる。Conventionally, the phases in the insulating container are completely closed. However, by providing a vent in the partition between the phases, the arc gas can flow between the phases through the vent. Even when the internal pressure rises in one of the phases, the arc gas can be released to the central phase or the other phase therebefore to equalize the internal pressure.
【0007】[0007]
【実施例】以下、図に基づいてこの発明の実施例を説明
する。図1は配線用遮断器の縦断面図、図2はそのカバ
ーの一部を破断した平面図である。これらの図におい
て、モールド樹脂のケース1とカバー2とからなる絶縁
物容器内には、開閉機構3や過電流引外し装置4などが
一体に組み込まれている。電流は電源側端子5から、こ
れと一体の固定接触子6、これと接離する可動接触子
7、これと摺動接触する固定導体8、これにねじで接続
された過電流引外し装置4のヒータ導体9、これにろう
付けされた接続導体10を経て、これと一体の負荷側端
子11に流れる。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a longitudinal sectional view of a circuit breaker for wiring, and FIG. 2 is a plan view with a part of a cover thereof cut away. In these figures, an opening / closing mechanism 3, an overcurrent trip device 4, and the like are integrally incorporated in an insulating container including a case 1 and a cover 2 made of a molded resin. The current is supplied from the power source side terminal 5 to the fixed contact 6 integral therewith, the movable contact 7 contacting / separating therefrom, the fixed conductor 8 slidingly contacting the same, and the overcurrent tripping device 4 connected to this by a screw. After passing through the heater conductor 9 and the connection conductor 10 brazed to the heater conductor 9, the current flows to the load-side terminal 11 integrated therewith.
【0008】過電流引外し装置4のヒータ導体9を流れ
る電流が過負荷状態となると、ヒータ導体9の発する熱
によりバイメタル12が図1の左方向に湾曲して、その
上端部で開閉機構3の引外し部3aを押し、開閉機構3
の鎖錠を解いて可動接触子7を開離させる。また、ヒー
タ導体9を短絡電流などの大電流が流れると、過電流引
外し装置4のアーマチュア13が図1の反時計方向に瞬
時に吸引され、その上端部で引外し部3aを叩いて可動
接触子7を開離させる。When the current flowing through the heater conductor 9 of the overcurrent trip device 4 is overloaded, the heat generated by the heater conductor 9 causes the bimetal 12 to bend leftward in FIG. Of the opening / closing mechanism 3
To unlock the movable contact 7. When a large current such as a short-circuit current flows through the heater conductor 9, the armature 13 of the overcurrent tripping device 4 is instantaneously attracted in the counterclockwise direction in FIG. 1, and the upper end thereof strikes the tripping portion 3a to move. The contact 7 is separated.
【0009】ここで、容器内の過電流引外し装置4と負
荷側端子11との間には、予備空間14が各相を横断し
て形成されている。また、図3に示すように、絶縁物容
器内を各相ごとに区画するケース1の相間隔壁1aの予
備空間14と交差する部分には切欠15が設けられ、配
線用遮断器の場合には図示の通り切欠15に予備空間1
4を区画する絶縁物からなる仕切板16が溝17を用い
て挿脱自在に装着されている。そして、この仕切板16
には、丸孔からなる通気孔16aが2箇所に設けられて
いる。通気孔16aの大きさや形状、位置、個数などは
隣接相の充電部同士の絶縁距離を損なわないように適宜
に定められるものであり、図示例に限定されない。な
お、回路遮断器を漏電遮断器として構成する場合には仕
切板16を撤去し、予備空間14に各相に跨がる漏電検
出部を設置する。Here, a spare space 14 is formed between the overcurrent trip device 4 and the load terminal 11 in the container so as to cross each phase. As shown in FIG. 3, a notch 15 is provided at a portion of the case 1 that partitions the inside of the insulating container for each phase, at a portion that intersects with the spare space 14 of the phase space wall 1a. Spare space 1 in notch 15 as shown
A partition plate 16 made of an insulating material for partitioning 4 is detachably mounted using a groove 17. And this partition plate 16
Is provided with two vent holes 16a formed of round holes. The size, shape, position, number, and the like of the ventilation holes 16a are appropriately determined so as not to impair the insulation distance between the charged portions in the adjacent phases, and are not limited to the illustrated example. In the case where the circuit breaker is configured as an earth leakage breaker, the partition plate 16 is removed, and an earth leakage detection unit extending over each phase is installed in the spare space 14.
