EP2915172B1 - Device for disconnecting an electrical supply line with a high-intensity current - Google Patents

Device for disconnecting an electrical supply line with a high-intensity current Download PDF

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Publication number
EP2915172B1
EP2915172B1 EP13801602.7A EP13801602A EP2915172B1 EP 2915172 B1 EP2915172 B1 EP 2915172B1 EP 13801602 A EP13801602 A EP 13801602A EP 2915172 B1 EP2915172 B1 EP 2915172B1
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EP
European Patent Office
Prior art keywords
contact
fixed
disconnecting
conductive element
current
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EP13801602.7A
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German (de)
French (fr)
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EP2915172A1 (en
Inventor
Michel Pillet
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AMC ETEC
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AMC ETEC
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H1/00Contacts
    • H01H1/12Contacts characterised by the manner in which co-operating contacts engage
    • H01H1/14Contacts characterised by the manner in which co-operating contacts engage by abutting
    • H01H1/20Bridging contacts
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H1/00Contacts
    • H01H1/02Contacts characterised by the material thereof
    • H01H1/021Composite material
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H1/00Contacts
    • H01H1/02Contacts characterised by the material thereof
    • H01H1/021Composite material
    • H01H1/023Composite material having a noble metal as the basic material
    • 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
    • H01H33/59Circuit arrangements not adapted to a particular application of the switch and not otherwise provided for, e.g. for ensuring operation of the switch at a predetermined point in the ac cycle
    • H01H33/596Circuit arrangements not adapted to a particular application of the switch and not otherwise provided for, e.g. for ensuring operation of the switch at a predetermined point in the ac cycle for interrupting dc
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H1/00Contacts
    • H01H1/50Means for increasing contact pressure, preventing vibration of contacts, holding contacts together after engagement, or biasing contacts to the open position
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R4/00Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
    • H01R4/28Clamped connections, spring connections

