EP0025375A1 - Circuit breaker with magnetic blow-out means and rotating arc - Google Patents

Circuit breaker with magnetic blow-out means and rotating arc Download PDF

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Publication number
EP0025375A1
EP0025375A1 EP80401181A EP80401181A EP0025375A1 EP 0025375 A1 EP0025375 A1 EP 0025375A1 EP 80401181 A EP80401181 A EP 80401181A EP 80401181 A EP80401181 A EP 80401181A EP 0025375 A1 EP0025375 A1 EP 0025375A1
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EP
European Patent Office
Prior art keywords
coil
arc
electrode
contact
contacts
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Granted
Application number
EP80401181A
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German (de)
French (fr)
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EP0025375B1 (en
Inventor
Olivier Bouilliez
Denis Raphard
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Merlin Gerin SA
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Merlin Gerin SA
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Publication of EP0025375A1 publication Critical patent/EP0025375A1/en
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Publication of EP0025375B1 publication Critical patent/EP0025375B1/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H33/00High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
    • H01H33/02Details
    • H01H33/04Means for extinguishing or preventing arc between current-carrying parts
    • H01H33/18Means for extinguishing or preventing arc between current-carrying parts using blow-out magnet

Definitions

  • Rotary arc switches are known, in particular from French patent No. 2,339,244 by the applicant, which have the advantage over self-blowing switches of not requiring significant efforts to control opening.
  • the commercial success of these switches has confirmed the validity of this technique and the present invention relates to improvements allowing an increase in performance, in particular the breaking capacity of these switches.
  • the object of the present invention is to remedy these drawbacks.
  • the switch according to the present invention is characterized in that said front face of the core is a free face separated from said electrode joined by a free space opposing the migration of the arc from the electrode joined towards the core and that said core is electrically connected to said adjoining electrode so as to keep the coil in circuit in the event of arcing on the core.
  • tie rods which pass through orifices formed in the stack constituting the coil.
  • These tie rods are secured at one of their ends to the annular electrode applied against the front face of the coil. They are mechanically and electrically connected by their opposite ends to the support of the ferromagnetic core and they belong to the electrical connection between the annular electrode and the core to bring the latter to the same potential. Insulating sleeves surround the rods as the coil passes.
  • a phase-shifting ring of large section is interposed between the annular electrode and the end face of the coil to maintain a magnetic blowing field at the time of the zero current crossing, sufficient to maintain the rotation of the 'arc and facilitate its extinction.
  • the main contacts are arranged at outside the arcing contacts and also have an annular arc rotation track arranged in the zone of action of the magnetic field of the coil.
  • the main contacts open before the arcing contacts by switching on the blowing coil, which causes the appearance of a switching arc, which is subjected to the blowing magnetic field imposing a rapid rotation on the tracks rings of the main contacts. After switching the current and separation of the arcing contacts the field generated by the coil causes the rotation of the arcing roots drawn between the arcing contacts.
  • a cylinder head externally surrounds the blowing coil, so as to increase the magnetic blowing field in the zone of formation and extinction of the arc.
  • the combined action of the inner core and the outer cylinder head provides a sufficient blowing field even during a low current cut.
  • the intensity of the currents induced in the phase shift ring is also increased, which favors the breaking of the current.
  • the offset opening of the arcing contacts and the main contacts is achieved by semi-fixed mounting of the arcing contact on a main contact in the form of a cup.
  • the electrical connection between the arcing contact and the main contact in the form of a bowl is made by one or more braids extending over a portion of the internal periphery of the main contact in bowl which acts hoop, limiting the deformation of the braid under the loop effect during a passage of a large current.
  • a switch comprises an elongated waterproof insulating envelope 10 filled with sulfur hexafluoride under pressure, for example a few bars. Inside the casing 10 are housed a set 12 of fixed contacts and a set of movable contacts 14 mounted for axial sliding and controlled by an oscillating arm 15 secured to a control mechanism (not shown in fig. 1 ), but can be of the type described in the aforementioned French patent? 2,339,244, to which reference will advantageously be made for further details.
  • the movable contact assembly 14 comprises a movable main contact 16 in the form of a cup, the annular end 18 of which faces the fixed contact assembly 12 is arranged in the migration path of an arc root.
  • the bowl 16 is fixed at its base to a sliding control rod 20 secured by a slide 22 to the control arm 15. Inside the bowl contact 16 is semi-fixed an arcing contact 24 having an annular electrode 26 forming an annular arc migration track.
  • the arcing contact 24 is biased in the stop position against a collar 28 in the direction of the set of fixed contacts 12 by a spring 30. In the stop position the contact track 26 of the arcing contact 24 is substantially at that of the movable main contact 16.
  • the set of fixed contacts 12 is secured to the bottom 32 of the insulating envelope 10 by a bracket 34 having a fixing plate 36, which has a central orifice for the passage of a ferromagnetic core 38 and orifices distributed over a circumference surrounding the core 38.
  • the set of fixed contacts 12 essentially comprises a fixed arcing contact 42 in the form of an annular track capable of cooperating by abutment with the movable arcing contact 24 of the same configuration, a tubular blowing coil 44 and a fixed main contact 46 having an annular contact face capable of cooperating by abutment with the main movable contact 16.
  • a yoke 48 made of ferromagnetic material, which matches the shape of the contact main 46 by laterally surrounding the coil 44.
  • the end face 50 of the core 38 is substantially at the level of the fixed arcing contact 42, the ends of the main fixed contact 46 and of the yoke 48 being slightly set back relative to the arcing contact 42. It is easy to see that the yoke 48 and the core 38, which passes through it, constitute a magnetic sheathing circuit of the tubular coil 44 having a gap in the contact area between arcing contacts 24 and 42.
  • the coil 44 is not replaced by a stack, described in detail below with reference to FIGS. 2 and 3, crossed by the clamping rods or tie rods 40.
  • the latter are fixed by one of their ends to the annular track 42, for example by welding and successively pass through orifices formed in a phase shift ring 52, in the coil 44, in the cylinder head 48, in the main contact 46, in the stirrup 34 and in a plate 54 for supporting the core 38.
  • Nuts 56 screwed onto the threaded ends of tie rods 40 hold the constituent parts of the fixed contact assembly 12 together.
  • the phase shift ring 52 of large section covers almost all of the front face of the coil 44 against which it is applied by being inserted between this face frontal and the annular track 42.
  • the outer edge 58 of the phase shift ring 52 is chamfered to limit the risks of arcing on the adjacent main contact 46.
  • the tie rods 40 and the support plate 54 are electrically isolated from the coil 44, from the fixed main contact 46 and from the stirrup 34 by insulating sleeves 60 with flange 62 threaded on the tie rods 40.
  • the insulating casing 10 has at its upper part a connection bushing 64 electrically connected to the stirrup 34 and at its lower part a bushing 66 electrically connected by a flexible conductor 68 to the set of movable contacts 14. Braids 70, described below, electrically connect the movable arcing contact 24 to the movable main contact 16.
  • the core 38 mechanically and electrically secured by the plate 54 and the tie rods 40 to the annular track 42, is at the same potential of the latter and in the event of arcing on the end face 50 of the core 38 the current borrows a circuit constituted by the core 38, the plate 54, the tie rods 40, the contact track 42 and the coil 44, now the latter excited. Any initiation of the arc on the core 38 keeps the blowing in rotation of the arc favoring its extinction.
  • the chamfer 58 of the phase shift ring 52 prevents any migration of the arc to the main contact 46 and any ignition thereon.
  • the coil 44 generates both a blowing field of the switching arc drawn between the main contacts 16, 46 and of the cutting arc drawn between the annular tracks 26, 42.
  • FIG. 2 which show the coil 44
  • the annular track 42 the phase shift ring 52 and the tie rods 40, on which are insulated alternately insulating spacers 72 and split conductive discs 74
  • the spacers 72 and the split discs 74 have holes for the passage of the tie rods 40 and they are placed so as to angularly offset the slots 76 of the successive conductive discs 74.
  • the coil 44 is crossed by six tie rods 40 distributed regularly and each conductive disc 74 is angularly offset by a sixth of a turn, in this case 60 ° relative to the adjacent disc 74.
  • each insulating insert 72 is inserted a metal washer 78 capable of ensuring a contact bridge between the adjacent conductive discs 74.
  • the washers 78 of the successive inserts are offset by the same angle as the offset of the slots 76, a washer 78 being always framed by the slots 76 of the two adjacent conductive discs 74. It can be seen that in the assembled and compressed position of the discs 74 and spacers 72 the current flows from a disc 74 to the next disc by the washers 78 forming a contact bridge, this current describing a propeller the successive turns of which are each constituted by one of the conductive discs 74.
  • the coil 44 may include any number of discs 74 and spacers 72.
  • the washers 78 and in particular the washer interposed between the last disc 74 and the ring phase shift 52 may have a certain elasticity, imparted by their Belleville type structure.
  • the elasticity of the Belleville washers 78 makes it possible to compensate for thermal expansions, in particular the elongation of the tie rods 40 and avoids any interruption in the electrical continuity between the successive discs 74.
  • the production of such a coil is particularly simple and the tie rods 40 effectively oppose the repulsion forces which are exerted between the turns and the phase shift ring 52 when the coil 44 is traversed by an intense current, in particular a short circuit.
  • Fig. 4 illustrates the mode of electrical connection between the movable arcing contact 24 and the movable main contact 16 in the form of a bowl.
  • the connection braids in the example shown in fig. 4, the pair of braids 70, are on the one hand fixed by one of their ends to the internal wall of the bowl 16, for example by screws 80, the opposite end being fixed to a finger 82 carried by the movable contact 24.
  • the braids 70 extend along the periphery of the cup 16 with sufficient clearance for the relative movement of the movable arcing contact 24. It is easy to see that the braids 70 come to be applied under the effect loop against the internal wall of the main contact 16, when they are traversed by a current, the contact 16 limiting the deformation of these braids 70.
  • the contact 16 constitutes a hoop preventing any excessive deformation.
  • the switch disconnection assembly according to the invention is particularly simple and its manufacturing and mounting cost is low.
  • the addition of main contacts ensures reliable electrical contact.