【0010】図示回路遮断器において、電流遮断が行わ
れるとアークガスが発生し、このアークガスは各相ごと
に絶縁物容器の内部空間を電源側及び負荷側に流れて、
それぞれの側の遮蔽板18(図1,図2)の排気孔から
外部に排出される。図4は回路遮断器の例えば右相(T
相)に特に高い内圧が生じた場合の負荷側へのアークガ
スの流れを矢印で示したケース1の要部平面図である。In the illustrated circuit breaker, when a current is interrupted, an arc gas is generated, and this arc gas flows through the internal space of the insulator container for each phase to the power supply side and the load side,
The air is exhausted from the exhaust holes of the shielding plates 18 (FIGS. 1 and 2) on each side. FIG. 4 shows, for example, the right phase (T
FIG. 7 is a plan view of a main part of the case 1 in which arrows indicate flows of arc gas to the load side when a particularly high internal pressure is generated in the phase 1).
【0011】この場合、各相間が完全に閉鎖されている
と、T相の高い内圧はそのままケース側壁1bに作用
し、内圧が過度に上昇したときにはケース1bの付け根
部分にクラックが発生する恐れがある。これに対して、
図4の場合にはT相のアークガスは矢印で示すように通
気孔16aを通して一部分が比較的内圧の低い中層相
(S相)に移動し、更にその一部はR相に移動する。し
たがって、T相での内圧上昇は緩和され、過度の内圧集
中による側壁1bの損傷が生じない。また、アークガス
は最終的には遮蔽板18から外部に排出されるが、この
排出量も相間で均等化されるので含まれる導電成分や金
属溶融物の外部への排出が速まり、電流遮断後の耐電圧
性能も向上する。これらの作用はR相に高い内圧が生じ
た場合も同じである。In this case, if the phases are completely closed, the high internal pressure of the T phase acts on the case side wall 1b as it is, and when the internal pressure rises excessively, cracks may occur at the base of the case 1b. is there. On the contrary,
In the case of FIG. 4, a part of the T-phase arc gas moves to the middle phase (S phase) having a relatively low internal pressure through the vent hole 16a as shown by an arrow, and a part of the gas moves to the R phase. Therefore, the increase in the internal pressure in the T phase is alleviated, and the sidewall 1b is not damaged due to excessive internal pressure concentration. In addition, the arc gas is finally discharged to the outside from the shielding plate 18, but the discharge amount is also equalized between the phases, so that the discharge of the contained conductive component and the metal melt to the outside is accelerated. Withstand voltage performance is also improved. These actions are the same when a high internal pressure is generated in the R phase.
【0012】上述実施例ではケース1の相間隔壁1aに
切欠15が形成され、この切欠15の装着された仕切板
16に通気孔16aを設けた例を示したが、その場合に
図1に鎖線で示したように、予備空間14と交差するカ
バー2の相間隔壁2aにも通気孔19を設けることが可
能であり、またカバー2の相間隔壁2aにも切欠が形成
され、この切欠に仕切板が装着された場合には、この仕
切板に通気孔を設けることが可能である。In the above-mentioned embodiment, the notch 15 is formed in the phase space 1a of the case 1 and the ventilation hole 16a is provided in the partition plate 16 in which the notch 15 is mounted. In this case, a chain line in FIG. As shown in the figure, it is possible to provide the ventilation hole 19 also in the phase space wall 2a of the cover 2 which intersects the spare space 14, and the notch is also formed in the phase space wall 2a of the cover 2, and the partition plate is formed in this notch. When the is installed, it is possible to provide a ventilation hole in this partition plate.
