WO2015151394A1 - Circuit breaker - Google Patents

Circuit breaker Download PDF

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Publication number
WO2015151394A1
WO2015151394A1 PCT/JP2015/000819 JP2015000819W WO2015151394A1 WO 2015151394 A1 WO2015151394 A1 WO 2015151394A1 JP 2015000819 W JP2015000819 W JP 2015000819W WO 2015151394 A1 WO2015151394 A1 WO 2015151394A1
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WO
WIPO (PCT)
Prior art keywords
fixed
rib
movable
circuit breaker
grid
Prior art date
Application number
PCT/JP2015/000819
Other languages
French (fr)
Japanese (ja)
Inventor
晋治 高山
村上 弘明
岡田 健治
Original Assignee
パナソニックIpマネジメント株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Application filed by パナソニックIpマネジメント株式会社 filed Critical パナソニックIpマネジメント株式会社
Priority to CN201580013738.4A priority Critical patent/CN106104742B/en
Priority to JP2016511346A priority patent/JPWO2015151394A1/en
Publication of WO2015151394A1 publication Critical patent/WO2015151394A1/en

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/30Means for extinguishing or preventing arc between current-carrying parts
    • H01H9/302Means for extinguishing or preventing arc between current-carrying parts wherein arc-extinguishing gas is evolved from stationary parts
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H73/00Protective overload circuit-breaking switches in which excess current opens the contacts by automatic release of mechanical energy stored by previous operation of a hand reset mechanism
    • H01H73/02Details
    • H01H73/18Means for extinguishing or suppressing arc
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/30Means for extinguishing or preventing arc between current-carrying parts
    • H01H9/34Stationary parts for restricting or subdividing the arc, e.g. barrier plate
    • H01H2009/348Provisions for recirculation of arcing gasses to improve the arc extinguishing, e.g. move the arc quicker into the arcing chamber
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/30Means for extinguishing or preventing arc between current-carrying parts
    • H01H9/34Stationary parts for restricting or subdividing the arc, e.g. barrier plate
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/30Means for extinguishing or preventing arc between current-carrying parts
    • H01H9/44Means for extinguishing or preventing arc between current-carrying parts using blow-out magnet
    • H01H9/446Means for extinguishing or preventing arc between current-carrying parts using blow-out magnet using magnetisable elements associated with the contacts