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  • Arc-Extinguishing Devices That Are Switches (AREA)

Abstract

1. Switch with magnetic blow-out in arc rotation comprising : - a pair of separable contacts (24, 42) each having a ring-shaped electrode forming a rotation track of the root of an arc drawn when said contacts are separated, - a tubular coil (44) coaxial to said electrodes and having a terminal side (52) coupled to one of said ring-shaped electrodes on the opposite side of said track, said coil (44) being electrically connected on the one hand to one of the switch terminals (64, 66), and on the other hand to the coupled electrode so as to be electrically supplied in series of an arc tied on the coupled electrode and to generate a radial magnetic field in the extension zone of said arc. - a conducting ferromagnetic core (38) coaxially extending inside the coil (44) to intensify the magnetic field of the arc blow-out, the front side (50) of the core (38) being adjacent and separated from said coupled electrode by a free gap, characterized in that said core (38) is electrically connected to said coupled electrode.

Description

L'invention est relative à un interrupteur à soufflage magnétique en rotation de l'arc comprenant :

  • - une paire de contacts séparables ayant chacun une électrode annulaire formant une piste de rotation de la racine d'un arc tiré lors de la séparation desdits contacts,
  • - une bobine tubulaire coaxiale auxdites électrodes et ayant une face terminale accolée à l'une desdites électrodes annulaires du côté opposé à ladite piste, ladite bobine étant reliée électriquement d'une part à l'une des bornes de l'interrupteur et d'autre part à l'électrcde accolée, de manière à être alimentée électriquement en série d'un arc ancré sur l'électrode accolée et engendrer un champ magnétique radial dans la zone d'extension dudit arc,
  • - un noyau ferromagnétique conducteur s'étendant coaxialement à l'intérieur de la bobine et présentant une face frontale voisine de ladite électrode accolée pour renforcer le champ magnétique de soufflage de l'arc.
The invention relates to a magnetic blow switch in rotation of the arc comprising:
  • a pair of separable contacts each having an annular electrode forming a track of rotation of the root of an arc drawn during the separation of said contacts,
  • a tubular coil coaxial with said electrodes and having a terminal face attached to one of said annular electrodes on the side opposite to said track, said coil being electrically connected on the one hand to one of the terminals of the switch and on the other goes to the adjoining electrode, so as to be electrically supplied in series with an arc anchored on the adjoining electrode and generate a radial magnetic field in the extension zone of said arc,
  • - A conductive ferromagnetic core extending coaxially inside the coil and having a front face close to said adjoining electrode to strengthen the magnetic field of the arc blowing.

On connaît des interrupteurs à arc tournant, notamment par le brevet français N° 2.339.244 de la demanderesse, qui présentent l'avantage sur les interrupteurs à autosoufflage de ne pas nécessiter des efforts importants de commande d'ouverture. Le succès commercial de ces interrupteurs a confirmé la validité de cette technique et la présente invention concerne des perfectionnements permettant un accroissement des performances, notamment du pouvoir de coupure de ces interrupteurs.Rotary arc switches are known, in particular from French patent No. 2,339,244 by the applicant, which have the advantage over self-blowing switches of not requiring significant efforts to control opening. The commercial success of these switches has confirmed the validity of this technique and the present invention relates to improvements allowing an increase in performance, in particular the breaking capacity of these switches.

Il est également connu (brevet britannique N° 479.097) de renforcer le champ magnétique de soufflage en rotation de l'arc par un noyau ferromagnétique inséré dans la bobine de soufflage. Pour assurer le bon fonctionnement de l'interrupteur il est essentiel de guider le déplacement de l'arc pour le maintenir dans la zone de soufflage magnétique optimale, l'arc étant sensiblement perpendiculaire au champ de soufflage. Pour ce faire l'arc doit être maintenu sur une piste, relativement étroite, de migration de la racine d'arc en regard et accolée à la face terminale de la bobine. L'interrupteur décrit dans le brevet britannique précité N° 479.097 comporte une piste large en forme de disque coiffant la bobine et le noyau et l'arc peut migrer vers la zone centrale à soufflage réduit. Le noyau est connecté en série de la bobine en permanence ce qui diminue l'intensité du courant dans la bobine.It is also known (British Patent No. 479,097) to strengthen the magnetic blowing field in rotation of the arc by a ferromagnetic core inserted in the blowing coil. To ensure the proper functioning of the switch it is essential to guide the movement of the arc to maintain it in the optimal magnetic blowing zone, the arc being substantially perpendicular to the blowing field. To do this the arc must be maintained on a relatively narrow track for migration of the opposite arc root and attached to the end face of the coil. The switch described in the aforementioned British patent No. 479.097 has a wide disc-shaped track covering the coil and the core and the arc can migrate towards the central zone with reduced blow. The core is permanently connected in series with the coil which decreases the intensity of the current in the coil.