Definitions

  • the present invention relates to devices serving to prevent the power supply when necessary in installations using high intensity currents, and in particular relates to a device for disconnecting a high intensity current power supply line.
  • the cutting devices with knives are heavy and bulky, and since it is impossible to confine such a device in an enclosure, the device is not waterproof and therefore subject to rapid degradation by oxidation and deposition of dust.
  • disconnection devices comprising an enclosure containing fixed metal contacts on which a movable metal contact rests when an actuation mechanism is implemented.
  • this type of disconnecting device is suitable only for a determined current intensity. It is therefore necessary to use devices whose dimensions increase with the intensity of the current passing through them. But the biggest drawback is the difficulty in removing heat due to the Joule effect in the contact resistors of the device.
  • the document DE1239752B describes an electrical switching device in which the contact pieces are provided with additional tightening screws so as to improve the flow of current from one connection to the other. This is made possible by U-shaped switching parts. However, the device described in this document does not concern high intensity currents.
  • the main aim of the present invention is therefore to provide a disconnecting device for high intensity electrical power supplies which has maximum conductance.
  • Another object of the invention is to provide a sectioning device as mentioned above which comprises effective means for dissipating the heat produced by the Joule effect in the device.
  • Yet another object of the invention is to provide a sectioning device as mentioned above which is easily adaptable to the value of the intensity.
  • the module is characterized in that the power supply line provides a current with an intensity greater than 1000 A, at least one of the fixed contact elements or one of the movable contact elements has a silver pellet placed on the surface of the element making it possible to reduce the contact resistance between the movable contact element and the fixed contact element by half and at least one of the fixed contact elements comprises a lower layer of aluminum, an upper layer of copper comprising a silver coating and one layer foam intermediate consisting of a metal foam skeleton selected from the group consisting of iron, cobalt, nickel and their alloys covered with at least one coating of tin, indium or one of their alloys.
  • a second object of the invention is such a sectioning module used as a presentation model allowing the future user to know the temperature behavior of a desired sectioning device.
  • a third object of the invention is a disconnecting device composed of several disconnecting modules as defined above arranged in parallel so as to be able to adapt the device to the value of the intensity supplied by the electrical supply line.
  • the isolating device is essentially composed of one or more isolating modules. Each of the modules is adapted to allow the passage of a current of an intensity of approximately 3,000 A. Note that the current is mainly a direct current but that it could be an alternating current and that the intensity could be different.
  • the contact enclosure 10 of each disconnection module shown on the figure 1 preferably has a rectangular shape with a length of about 40 cm and a width of about 30 cm.
  • the enclosure 10 is composed of at least one contact bridge.
  • Each contact bridge comprises two fixed contact elements 12 and 14, preferably in aluminum, fixed by welding to 2 connection pads, preferably in aluminum, respectively the pads 16 and 18 which constitute the input and the output of the current. the enclosure respectively connected to the current input and output outside the enclosure as will be seen below.
  • Each contact bridge of the enclosure 10 comprises a movable contact element 20, preferably made of aluminum which is not in contact with the 2 fixed contact elements 12 and 14 when the sectioning has been operated for the course of a maintenance operation of the installation comprising the isolating device according to the invention.
  • An important characteristic of the invention is to obtain an isolating device which has the lowest possible resistance so as to obtain the smallest possible heat dissipation by Joule effect and therefore the smallest possible temperature rise.
  • a first means to obtain this result is to fix, preferably by high temperature brazing, silver pellets 32 and 34, for example of circular shape, on the contact surface of the movable contact element 20 which comes into contact with it. contact with the fixed contact elements 12 and 14.
  • the fixed and movable contact elements being made of aluminum, the contact resistance between the fixed contact element and the movable contact element would be relatively high. With the presence of the silver pellets 32 and 34 whose conductivity is high, this resistance is reduced by half or, in other words, the conductance is doubled.
  • the element 36 is brought into contact with the fixed contact elements 12 and 14 by means of rods 38 and 40 and springs 42 and 44 actuated by the same operating mechanism 26.
  • the element of movable contact 36 comprises silver pellets 46 and 48 to decrease the contact resistance with the fixed contact elements 12 and 14.
  • each of the fixed conductive elements 12 and 14 can be produced as illustrated in FIG. figure 2 .
  • the conductive fixed contact element 14 which is fixed to the connection pad 18, comprises a lower layer 50, an upper layer 52 and an intermediate layer 54.
  • the lower layer 50 is made of aluminum.
  • the upper layer 52 is interchangeable and is fixed to the lower layer by a bolt 56.
  • the upper layer 52 is preferably made of copper so as to deposit a coating of silver by electrolysis on its upper surface, which would not be possible. if this layer was aluminum like the bottom layer.
  • the electrical connection between the movable element 20 and the fixed element 14 is made by direct contact between the silver pad 34 and the silver coating of the upper layer 52, which makes it possible to reduce the contact resistance. A half.
  • the intermediate layer clamped between the lower layer 50 and the upper layer 52 by the bolt 56 is preferably a layer of ECOOCONTACT (registered trademark) foam consisting of a metal foam backbone selected from the group consisting of iron, cobalt, nickel. and their alloys covered with at least one coating of tin, indium or one of their alloys described in the French patent 1002988 . Due to the alveolar structure of this layer, its surface has a multitude of points contact Thanks to these points, the intermediate layer 54 has numerous contacts with the lower and upper layers, which makes it possible to obtain a high conductivity and therefore a low resistance. It can be seen that, as previously with the silver pellets, the resistance between the fixed contact element and the movable contact element is halved.
  • ECOOCONTACT registered trademark
  • the fixed contact conductor element 12 connected to the connection pad 16 also comprises, in its upper part, a structure identical to the three-layer structure illustrated on figure 2 .
  • an identical three-layered structure, symmetrical to that illustrated on figure 2 is also located at the lower parts of each of the fixed contact elements 12 and 14.
  • the three-layer structure shown on figure 2 can be used on either side of the lower parts of the fixed contact element 20 coming into contact with the fixed contact elements 12 and 14, but also in place of the silver disc 32, 34.
  • a preferred embodiment consists in filling the chamber with a perfect seal with an inert gas instead of air.
  • a gas can be a neutral gas such as helium or neon, or else nitrogen, and preferably sulfur hexafluoride (SF 6 ).
  • Another way to reduce the temperature produced by the heat dissipation is to provide a circulation of a refrigerant liquid, for example water, in a pipe (not shown) located inside each of the connection pads 16. and 18.
  • a refrigerant liquid for example water
  • the isolating module according to the invention can be produced as illustrated in figure 3 .
  • Such a module comprises an enclosure 10 described above electrically connected to the current input and output by means of contact pads 16 and 18.
  • the current input and output (not shown) are connected to the module by two connection bars 60 and 62 for the current input and by two bars 64 and 66 for the current output.
  • connection bars 60 and 62 are connected to the enclosure 10 by a plurality of connection blades divided into two groups of blades 68 and 70.
  • an important characteristic of the invention is to limit as much as possible the rise in temperature due to heat dissipation by the Joule effect.
  • the structure in a plurality of blades has a very large surface with the air composed by the two faces of each blade multiplied by the total number of blades.
  • the blades form a Z so that they have the greatest possible flexibility and can be deformed in the two angles of the Z under the effect of temperature.
  • connection bars 64 and 66 are used to connect the connection bars 64 and 66.
  • the sectioning module which has just been described with reference to figures 1 , 2 and 3 has a rectangular shape the largest dimension of which is between 0.90 m and 1.20 m and the smallest dimension between 0.40 m and 0.60 m, and has a thickness of about 3 cm. Its weight is between 20 and 30 Kg.
  • this module can allow a current to pass, the intensity of which is approximately 3,000 A.
  • the disconnecting device comprises a plurality of such parallel disconnection modules.
  • An important object of the invention is to use the sectioning module described above as a presentation model. Indeed, the size and weight of a module being relatively small, it is easy for the manufacturer to transport only the module to present it to any potential customer or future user. The latter will thus be able, by using a current of reduced intensity, to quickly define how many modules will be required in the desired disconnection device and to know the temperature behavior of said disconnection device.
  • a disconnection device comprises a plurality of modules which are assembled in parallel to correspond to the intensity of the current to be disconnected.
  • the current has an intensity of 20 kA, it is necessary to provide eight disconnection modules in parallel.
  • the resulting disconnecting device then comprises a single connection pad, preferably made of aluminum, for the electrical connection to the outside of all the modules.
  • the figure 4 represents a disconnecting device used for an intensity of about 120 kA composed of six partial disconnecting devices made up of two sets of three sub-assemblies 80, 82 and 84 of eight modules each such as the sub-assembly 80.
  • each module, illustrated on the figure 3 of each of the three sub-assemblies is opposite a module which is symmetrical to it and which belongs to a sub-assembly of the other assembly.
  • the modules of sub-assembly 84 are symmetrical to the modules of sub-assembly 86.
  • the three subassemblies or partial disconnecting devices 80, 82 and 84 have a common actuating mechanism 88.
  • This mechanism is for example a mechanism for rotating a shaft which, by a set of connecting rods, causes the compression of the springs described with reference to figure 1 and allows the contacts inside the enclosure for the passage of current.
  • All the partial disconnection devices 80, 82 and 84 which, on the figure 4 , has only one connection pad, is connected to the current input by two connection bars 92 and 94 and by means of two sets of connection strips 96 and 98.
  • the same connection structure i.e. two bars connected to the output connection pad, is used for connection to the current output.
  • the same structure (not referenced) as that which has just been described is symmetrical to the latter and includes all of the symmetrical partial disconnection devices of the partial disconnection devices 80, 82 and 84.
  • the sets of connecting blades serving to dissipate the heat produced by the Joule effect are replaced by the devices illustrated in the figures. figures 5 and 6 .
  • connection bar is fixed directly to the connection area 16 (or 18) by bolts 102.
  • a layer 104 of ECOCONTACT foam (registered trademark) consisting of a skeleton foam of metal selected from the group consisting of iron, cobalt, nickel and their alloys covered with at least one coating of tin, indium or one of their alloys.
  • the surface of the layer has a multitude of contact points. Thanks to these points, the layer 104 has numerous contacts with the connection bar 100 on the one hand and with the connection pad 16 on the other hand, which makes it possible to obtain a high conductivity and therefore a low resistance.
  • connection bar 106 is connected to the connection area 16 by means of an intermediate bar 110 to which it is welded.
  • the intermediate bar 110 is fixed to the connection area 16 by means of bolts 112 and 114.
  • ECOCONTACT foam Between the bar 110 and the connection area, there is a layer of ECOCONTACT foam as in the embodiment of the figure 5 .

Description

Domaine techniqueTechnical area

La présente invention concerne les dispositifs servant à interdire l'alimentation électrique lorsque nécessaire dans les installations utilisant des courants de haute intensité, et concerne en particulier un dispositif de sectionnement d'une ligne d'alimentation électrique à courant de haute intensité.The present invention relates to devices serving to prevent the power supply when necessary in installations using high intensity currents, and in particular relates to a device for disconnecting a high intensity current power supply line.

Etat de la techniqueState of the art

Dans les installations telles que les cuves à électrolyse qui font appel à des courants de haute intensité supérieure à 1000 ampères et pouvant atteindre plusieurs dizaines de milliers d'ampères, il est nécessaire d'effectuer régulièrement des opérations de maintenance. Lors de ces opérations, l'alimentation électrique est bien sûr coupée, mais il est obligatoire, d'ouvrir le circuit d'alimentation électrique à l'aide d'un dispositif de sectionnement pour que les opérateurs soient en sécurité pendant les opérations de maintenance.In installations such as electrolysis cells which use high intensity currents greater than 1000 amperes and which can reach several tens of thousands of amperes, it is necessary to carry out regular maintenance operations. During these operations, the power supply is of course cut off, but it is mandatory to open the power supply circuit using a disconnecting device so that operators are safe during maintenance operations. .