Definitions

  • the present invention relates to a circuit breaker.
  • a circuit breaker is installed between the commercial power supply and the indoor wiring to prevent damage to the indoor wiring due to overcurrent or electrical equipment connected to the tip of the indoor wiring.
  • the circuit breaker has a contact for opening and closing the electric circuit, and when an overcurrent flows through the circuit breaker, the contact is opened to interrupt the electric circuit.
  • a circuit breaker when a contact is opened by manual operation or overcurrent detection, an arc is generated between the contacts.
  • the circuit breaker has a extinguishing arc part that quickly extinguishes the arc (for example, Patent Documents 1 to 5).
  • a circuit breaker includes a fixed terminal having a fixed contact, a movable terminal having a movable contact for making contact with and separating from the fixed contact by an opening / closing operation, a movable side traveling unit, a fixed side commutation unit, and a grid And two side plates and two rib blocks.
  • the movable side traveling unit is electrically connected to the movable terminal.
  • the fixed side commutation part is electrically connected to the fixed terminal.
  • the grid is disposed between the movable side traveling unit and the fixed side commutation unit.
  • Each of the two rib blocks is formed with a plurality of ribs extending from the fixed contact toward the grid.
  • the two rib blocks are arranged with a plurality of ribs facing each other.
  • the two side plates sandwich the two rib blocks.
  • Each one of the two rib blocks is attached to each of the two side plates so as to be detachable.
  • FIG. 1 is an internal side view of a circuit breaker according to a first embodiment of the present invention.
  • FIG. 2A is a perspective view of a rib block in the circuit breaker of FIG.
  • FIG. 2B is an internal side view showing a state where the rib block is removed from the circuit breaker of FIG. 1.
  • FIG. 3A is a diagram illustrating a state in which an arc in the circuit breaker of FIG. 1 has transitioned between the fixed-side traveling unit and the movable-side traveling unit.
  • FIG. 3B is a diagram illustrating a state in which the arc in the circuit breaker of FIG. 1 has shifted between the fixed-side commutation unit and the movable-side traveling unit.
  • FIG. 4 is an explanatory diagram showing temporal transition of arc current and arc voltage in the circuit breaker of FIG.
  • FIG. 5 is a perspective view of a rib block in the circuit breaker according to the second embodiment of the present invention.
  • FIG. 6 is a perspective view of a rib block in the circuit breaker according to the third embodiment of the present invention.
  • FIG. 7 is an internal side view of a conventional circuit breaker. It is a figure which shows the state which the arc in the circuit breaker of FIG. 7 shifted between the fixed side traveling part and the movable side traveling part. It is a figure which shows the state which the arc in the circuit breaker of FIG. 7 moved between the fixed side commutation part and the movable side traveling part. It is a figure which shows the time transition of the arc current and arc voltage in the circuit breaker of FIG.
  • FIG. 7 is an internal side view of the circuit breaker 200
  • FIG. 8A is a diagram illustrating a state in which the arc in the circuit breaker 200 has shifted between the fixed side traveling unit 116 and the movable side traveling unit 118
  • FIG. FIG. 6 is a diagram showing a state where an arc in the circuit breaker 200 has shifted between a fixed-side commutation portion 119 and a movable-side traveling portion 118.
  • 7 8 ⁇ / b> A, and 8 ⁇ / b> B are states in which the fixed contact 113 and the movable contact 115 are separated from each other.
  • the arc A1 When the hot gas moves to the grid 117, the arc A1 is cooled, and the electric path of the arc A1 is increased in resistance. Therefore, the arc A1 moves between the movable side traveling unit 117 and the fixed side commutation unit 119 that is electrically connected to the fixed side traveling unit 116, and becomes an arc A2. As a result, since the arc current is limited by the increase in arc voltage, the arc A2 disappears.
  • a plurality of curved ribs 123 extending from the fixed contact 113 toward the grid 117 are arranged at substantially equal intervals.
  • the rib tip 123b of the rib 123 extends toward the grid 117.
  • the rib 123 is not arranged at the place where the fixed side traveling unit 116 is arranged. That is, the rib 123 extending from the intermediate portion 17M of the grid 117 to the fixed-side commutation portion 119 (upper portion of the grid 117) is not formed. Therefore, as shown in FIG. 8A, most of the hot gas flow F is guided by the rib 123 from the intermediate portion 17M of the grid 117 to the range of the movable side traveling portion 118 (lower portion of the grid 117).
  • the arc A1 does not easily move from the fixed-side traveling unit 116 to the fixed-side commutation unit 119, and tends to stay between the movable-side traveling unit 118 and the fixed-side traveling unit 116.
  • FIG. 9 shows the time transition of arc voltage and arc current in the circuit breaker 200.
  • the retention of the arc A1 prevents the increase of the arc voltage Va2 in the initial generation of the arc (3 msec to 4 msec), so that the arc current limiting performance of the arc current Ia2 is reduced. That is, the current value ⁇ Ia2 that decreases after reaching the peak in the arc current Ia2 may be insufficient.
  • the rib 123 may not be required.
  • FIG. 1 is an internal side view of the circuit breaker 100.
  • FIG. 2A is a perspective view of the rib block 23 in the circuit breaker 100.
  • FIG. 2B is an internal side view showing the circuit breaker 100 with the rib block 23 removed.
  • FIG. 3A is a diagram illustrating a state in which the arc in the circuit breaker 100 has shifted between the fixed side traveling unit 16 and the movable side traveling unit 18.
  • FIG. 3B is a diagram illustrating a state in which the arc in the circuit breaker 100 has shifted between the fixed-side commutation unit 19 and the movable-side traveling unit 18.
  • FIG. 4 is an explanatory diagram showing the time transition of the arc current and arc voltage in the circuit breaker 100. 1, 2 ⁇ / b> B, 3 ⁇ / b> A, and 3 ⁇ / b> B are states in which the fixed contact 13 and the movable contact 15 are separated from each other.
  • the circuit breaker 100 has a fixed terminal 12 having a fixed contact 13 and a movable terminal 14 having a movable contact 15 for making contact with and separating from the fixed contact 13 by an opening / closing operation.
  • the fixed contact 13 and the movable contact 15 are arranged to face each other.
  • the fixed terminal 12 is fixed to the case 11, and the movable terminal 14 is supported by the case 11 so as to rotate with respect to the case 11.
  • Both the fixed terminal 12 and the movable terminal 14 are made of metal processed into a plate shape.
  • the fixed terminal 12 and the movable terminal 14 are interposed in the wiring from the commercial power source. If the fixed contact 13 and the movable contact 15 are separated by the rotation of the movable terminal 14, the electric path from the commercial power source is interrupted.
  • the fixed-side traveling unit 16 is curved in a direction away from the movable terminal 14 and extends from the fixed terminal 12.
  • the fixed terminal 12 having the fixed contact 13 and the fixed side traveling portion 16 are metal plate materials, are integrally formed, and are electrically connected.
  • the circuit breaker 100 further has a extinguishing arc part.
  • the arc extinguishing part includes a grid 17, a movable side traveling part 18, a fixed side commutation part 19, and two side plates 22.
  • the grid 17 is formed by laminating a plurality of iron plates 17a via gaps 17b.
  • the movable side traveling unit 18 is disposed on one end side of the grid 17 in the stacking direction.
  • the fixed side traveling unit 16 is disposed on the other end side of the grid 17 in the stacking direction.
  • the two side plates 22 are arranged with a space between the fixed side traveling unit 16 and the movable side traveling unit 18 interposed therebetween. There are gaps between the grid 17 and the movable side traveling part 18 and the fixed side commutation part 19.
  • the movable side traveling unit 18 is electrically connected to the movable terminal 14.
  • the fixed commutation part 19 is electrically connected to the fixed terminal 12.
  • the grid 17 is disposed between the movable side traveling unit 18 and the fixed side commutation unit 19.