Pour éviter un amorçage de l'arc sur le noyau voisin de l'électrode annulaire, il a été proposé de coiffer ce noyau par un capuchon isolant (brevet US N° 2.439.952). La présence d'un matériau isolant dans la zone d'arc est néfaste à la désionisation.To avoid striking the arc on the neighboring nucleus of the annular electrode, it has been proposed to cover this nucleus with an insulating cap (US Patent No. 2,439,952). The presence of an insulating material in the arc zone is detrimental to deionization.

La présente invention a pour but de remédier à ces inconvénients.The object of the present invention is to remedy these drawbacks.

L'interrupteur selon la présente invention est caractérisé par le fait que ladite face frontale du noyau est une face libre séparée de ladite électrode accolée par un espace libre s'opposant à la migration de l'arc de l'électrode accolée vers le noyau et que ledit noyau est connecté électriquement à ladite électrode accolée de manière à maintenir en circuit la bobine en cas d'amorçage de l'arc sur le noyau.The switch according to the present invention is characterized in that said front face of the core is a free face separated from said electrode joined by a free space opposing the migration of the arc from the electrode joined towards the core and that said core is electrically connected to said adjoining electrode so as to keep the coil in circuit in the event of arcing on the core.

La présence d'un noyau ferromagnétique, formant une culasse, permet un accroissement du champ magnétique de soufflage de l'arc tiré entre les contacts et une rotation accélérée des racines de l'arc évitant toute érosion des pistes de contact. Le noyau est espacé et au potentiel de la piste d'arc évitant une migration et un ancrage de l'arc sur le noyau. En cas d'amorçage sur ce noyau le soufflage magnétique par la bobine est maintenu, permettant une coupure de l'arc. La bobine de soufflage est connectée directement en série avec les contacts d'arc et elle est parcourue par le courant de défaut, notamment de court-circuit. Les efforts électrodynamiques s'exerçant sur les spires successives sont dans ce cas fort importants et peuvent provoquer l'éclatement de la bobine. Selon un développement de la présente invention, la bobine comporte :

  • - un empilage de disques conducteurs annulaires fendus, formant chacun une spire de la bobine et d'intercalaires isolants, assurant l'isolation électrique entre les disques successifs, les fentes des disques successifs étant décalées angulairement en hélice,
  • - des ponts de contact insérés entre les disques successifs en étant encadrés par les fentes des disques adjacents, et
  • - des moyens de serrage dudit empilage pour assurer par pression le contact électrique entre les disques et lesdits ponts de contact.
The presence of a ferromagnetic core, forming a yoke, allows an increase in the magnetic blowing field of the arc drawn between the contacts and an accelerated rotation of the roots of the arc avoiding any erosion of the contact tracks. The core is spaced and at the potential of the arc track avoiding migration and anchoring of the arc on the core. In the event of ignition on this core, the magnetic blowing by the coil is maintained, allowing the arc to be cut. The blowing coil is connected directly in series with the arcing contacts and it is traversed by the fault current, in particular short-circuit. The efforts In this case, the electrodynamics acting on successive turns are very important and can cause the coil to burst. According to a development of the present invention, the coil comprises:
  • a stack of split annular conductive discs, each forming a turn of the coil and of insulating spacers, ensuring electrical insulation between the successive discs, the slots of the successive discs being angularly offset helically,
  • contact bridges inserted between the successive discs, being framed by the slots of the adjacent discs, and
  • - Clamping means of said stack to ensure by pressure the electrical contact between the discs and said contact bridges.

L'effort de répulsion entre les disques et l'électrode d'arc est repris par des tirants en forme de tige, qui traversent des orifices ménagés dans l'empilage constitutif de la bobine. Ces tirants sont solidarisés à l'une de leurs extrémités à l'électrode annulaire appliquée contre la face frontale de la bobine. Ils sont reliés mécaniquement et électriquement par leurs extrémités opposées au support du noyau ferromagnétique et ils appartiennent à la liaison électrique entre l'électrode annulaire et le noyau pour porter ces derniers au même potentiel. Des fourreaux isolants entourent les tiges au passage de la bobine.The repulsion force between the discs and the arc electrode is taken up by rod-shaped tie rods, which pass through orifices formed in the stack constituting the coil. These tie rods are secured at one of their ends to the annular electrode applied against the front face of the coil. They are mechanically and electrically connected by their opposite ends to the support of the ferromagnetic core and they belong to the electrical connection between the annular electrode and the core to bring the latter to the same potential. Insulating sleeves surround the rods as the coil passes.

Selon un autre perfectionnement, un anneau de déphasage de section importante est intercalé entre l'électrode annulaire et la face terminale de la bobine pour conserver un champ magnétique de soufflage au moment du passage au zéro du courant,suffisant, pour maintenir la rotation de l'arc et faciliter son extinction.According to another improvement, a phase-shifting ring of large section is interposed between the annular electrode and the end face of the coil to maintain a magnetic blowing field at the time of the zero current crossing, sufficient to maintain the rotation of the 'arc and facilitate its extinction.

Dans les interrupteurs de calibre important il est avantageux de prévoir des contacts principaux de shuntage des contacts d'arc, et selon un perfectionnement de la pré- sentc invention, les contacts principaux sont disposés à l'extérieur des contacts d'arc et présentent également une piste annulaire de rotation de l'arc disposée dans la zone d'action du champ magnétique de la bobine. En position de fermeture de l'interrupteur, la quasi-totalité du courant passe par les contacts principaux qui shuntent la bobine de soufflage. Les contacts principaux s'ouvrent avant les contacts d'arc en mettant en circuit la bobine de soufflage, ce qui cause l'apparition d'un arc de commutation, lequel est soumis au champ magnétique de soufflage lui imposant une rotation rapide sur les pistes annulaires des contacts principaux. Après commutation du courant et séparation des contacts d'arc le champ engendré par la bobine provoque la rotation des racines d'arc tiré entre les contacts d'arc.In switches of large size it is advantageous to provide main contacts for shunting the arcing contacts, and according to an improvement of the present invention, the main contacts are arranged at outside the arcing contacts and also have an annular arc rotation track arranged in the zone of action of the magnetic field of the coil. In the closed position of the switch, almost all of the current flows through the main contacts which bypass the blow coil. The main contacts open before the arcing contacts by switching on the blowing coil, which causes the appearance of a switching arc, which is subjected to the blowing magnetic field imposing a rapid rotation on the tracks rings of the main contacts. After switching the current and separation of the arcing contacts the field generated by the coil causes the rotation of the arcing roots drawn between the arcing contacts.