La grande majorité des dispositifs de sectionnement utilisés actuellement est constituée de sectionneurs à couteaux. Les couteaux rotatifs autour d'un axe actionné par un mécanisme adéquat, assurent la liaison électrique en s'appuyant avec pression sur des contacts d'entrée du courant. Le sectionnement consiste donc à séparer les couteaux des contacts fixes en les faisant pivoter autour de leur axe grâce au mécanisme d'actionnement.The vast majority of disconnecting devices in use today consist of knife disconnectors. The rotary knives around an axis actuated by a suitable mechanism, provide the electrical connection by pressing with pressure on the current input contacts. The sectioning therefore consists in separating the knives from the fixed contacts by making them pivot about their axis thanks to the actuation mechanism.

Malheureusement, les dispositifs de sectionnement à couteaux sont lourds et encombrants, et comme il est impossible de confiner un tel dispositif dans une enceinte, le dispositif n'est pas étanche et donc sujet à une dégradation rapide par oxydation et dépôt de poussières.Unfortunately, the cutting devices with knives are heavy and bulky, and since it is impossible to confine such a device in an enclosure, the device is not waterproof and therefore subject to rapid degradation by oxidation and deposition of dust.

Il existe des dispositifs de sectionnement comprenant une enceinte contenant des contacts métalliques fixes sur lesquels viennent s'appuyer un contact métallique mobile lorsqu'un mécanisme d'actionnement est mis en œuvre. Bien que palliant une partie des inconvénients des dispositifs de sectionnement à couteaux, ce type de dispositif de sectionnement est adapté seulement pour une intensité de courant déterminée. Il est donc nécessaire de faire appel à des dispositifs dont les dimensions augmentent avec l'intensité du courant qui les traversent. Mais le plus grand inconvénient est la difficulté d'évacuer la chaleur due à l'effet joule dans les résistances de contact du dispositif.There are disconnection devices comprising an enclosure containing fixed metal contacts on which a movable metal contact rests when an actuation mechanism is implemented. Although it overcomes some of the drawbacks of knife disconnecting devices, this type of disconnecting device is suitable only for a determined current intensity. It is therefore necessary to use devices whose dimensions increase with the intensity of the current passing through them. But the biggest drawback is the difficulty in removing heat due to the Joule effect in the contact resistors of the device.

Le document DE1239752B décrit un dispositif de commutation électrique dans lequel les pièces de contact sont munies de vis de serrage supplémentaires de façon à améliorer le passage du courant d'une connexion à l'autre. Ceci est rendu possible grâce à des pièces de commutation en forme de U. Mais le dispositif décrit dans ce document ne concerne pas les courants de haute intensité.The document DE1239752B describes an electrical switching device in which the contact pieces are provided with additional tightening screws so as to improve the flow of current from one connection to the other. This is made possible by U-shaped switching parts. However, the device described in this document does not concern high intensity currents.

Exposé de l'inventionDisclosure of the invention

Le but principal de la présente invention est donc de fournir un dispositif de sectionnement pour les alimentations électriques de haute intensité qui présente une conductance maximale.The main aim of the present invention is therefore to provide a disconnecting device for high intensity electrical power supplies which has maximum conductance.

Un autre but de l'invention est de fournir un dispositif de sectionnement comme mentionné ci-dessus qui comporte des moyens efficaces de dissipation de la chaleur produite par effet joule dans le dispositif.Another object of the invention is to provide a sectioning device as mentioned above which comprises effective means for dissipating the heat produced by the Joule effect in the device.

Encore un autre but de l'invention est de fournir un dispositif de sectionnement comme mentionné ci-dessus qui soit facilement adaptable à la valeur de l'intensité.Yet another object of the invention is to provide a sectioning device as mentioned above which is easily adaptable to the value of the intensity.

Un premier objet de l'invention est un module de sectionnement d'une ligne d'alimentation électrique à courant continu d'une intensité supérieure à 1000 A comprenant :

  • une enceinte de contact étanche comprenant au moins un premier élément conducteur de contact fixe pour établir la connexion électrique avec une entrée du courant et un second élément conducteur de contact fixe pour établir la connexion électrique avec une sortie du courant, les éléments de contact fixes étant connectés électriquement à l'extérieur de l'enceinte respectivement par deux plages de raccordement, et au moins un élément conducteur de contact mobile adapté pour venir en contact simultanément sur les premier et second éléments de contact fixes sous l'action d'un mécanisme d'actionnement qui est actionné pour supprimer le contact entre les éléments de contact fixes et l'élément de contact mobile dans le but de sectionner la ligne d'alimentation,
  • au moins une première barre métallique de raccordement adaptée pour être connectée à une entrée de courant et au moins une seconde barre de raccordement adaptée pour être connectée à une sortie de courant, et
  • un premier élément conducteur intermédiaire connecté d'une part à la première barre de raccordement et d'autre part au premier élément conducteur fixe et un second élément conducteur intermédiaire connecté d'une part à la seconde barre de raccordement et d'autre part au second élément conducteur fixe.
A first object of the invention is a sectioning module of an electrical supply line to direct current with an intensity greater than 1000 A including:
  • a sealed contact enclosure comprising at least a first fixed contact conductor element for establishing the electrical connection with a current input and a second fixed contact conductor element for establishing the electrical connection with a current output, the fixed contact elements being electrically connected outside the enclosure respectively by two connection pads, and at least one conductive movable contact element adapted to come into contact simultaneously with the first and second fixed contact elements under the action of a mechanism d 'actuation which is actuated to remove the contact between the fixed contact elements and the movable contact element for the purpose of severing the supply line,
  • at least one first metal connection bar adapted to be connected to a current input and at least one second connection bar adapted to be connected to a current output, and
  • a first intermediate conductive element connected on the one hand to the first connection bar and on the other hand to the first fixed conductive element and a second intermediate conductive element connected on the one hand to the second connection bar and on the other hand to the second fixed conductor element.

Le module est caractérisé en ce que la ligne d'alimentation électrique fournit un courant d'une intensité supérieure à 1000 A, au moins un des éléments de contact fixes ou un des éléments de contact mobiles comporte une pastille d'argent placée sur la surface de l'élément permettant de réduire de moitié la résistance de contact entre l'élément de contact mobile et l'élément de contact fixe et au moins un des élément de contact fixes comprend une couche inférieure en aluminium, une couche supérieure en cuivre comportant un revêtement en argent et une couche intermédiaire de mousse constituée d'un squelette de mousse de métal choisi dans le groupe consistant en fer, cobalt, nickel et leurs alliages recouvert d'au moins un revêtement d'étain, d'indium ou un de leurs alliages.The module is characterized in that the power supply line provides a current with an intensity greater than 1000 A, at least one of the fixed contact elements or one of the movable contact elements has a silver pellet placed on the surface of the element making it possible to reduce the contact resistance between the movable contact element and the fixed contact element by half and at least one of the fixed contact elements comprises a lower layer of aluminum, an upper layer of copper comprising a silver coating and one layer foam intermediate consisting of a metal foam skeleton selected from the group consisting of iron, cobalt, nickel and their alloys covered with at least one coating of tin, indium or one of their alloys.