  • the distal end portion 16 a of the fixed side traveling portion 16 is disposed at a position facing the grid 17.
  • the fixed-side commutation unit 19 is disposed at a position farther from the movable-side traveling unit 18 than the fixed-side traveling unit 16.
  • Both the movable side traveling part 18 and the fixed side commutation part 19 are made of metal processed into a plate shape.
  • the circuit breaker 100 has two side plates 22 that sandwich a space 30 formed between the fixed side traveling unit 16 and the movable side traveling unit 18. Two rib blocks 23 are arranged in the space 30. Further, the fixed terminal 12 formed integrally with the fixed-side traveling unit 16 is also sandwiched between the two side plates 22. In FIG. 1, one side plate 22 and a rib block 23 are drawn, and the other side plate (not shown) and the rib block (not shown) are arranged in front of the page. Each of the two rib blocks 23 has a shape symmetrical with respect to the paper surface.
  • the side plate 22 is formed of a synthetic resin, and is integrally formed with the case 11 formed of the same synthetic resin. A rib block 23 is attached to the side plate 22 so as to be attached and detached.
  • the side plate 22 is formed with a recess 31 for attaching and detaching the rib block 23.
  • the rib block 23 is fitted in the recess 31.
  • the structure which attaches the rib block 23 to the side plate 22 may be other than this.
  • the rib block 23 and the side plate 22 may be screwed.
  • the rib block 23 has a plurality of ribs 23 a to 23 d extending from the fixed contact 13 toward the grid 17.
  • the rib 23a closest to the fixed traveling portion 16 extends toward the fixed-side commutation portion 19, and the rib 23d closest to the movable-side traveling portion 18 is the intermediate portion 17M of the grid 17. And extending between the movable side traveling unit 18.
  • Each of the two rib blocks 23 is disposed in the space 30 with the plurality of ribs 23a to 23d facing each other.
  • the ribs 23a to 23d arranged to face each other are not in contact with each other. That is, there is a gap between each of the opposing ribs 23a to 23d.
  • the rib block 23 is made of a synthetic resin.
  • the synthetic resin used for the rib block 23 may be a synthetic resin used for the side plate 22.
  • an arc is generated when the fixed contact 13 and the movable contact 15 are separated.
  • the high-temperature gas generated due to the arc becomes high-temperature gas flows F1 to F3 and is guided from the fixed contact 13 and the movable contact 15 toward the grid 17 by the ribs 23a to 23d.
  • the high-temperature gas that has reached the grid 17 flows into the gap 17b of the iron plate 17a constituting the grid 17, flows along the iron plate 17a, and is discharged to the outside from the exhaust port 29.
  • the ribs 23a to 23d are formed to be curved so as to surround the fixed terminal 12 and the fixed-side running portion 16.
  • One end of each of the ribs 23a to 23d is referred to as a rib base end 23a1 to 23d1, and the other end is also referred to as a rib tip 23a2 to 23d2.
  • the rib base end portions 23a1 to 23d1 are arranged at equal intervals.
  • the ribs 23a to 23d are formed so that the interval between the adjacent ribs 23a to 23d gradually increases from the rib base end portions 23a1 to 23d1 toward the rib distal end portions 23a2 to 23d2. That is, the interval at the rib tip end portions 23a2 to 23d2 that is the rib end portion close to the grid 17 is wider than the interval at the rib base end portions 23a1 to 23d1 that are the rib end portions close to the fixed contact 13.
  • the rib 23 a closest to the fixed side running part 16 extends toward the fixed side commutation part 19. That is, the rib 23 a extends from the fixed-side commutation portion 19 toward the nearest iron plate 17 a in the grid 17.
  • the rib 23b adjacent to the rib 23a extends from the intermediate portion 17M of the grid 17 toward the iron plate 17a close to the fixed-side commutation portion 19. Further, the rib 23 c adjacent to the rib 23 b extends toward the iron plate 17 a in the intermediate portion 17 ⁇ / b> M of the grid 17. The rib 23d adjacent to the rib 23c extends from the intermediate portion 17M of the grid 17 toward the iron plate 17a closer to the movable side traveling portion 18. Accordingly, the rib tip portions 23a2 to 23d2 are formed in such a manner that the direction thereof is sequentially changed from the fixed-side commutation portion 19 toward the movable-side traveling portion 18.
  • the high-temperature gas flows F1 to F3 flowing toward the grid 17 from between two adjacent ribs among the ribs 23a to 23d flow evenly over the entire grid 17.
  • an arc is generated between the fixed contact 13 and the movable contact 15.
  • the arc attached / detached from the fixed contact 13 and the movable contact 15 is guided to the grid 17 and moves between the fixed traveling unit 16 and the movable traveling unit 18 to become an arc A1. .
  • the increase of the arc voltage Va1 is promoted by the cooling action of the grid 17 and the high-temperature gas, and the arc current Ia1 is suppressed.
  • the current value ⁇ Ia1 that decreases after a predetermined time from reaching the peak value in the arc current Ia1 becomes larger than the current value ⁇ Ia2 shown in FIG.
  • the arc current limiting performance of the circuit breaker 100 is improved. That is, in the circuit breaker 100, the arc can be reliably extinguished.
  • the circuit breaker 100 causes the arc to be fixed to the fixed-side commutation portion by the action of the ribs 23a to 23d. 19 and the movable side traveling part 18 can be shifted. As a result, an increase in arc voltage can be promoted by the action of the grid 17 and the arc current limiting performance of the circuit breaker 100 can be improved.
  • the rib block 23 When it is not necessary to ensure the arc current limiting performance, the rib block 23 can be used without being assembled. Therefore, by selecting whether or not the rib block 23 is assembled, two types of circuit breakers having different arc current limiting performance can be configured.
  • the rib block 24 included in the circuit breaker according to Embodiment 2 of the present invention will be described with reference to FIG.
  • the rib block 24 has a rib connecting portion 241 at an end portion (base end portion) near the fixed contact of the plurality of ribs 24a to 24d.
  • Other configurations are the same as those of the rib block 23. Therefore, in the circuit breaker 100 according to the first embodiment, the rib block 24 can be attached instead of the rib block 23.
  • the rib connecting portion 241 connects the base end portions 24a1 to 24d1 of the adjacent ribs 24a to 24d. With this configuration, as shown in FIG. 5, warping in the X direction is prevented by the ribs 24a to 24d, and warping in the Y direction is prevented by the rib connecting portion 241.
  • the rib block 24 can be prevented from warping due to the heat generated by the arc.
  • the rib block 25 has a first surface 251 on which a plurality of ribs including ribs 25 a are formed, a first surface 251, and a second surface 252 facing away from the first surface 251, and has a flange 253 around the second surface 252. . That is, the second surface 252 is surrounded by the flange portion 253.
  • Other configurations are the same as those of the rib block 23 or the rib block 24. Therefore, in the circuit breaker 100 according to the first embodiment, the rib block 25 can be attached instead of the rib block 23.
  • the height of the flange 253 is constant with respect to the second surface 252. That is, a rib recess 254 is formed inside the flange 253.
  • This configuration can prevent the rib block 25 from warping as in the second embodiment.
  • a magnetic plate 27 such as an iron plate may be accommodated in the rib recess 254. That is, the rib block 25 in which the magnetic plate 27 is accommodated in the rib recess 254 may be fitted into the recess 30. With this configuration, the arc can be reliably moved between the distal end portion 16 a of the fixed side traveling unit 16 and the movable side traveling unit 18 via the surface of the rib block 25.
  • circuit breaker of the present embodiment it is possible to select a specification in which the magnetic plate 27 is attached to the rib block 25 and a specification in which the magnetic plate 27 is removed. That is, it becomes possible to share components in circuit breakers with different specifications.
  • the first to third embodiments may be modified as follows.
  • the rib block 253 provided in the rib block 25 of the third embodiment may be provided in the rib block 24 of the second embodiment.