Selon un autre développement de l'invention, une culasse entoure extérieurement la bobine de soufflage, de manière à accroître le champ magnétique de soufflage dans la zone de formation et d'extinction de l'arc. L'action combinée du noyau interne et de la culasse externe permet d'obtenir un champ de soufflage suffisant même lors d'une coupure de faible courant. L'intensité des courants induits dans l'anneau de déphasage est également augmentée ce qui favorise la coupure du courant.According to another development of the invention, a cylinder head externally surrounds the blowing coil, so as to increase the magnetic blowing field in the zone of formation and extinction of the arc. The combined action of the inner core and the outer cylinder head provides a sufficient blowing field even during a low current cut. The intensity of the currents induced in the phase shift ring is also increased, which favors the breaking of the current.

L'ouverture décalée des contacts d'arc et des contacts principaux est réalisée par un montage semi-fixe du contact d'arc sur un contact principal en forme de cuvette. Selon un perfectionnement de la présente invention, la connexion électrique entre le contact d'arc et le contact principal en forme de cuvette est réalisée par une ou plusieurs tresses s'étendant sur une portion de la périphérie interne du contact principal en cuvette qui fait office de frette, limitant la déformation de la tresse sous l'effet de boucle lors d'un passage d'un courant important.The offset opening of the arcing contacts and the main contacts is achieved by semi-fixed mounting of the arcing contact on a main contact in the form of a cup. According to an improvement of the present invention, the electrical connection between the arcing contact and the main contact in the form of a bowl is made by one or more braids extending over a portion of the internal periphery of the main contact in bowl which acts hoop, limiting the deformation of the braid under the loop effect during a passage of a large current.

La combinaison de ces perfectionnements et développements permet la réalisation d'un interrupteur de calibre élevé susceptible de performances accrues.The combination of these improvements and developments allows the production of a high-caliber switch capable of increased performance.

D'autres avantages et caractéristiques de l'invention ressortiront plus clairement de la description qui va suivre d'un mode de mise en oeuvre de l'invention, donné à titre d'exemple et représenté aux dessins annexés, dans lesquels:

  • la figure 1 est une vue schématique en coupe axiale partiellement arrachée d'un pôle d'un interrupteur selon la présente invention, la vue de gauche représentant l'interrupteur en position fermée et la vue de droite représentant l'interrupteur en position ouverte;
  • la figure 2 est une vue éclatée en perspective de l'empilage constitutif de la bobine de soufflage selon la fig. 1;
  • la figure 3 est une coupe suivant la ligne III-III de la fig. 1.
Other advantages and characteristics of the invention will emerge more clearly from the description which follows of an embodiment of the invention, given by way of example and shown in the appended drawings, in which:
  • Figure 1 is a schematic view in axial section partially cut away of a pole of a switch according to the present invention, the left view representing the switch in the closed position and the right view representing the switch in the open position;
  • Figure 2 is an exploded perspective view of the stack constituting the blowing coil according to FIG. 1;
  • Figure 3 is a section along line III-III of FIG. 1.

Sur les figures, un interrupteur comporte une enveloppe isolante étanche allongée 10 remplie d'hexafluorure de soufre sous pression, par exemple de quelques bars. A l'intérieur de l'enveloppe 10 sont logés un ensemble 12 de contacts fixes et un ensemble de contacts mobiles 14 monté à coulissement axial et commandé par un bras oscillant 15 solidaire d'un mécanisme de commande (non représenté sur la fig. 1), mais pouvant être du type décrit dans le brevet français précité ? 2.339.244, auquel on se reportera avantageusement pour de plus amples détails.In the figures, a switch comprises an elongated waterproof insulating envelope 10 filled with sulfur hexafluoride under pressure, for example a few bars. Inside the casing 10 are housed a set 12 of fixed contacts and a set of movable contacts 14 mounted for axial sliding and controlled by an oscillating arm 15 secured to a control mechanism (not shown in fig. 1 ), but can be of the type described in the aforementioned French patent? 2,339,244, to which reference will advantageously be made for further details.

L'ensemble de contacts mobiles 14 comporte un contact principal mobile 16 en forme de cuvette, dont l'extrémité annulaire 18 faisant face à l'ensemble de contacts fixes 12 est agencée en piste de migration d'une racine d'arc. La cuvette 16 est assujettie à sa base à une tige coulissante de commande 20 solidarisée par un coulisseau 22 au bras de commande 15. A l'intérieur du contact en cuvette 16 est monté semi-fixe un contact d'arc 24 ayant une électrode annulaire 26 formant une piste annulaire de migration d'arc. Le contact d'arc 24 est sollicité en position de butée contre un collet 28 en direction de l'ensemble de contacts fixes 12 par un ressort 30. En position de butée la piste de contact 26 du contact d'arc 24 est sensiblement au niveau de celle 18 du contact principal mobile 16.The movable contact assembly 14 comprises a movable main contact 16 in the form of a cup, the annular end 18 of which faces the fixed contact assembly 12 is arranged in the migration path of an arc root. The bowl 16 is fixed at its base to a sliding control rod 20 secured by a slide 22 to the control arm 15. Inside the bowl contact 16 is semi-fixed an arcing contact 24 having an annular electrode 26 forming an annular arc migration track. The arcing contact 24 is biased in the stop position against a collar 28 in the direction of the set of fixed contacts 12 by a spring 30. In the stop position the contact track 26 of the arcing contact 24 is substantially at that of the movable main contact 16.

L'ensemble de contacts fixes 12 est solidarisé au fond 32 de l'enveloppe isolante 10 par un étrier 34 ayant une plaque de fixation 36, qui présente un orifice central de passage d'un noyau ferromagnétique 38 et des orifices répartis sur une circonférence entourant le noyau 38. L'ensemble de contacts fixes 12 comporte essentiellement un contact d'arc fixe 42 en forme de piste annulaire susceptible de coopérer par aboutement avec le contact d'arc mobile 24 de même configuration, une bobine de soufflage tubulaire 44 et un contact principal fixe 46 présentant une face annulaire de contact susceptible de coopérer par aboutement avec le contact mobile principal 16. A l'intérieur du contact fixe principal 46 en forme de coupelle est disposée une culasse 48 en matériau ferromagnétique, qui épouse la forme du contact principal 46 en entourant latéralement la bobine 44. La face terminale 50 du noyau 38 est sensiblement au niveau du contact d'arc fixe 42, les extrémités du contact fixe principal 46 et de la culasse 48 étant légèrement en retrait par rapport au contact d'arc 42. Il est facile de voir que la culasse 48 et le noyau 38, qui la traverse, constituent un circuit magnétique de gainage de la bobine tubulaire 44 présentant un entrefer dans la zone de contact entre les contacts d'arc 24 et 42.The set of fixed contacts 12 is secured to the bottom 32 of the insulating envelope 10 by a bracket 34 having a fixing plate 36, which has a central orifice for the passage of a ferromagnetic core 38 and orifices distributed over a circumference surrounding the core 38. The set of fixed contacts 12 essentially comprises a fixed arcing contact 42 in the form of an annular track capable of cooperating by abutment with the movable arcing contact 24 of the same configuration, a tubular blowing coil 44 and a fixed main contact 46 having an annular contact face capable of cooperating by abutment with the main movable contact 16. Inside the main fixed contact 46 in the form of a cup is disposed a yoke 48 made of ferromagnetic material, which matches the shape of the contact main 46 by laterally surrounding the coil 44. The end face 50 of the core 38 is substantially at the level of the fixed arcing contact 42, the ends of the main fixed contact 46 and of the yoke 48 being slightly set back relative to the arcing contact 42. It is easy to see that the yoke 48 and the core 38, which passes through it, constitute a magnetic sheathing circuit of the tubular coil 44 having a gap in the contact area between arcing contacts 24 and 42.