【0013】[0013]
【発明の効果】この発明によれば、絶縁物容器の負荷側
に形成された予備空間を区画する相間の仕切板に通気孔
を設けたことにより、電流遮断時の内圧上昇の相間の不
均衡を解消し、過度の内圧集中による絶縁物容器の損傷
を防止できるとともに、アークガスの容器外部への排出
を促進して遮断後の耐電圧性能を向上させることができ
る。According to the present invention, since the ventilation holes are provided in the inter-phase partition plates which define the spare space formed on the load side of the insulating container, the imbalance in the internal pressure rise at the time of current interruption is provided. , The damage of the insulating container due to excessive concentration of the internal pressure can be prevented, and the discharge of the arc gas to the outside of the container can be promoted to improve the withstand voltage performance after the interruption.
【図1】この発明の実施例を示す回路遮断器の縦断面図
ある。FIG. 1 is a longitudinal sectional view of a circuit breaker showing an embodiment of the present invention.
【図2】図1の回路遮断器のカバーの一部を破断した平
面図である。FIG. 2 is a plan view in which a part of a cover of the circuit breaker of FIG. 1 is cut away.
【図3】図1の回路遮断器のケースとこれに装着される
仕切板の斜視図である。FIG. 3 is a perspective view of a case of the circuit breaker of FIG. 1 and a partition attached to the case.
【図4】図1の回路遮断器のアークガスの流れを説明す
るケースの要部平面図である。FIG. 4 is a plan view of a main part of a case for explaining a flow of arc gas in the circuit breaker of FIG. 1;
1 ケース 1a 相間隔壁 1b 側壁 2 カバー 2a 相間隔壁 3 開閉機構 4 過電流引外し装置 14 予備空間 15 切欠 16 仕切板 16a 通気孔 DESCRIPTION OF SYMBOLS 1 Case 1a Phase spacing wall 1b Side wall 2 Cover 2a Phase spacing wall 3 Opening / closing mechanism 4 Overcurrent trip device 14 Spare space 15 Notch 16 Partition plate 16a Vent hole
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 昭59−203338(JP,A) 特開 平5−2979(JP,A) 特開 平5−250976(JP,A) 特開 昭56−162442(JP,A) 特開 平2−121223(JP,A) 実開 昭51−58859(JP,U) (58)調査した分野(Int.Cl.7,DB名) H01H 71/02 H01H 73/06 ──────────────────────────────────────────────────続 き Continuation of front page (56) References JP-A-59-203338 (JP, A) JP-A-5-2979 (JP, A) JP-A-5-250976 (JP, A) JP-A-56-203 162442 (JP, A) JP-A-2-121223 (JP, A) Japanese Utility Model Application Sho 51-58859 (JP, U) (58) Fields investigated (Int. Cl. 7 , DB name) H01H 71/02 H01H 73 / 06
Claims (1)
開閉機構、過電流引外し装置などが一体に組み込まれ、
前記絶縁物容器の過電流引外し装置と負荷側端子との間
に予備空間が形成された回路遮断器において、 予備空間を区画する相間の仕切板に通気孔を設けたこと
を特徴とする回路遮断器。An opening / closing mechanism, an overcurrent trip device and the like are integrally incorporated in an insulator container comprising a case and a cover.
A circuit breaker in which a spare space is formed between an overcurrent trip device of the insulating container and a load-side terminal, wherein a ventilation hole is provided in a partition plate between phases that divides the spare space. Circuit breaker.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP06064587A JP3117055B2 (en) | 1994-03-08 | 1994-03-08 | Circuit breaker |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP06064587A JP3117055B2 (en) | 1994-03-08 | 1994-03-08 | Circuit breaker |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH07249361A JPH07249361A (en) | 1995-09-26 |
JP3117055B2 true JP3117055B2 (en) | 2000-12-11 |
Family
ID=13262537
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP06064587A Expired - Fee Related JP3117055B2 (en) | 1994-03-08 | 1994-03-08 | Circuit breaker |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3117055B2 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101879338B1 (en) | 2016-12-05 | 2018-07-17 | 엘에스산전 주식회사 | Air circuit breaker |
-
1994
- 1994-03-08 JP JP06064587A patent/JP3117055B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH07249361A (en) | 1995-09-26 |
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