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  • Breakers (AREA)
  • Arc-Extinguishing Devices That Are Switches (AREA)

Abstract

This circuit breaker has a fixed terminal that has a fixed contact, a movable terminal that has a movable contact that opens and closes so as to move away from and contact the fixed contact, a movable-side travel section, a fixed-side commutation unit, a grid, two side plates, and two rib blocks. The movable-side travel section is electrically connected to the movable terminal, and the fixed-side commutation unit is electrically connected to the fixed terminal. The grid is laid out between the movable-side travel section and the fixed-side commutation unit. A plurality of ribs that extend from the fixed contact towards the grid are formed on each of the rib blocks, which are laid out with said ribs facing each other. The two side plates sandwich the two rib blocks, and the rib blocks are removably mounted to the respective side plates.

Description

遮断器Breaker
 本発明は、遮断器に関する。 The present invention relates to a circuit breaker.
 一般に家庭の屋内配線には、過電流による屋内配線あるいは、屋内配線の先に接続される電気機器の損傷を防止するために、商用電源から屋内配線との間に、遮断器が配設されている。遮断器は、電路を開閉する接点を有しており、遮断器に過電流が流れると、接点が開き、電路を遮断する。遮断器において、手動操作あるいは過電流検出により接点が開かれるとき、その接点間にアークが発生する。遮断器は、アークを速やかに消滅する消アーク部を有している(例えば、特許文献1~5)。 In general, in indoor wiring at home, a circuit breaker is installed between the commercial power supply and the indoor wiring to prevent damage to the indoor wiring due to overcurrent or electrical equipment connected to the tip of the indoor wiring. Yes. The circuit breaker has a contact for opening and closing the electric circuit, and when an overcurrent flows through the circuit breaker, the contact is opened to interrupt the electric circuit. In a circuit breaker, when a contact is opened by manual operation or overcurrent detection, an arc is generated between the contacts. The circuit breaker has a extinguishing arc part that quickly extinguishes the arc (for example, Patent Documents 1 to 5).
特公昭62-58094号公報Japanese Patent Publication No.62-58094 特開2002-352692号公報JP 2002-352692 A 特開昭56-69744号公報JP 56-69744 A 特開昭60-230321号公報JP-A-60-230321 特開平03-266328号公報Japanese Patent Laid-Open No. 03-266328
 本発明による遮断器は、固定接点を有する固定端子と、固定接点に対して開閉動作により接離するための可動接点を有する可動端子と、可動側走行部と、固定側転流部と、グリッドと、二つの側板と、二つのリブブロックとを有する。可動側走行部は、可動端子と電気的に接続されている。固定側転流部は、固定端子と電気的に接続されている。グリッドは可動側走行部と固定側転流部との間に配置されている。二つのリブブロックの各々には、固定接点からグリッドに向かって延びる複数のリブが形成されている。二つのリブブロックは、互いに複数のリブを対向させて配置されている。二つの側板は、二つのリブブロックを挟んでいる。二つの側板の各々に、二つのリブブロックの各ひとつが着脱するに適して取付けられている。 A circuit breaker according to the present invention includes a fixed terminal having a fixed contact, a movable terminal having a movable contact for making contact with and separating from the fixed contact by an opening / closing operation, a movable side traveling unit, a fixed side commutation unit, and a grid And two side plates and two rib blocks. The movable side traveling unit is electrically connected to the movable terminal. The fixed side commutation part is electrically connected to the fixed terminal. The grid is disposed between the movable side traveling unit and the fixed side commutation unit. Each of the two rib blocks is formed with a plurality of ribs extending from the fixed contact toward the grid. The two rib blocks are arranged with a plurality of ribs facing each other. The two side plates sandwich the two rib blocks. Each one of the two rib blocks is attached to each of the two side plates so as to be detachable.
 以上の構成により、本発明にかかる遮断器において、アーク電圧の上昇を促進させて、アーク電流のアーク電流制限性能を向上させることができる。 With the above configuration, in the circuit breaker according to the present invention, it is possible to promote an increase in the arc voltage and improve the arc current limiting performance of the arc current.
図1は、本発明の実施の形態1にかかる遮断器の内部側面図である。1 is an internal side view of a circuit breaker according to a first embodiment of the present invention. 図2Aは、図1の遮断器におけるリブブロックの斜視図である。FIG. 2A is a perspective view of a rib block in the circuit breaker of FIG. 図2Bは、図1の遮断器において、リブブロックを取り外した状態を示す内部側面図である。FIG. 2B is an internal side view showing a state where the rib block is removed from the circuit breaker of FIG. 1. 図3Aは、図1の遮断器におけるアークが固定側走行部と可動側走行部との間に移行した状態を示す図である。FIG. 3A is a diagram illustrating a state in which an arc in the circuit breaker of FIG. 1 has transitioned between the fixed-side traveling unit and the movable-side traveling unit. 図3Bは、図1の遮断器におけるアークが固定側転流部と可動側走行部との間に移行した状態を示す図である。FIG. 3B is a diagram illustrating a state in which the arc in the circuit breaker of FIG. 1 has shifted between the fixed-side commutation unit and the movable-side traveling unit. 図4は、図1の遮断器におけるアーク電流及びアーク電圧の時間推移を示す説明図である。FIG. 4 is an explanatory diagram showing temporal transition of arc current and arc voltage in the circuit breaker of FIG. 図5は、本発明の実施の形態2の遮断器におけるリブブロックの斜視図である。FIG. 5 is a perspective view of a rib block in the circuit breaker according to the second embodiment of the present invention. 図6は、本発明の実施の形態3の遮断器におけるリブブロックの斜視図である。FIG. 6 is a perspective view of a rib block in the circuit breaker according to the third embodiment of the present invention. 図7は、従来の遮断器の内部側面図である。FIG. 7 is an internal side view of a conventional circuit breaker. 図7の遮断器におけるアークが固定側走行部と可動側走行部との間に移行した状態を示す図である。It is a figure which shows the state which the arc in the circuit breaker of FIG. 7 shifted between the fixed side traveling part and the movable side traveling part. 図7の遮断器におけるアークが固定側転流部と可動側走行部との間に移行した状態を示す図である。It is a figure which shows the state which the arc in the circuit breaker of FIG. 7 moved between the fixed side commutation part and the movable side traveling part. 図7の遮断器におけるアーク電流及びアーク電圧の時間推移を示す図である。It is a figure which shows the time transition of the arc current and arc voltage in the circuit breaker of FIG.
 本発明の実施の形態の説明に先立ち、従来技術の遮断器200における課題を説明する。 Prior to the description of the embodiment of the present invention, problems in the prior art circuit breaker 200 will be described.
 図7は、遮断器200の内部側面図であり、図8Aは遮断器200におけるアークが固定側走行部116と可動側走行部118との間に移行した状態を示す図であり、図8Bは、遮断器200におけるアークが固定側転流部119と可動側走行部118との間に移行した状態を示す図である。なお、図7、図8A,図8Bはいずれも、固定接点113と可動接点115とが離れた状態である。 FIG. 7 is an internal side view of the circuit breaker 200, and FIG. 8A is a diagram illustrating a state in which the arc in the circuit breaker 200 has shifted between the fixed side traveling unit 116 and the movable side traveling unit 118, and FIG. FIG. 6 is a diagram showing a state where an arc in the circuit breaker 200 has shifted between a fixed-side commutation portion 119 and a movable-side traveling portion 118. 7, 8 </ b> A, and 8 </ b> B are states in which the fixed contact 113 and the movable contact 115 are separated from each other.
 固定接点113から可動接点115が離れるとき、固定接点113と可動接点115との間にアークが発生する。アークの発生に起因して高温ガスが発生する。高温ガスは、高温ガス流Fとなって、側板122に設けられた複数のリブ123により、発生箇所からグリッド117に向かって案内される。グリッド117は、積層された複数の鉄板で構成されおり、アークを誘導する機能を有している。アークは、グリッド117に誘導されることにより、固定接点113と電気的に接続されている固定側走行部116の先端116aと可動側走行部118の間に移行し、アークA1となる。高温ガスがグリッド117に移動すると、アークA1は冷却され、アークA1の電路が高抵抗化される。そのため、アークA1は、可動側走行部117と、固定側走行部116と電気的に接続されている固定側転流部119との間に移行し、アークA2となる。その結果、アーク電圧の上昇によりアーク電流が制限されるため、アークA2は消滅する。 When the movable contact 115 is separated from the fixed contact 113, an arc is generated between the fixed contact 113 and the movable contact 115. High temperature gas is generated due to the arc. The high temperature gas becomes a high temperature gas flow F and is guided from the generation point toward the grid 117 by the plurality of ribs 123 provided on the side plate 122. The grid 117 is composed of a plurality of stacked iron plates and has a function of inducing an arc. When the arc is guided to the grid 117, the arc moves between the tip 116 a of the fixed side traveling unit 116 electrically connected to the fixed contact 113 and the movable side traveling unit 118, and becomes an arc A <b> 1. When the hot gas moves to the grid 117, the arc A1 is cooled, and the electric path of the arc A1 is increased in resistance. Therefore, the arc A1 moves between the movable side traveling unit 117 and the fixed side commutation unit 119 that is electrically connected to the fixed side traveling unit 116, and becomes an arc A2. As a result, since the arc current is limited by the increase in arc voltage, the arc A2 disappears.