La bobine 44 est nonstituée par un empilage, décrit en détail ci-dessous en référence aux figures 2 et 3, traversé par les tiges de serrage ou tirants 40. Ces derniers sont fixés par une de leurs extrémités à la piste annulaire 42, par exemple par soudage et traversent successivement des orifices ménagés dans un anneau de déphasage 52, dans la bobine 44, dans la culasse 48, dans le contact principal 46, dans l'étrier 34 et dans une plaque 54 de support du noyau 38. Des écrous 56 vissés sur les extrémités filetées des tirants 40 maintiennent-assemblées les pièces constitutives de l'ensemble de contacts fixes 12. L'anneau de déphasage 52 de grande section recouvre la quasi-totalité de la face frontale de la bobine 44 contre laquelle il est appliqué en étant inséré entre cette face frontale et la piste annulaire 42. Le bord externe 58 de l'anneau de déphasage 52 est chanfreiné pour limiter les risques d'amorçage de l'arc sur le contact principal 46 adjacent. Les tirants 40 et la plaque de support 54 sont isolés électriquement de la bobine 44, du contact principal fixe 46 et de l'étrier 34 par des fourreaux isolants 60 à collerette 62 enfilés sur les tirants 40.The coil 44 is not replaced by a stack, described in detail below with reference to FIGS. 2 and 3, crossed by the clamping rods or tie rods 40. The latter are fixed by one of their ends to the annular track 42, for example by welding and successively pass through orifices formed in a phase shift ring 52, in the coil 44, in the cylinder head 48, in the main contact 46, in the stirrup 34 and in a plate 54 for supporting the core 38. Nuts 56 screwed onto the threaded ends of tie rods 40 hold the constituent parts of the fixed contact assembly 12 together. The phase shift ring 52 of large section covers almost all of the front face of the coil 44 against which it is applied by being inserted between this face frontal and the annular track 42. The outer edge 58 of the phase shift ring 52 is chamfered to limit the risks of arcing on the adjacent main contact 46. The tie rods 40 and the support plate 54 are electrically isolated from the coil 44, from the fixed main contact 46 and from the stirrup 34 by insulating sleeves 60 with flange 62 threaded on the tie rods 40.

L'enveloppe isolante 10 présente à sa partie supérieure une traversée de connexion 64 reliée électriquement à l'étrier 34 et à sa partie inférieure une traversée 66 reliée électriquement par un conducteur souple 68 à l'ensemble de contacts mobiles 14. Des tresses 70, décrites ci-dessous, relient électriquement le contact d'arc mobile 24 au contact principal mobile 16.The insulating casing 10 has at its upper part a connection bushing 64 electrically connected to the stirrup 34 and at its lower part a bushing 66 electrically connected by a flexible conductor 68 to the set of movable contacts 14. Braids 70, described below, electrically connect the movable arcing contact 24 to the movable main contact 16.

L'interrupteur selon l'invention fonctionne de la manière suivante :

  • En position fermée, représentée sur la demi-vue de gauche de la fig. 1, l'ensemble de contacts mobiles 14 est maintenu au contact de l'ensemble de contacts fixes 12, les pistes annulaires d'arc 26, 42 étant aboutées ainsi que les contacts principaux 16, 46. Le courant entrant par exemple par la traversée 64 parcourt l'étrier 34, le contact principal 46, pressé par les tirants 40 contre l'étrier 34, le contact principal 16, le conducteur souple 68 et la traversée 66. Parallèlement, aux contacts principaux 46, 16, le courant peut parcourir un circuit dérivé constitué par la bobine 44, l'anneau de déphasage 52, le contact mobile d'arc 42, le contact semi-fixe d'arc 24, les tresses 70 pour aboutir au contact principal 16. L'impédance de ce circuit dérivé étant notablement supérieure à celle du circuit principal, la quasi-totalité du courant parcourt ce dernier circuit principal en fonctionnement normal. L'ouverture de l'interrupteur est commandée par un dispositif de déclenchement usuel ne faisant pas partie de la présente invention et pouvant être du type décrit dans le brevet français précité N° 2.339.244. Le pivotement du bras de commande 16 vers le bas sur la fig. 1 provoque le coulissement de la tige 20 qui entraîne dans son déplacement l'ensemble 14 des contacts mobiles. En une première phase les contacts principaux 16, 46 se séparent en tirant un arc de commuta-. tion, les contacts d'arc 24, 42 restant temporairement en aboutement sous l'action du ressort 30. La séparation des contacts principaux 16, 46 provoque la commutation du courant dans le circuit dérivé à travers la bobine 44,'qui engendre un champ magnétique de soufflage. Le champ magnétique radial engendré par la bobine 44 dans la zone de séparation des contacts principaux 16, 46 provoque une rotation de l'arc de commutation facilitant son extinction. Dans une deuxième phase d'ouverture de l'interrupteur le contact d'arc mobile 24 vient en butée du collet 28 et est entraîné vers le bas, de manière à séparer les pistes annulaires 26, 42 en tirant un arc entre ces dernières (demi-vue de droite de la fig. 1). L'arc tiré entre les pistes 26, 42 s'étend dans l'entrefer ménagé entre la culasse 48 et le noyau 38 et est soumis à un champ de soufflage particulièrement intense qui provoque une rotation rapide sur les pistes annulaires 26, 42. L'anneau de déphasage 52, disposé dans cet entrefer et à proximité immédiatede la piste 42, entretient ce champ magnétique au passaqe au zéro dit courant pour favoriser l'extinction de l'arc à cet instant. Dès l'interruption du courant, la bobine 44 n'est plus alimentée.
The switch according to the invention operates as follows:
  • In the closed position, shown in the left half-view of FIG. 1, the set of movable contacts 14 is kept in contact with the set of fixed contacts 12, the annular arcing tracks 26, 42 being abutted as well as the main contacts 16, 46. The current entering for example through the crossing 64 runs through the stirrup 34, the main contact 46, pressed by the tie rods 40 against the stirrup 34, the main contact 16, the flexible conductor 68 and the bushing 66. At the same time, at the main contacts 46, 16, the current can flow a branch circuit consisting of the coil 44, the phase shift ring 52, the movable arcing contact 42, the semi-fixed arcing contact 24, the braids 70 to lead to the main contact 16. The impedance of this circuit derivative being significantly greater than that of main circuit, almost all of the current flows through the latter main circuit in normal operation. The opening of the switch is controlled by a usual tripping device which is not part of the present invention and which can be of the type described in the aforementioned French patent No. 2,339,244. The pivoting of the control arm 16 downwards in FIG. 1 causes the rod 20 to slide, which causes all of the movable contacts to move in its displacement. In a first phase the main contacts 16, 46 separate by drawing a switching arc. tion, the arcing contacts 24, 42 temporarily remaining abutting under the action of the spring 30. The separation of the main contacts 16, 46 causes the switching of the current in the branch circuit through the coil 44, 'which generates a field magnetic blowing. The radial magnetic field generated by the coil 44 in the separation zone of the main contacts 16, 46 causes a rotation of the switching arc facilitating its extinction. In a second phase of opening the switch, the movable arcing contact 24 abuts the collar 28 and is driven downwards, so as to separate the annular tracks 26, 42 by drawing an arc between them (half - right view of fig. 1). The arc drawn between the tracks 26, 42 extends in the air gap formed between the cylinder head 48 and the core 38 and is subjected to a particularly intense blowing field which causes rapid rotation on the annular tracks 26, 42. L 'phase shift ring 52, disposed in this air gap and in the immediate vicinity of track 42, maintains this magnetic field at passaqe at zero known as current to promote the extinction of the arc at this time. Upon interruption of the current, the coil 44 is no longer supplied.