Un deuxième objet de l'invention est un tel module de sectionnement utilisé comme maquette de présentation permettant au futur utilisateur de connaître le comportement en température d'un dispositif de sectionnement souhaité.A second object of the invention is such a sectioning module used as a presentation model allowing the future user to know the temperature behavior of a desired sectioning device.

Un troisième objet de l'invention est un dispositif de sectionnement composé de plusieurs modules de sectionnement tels que définis ci-dessus disposés en parallèle de façon à pouvoir adapter le dispositif à la valeur de l'intensité fourni par la ligne d'alimentation électrique.A third object of the invention is a disconnecting device composed of several disconnecting modules as defined above arranged in parallel so as to be able to adapt the device to the value of the intensity supplied by the electrical supply line.

Description brève des figuresBrief description of the figures

D'autres buts, objets et caractéristiques de l'invention apparaîtront plus clairement à la lecture de la description qui suit faite en référence aux dessins dans lesquels :

  • la figure 1 représente schématiquement une enceinte de contact utilisée dans un module de sectionnement selon l'invention ;
  • la figure 2 représente un mode de réalisation particulier d'un élément de contact fixe de l'enceinte ;
  • la figure 3 schématiquement un module de sectionnement selon l'invention qui peut être utilisé comme maquette de présentation ;
  • la figure 4 représente schématiquement un dispositif de sectionnement selon l'invention comportant une pluralité de modules de sectionnement illustrés sur la figure 3,
  • les figures 5 et 6 représentent des variantes de réalisation du module de sectionnement dans lesquelles les barres de raccordement sont connectées à l'enceinte de contact par une couche de mousse constituée d'un squelette de mousse de métal tel que fer, cobalt, nickel et leurs alliages recouvert d'un revêtement d'étain, d'indium ou un de leurs alliages (ECOCONTACT).
Other aims, objects and characteristics of the invention will emerge more clearly on reading the following description given with reference to the drawings in which:
  • the figure 1 schematically represents a contact enclosure used in an isolating module according to the invention;
  • the figure 2 shows a particular embodiment of a fixed contact element of the enclosure;
  • the figure 3 schematically a sectioning module according to the invention which can be used as a presentation model;
  • the figure 4 schematically represents a sectioning device according to the invention comprising a plurality of sectioning modules illustrated on the figure 3 ,
  • the figures 5 and 6 represent variant embodiments of the disconnection module in which the connection bars are connected to the contact enclosure by a layer of foam consisting of a skeleton of metal foam such as iron, cobalt, nickel and their alloys coated with a coating of tin, indium or one of their alloys (ECOCONTACT).

Description détaillée de l'inventionDetailed description of the invention

Le dispositif de sectionnement selon l'invention est composé essentiellement de un ou plusieurs modules de sectionnement. Chacun des modules est adapté pour autoriser le passage d'un courant d'une intensité d'environ 3.000 A. A noter que le courant est principalement un courant continu mais que ce pourrait être un courant alternatif et que l'intensité pourrait être différente.The isolating device according to the invention is essentially composed of one or more isolating modules. Each of the modules is adapted to allow the passage of a current of an intensity of approximately 3,000 A. Note that the current is mainly a direct current but that it could be an alternating current and that the intensity could be different.

L'enceinte de contact 10 de chaque module de sectionnement représentée sur la figure 1 a de préférence une forme rectangulaire d'une longueur d'environ 40 cm et d'une largeur d'environ 30 cm. L'enceinte 10 est composée d'au moins un pont de contact. Chaque pont de contact comprend deux éléments de contact fixes 12 et 14, de préférence en aluminium, fixés par soudage à 2 plages de raccordement, de préférence en aluminium, respectivement les plages 16 et 18 qui constituent l'entrée et la sortie du courant de l'enceinte connectées respectivement à l'entrée et la sortie de courant à l'extérieur de l'enceinte comme on le verra par la suite.The contact enclosure 10 of each disconnection module shown on the figure 1 preferably has a rectangular shape with a length of about 40 cm and a width of about 30 cm. The enclosure 10 is composed of at least one contact bridge. Each contact bridge comprises two fixed contact elements 12 and 14, preferably in aluminum, fixed by welding to 2 connection pads, preferably in aluminum, respectively the pads 16 and 18 which constitute the input and the output of the current. the enclosure respectively connected to the current input and output outside the enclosure as will be seen below.

Chaque pont de contact de l'enceinte 10 comprend un élément de contact mobile 20, de préférence en aluminium qui n'est pas en contact avec les 2 éléments de contact fixes 12 et 14 lorsque le sectionnement a été opéré pour le déroulement d'une opération de maintenance de l'installation comportant le dispositif de sectionnement selon l'invention.Each contact bridge of the enclosure 10 comprises a movable contact element 20, preferably made of aluminum which is not in contact with the 2 fixed contact elements 12 and 14 when the sectioning has been operated for the course of a maintenance operation of the installation comprising the isolating device according to the invention.

Lorsque l'installation est remise sous tension après l'opération de maintenance, le contact entre les éléments de contact fixes 12 et 14 et l'élément de contact mobile 20 est effectué par un déplacement vers le bas de l'élément 20 au moyen des tiges 22 et 24 actionnées par un moyen d'actionnement 26. Le haut des tiges 22 et 24 est bloqué sur l'élément de contact mobile 20 par deux ressorts 28 et 30. A la fin du déplacement vers le bas de l'élément 20, ce dernier vient en contact avec les éléments de contact 12 et 14 et une pression est exercée grâce à la compression des ressorts 28 et 30.When the installation is re-energized after the maintenance operation, the contact between the fixed contact elements 12 and 14 and the movable contact element 20 is effected by a downward movement of the element 20 by means of the rods 22 and 24 actuated by an actuating means 26. The top of rods 22 and 24 is blocked on the movable contact element 20 by two springs 28 and 30. A At the end of the downward movement of the element 20, the latter comes into contact with the contact elements 12 and 14 and a pressure is exerted thanks to the compression of the springs 28 and 30.

Une caractéristique importante de l'invention est d'obtenir un dispositif de sectionnement qui présente une résistance la plus faible possible de façon à obtenir une dissipation de chaleur par effet joule la moins importante possible et donc une élévation de température la plus réduite possible.An important characteristic of the invention is to obtain an isolating device which has the lowest possible resistance so as to obtain the smallest possible heat dissipation by Joule effect and therefore the smallest possible temperature rise.

Un premier moyen pour obtenir ce résultat est de fixer, de préférence par brasure à haute température, des pastilles d'argent 32 et 34, par exemple de forme circulaire, sur la surface de contact de l'élément de contact mobile 20 qui vient en contact avec les éléments de contact fixes 12 et 14. En effet, les éléments de contact fixes et mobile étant en aluminium, la résistance de contact entre l'élément de contact fixe et l'élément de contact mobile serait relativement importante. Avec la présence des pastilles d'argent 32 et 34 dont la conductivité est élevée, cette résistance est réduite de moitié ou, en d'autres termes, la conductance est doublée.A first means to obtain this result is to fix, preferably by high temperature brazing, silver pellets 32 and 34, for example of circular shape, on the contact surface of the movable contact element 20 which comes into contact with it. contact with the fixed contact elements 12 and 14. In fact, the fixed and movable contact elements being made of aluminum, the contact resistance between the fixed contact element and the movable contact element would be relatively high. With the presence of the silver pellets 32 and 34 whose conductivity is high, this resistance is reduced by half or, in other words, the conductance is doubled.