 遮断器200では、固定接点113からグリッド117に向かって延び、かつ、湾曲した複数のリブ123が、ほぼ等間隔で配置されている。リブ123のリブ先端部123bは、グリッド117に向かって延びている。ただし、固定側走行部116が配置されている箇所には、リブ123は配置されていない。すなわち、グリッド117の中間部17Mから固定側転流部119(グリッド117の上部)の範囲に延びるリブ123は、形成されていない。従って、図8Aに示すように、高温ガス流Fの多くは、リブ123によりグリッド117の中間部17Mから可動側走行部118(グリッド117の下部)の範囲に案内される。 In the circuit breaker 200, a plurality of curved ribs 123 extending from the fixed contact 113 toward the grid 117 are arranged at substantially equal intervals. The rib tip 123b of the rib 123 extends toward the grid 117. However, the rib 123 is not arranged at the place where the fixed side traveling unit 116 is arranged. That is, the rib 123 extending from the intermediate portion 17M of the grid 117 to the fixed-side commutation portion 119 (upper portion of the grid 117) is not formed. Therefore, as shown in FIG. 8A, most of the hot gas flow F is guided by the rib 123 from the intermediate portion 17M of the grid 117 to the range of the movable side traveling portion 118 (lower portion of the grid 117).
 そのため、アークA1は、固定側走行部116から固定側転流部119に移行し難く、可動側走行部118と固定側走行部116との間に滞留しやすくなる。 Therefore, the arc A1 does not easily move from the fixed-side traveling unit 116 to the fixed-side commutation unit 119, and tends to stay between the movable-side traveling unit 118 and the fixed-side traveling unit 116.
 図9は、遮断器200におけるアーク電圧及びアーク電流の時間推移を示す。アークA1の滞留により、アークの発生初期(3msec~4msec)において、アーク電圧Va2の上昇が妨げられるため、アーク電流Ia2のアーク電流制限性能が低下する。すなわち、アーク電流Ia2においてピークに達してから減少する電流値ΔIa2が不足することがある。 FIG. 9 shows the time transition of arc voltage and arc current in the circuit breaker 200. The retention of the arc A1 prevents the increase of the arc voltage Va2 in the initial generation of the arc (3 msec to 4 msec), so that the arc current limiting performance of the arc current Ia2 is reduced. That is, the current value ΔIa2 that decreases after reaching the peak in the arc current Ia2 may be insufficient.
 一方で、高いアーク電流制限性能を必要としない遮断器では、リブ123を必要としない場合もある。 On the other hand, in a circuit breaker that does not require high arc current limiting performance, the rib 123 may not be required.
 以下、本発明の一態様にかかる遮断器を、図面を参照しながら説明する。なお、以下に説明する実施の形態は、いずれも好ましい一具体例を示すものである。実施の形態における構成要素のうち、本発明の最上位概念を示す独立請求項に記載されていない構成要素については、任意の構成要素として説明される。したがって、以下の実施形態で示される数値、形状、材料、構成要素、構成要素の配置位置及び接続形態、工程、工程の順などは、一例であって本開示を限定するものではない。 Hereinafter, a circuit breaker according to an aspect of the present invention will be described with reference to the drawings. Note that each of the embodiments described below shows a preferred specific example. Among the constituent elements in the embodiment, constituent elements that are not described in the independent claims indicating the highest concept of the present invention are described as optional constituent elements. Accordingly, numerical values, shapes, materials, components, arrangement positions and connection forms of components, steps, order of steps, and the like shown in the following embodiments are merely examples, and do not limit the present disclosure.
 また、各図は模式図であり、必ずしも厳密に図示されたものではない。各図において、実質的に同じの構造については同じの符号を付しており、重複する説明は省略または簡略化する。 Each figure is a schematic diagram and is not necessarily shown strictly. In each figure, substantially the same structure is denoted by the same reference numeral, and redundant description is omitted or simplified.
 (実施の形態1)
 以下、本発明の実施の形態1に係る遮断器100を図1から図4を参照して説明する。図1は、遮断器100の内部側面図である。
(Embodiment 1)
Hereinafter, the circuit breaker 100 according to Embodiment 1 of the present invention will be described with reference to FIGS. 1 to 4. FIG. 1 is an internal side view of the circuit breaker 100.
 図2Aは、遮断器100におけるリブブロック23の斜視図である。図2Bは、遮断器100において、リブブロック23を取り外した状態を示す内部側面図である。図3Aは、遮断器100におけるアークが固定側走行部16と可動側走行部18との間に移行した状態を示す図である。図3Bは、遮断器100におけるアークが固定側転流部19と可動側走行部18との間に移行した状態を示す図である。図4は、遮断器100におけるアーク電流及びアーク電圧の時間推移を示す説明図である。なお、図1、図2B,図3A、図3Bはいずれも、固定接点13と可動接点15とが離れた状態である。 FIG. 2A is a perspective view of the rib block 23 in the circuit breaker 100. FIG. 2B is an internal side view showing the circuit breaker 100 with the rib block 23 removed. FIG. 3A is a diagram illustrating a state in which the arc in the circuit breaker 100 has shifted between the fixed side traveling unit 16 and the movable side traveling unit 18. FIG. 3B is a diagram illustrating a state in which the arc in the circuit breaker 100 has shifted between the fixed-side commutation unit 19 and the movable-side traveling unit 18. FIG. 4 is an explanatory diagram showing the time transition of the arc current and arc voltage in the circuit breaker 100. 1, 2 </ b> B, 3 </ b> A, and 3 </ b> B are states in which the fixed contact 13 and the movable contact 15 are separated from each other.
 遮断器100は、固定接点13を有する固定端子12と、固定接点13に対して開閉動作により接離するための可動接点15を有する可動端子14とを有している。固定接点13と可動接点15とは対向して配置されている。固定端子12はケース11に固定され、可動端子14は、ケース11に対して回動するに適して、ケース11に支持されている。固定端子12及び可動端子14はともに板状に加工した金属で構成されている。 The circuit breaker 100 has a fixed terminal 12 having a fixed contact 13 and a movable terminal 14 having a movable contact 15 for making contact with and separating from the fixed contact 13 by an opening / closing operation. The fixed contact 13 and the movable contact 15 are arranged to face each other. The fixed terminal 12 is fixed to the case 11, and the movable terminal 14 is supported by the case 11 so as to rotate with respect to the case 11. Both the fixed terminal 12 and the movable terminal 14 are made of metal processed into a plate shape.
 固定端子12及び可動端子14は商用電源からの配線に介在される。可動端子14が回動することによって、固定接点13と可動接点15とが離されると、商用電源からの電路が遮断される。 The fixed terminal 12 and the movable terminal 14 are interposed in the wiring from the commercial power source. If the fixed contact 13 and the movable contact 15 are separated by the rotation of the movable terminal 14, the electric path from the commercial power source is interrupted.
 遮断器100において、固定側走行部16が、可動端子14から遠ざかる方向に湾曲して、固定端子12から延び出ている。固定接点13を有する固定端子12及び固定側走行部16は、金属板材であって、一体形成されており、電気的に接続されている。 In the circuit breaker 100, the fixed-side traveling unit 16 is curved in a direction away from the movable terminal 14 and extends from the fixed terminal 12. The fixed terminal 12 having the fixed contact 13 and the fixed side traveling portion 16 are metal plate materials, are integrally formed, and are electrically connected.
 遮断器100は、さらに消アーク部を有している。消アーク部は、グリッド17と、可動側走行部18と、固定側転流部19と、二つの側板22とを含む。グリッド17は、隙間17bを介して複数の鉄板17aを積層することにより形成されている。可動側走行部18は、グリッド17の積層方向の一端側に配置されている。固定側走行部16は、グリッド17の積層方向の他端側に配置されている。二つの側板22は、固定側走行部16と可動側走行部18との空間を挟んで配置されている。グリッド17と、可動側走行部18及び固定側転流部19との間にそれぞれ隙間がある。 The circuit breaker 100 further has a extinguishing arc part. The arc extinguishing part includes a grid 17, a movable side traveling part 18, a fixed side commutation part 19, and two side plates 22. The grid 17 is formed by laminating a plurality of iron plates 17a via gaps 17b. The movable side traveling unit 18 is disposed on one end side of the grid 17 in the stacking direction. The fixed side traveling unit 16 is disposed on the other end side of the grid 17 in the stacking direction. The two side plates 22 are arranged with a space between the fixed side traveling unit 16 and the movable side traveling unit 18 interposed therebetween. There are gaps between the grid 17 and the movable side traveling part 18 and the fixed side commutation part 19.