Le noyau 38, solidarisé mécaniquement et électriquement par la plaque 54 et les tirants 40 à la piste annulaire 42, est au même potentiel de cette dernière et en cas d'amorçage de l'arc sur la face terminale 50 du noyau 38 le courant emprunte un circuit constitué par le noyau 38, la plaque 54, les tirants 40, la piste de contact 42 et la bobine 44, maintenant cette dernière excitée. Tout amorçage de l'arc sur le noyau 38 maintient le soufflage en rotation de l'arc favorisant son extinction. Le chanfrein 58 de l'anneau de déphasage 52 empêche toute migration de l'arc vers le contact principal 46 et tout amorçage sur ce dernier. La bobine 44 engendre à la fois un champ de soufflage de l'arc de commutation tiré entre les contacts principaux 16, 46 et de l'arc de coupure tiré entre les pistes annulaires 26, 42.The core 38, mechanically and electrically secured by the plate 54 and the tie rods 40 to the annular track 42, is at the same potential of the latter and in the event of arcing on the end face 50 of the core 38 the current borrows a circuit constituted by the core 38, the plate 54, the tie rods 40, the contact track 42 and the coil 44, now the latter excited. Any initiation of the arc on the core 38 keeps the blowing in rotation of the arc favoring its extinction. The chamfer 58 of the phase shift ring 52 prevents any migration of the arc to the main contact 46 and any ignition thereon. The coil 44 generates both a blowing field of the switching arc drawn between the main contacts 16, 46 and of the cutting arc drawn between the annular tracks 26, 42.

La présence de fer, due au noyau 38, à l'intérieur de la bobine 44 augmente l'efficacité de cette dernière. La présence de la culasse 48 gainant extérieurement la bobine 44 accroît cette action et est particulièrement avantageuse lors de la coupure de faible courant.The presence of iron, due to the core 38, inside the coil 44 increases the efficiency of the latter. The presence of the cylinder head 48 externally sheathing the coil 44 increases this action and is particularly advantageous during the breaking of low current.

En se référant plus particulièrement aux figures 2 et 3, qui montrent la bobine 44, on reconnaît la piste annulaire 42, l'anneau de déphasage 52 et les tirants 40, sur lesquels sont empilés alternativement des intercalaires isolants 72 et des disques conducteurs fendus 74. Les intercalaires 72 et les disques fendus 74 présentent des orifices de passage des tirants 40 et ils sont mis en place de manière à décaler angulairement les fentes 76 des disques conducteurs successifs 74. Dans l'exemple représenté sur la fig. 2, la bobine 44 est traversée par six tirants 40 répartis régulièrement et chaque disque conducteur 74 est décalé angulairement d'un sixième de tour, en l'occurrence de 60° par rapport au disque 74 adjacent. Dans chaque intercalaire isolant 72 est insérée une rondelle métallique 78 susceptible d'assurer un pont de contact entre les disques conducteurs adjacents 74. Les rondelles 78 des intercalaires successifs sont décalées du même angle que le décalage des fentes 76, une rondelle 78 étant toujours encadrée par les fentes 76 des deux disques conducteurs adjacents 74. On voit qu'en position assemblée et comprimée des disques 74 et intercalaires 72 le courant passe d'un disque 74 vers le disque suivant par les rondelles 78 formant un pont de contact, ce courant décrivant une hélice dont les spires successives sont chacune constituée par l'un des disques conducteurs 74. La bobine 44 peut comporter un nombre quelconque de disques 74 et d'intercalaires 72. Les rondelles 78 et notamment la rondelle intercalée entre le dernier disque 74 et l'anneau de déphasage 52 peuvent présenter une certaine élasticité, conférée par leur structure du type Belleville. L'élasticité des rondelles Belleville 78 permet une compensation des dilatations thermiques, notamment de l'allongement des tirants 40 et évite toute interruption de la continuité électrique entre les disques successifs 74. La réalisation d'une telle bobine est particulièrement simple et les tirants 40 s'opposent efficacement aux forces de répulsion qui s'exercent entre les spires et l'anneau de déphasage 52 lorsque la bobine 44 est parcourue par un courant intense, notamment un court-circuit.Referring more particularly to Figures 2 and 3, which show the coil 44, we recognize the annular track 42, the phase shift ring 52 and the tie rods 40, on which are insulated alternately insulating spacers 72 and split conductive discs 74 The spacers 72 and the split discs 74 have holes for the passage of the tie rods 40 and they are placed so as to angularly offset the slots 76 of the successive conductive discs 74. In the example shown in FIG. 2, the coil 44 is crossed by six tie rods 40 distributed regularly and each conductive disc 74 is angularly offset by a sixth of a turn, in this case 60 ° relative to the adjacent disc 74. In each insulating insert 72 is inserted a metal washer 78 capable of ensuring a contact bridge between the adjacent conductive discs 74. The washers 78 of the successive inserts are offset by the same angle as the offset of the slots 76, a washer 78 being always framed by the slots 76 of the two adjacent conductive discs 74. It can be seen that in the assembled and compressed position of the discs 74 and spacers 72 the current flows from a disc 74 to the next disc by the washers 78 forming a contact bridge, this current describing a propeller the successive turns of which are each constituted by one of the conductive discs 74. The coil 44 may include any number of discs 74 and spacers 72. The washers 78 and in particular the washer interposed between the last disc 74 and the ring phase shift 52 may have a certain elasticity, imparted by their Belleville type structure. The elasticity of the Belleville washers 78 makes it possible to compensate for thermal expansions, in particular the elongation of the tie rods 40 and avoids any interruption in the electrical continuity between the successive discs 74. The production of such a coil is particularly simple and the tie rods 40 effectively oppose the repulsion forces which are exerted between the turns and the phase shift ring 52 when the coil 44 is traversed by an intense current, in particular a short circuit.