A noter qu'il est judicieux de disposer dans l'enceinte de contact 10 deux ponts de contact et donc un second élément de contact mobile 36 symétrique de l'élément de contact mobile 20, comme illustré sur la figure 1. L'élément 36 est amené en contact avec les éléments de contact fixes 12 et 14 grâce au moyen de tiges 38 et 40 et des ressorts 42 et 44 actionnés par le même mécanisme de fonctionnement 26. De la même façon que précédemment, l'élément de contact mobile 36 comporte des pastilles d'argent 46 et 48 pour diminuer la résistance de contact avec les éléments de contact fixes 12 et 14.It should be noted that it is judicious to have in the contact enclosure 10 two contact bridges and therefore a second movable contact element 36 symmetrical to the movable contact element 20, as illustrated in FIG. figure 1 . The element 36 is brought into contact with the fixed contact elements 12 and 14 by means of rods 38 and 40 and springs 42 and 44 actuated by the same operating mechanism 26. In the same way as above, the element of movable contact 36 comprises silver pellets 46 and 48 to decrease the contact resistance with the fixed contact elements 12 and 14.

A noter que l'enceinte de contact qui vient d'être décrite présente, pour chacun des éléments de contact mobiles 20 et 36, une résistance d'environ 10µΩ, ce qui correspond à une puissance d'environ 90 W pour un courant d'intensité égale à environ 3.000 A.Note that the contact enclosure which has just been described present, for each of the contact elements mobile 20 and 36, a resistance of about 10µΩ, which corresponds to a power of about 90 W for a current of intensity equal to about 3,000 A.

Selon une variante de l'invention et toujours dans le but de limiter l'élévation de température en produisant une dissipation de chaleur par effet joule la moins importante possible, chacun des éléments conducteurs fixes 12 et 14 peut être réalisé de la façon illustrée sur la figure 2.According to a variant of the invention and still with the aim of limiting the rise in temperature by producing the least possible heat dissipation by the Joule effect, each of the fixed conductive elements 12 and 14 can be produced as illustrated in FIG. figure 2 .

Comme on le voit sur cette figure, l'élément conducteur de contact fixe 14, qui est fixé à la plage de raccordement 18, comprend une couche inférieure 50, une couche supérieure 52 et une couche intermédiaire 54.As can be seen in this figure, the conductive fixed contact element 14, which is fixed to the connection pad 18, comprises a lower layer 50, an upper layer 52 and an intermediate layer 54.

Comme la plage de raccordement 18 à laquelle elle est fixée, par exemple par soudage, la couche inférieure 50 est en aluminium.Like the connection pad 18 to which it is fixed, for example by welding, the lower layer 50 is made of aluminum.

La couche supérieure 52, est interchangeable et est fixée à la couche inférieure par un boulon 56. La couche supérieure 52 est de préférence en cuivre de manière à déposer un revêtement d'argent par électrolyse sur sa surface supérieure, ce qui ne serait pas possible si cette couche était en aluminium comme la couche inférieure. Ainsi, la connexion électrique entre l'élément mobile 20 et l'élément fixe 14 se fait par contact direct entre la pastille d'argent 34 et le revêtement d'argent de la couche supérieure 52, ce qui permet de réduire la résistance de contact de moitié.The upper layer 52 is interchangeable and is fixed to the lower layer by a bolt 56. The upper layer 52 is preferably made of copper so as to deposit a coating of silver by electrolysis on its upper surface, which would not be possible. if this layer was aluminum like the bottom layer. Thus, the electrical connection between the movable element 20 and the fixed element 14 is made by direct contact between the silver pad 34 and the silver coating of the upper layer 52, which makes it possible to reduce the contact resistance. A half.

La couche intermédiaire serrée antre la couche inférieure 50 et la couche supérieure 52 par le boulon 56 est de préférence une couche de mousse ECOOCONTACT (marque déposée) constituée d'un squelette de mousse de métal choisi dans le groupe consistant en fer, cobalt, nickel et leurs alliages recouvert d'au moins un revêtement d'étain, d'indium ou un de leurs alliages décrite dans le brevet français 1002988 . Du fait de la structure alvéolaire de cette couche, sa surface comporte une multitude de pointes de contact Grâce à ces pointes, la couche intermédiaire 54 possède de nombreux contacts avec les couches inférieure et supérieure, ce qui permet d'obtenir une grande conductivité et donc une résistance faible. On constate que, comme précédemment avec les pastilles d'argent, la résistance entre l'élément de contact fixe et l'élément de contact mobile est diminuée de moitié.The intermediate layer clamped between the lower layer 50 and the upper layer 52 by the bolt 56 is preferably a layer of ECOOCONTACT (registered trademark) foam consisting of a metal foam backbone selected from the group consisting of iron, cobalt, nickel. and their alloys covered with at least one coating of tin, indium or one of their alloys described in the French patent 1002988 . Due to the alveolar structure of this layer, its surface has a multitude of points contact Thanks to these points, the intermediate layer 54 has numerous contacts with the lower and upper layers, which makes it possible to obtain a high conductivity and therefore a low resistance. It can be seen that, as previously with the silver pellets, the resistance between the fixed contact element and the movable contact element is halved.

A noter que l'élément conducteur de contact fixe 12 connecté à la plage de raccordement 16 comprend également, dans sa partie supérieure, une structure identique à la structure à trois couches illustrée sur figure 2. Dans le mode de réalisation préférentiel illustré sur la figure 1, une structure à trois couches identique, symétrique de celle illustrée sur la figure 2, se trouve également aux parties inférieures de chacun des éléments de contact fixes 12 et 14.Note that the fixed contact conductor element 12 connected to the connection pad 16 also comprises, in its upper part, a structure identical to the three-layer structure illustrated on figure 2 . In the preferred embodiment illustrated in figure 1 , an identical three-layered structure, symmetrical to that illustrated on figure 2 , is also located at the lower parts of each of the fixed contact elements 12 and 14.

A noter également que la structure à trois couches illustrée sur la figure 2 peut être utilisée de part et d'autre aux parties inférieures de l'élément de contact fixe 20 venant en contact avec les éléments de contact fixes 12 et 14, mais aussi à la place de la pastille en argent 32, 34.Also note that the three-layer structure shown on figure 2 can be used on either side of the lower parts of the fixed contact element 20 coming into contact with the fixed contact elements 12 and 14, but also in place of the silver disc 32, 34.

Bien que, dans la mesure du possible, l'enceinte de contact qui vient d'être décrite soit étanche, il peut toujours se produire des dépôts de poussière sur les éléments qu'elle contient. De tels dépôts, par exemple sur les pastilles d'argent, entraîne une dégradation des contacts qui résulte en une augmentation de la résistance électrique. En outre, lors du sectionnement, il peut se produire un arc électrique causé par une intensité résiduelle due à une alimentation par piles.Although, as far as possible, the contact enclosure which has just been described is sealed, there may still be deposits of dust on the elements which it contains. Such deposits, for example on silver pellets, lead to degradation of the contacts which results in an increase in electrical resistance. In addition, during disconnection, an electric arc may occur caused by residual current due to battery power.