 可動側走行部18は可動端子14と電気的に接続されている。固定側転流部19は、固定端子12と電気的に接続されている。グリッド17は、可動側走行部18と固定側転流部19との間に配置されている。固定側走行部16の先端部16aは、グリッド17と対向する位置に配置されている。固定側転流部19は、固定側走行部16よりも可動側走行部18から離れた位置に配置されている。可動側走行部18及び固定側転流部19はともに板状に加工した金属で構成されている。 The movable side traveling unit 18 is electrically connected to the movable terminal 14. The fixed commutation part 19 is electrically connected to the fixed terminal 12. The grid 17 is disposed between the movable side traveling unit 18 and the fixed side commutation unit 19. The distal end portion 16 a of the fixed side traveling portion 16 is disposed at a position facing the grid 17. The fixed-side commutation unit 19 is disposed at a position farther from the movable-side traveling unit 18 than the fixed-side traveling unit 16. Both the movable side traveling part 18 and the fixed side commutation part 19 are made of metal processed into a plate shape.
 遮断器100は、固定側走行部16と可動側走行部18との間にできる空間30を挟む二つの側板22を有している。空間30に、二つのリブブロック23が配置されている。また、固定側走行部16と一体形成される固定端子12も二つの側板22の間に挟まれている。図1には、一方の側板22とリブブロック23が描かれており、他方の側板(図示せず)とリブブロック(図示せず)は、紙面の手前に配置されている。二つのリブブロック23の各々は、紙面に対して面対称の形状を有している。側板22は合成樹脂で形成されており、同じ合成樹脂で形成されるケース11と一体形成されている。側板22にはリブブロック23が着脱するに適して取付けられている。本実施の形態においては、側板22に、リブブロック23を着脱するための凹部31が形成されている。凹部31にリブブロック23が嵌合されている。リブブロック23を側板22に取付ける構成は、これ以外であってもよい。例えば、リブブロック23と側板22とを、ねじ止めしてもよい。 The circuit breaker 100 has two side plates 22 that sandwich a space 30 formed between the fixed side traveling unit 16 and the movable side traveling unit 18. Two rib blocks 23 are arranged in the space 30. Further, the fixed terminal 12 formed integrally with the fixed-side traveling unit 16 is also sandwiched between the two side plates 22. In FIG. 1, one side plate 22 and a rib block 23 are drawn, and the other side plate (not shown) and the rib block (not shown) are arranged in front of the page. Each of the two rib blocks 23 has a shape symmetrical with respect to the paper surface. The side plate 22 is formed of a synthetic resin, and is integrally formed with the case 11 formed of the same synthetic resin. A rib block 23 is attached to the side plate 22 so as to be attached and detached. In the present embodiment, the side plate 22 is formed with a recess 31 for attaching and detaching the rib block 23. The rib block 23 is fitted in the recess 31. The structure which attaches the rib block 23 to the side plate 22 may be other than this. For example, the rib block 23 and the side plate 22 may be screwed.
 リブブロック23には、固定接点13からグリッド17に向かって延びる複数のリブ23a~23dが形成されている。複数のリブ23a~23dにおいて、固定走行部16から最も近いリブ23aは、固定側転流部19に向かって延びており、可動側走行部18から最も近いリブ23dは、グリッド17の中間部17Mと可動側走行部18の間に向かって延びている。二つのリブブロック23の各々は、複数のリブ23a~23d同士を対向させて空間30に配置されている。二つのリブブロック23において、互いに対向して配置されるリブ23a~23dは接していない。すなわち、対向するリブ23a~23dの各々の間には隙間がある。リブブロック23は、合成樹脂で形成されている。リブブロック23に用いる合成樹脂は、側板22に用いる合成樹脂であっても良い。 The rib block 23 has a plurality of ribs 23 a to 23 d extending from the fixed contact 13 toward the grid 17. Among the plurality of ribs 23a to 23d, the rib 23a closest to the fixed traveling portion 16 extends toward the fixed-side commutation portion 19, and the rib 23d closest to the movable-side traveling portion 18 is the intermediate portion 17M of the grid 17. And extending between the movable side traveling unit 18. Each of the two rib blocks 23 is disposed in the space 30 with the plurality of ribs 23a to 23d facing each other. In the two rib blocks 23, the ribs 23a to 23d arranged to face each other are not in contact with each other. That is, there is a gap between each of the opposing ribs 23a to 23d. The rib block 23 is made of a synthetic resin. The synthetic resin used for the rib block 23 may be a synthetic resin used for the side plate 22.
 遮断器100において、固定接点13と可動接点15とが離された時にアークが発生する。アークに起因して発生する高温ガスは、図3Aに示すように高温ガス流F1~F3となって、リブ23a~23dによって、固定接点13及び可動接点15からグリッド17に向けて導かれる。グリッド17に到達した高温ガスは、グリッド17を構成する鉄板17aの隙間17bに流れ込み、鉄板17aに沿って流れ、排気口29から外部に放出される。 In the circuit breaker 100, an arc is generated when the fixed contact 13 and the movable contact 15 are separated. As shown in FIG. 3A, the high-temperature gas generated due to the arc becomes high-temperature gas flows F1 to F3 and is guided from the fixed contact 13 and the movable contact 15 toward the grid 17 by the ribs 23a to 23d. The high-temperature gas that has reached the grid 17 flows into the gap 17b of the iron plate 17a constituting the grid 17, flows along the iron plate 17a, and is discharged to the outside from the exhaust port 29.
 図2Aに示すように、リブ23a~23dは、固定端子12及び固定側走行部16を取り囲むように湾曲して形成されている。リブ23a~23dの一方の端部をリブ基端部23a1~23d1とし、同じく他方の端部をリブ先端部23a2~23d2とする。リブ基端部23a1~23d1は互いに等間隔で配置されている。リブ23a~23dは、リブ基端部23a1~23d1からリブ先端部23a2~23d2に向かって、隣り合うリブ23a~23dの間隔が徐々に広がるように形成されている。すなわち、固定接点13に近いリブ端部であるリブ基端部23a1~23d1における間隔よりもグリッド17に近いリブ端部であるリブ先端部23a2~23d2における間隔の方が広い。 As shown in FIG. 2A, the ribs 23a to 23d are formed to be curved so as to surround the fixed terminal 12 and the fixed-side running portion 16. One end of each of the ribs 23a to 23d is referred to as a rib base end 23a1 to 23d1, and the other end is also referred to as a rib tip 23a2 to 23d2. The rib base end portions 23a1 to 23d1 are arranged at equal intervals. The ribs 23a to 23d are formed so that the interval between the adjacent ribs 23a to 23d gradually increases from the rib base end portions 23a1 to 23d1 toward the rib distal end portions 23a2 to 23d2. That is, the interval at the rib tip end portions 23a2 to 23d2 that is the rib end portion close to the grid 17 is wider than the interval at the rib base end portions 23a1 to 23d1 that are the rib end portions close to the fixed contact 13.
 固定側走行部16から最も近いリブ23aは、固定側転流部19に向かって延びている。すなわち、リブ23aは、グリッド17において固定側転流部19から最も近い鉄板17aに向かって延びている。 The rib 23 a closest to the fixed side running part 16 extends toward the fixed side commutation part 19. That is, the rib 23 a extends from the fixed-side commutation portion 19 toward the nearest iron plate 17 a in the grid 17.
 リブ23aの隣りにあるリブ23bは、グリッド17の中間部17Mより固定側転流部19に近い鉄板17aに向かって延びている。また、リブ23bの隣りにあるリブ23cは、グリッド17の中間部17Mにある鉄板17aに向かって延びている。リブ23cの隣りにあるリブ23dはグリッド17の中間部17Mより可動側走行部18に近い鉄板17aに向かって延びている。従って、リブ先端部23a2~23d2は、固定側転流部19から可動側走行部18に向かって、順次向きを変えて形成されている。 The rib 23b adjacent to the rib 23a extends from the intermediate portion 17M of the grid 17 toward the iron plate 17a close to the fixed-side commutation portion 19. Further, the rib 23 c adjacent to the rib 23 b extends toward the iron plate 17 a in the intermediate portion 17 </ b> M of the grid 17. The rib 23d adjacent to the rib 23c extends from the intermediate portion 17M of the grid 17 toward the iron plate 17a closer to the movable side traveling portion 18. Accordingly, the rib tip portions 23a2 to 23d2 are formed in such a manner that the direction thereof is sequentially changed from the fixed-side commutation portion 19 toward the movable-side traveling portion 18.
 この構成により、リブ23a~23dのうち隣り合う2つのリブの各々の間からグリッド17に向かって流れる高温ガス流F1~F3は、グリッド17全体に渡り偏りなく流れ込む。 With this configuration, the high-temperature gas flows F1 to F3 flowing toward the grid 17 from between two adjacent ribs among the ribs 23a to 23d flow evenly over the entire grid 17.
 次に、遮断器100の作用を説明する。 Next, the operation of the circuit breaker 100 will be described.