La fig. 4 illustre le mode de connexion électrique entre le contact d'arc mobile 24 et le contact principal mobile 16 en forme de cuvette. Les tresses de connexion, dans l'exemple représenté sur la fig. 4, la paire de tresses 70, sont d'une part fixées par l'une de leurs extrémités à la paroi interne de la cuvette 16, par exemple par des vis 80, l'extrémité opposée étant fixée à un doigt 82 porté par le contact mobile 24. Les tresses 70 s'étendent le long du pourtour de la cuvette 16 avec un jeu suffisant au mouvement relatif du contact mobile d'arc 24. Il est facile de voir que les tresses 70 viennent s'appliquer sous l'effet de boucle contre la paroi interne du contact principal 16, lorsqu'elles sont parcourues par un courant, le contact 16 limitant la déformation de ces tresses70. Le contact 16 constitue une frette empêchant toute déformation excessive.Fig. 4 illustrates the mode of electrical connection between the movable arcing contact 24 and the movable main contact 16 in the form of a bowl. The connection braids, in the example shown in fig. 4, the pair of braids 70, are on the one hand fixed by one of their ends to the internal wall of the bowl 16, for example by screws 80, the opposite end being fixed to a finger 82 carried by the movable contact 24. The braids 70 extend along the periphery of the cup 16 with sufficient clearance for the relative movement of the movable arcing contact 24. It is easy to see that the braids 70 come to be applied under the effect loop against the internal wall of the main contact 16, when they are traversed by a current, the contact 16 limiting the deformation of these braids 70. The contact 16 constitutes a hoop preventing any excessive deformation.

L'ensemble de coupure de l'interrupteur selon l'invention est particulièrement simple et son coût de fabrication et de montage est faible. L'adjonction de contacts principaux permet d'assurer un contact électrique fiable.The switch disconnection assembly according to the invention is particularly simple and its manufacturing and mounting cost is low. The addition of main contacts ensures reliable electrical contact.

Claims (11)

1. Interrupteur à soufflage magnétique en rotation de l'arc comprenant : - une paire de contacts séparables (24, 42) ayant chacun un électrode annulaire formant une piste de rotation de la racine d'un arc tiré lors de la séparation desdits contacts, - une bobine tubulaire (44) coaxiale auxdites électrodes (24, 42) et ayant une face terminale (50) accolée à l'une (42) desdites électrodes annulaires du côté opposé à ladite piste, ladite bobine (44) étant reliée électriquement d'une part à l'une (64) des bornes de l'interrupteur, et d'autre part à l'électrode accolée (24) de manière à être alimentée électriquement en série d'un arc ancré sur l'électrode acco lée (24) et engendrer un champ magnétique radial dans la zone d'extension dudit arc, - un noyau ferromagnétique (38) conducteur s'étendant coaxialement à l'intérieur de la bobine (44) et présentant une face frontale 60)voisine de ladite électrode accolée (42) pour renforcer le champ magnétique de soufflage de l'arc,
caractérisé par le fait que ladite face frontale (50) du noyau (38) est une face libre séparée de ladite électrode accolée (42) par un espace libre s'opposant à la migration de l'arc de l'électrode accolée vers le noyau et que ledit noyau (38) est connecté électriquement à ladite électrode accolée (42) de manière à maintenir en circuit la bobine (44) en cas d'amorçage de l'arc sur le noyau (38).1. Arc-blown magnetic blow switch comprising: - a pair of separable contacts (24, 42) each having an annular electrode forming a track of rotation of the root of an arc drawn during the separation of said contacts, - a tubular coil (44) coaxial with said electrodes (24, 42) and having an end face (50) attached to one (42) of said annular electrodes on the side opposite to said track, said coil (44) being electrically connected d on the one hand to one (64) of the terminals of the switch, and on the other hand to the adjoining electrode (24) so as to be electrically supplied in series with an arc anchored on the attached electrode ( 24) and generate a radial magnetic field in the area of extension of said arc, a conductive ferromagnetic core (38) extending coaxially inside the coil (44) and having a front face 60) adjacent to said contiguous electrode (42) to reinforce the magnetic field of the arc,
characterized by the fact that said front face (50) of the core (38) is a free face separated from said joined electrode (42) by a free space opposing the migration of the arc from the joined electrode towards the core and that said core (38) is electrically connected to said adjoining electrode (42) so as to keep the coil (44) in circuit in the event of arcing on the core (38). 2. Interrupteur selon la revendication 1, caractérisé par des tiges de support (40) de ladite électrode accolée (24) s'étendant parallèlement à l'axe de la bobine (44) et des moyens (54) de connexion électrique et mécanique des extrémités libres de ces tiges (40) et dudit noyau (38) opposées à la zone d'arc.2. Switch according to claim 1, characterized by support rods (40) of said adjoining electrode (24) extending parallel to the axis of the coil (44) and means (54) for electrical and mechanical connection of free ends of these rods (40) and of said core (38) opposite the arc zone. 3. Interrupteur à soufflage magnétique comprenant une paire de contacts séparables (24, 42), une électrode annulaire3. Magnetic blow switch comprising a pair of separable contacts (24, 42), an annular electrode (42) associée à l'un desdits contacts et une bobine tubulaire (44) disposée coaxialement et adjacente à ladite électrode annulaire (42), caractérisé par le fait que ladite bobine (44) comporte : - un empilage de disques conducteurs (74) annulaires fendus formant chacun une spire de la bobine et d'intercalaires isolants (72) assurant l'isolation électrique entre les disques successifs (74), les fentes (76) des disques (74) successifs étant décalées angulairement en hélice, - des ponts de contact (78) insérés entre les disques successifs (74) en étant encadrés par les fentes (76) des disques adjacents et - des moyens de serrage (40) dudit empilage pour assurer par pression le contact électrique entre les disques (74) et lesdits ponts de contact (78). (42) associated with one of said contacts and a tubular coil (44) arranged coaxially and adjacent to said annular electrode (42), characterized in that said coil (44) comprises: - A stack of split annular conductive discs (74) each forming a turn of the coil and insulating spacers (72) providing electrical insulation between the successive discs (74), the slots (76) of the successive discs (74) being angularly offset in a helix, contact bridges (78) inserted between the successive discs (74) being framed by the slots (76) of the adjacent discs and - Clamping means (40) of said stack for ensuring by pressure the electrical contact between the discs (74) and said contact bridges (78). 4. Interrupteur selon la revendication 3, caractérisé par des tiges de serrage (40) dudit empilage traversant des orifices alignés ménagés dans lesdits disques (74) et intercalaires (72) et répartis circonférentiellement et des ponts de contact (78) en forme de rondelles enfilées sur lesdites tiges.4. Switch according to claim 3, characterized by clamping rods (40) of said stack passing through aligned orifices provided in said discs (74) and spacers (72) and distributed circumferentially and contact bridges (78) in the form of washers strung on said rods. 5. Interrupteur selon la revendication 4, caractérisé en ce que lesdites rondelles de contact (78) comportent des rondelles dénommées Belleville présentant une élasticité de compensation des dilatations thermiques ou mécaniques et insérées dans un orifice de section correspondante de l'intercalaire (72).5. Switch according to claim 4, characterized in that said contact washers (78) comprise washers called Belleville having an elasticity of compensation for thermal or mechanical expansions and inserted in an orifice of corresponding section of the interlayer (72). 6. Interrupteur selon la revendication 1 et l'une quelconque des revendications 3 à 5, caractérisé par des tiges (40) dont l'une des extrémités est assujettie à une électrode annulaire (42) appliquée sur la face terminale de la bobine (44), lesdites tiges (40) traversant par des orifices ledit empilage et étant reliées par leur extrémité opposée audit noyau ferromagnétique (38), de manière à constituer des tiges de support de l'électrode (42) et de serrage de l'empilage constitutif de la bobine (44).6. Switch according to claim 1 and any one of claims 3 to 5, characterized by rods (40) one end of which is subject to an annular electrode (42) applied to the end face of the coil (44 ), said rods (40) passing through orifices in said stack and being connected by their opposite end to said ferromagnetic core (38), so as to constitute rods for supporting the electrode (42) and tightening of the stack constituting the coil (44). 7. Interrupteur selon la revendication 6, caractérisé par un anneau de déphasage (52) intercalé entre la face terminale de la bobine (44) et ladite électrode adjacente (42), le bord extérieur dudit anneau (52) présentant un chanfrein (581.7. Switch according to claim 6, characterized by a phase shift ring (52) interposed between the end face of the coil (44) and said adjacent electrode (42), the outer edge of said ring (52) having a chamfer (581. 8. Interrupteur selon l'une quelconque des revendications précédentes, caractérisé par le fait qu'une deuxième paire de contacts principaux annulaires (16, 46) se séparant avan lesdits contacts à électrode annulaire (24, 42) est disposée coaxialement et à l'extérieur desdites électrodes annulaires et de ladite bobine (44), de telle manière que l'arc de commutation tiré entre les contacts principaux (16, 46) soit soumis au soufflage magnétique engendré par la bobine (44).8. Switch according to any one of the preceding claims, characterized in that a second pair of annular main contacts (16, 46) separating before said annular electrode contacts (24, 42) is arranged coaxially and at the exterior of said annular electrodes and of said coil (44), so that the switching arc drawn between the main contacts (16, 46) is subjected to the magnetic blowing generated by the coil (44). 9. Interrupteur selon la revendication 8, caractérisé par le fait qu'une culasse magnétique (48) entoure extérieurement ladite bobine (44) en étant intercalée entre la bobine (44) et le contact principal associé (46), lesdites tiges (40) étant agencées pour fixer l'ensemble bobine (44), noyau (38), culasse (48) et contacts associés (42, 46) à une pièce de support (36).9. Switch according to claim 8, characterized in that a magnetic yoke (48) externally surrounds said coil (44) being interposed between the coil (44) and the associated main contact (46), said rods (40) being arranged to fix the coil (44), core (38), cylinder head (48) and associated contacts (42, 46) assembly to a support piece (36). 10. Interrupteur selon la revendication 8 ou 9, caractérisé par un contact principal (16) en forme de cuvette, un contact d'arc associé (24) à piste annulaire (26) monté semi-fixe à l'intérieur de ladite cuvette et un conducteur souple (70) en forme de tresse de connexion électrique du contact principal (16) et du contact d'arc (24) s'étendant le long d'une portion de la circonférence interne de ladite cuvette lui servant de frette.10. Switch according to claim 8 or 9, characterized by a main contact (16) in the form of a bowl, an associated arcing contact (24) with an annular track (26) mounted semi-fixed inside said bowl and a flexible conductor (70) in the form of an electrical connection braid for the main contact (16) and the arcing contact (24) extending along a portion of the internal circumference of said bowl serving as a hoop.
EP19800401181 1979-09-03 1980-08-12 Circuit breaker with magnetic blow-out means and rotating arc Expired EP0025375B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR7922151A FR2464550A1 (en) 1979-09-03 1979-09-03 MAGNETIC BLOW SWITCH IN ARC ROTATION
FR7922151 1979-09-03