Pour les raisons qui viennent d'être évoquées, un mode de réalisation préférentiel consiste à remplir l'enceinte d'une étanchéité parfaite d'un gaz inerte à la place de l'air. Un tel gaz peut être un gaz neutre tel que l'hélium ou le néon, ou encore l'azote, et de façon préférentielle l'hexafluorure de soufre (SF6).For the reasons which have just been mentioned, a preferred embodiment consists in filling the chamber with a perfect seal with an inert gas instead of air. Such a gas can be a neutral gas such as helium or neon, or else nitrogen, and preferably sulfur hexafluoride (SF 6 ).

Une autre façon de réduire la température produite par la dissipation de chaleur est de prévoir une circulation d'un liquide réfrigérant, par exemple l'eau, dans une tubulure (non montrée) se trouvant à l'intérieur de chacune des plages de raccordement 16 et 18.Another way to reduce the temperature produced by the heat dissipation is to provide a circulation of a refrigerant liquid, for example water, in a pipe (not shown) located inside each of the connection pads 16. and 18.

Le module de sectionnement selon l'invention peut être réalisé comme illustré sur la figure 3. Un tel module comprend une enceinte 10 décrite ci-dessus connectée électriquement à l'entré et la sortie de courant grâce aux plages de contact 16 et 18.The isolating module according to the invention can be produced as illustrated in figure 3 . Such a module comprises an enclosure 10 described above electrically connected to the current input and output by means of contact pads 16 and 18.

L'entrée et la sortie de courant (non montrées) sont connectées au module par deux barres de raccordement 60 et 62 pour l'entrée de courant et par deux barres 64 et 66 pour la sortie de courant.The current input and output (not shown) are connected to the module by two connection bars 60 and 62 for the current input and by two bars 64 and 66 for the current output.

Comme illustré sur la figure, les barres de raccordement 60 et 62 sont connectées à l'enceinte 10 par une pluralité de lames de raccordement divisée en deux groupes de lames 68 et 70. Comme déjà mentionné, une caractéristique importante de l'invention est limiter le plus possible l'élévation de température due à la dissipation de chaleur par effet joule. Dans ce but, la structure en une pluralité de lames présente une très grande surface avec l'air composée par les deux faces de chaque lame multipliée par le nombre total de lames. Comme illustré, les lames forment un Z de manière à ce qu'elles présentent le plus de souplesse possible et puissent se déformer dans les deux angles du Z sous l'effet de la température.As illustrated in the figure, the connection bars 60 and 62 are connected to the enclosure 10 by a plurality of connection blades divided into two groups of blades 68 and 70. As already mentioned, an important characteristic of the invention is to limit as much as possible the rise in temperature due to heat dissipation by the Joule effect. For this purpose, the structure in a plurality of blades has a very large surface with the air composed by the two faces of each blade multiplied by the total number of blades. As illustrated, the blades form a Z so that they have the greatest possible flexibility and can be deformed in the two angles of the Z under the effect of temperature.

A noter qu'une pluralité de lames ayant la même structure que pour l'entrée de courant et divisée en deux ensembles 72 et 74 est utilisée pour connecter les barres de raccordement 64 et 66.Note that a plurality of blades having the same structure as for the current input and divided into two sets 72 and 74 is used to connect the connection bars 64 and 66.

Le module de sectionnement qui vient d'être décrit en référence aux figures 1, 2 et 3 a une forme rectangulaire dont la plus grande dimension est comprise entre 0,90 m et 1,20 m et la plus petite dimension comprise entre 0,40 m et 0,60 m, et a une épaisseur d'environ 3 cm. Son poids est compris entre 20 et 30 Kg.The sectioning module which has just been described with reference to figures 1 , 2 and 3 has a rectangular shape the largest dimension of which is between 0.90 m and 1.20 m and the smallest dimension between 0.40 m and 0.60 m, and has a thickness of about 3 cm. Its weight is between 20 and 30 Kg.

Comme il a été mentionné précédemment, ce module peut laisser passer un courant dont l'intensité est d'environ 3.000 A. comme en général l'intensité du courant utilisé dans l'installation est beaucoup plus importante, le dispositif de sectionnement comporte une pluralité de tels modules de sectionnement en parallèle.As mentioned previously, this module can allow a current to pass, the intensity of which is approximately 3,000 A. As in general the intensity of the current used in the installation is much greater, the disconnecting device comprises a plurality of such parallel disconnection modules.

Un objet important de l'invention est d'utiliser le module de sectionnement décrit ci-dessus comme maquette de présentation. En effet, l'encombrement et le poids d'un module étant relativement faible, il est aisé pour le fabricant de transporter seulement le module pour le présenter à tout client potentiel ou futur utilisateur. Ce dernier pourra ainsi, en utilisant un courant d'intensité réduite, définir rapidement combien de modules lui seront nécessaires dans le dispositif de sectionnement souhaité et connaître le comportement en température dudit dispositif de sectionnement.An important object of the invention is to use the sectioning module described above as a presentation model. Indeed, the size and weight of a module being relatively small, it is easy for the manufacturer to transport only the module to present it to any potential customer or future user. The latter will thus be able, by using a current of reduced intensity, to quickly define how many modules will be required in the desired disconnection device and to know the temperature behavior of said disconnection device.

De façon générale, un dispositif de sectionnement conforme à l'invention comprend une pluralité de modules qui sont assemblés en parallèle pour correspondre à l'intensité du courant à sectionner. Ainsi, si le courant a une intensité de 20 kA, il est nécessaire de prévoir huit modules de sectionnement en parallèle. Le dispositif de sectionnement résultant comporte alors une seule plage de raccordement, de préférence en aluminium, pour la connexion électrique à l'extérieur de tous les modules.In general, a disconnection device according to the invention comprises a plurality of modules which are assembled in parallel to correspond to the intensity of the current to be disconnected. Thus, if the current has an intensity of 20 kA, it is necessary to provide eight disconnection modules in parallel. The resulting disconnecting device then comprises a single connection pad, preferably made of aluminum, for the electrical connection to the outside of all the modules.

La figure 4 représente un dispositif de sectionnement utilisé pour une intensité d'environ 120 kA composé de six dispositifs de sectionnement partiel composés de deux ensembles de trois sous-ensembles 80, 82 et 84 de huit modules chacun tel que le sous-ensemble 80. Pour ce faire, chaque module, illustré sur la figure 3, de chacun des trois sous-ensembles est en face d'un module qui lui est symétrique et qui appartient à un sous-ensemble de l'autre ensemble. Ainsi, les modules du sous-ensemble 84 sont symétriques des modules du sous-ensemble 86.The figure 4 represents a disconnecting device used for an intensity of about 120 kA composed of six partial disconnecting devices made up of two sets of three sub-assemblies 80, 82 and 84 of eight modules each such as the sub-assembly 80. To do this , each module, illustrated on the figure 3 , of each of the three sub-assemblies is opposite a module which is symmetrical to it and which belongs to a sub-assembly of the other assembly. Thus, the modules of sub-assembly 84 are symmetrical to the modules of sub-assembly 86.