 遮断器100では、可動端子14が回動されることにより、可動接点15が固定接点13から引き離されると、遮断器100に介在される電路が遮断される。 In the circuit breaker 100, when the movable contact 14 is rotated and the movable contact 15 is pulled away from the fixed contact 13, the electric circuit interposed in the circuit breaker 100 is interrupted.
 すると、固定接点13と可動接点15との間にアークが発生する。固定接点13及び可動接点15から着脱したアークは、図3Aに示すように、グリッド17に誘導されて、固定側走行部16と可動側走行部18との間に移行して、アークA1となる。 Then, an arc is generated between the fixed contact 13 and the movable contact 15. As shown in FIG. 3A, the arc attached / detached from the fixed contact 13 and the movable contact 15 is guided to the grid 17 and moves between the fixed traveling unit 16 and the movable traveling unit 18 to become an arc A1. .
 このとき、リブ23a~23dで案内される高温ガス流F1~F3により、アークA1の固定側走行部16に近い端部A1aは固定側転流部19に移行し、アークA1の可動側走行部18に近い端部A1bはグリッド17の下方に移行することにより、図3Bに示すようにアークA2になる。 At this time, due to the high-temperature gas flows F1 to F3 guided by the ribs 23a to 23d, the end A1a close to the fixed-side running portion 16 of the arc A1 shifts to the fixed-side commutating portion 19, and the movable-side running portion of the arc A1. As shown in FIG. 3B, the end A1b close to 18 moves below the grid 17 to become an arc A2.
 図4に示すように、グリッド17と高温ガスの冷却作用によりアーク電圧Va1の上昇が促進されて、アーク電流Ia1が抑制される。この結果、アーク電流Ia1においてピーク値に達してから所定の時間後に減少する電流値ΔIa1は、図9に示す電流値ΔIa2より大きくなる。その結果、遮断器100のアーク電流制限性能が向上する。すなわち、遮断器100において、アークを確実に消滅させることができる。 As shown in FIG. 4, the increase of the arc voltage Va1 is promoted by the cooling action of the grid 17 and the high-temperature gas, and the arc current Ia1 is suppressed. As a result, the current value ΔIa1 that decreases after a predetermined time from reaching the peak value in the arc current Ia1 becomes larger than the current value ΔIa2 shown in FIG. As a result, the arc current limiting performance of the circuit breaker 100 is improved. That is, in the circuit breaker 100, the arc can be reliably extinguished.
 遮断器100では、次に示す効果を得ることができる。 In the circuit breaker 100, the following effects can be obtained.
 (1)遮断器100は、リブブロック23を凹部31に嵌合した状態で、固定接点13と可動接点15とが離されたとき、リブ23a~23dの作用により、アークを固定側転流部19と可動側走行部18との間に移行させることができる。その結果、グリッド17の作用により、アーク電圧の上昇を促進し、遮断器100のアーク電流制限性能を向上させることができる。 (1) When the fixed contact 13 and the movable contact 15 are separated with the rib block 23 fitted in the recess 31, the circuit breaker 100 causes the arc to be fixed to the fixed-side commutation portion by the action of the ribs 23a to 23d. 19 and the movable side traveling part 18 can be shifted. As a result, an increase in arc voltage can be promoted by the action of the grid 17 and the arc current limiting performance of the circuit breaker 100 can be improved.
 (2)アーク電流制限性能を確保する必要がない場合には、リブブロック23を組み付けない状態で使用することができる。従って、リブブロック23を組み付けるか否かを選択することにより、アーク電流制限性能の異なる2種類の遮断器を構成することができる。 (2) When it is not necessary to ensure the arc current limiting performance, the rib block 23 can be used without being assembled. Therefore, by selecting whether or not the rib block 23 is assembled, two types of circuit breakers having different arc current limiting performance can be configured.
 (3)そのため、部品を共用化し、コストを低減することができる。 (3) Therefore, parts can be shared and costs can be reduced.
 (実施の形態2)
 本発明の実施の形態2に係る遮断器に含まれるリブブロック24を図5を参照して説明する。リブブロック24は、複数のリブ24a~24dの固定接点に近い端部(基端部)にリブ連結部241を有する。その他の構成は、リブブロック23と同様である。それゆえ、実施の形態1に係る遮断器100において、リブブロック23の代わりにリブブロック24を取り付けることができる。
(Embodiment 2)
The rib block 24 included in the circuit breaker according to Embodiment 2 of the present invention will be described with reference to FIG. The rib block 24 has a rib connecting portion 241 at an end portion (base end portion) near the fixed contact of the plurality of ribs 24a to 24d. Other configurations are the same as those of the rib block 23. Therefore, in the circuit breaker 100 according to the first embodiment, the rib block 24 can be attached instead of the rib block 23.
 リブ連結部241は、隣り合うリブ24a~24dの基端部24a1~24d1において、それぞれを連結している。この構成により、図5に示すように、X方向の反りはリブ24a~24dで防止されるとともに,Y方向の反りはリブ連結部241で防止される。 The rib connecting portion 241 connects the base end portions 24a1 to 24d1 of the adjacent ribs 24a to 24d. With this configuration, as shown in FIG. 5, warping in the X direction is prevented by the ribs 24a to 24d, and warping in the Y direction is prevented by the rib connecting portion 241.
 従って、実施の形態2では、実施の形態1で得られる効果に加えて、アークの発熱によりリブブロック24が反るのを防止することができる。 Therefore, in the second embodiment, in addition to the effects obtained in the first embodiment, the rib block 24 can be prevented from warping due to the heat generated by the arc.
 (実施の形態3)
 本発明の実施の形態3に係る遮断器に含まれるリブブロック25を図6を参照して説明する。リブブロック25は、リブ25aを含む複数のリブが形成された第一面251と第一面251と背向する第二面252とを有し、第二面252の周囲に鍔部253を有する。すなわち、第二面252は鍔部253により囲まれている。その他の構成は、リブブロック23あるいはリブブロック24と同様である。それゆえ、実施の形態1に係る遮断器100において、リブブロック23の代わりにリブブロック25を取り付けることができる。
(Embodiment 3)
A rib block 25 included in a circuit breaker according to Embodiment 3 of the present invention will be described with reference to FIG. The rib block 25 has a first surface 251 on which a plurality of ribs including ribs 25 a are formed, a first surface 251, and a second surface 252 facing away from the first surface 251, and has a flange 253 around the second surface 252. . That is, the second surface 252 is surrounded by the flange portion 253. Other configurations are the same as those of the rib block 23 or the rib block 24. Therefore, in the circuit breaker 100 according to the first embodiment, the rib block 25 can be attached instead of the rib block 23.
 鍔部253の高さは、第二面252に対し一定である。すなわち、鍔部253の内側にリブ凹部254が形成されている。 The height of the flange 253 is constant with respect to the second surface 252. That is, a rib recess 254 is formed inside the flange 253.
 この構成により、実施の形態2と同様に、リブブロック25の反りを防止することができる。 This configuration can prevent the rib block 25 from warping as in the second embodiment.
 また、リブブロック25において、リブ凹部254に鉄板等の磁性板27が収容されいてもよい。すなわち、磁性板27をリブ凹部254に収容したリブブロック25が凹部30に嵌合されていてもよい。この構成により、アークをリブブロック25の表面を介して固定側走行部16の先端部16aと可動側走行部18との間に確実に移動させることができる。 Further, in the rib block 25, a magnetic plate 27 such as an iron plate may be accommodated in the rib recess 254. That is, the rib block 25 in which the magnetic plate 27 is accommodated in the rib recess 254 may be fitted into the recess 30. With this configuration, the arc can be reliably moved between the distal end portion 16 a of the fixed side traveling unit 16 and the movable side traveling unit 18 via the surface of the rib block 25.
 また、本実施の形態の遮断器では、リブブロック25に磁性板27を取着けた仕様と取外した仕様を選択することが可能である。すなわち異なる仕様の遮断器において部品を共用化することが可能となる。 Further, in the circuit breaker of the present embodiment, it is possible to select a specification in which the magnetic plate 27 is attached to the rib block 25 and a specification in which the magnetic plate 27 is removed. That is, it becomes possible to share components in circuit breakers with different specifications.
 以上、実施の形態1から3は、以下のように変形してもよい。 As described above, the first to third embodiments may be modified as follows.
 実施の形態2のリブブロック24に実施の形態3のリブブロック25に設けた鍔部253を設けてもよい。 The rib block 253 provided in the rib block 25 of the third embodiment may be provided in the rib block 24 of the second embodiment.
12 固定端子
13 固定接点
14 可動端子
15 可動接点
16 固定側走行部
17 グリッド
17M 中間部
18 可動側走行部
19 固定側転流部
22 側板
23,24,25 リブブロック
23a~23d,24a~24d,25a~253d リブ
241 リブ連結部
253 鍔部
254 リブ凹部
27 磁性板
12 fixed terminal 13 fixed contact 14 movable terminal 15 movable contact 16 fixed side traveling part 17 grid 17M intermediate part 18 movable side traveling part 19 fixed side commutation part 22 side plates 23, 24, 25 rib blocks 23a-23d, 24a-24d, 25a to 253d Rib 241 Rib connecting portion 253 Gutter 254 Rib recess 27 Magnetic plate