Publications (2)

Publication Number Publication Date
EP0025375A1 true EP0025375A1 (en) 1981-03-18
EP0025375B1 EP0025375B1 (en) 1984-07-18

Family

ID=9229359

Family Applications (1)

Application Number Title Priority Date Filing Date
EP19800401181 Expired EP0025375B1 (en) 1979-09-03 1980-08-12 Circuit breaker with magnetic blow-out means and rotating arc

Country Status (5)

Country Link
EP (1) EP0025375B1 (en)
JP (1) JPS5636817A (en)
DE (1) DE3068593D1 (en)
DK (1) DK158425C (en)
FR (1) FR2464550A1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0075341A1 (en) * 1981-09-16 1983-03-30 BBC Aktiengesellschaft Brown, Boveri & Cie. Electric power circuit breaker

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH021919U (en) * 1988-06-17 1990-01-09

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB375309A (en) * 1931-03-18 1932-06-20 Electr & Allied Ind Res Ass Improvements relating to electric switches and circuit breakers
GB479097A (en) * 1936-07-29 1938-01-31 Ellison George Ltd Improvements relating to electric circuit breakers having arc-suppressing means
US2154515A (en) * 1936-05-29 1939-04-18 Westinghouse Electric & Mfg Co Circuit breaker
US2439952A (en) * 1944-08-31 1948-04-20 Westinghouse Electric Corp Circuit interrupter
CH298774A (en) * 1951-03-22 1954-05-15 Ceskoslovenske Z Tezkeho Stroj Electric switch.
DE2511238A1 (en) * 1974-03-14 1975-09-25 Fuji Electric Co Ltd Cct. breaker with annular contacts - has electromagnetic quenching coil generating magnetic field in quenching chamber
FR2285700A1 (en) * 1974-09-19 1976-04-16 Alsthom Cgee Dielectric gas filled electrical circuit breaker - has arc contacts of same dia surrounding main contacts
FR2414786A1 (en) * 1978-01-11 1979-08-10 Gould Inc ELECTRICAL SWITCH WITH MAGNETIC ARC BLOWING

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5921130B2 (en) * 1976-01-23 1984-05-17 日新電機株式会社 Gas cutter

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB375309A (en) * 1931-03-18 1932-06-20 Electr & Allied Ind Res Ass Improvements relating to electric switches and circuit breakers
US2154515A (en) * 1936-05-29 1939-04-18 Westinghouse Electric & Mfg Co Circuit breaker
GB479097A (en) * 1936-07-29 1938-01-31 Ellison George Ltd Improvements relating to electric circuit breakers having arc-suppressing means
US2439952A (en) * 1944-08-31 1948-04-20 Westinghouse Electric Corp Circuit interrupter
CH298774A (en) * 1951-03-22 1954-05-15 Ceskoslovenske Z Tezkeho Stroj Electric switch.
DE2511238A1 (en) * 1974-03-14 1975-09-25 Fuji Electric Co Ltd Cct. breaker with annular contacts - has electromagnetic quenching coil generating magnetic field in quenching chamber
FR2285700A1 (en) * 1974-09-19 1976-04-16 Alsthom Cgee Dielectric gas filled electrical circuit breaker - has arc contacts of same dia surrounding main contacts
FR2414786A1 (en) * 1978-01-11 1979-08-10 Gould Inc ELECTRICAL SWITCH WITH MAGNETIC ARC BLOWING

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0075341A1 (en) * 1981-09-16 1983-03-30 BBC Aktiengesellschaft Brown, Boveri & Cie. Electric power circuit breaker

Also Published As

Publication number Publication date
DK158425B (en) 1990-05-14
EP0025375B1 (en) 1984-07-18
DK373580A (en) 1981-03-04
JPS5636817A (en) 1981-04-10
DE3068593D1 (en) 1984-08-23
DK158425C (en) 1990-10-22
FR2464550B1 (en) 1982-02-05
FR2464550A1 (en) 1981-03-06

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