Les trois sous-ensembles ou dispositifs de sectionnement partiels 80, 82 et 84 ont un mécanisme d'actionnement commun 88. Il en est de même des trois sous-ensembles ou dispositifs de sectionnement partiels symétriques et qui ont un même mécanisme d'actionnement 90. Ce mécanisme est par exemple un mécanisme de rotation d'un arbre qui, par un jeu de bielles, entraîne la compression des ressorts décrits en référence à la figure 1 et permet les contacts à l'intérieur de l'enceinte pour le passage du courant.The three subassemblies or partial disconnecting devices 80, 82 and 84 have a common actuating mechanism 88. The same is true of the three symmetrical subassemblies or partial disconnecting devices which have the same actuating mechanism 90 This mechanism is for example a mechanism for rotating a shaft which, by a set of connecting rods, causes the compression of the springs described with reference to figure 1 and allows the contacts inside the enclosure for the passage of current.

L'ensemble des dispositifs de sectionnement partiels 80, 82 et 84 qui, sur la figure 4, ne comporte qu'une plage de raccordement, est connecté à l'entrée de courant par deux barres de raccordement 92 et 94 et par l'intermédiaire de deux ensembles de lames de raccordement 96 et 98. La même structure de raccordement (non référencée), c'est à dire deux barres reliées à la plage de raccordement de sortie, est utilisée pour la connexion à la sortie de courant. La même structure (non référencée) que celle qui vient d'être décrite est symétrique de cette dernière et inclut l'ensemble des dispositifs de sectionnement partiels symétriques des dispositifs de sectionnement partiels 80, 82 et 84.All the partial disconnection devices 80, 82 and 84 which, on the figure 4 , has only one connection pad, is connected to the current input by two connection bars 92 and 94 and by means of two sets of connection strips 96 and 98. The same connection structure (not referenced ), i.e. two bars connected to the output connection pad, is used for connection to the current output. The same structure (not referenced) as that which has just been described is symmetrical to the latter and includes all of the symmetrical partial disconnection devices of the partial disconnection devices 80, 82 and 84.

Selon une variante de l'invention, les ensembles de lames de raccordement servant à dissiper la chaleur produite par effet joule sont remplacés par les dispositifs illustrés sur les figures 5 et 6.According to a variant of the invention, the sets of connecting blades serving to dissipate the heat produced by the Joule effect are replaced by the devices illustrated in the figures. figures 5 and 6 .

Sur la figure 5, la barre de raccordement est fixée directement à la plage de raccordement 16 (ou 18) par des boulons 102. Entre la barre de raccordement 100 et la plage de raccordement se trouve une couche 104 de mousse ECOCONTACT (marque déposée) constituée d'un squelette de mousse de métal choisi dans le groupe consistant en fer, cobalt, nickel et leurs alliages recouvert d'au moins un revêtement d'étain, d'indium ou un de leurs alliages. Comme mentionné précédemment, la surface de la couche comporte une multitude de pointes de contact Grâce à ces pointes, la couche 104 possède de nombreux contacts avec la barre de raccordement 100 d'une part et avec la plage de raccordement 16 d'autre part, ce qui permet d'obtenir une grande conductivité et donc une résistance faible.On the figure 5 , the connection bar is fixed directly to the connection area 16 (or 18) by bolts 102. Between the connection bar 100 and the connection area is a layer 104 of ECOCONTACT foam (registered trademark) consisting of a skeleton foam of metal selected from the group consisting of iron, cobalt, nickel and their alloys covered with at least one coating of tin, indium or one of their alloys. As mentioned above, the surface of the layer has a multitude of contact points. Thanks to these points, the layer 104 has numerous contacts with the connection bar 100 on the one hand and with the connection pad 16 on the other hand, which makes it possible to obtain a high conductivity and therefore a low resistance.

Sur la figure 6, la barre de raccordement 106 est connectée à la plage de raccordement 16 au moyen d'une barre intermédiaire 110 à laquelle elle est soudée. La barre intermédiaire 110 est fixée à la plage de raccordement 16 au moyen de boulons 112 et 114. Entre la barre 110 et la plage de raccordement, se trouve une couche de mousse ECOCONTACT comme dans le mode de réalisation de la figure 5.On the figure 6 , the connection bar 106 is connected to the connection area 16 by means of an intermediate bar 110 to which it is welded. The intermediate bar 110 is fixed to the connection area 16 by means of bolts 112 and 114. Between the bar 110 and the connection area, there is a layer of ECOCONTACT foam as in the embodiment of the figure 5 .

Claims (10)

  1. A disconnecting module of a power supply line adapted to have the lowest possible resistance so as to obtain as little heat dissipation by Joule effect as possible, comprising:
    - a tight contact casing (10) comprising at least a first fixed-contact conductive element (12) to establish the electrical connection with a current input and a second fixed-contact conductive element (14) to establish the electrical connection with a current output, said fixed-contact elements being electrically connected on the outside of the casing by two connection terminals (16, 18) respectively, and at least one mobile-contact conductive element (20 or 36) adapted to come in contact simultaneously on said first and second fixed-contact elements under the action of an actuating mechanism (26), said mechanism being actuated so as to interrupt the contact between said fixed-contact elements and said mobile-contact element with the aim of disconnecting said supply line,
    - at least a first metal connection bar adapted to be connected to a current input and at least a second connection bar adapted to be connected to a current output, and
    - a first intermediate conductive element connected firstly to said first connection bar and secondly to said first fixed conductive element and a second intermediate conductive element connected firstly to said second connection bar and secondly to said second fixed conductive element;
    said module being characterised in that:
    - said electrical supply line supplies a current of an intensity higher than 1000 A,
    - at least one of said fixed-contact elements (12, 14) or one of said mobile-contact elements (20 or 26) comprises a silver pellet placed on the surface of said element, allowing the contact resistance between the mobile-contact element and the fixed-contact element to be reduced by half,
    - at least one of said fixed-contact elements (12 or 14) comprises a lower layer made of aluminium (50), an upper layer made of copper having a silver coating (52) and an intermediate layer (54) of foam comprising a metal foam skeleton selected from the group consisting of iron, cobalt, nickel and alloys thereof coated with at least a coating of tin, indium or one of their alloys.
  2. The disconnecting module according to claim 1, wherein a silver pellet is fixed on the surface of each of said mobile-contact elements (20, 26) coming into contact with each of said fixed-contact elements (12, 14).
  3. The disconnecting module according to claim 1 or 2, wherein said tight contact casing (10) is filled with an inert gas instead of air.
  4. The disconnecting module according to claim 3, wherein said gas is a neutral gas such as helium, neon or nitrogen, and preferably sulphur hexafluoride (SF6).
  5. The disconnecting module according to any one of claims 1 to 4, used as a presentation model wherein said electric supply line supplies a current of reduced intensity allowing the future user to know the behaviour according to the temperature of a disconnecting device.
  6. The disconnecting module according to any one of claims 1 to 4, wherein said first intermediate conductive element and said second intermediate conductive element are both comprised of at least one group of connection blades (68, 70 and 72, 74).
  7. The disconnecting module according to claim 6, wherein said connection blades (68, 70 and 72, 74) form a Z so that they have the greatest possible flexibility and can be deformed in both corners of the Z under the effect of temperature.
  8. The disconnecting module according to any one of claims 1 to 4, wherein said first intermediate conductive element and said second intermediate conductive element comprise a layer (104, 108) of foam comprising a metal foam skeleton selected from the group consisting of iron, cobalt, nickel and alloys thereof covered with a least a coating of tin, indium or one of their alloys.
  9. The disconnecting module according to any one of claims 1 to 8, wherein the current supplied by said electric supply line is direct current.
  10. A disconnecting device comprising a plurality of disconnecting modules according to any one of claims 1 to 9 arranged in parallel between the current input and the current output.
EP13801602.7A 2012-11-05 2013-10-31 Device for disconnecting an electrical supply line with a high-intensity current Active EP2915172B1 (en)