Claims (6)

  1.  固定接点を有する固定端子と、
     前記固定接点に対して開閉動作により接離するための可動接点を有する可動端子と、
     前記可動端子と電気的に接続された可動側走行部と、
     前記固定端子と電気的に接続された固定側転流部と、
     前記可動側走行部と前記固定側転流部との間に配置されるグリッドと、
     前記固定接点から前記グリッドに向かって延びる複数のリブが各々に形成され、互いに前記複数のリブを対向させて配置された二つのリブブロックと、
     前記二つのリブブロックを挟む二つの側板と、を備え、
     前記二つの側板の各々に、前記二つのリブブロックの各ひとつが、着脱可能に取付けられている、
     遮断器。
    A fixed terminal having a fixed contact;
    A movable terminal having a movable contact for making contact with and separating from the fixed contact by an opening and closing operation;
    A movable side traveling unit electrically connected to the movable terminal;
    A fixed-side commutation portion electrically connected to the fixed terminal;
    A grid disposed between the movable side traveling part and the fixed side commutation part;
    A plurality of ribs extending from the fixed contact toward the grid, and two rib blocks arranged with the plurality of ribs facing each other;
    Two side plates sandwiching the two rib blocks, and
    Each one of the two rib blocks is detachably attached to each of the two side plates.
    Circuit breaker.
  2.  前記二つのリブブロックの各々は、前記複数のリブの前記固定接点に近い端部にリブ連結部を有する
     請求項1に記載の遮断器。
    The circuit breaker according to claim 1, wherein each of the two rib blocks has a rib connecting portion at an end portion of the plurality of ribs close to the fixed contact.
  3.  前記二つのリブブロックの各々は、前記複数のリブを形成された第一面と前記第一面と背向する第二面とを有し、前記第二面の周縁部に鍔部を有する
     請求項1または2に記載の遮断器。
    Each of the two rib blocks has a first surface on which the plurality of ribs are formed and a second surface facing away from the first surface, and has a flange on a peripheral portion of the second surface. Item 3. The circuit breaker according to item 1 or 2.
  4.  前記二つのリブブロックの各々は、前記鍔部の内側に着脱可能な磁性板を有する
     請求項3に記載の遮断器。
    The circuit breaker according to claim 3, wherein each of the two rib blocks has a magnetic plate that can be attached to and detached from the inside of the flange.
  5.  前記二つのリブブロック各々の前記複数のリブにおいて、前記固定走行部から最も近い前記リブは、前記固定側転流部に向かって延びており、前記可動側走行部から最も近い前記リブは、前記グリッドの中間部と前記可動側走行部の間に向かって延びている
     請求項1から4のいずれか一項に記載の遮断器。
    In the plurality of ribs of each of the two rib blocks, the rib closest to the fixed traveling portion extends toward the fixed-side commutation portion, and the rib closest to the movable-side traveling portion is The circuit breaker as described in any one of Claim 1 to 4 extended toward between the intermediate part of a grid, and the said movable side traveling part.
  6.  前記二つのリブブロックの各々の前記複数のリブにおいて隣り合うリブでは、前記固定接点に近い端部における間隔よりも前記グリッドに近い端部における間隔の方が広い
     請求項1から5のいずれか一項に記載の遮断器。
    The rib adjacent to each other in the plurality of ribs of each of the two rib blocks has a wider interval at the end near the grid than at the end near the fixed contact. Breaker according to item.
PCT/JP2015/000819 2014-03-31 2015-02-20 Circuit breaker WO2015151394A1 (en)

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5669744A (en) * 1979-11-09 1981-06-11 Matsushita Electric Works Ltd Device for extinguishing wiring breaker
JPS57143234A (en) * 1981-02-27 1982-09-04 Matsushita Electric Works Ltd Arc extinguishing device

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4090968B2 (en) * 2003-09-02 2008-05-28 三菱電機株式会社 Circuit breaker
DE102011118968B3 (en) * 2011-11-19 2013-01-31 Abb Ag Installation switching device with pre-chamber space and guide ribs
CN202443933U (en) * 2012-02-27 2012-09-19 温州市新蓝天电器有限公司 Direct current circuit breaker with permanent magnet arc blowing system

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5669744A (en) * 1979-11-09 1981-06-11 Matsushita Electric Works Ltd Device for extinguishing wiring breaker
JPS57143234A (en) * 1981-02-27 1982-09-04 Matsushita Electric Works Ltd Arc extinguishing device

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