Applications Claiming Priority (2)

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FR1202992A FR2997788B1 (en) 2012-11-05 2012-11-05 DEVICE FOR DISCONNECTING A HIGH INTENSITY CURRENT POWER SUPPLY LINE
PCT/FR2013/000283 WO2014068201A1 (en) 2012-11-05 2013-10-31 Device for disconnecting an electrical supply line with a high-intensity current

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Families Citing this family (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR3045226B1 (en) * 2015-12-15 2017-12-22 Schneider Electric Ind Sas COOLING DEVICE FOR HOT GASES IN HIGH VOLTAGE EQUIPMENT
FR3061810B1 (en) * 2017-01-09 2020-01-10 A M C CONNECTION DEVICE BETWEEN THE SCREENS OF TWO ELEMENTS OF ELECTRIC CABLE
FR3073677B1 (en) 2017-11-13 2019-10-11 A M C CONTACT DEVICE ADAPTED TO FACILITATE THE REPAIR OF BOLT ELECTRICAL CONNECTIONS
FR3081608B1 (en) * 2018-05-28 2021-01-22 Amc CURRENT SOURCE INVERTER FOR NUCLEAR POWER PLANT
FR3100938B1 (en) 2019-09-17 2023-03-03 A M C Supply circuit for an electrolysis cell comprising a short-circuiting device and a disconnector
DE112021007255A5 (en) * 2021-03-11 2023-12-28 Pierburg Gmbh CONTACT BRIDGE DEVICE FOR A SWITCH OF A HIGH VOLTAGE CONTACTOR OR HIGH VOLTAGE RELAY
CN114578216B (en) * 2022-04-30 2022-07-15 南昌耀德精密五金有限公司 Conducting device for chip test

Family Cites Families (29)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1261224B (en) * 1964-09-12 1968-02-15 Continental Elektro Ind Ag Electromagnetic switching device equipped with contact bridges, especially contactors
US3539973A (en) 1968-02-12 1970-11-10 Hughes Aircraft Co Electrical connector
US3649954A (en) 1970-06-26 1972-03-14 John O Kurtz Clamp-type electrical terminals
US4023882A (en) 1974-04-25 1977-05-17 Borge Hugo Pettersson Electrical connector device securable to metal member
JPS5380589A (en) 1976-12-24 1978-07-17 Hitachi Ltd Connecting method for electric conductor
US4923739A (en) 1987-07-30 1990-05-08 American Telephone And Telegraph Company Composite electrical interconnection medium comprising a conductive network, and article, assembly, and method
US5153818A (en) 1990-04-20 1992-10-06 Rohm Co., Ltd. Ic memory card with an anisotropic conductive rubber interconnector
EP0568755B1 (en) 1992-05-08 1996-08-21 Multi-Contact Ag Contact device
JP2743314B2 (en) * 1995-02-16 1998-04-22 北石産業株式会社 Vibration detection element and vibration detector
US6114645A (en) 1995-04-27 2000-09-05 Burgess; Lester E. Pressure activated switching device
US5620290A (en) 1995-08-23 1997-04-15 Illinois Tool Works Inc. Ground retainer
US5865638A (en) 1995-12-21 1999-02-02 Alcoa Fujikura Ltd. Electrical connector
US5857858A (en) 1996-12-23 1999-01-12 General Electric Company Demountable and repairable low pitch interconnect for stacked multichip modules
US6309742B1 (en) 2000-01-28 2001-10-30 Gore Enterprise Holdings, Inc. EMI/RFI shielding gasket
FR2818434B1 (en) * 2000-12-15 2003-07-04 Socomec Sa ELECTRICAL SWITCHING APPARATUS FOR ELECTRICAL INSTALLATION
LU90721B1 (en) 2001-01-25 2002-07-26 Circuit Foil Luxembourg Trading Sarl Method for producing metal foams and furnace for producing same
US6799977B2 (en) 2002-07-11 2004-10-05 Hewlett-Packard Development Company, L.P. Socket having foam metal contacts
FR2847391A1 (en) 2002-11-20 2004-05-21 A M C Improved life contact connector mechanism having two conductors with intermediate insertion element placed between electrically conducting surfacers having several porous/high deformability rubber materials reducing electrical resistance
JP2004319382A (en) 2003-04-18 2004-11-11 Kyoshin Kogyo Co Ltd Grounding terminal
DE10326788B4 (en) 2003-06-13 2005-05-25 Robert Bosch Gmbh Contact surfaces for electrical contacts and methods of manufacture
US7498923B2 (en) * 2004-09-08 2009-03-03 Iversen Arthur H Fast acting, low cost, high power transfer switch
US7561017B2 (en) * 2004-09-13 2009-07-14 Cooper Technologies Company Fusible switching disconnect modules and devices
US7294020B2 (en) 2005-05-25 2007-11-13 Alcoa Fujikura Ltd. Canted coil spring power terminal and sequence connection system
KR20100119830A (en) 2007-05-15 2010-11-10 히다치 가세고교 가부시끼가이샤 Circuit-connecting material, and connection structure for circuit member
DE102008017157B4 (en) 2008-04-03 2022-10-06 Vitesco Technologies GmbH Contact element and printed circuit board arrangement
US8130064B2 (en) * 2008-08-01 2012-03-06 Tyco Electronics Corporation Switching device
FR2962856B1 (en) 2010-07-16 2012-08-17 Amc Holding ELECTRICAL CONNECTION DEVICE WITH IMPROVED CONDUCTANCE
US8582305B1 (en) * 2011-04-19 2013-11-12 Juniper Networks, Inc. Power cable connection and disconnection using a power attachment assembly (PAA)
TW201409848A (en) 2012-08-21 2014-03-01 Adv Flexible Circuits Co Ltd Flexible circuit cable insertion structure

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
None *

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Publication number Publication date
US9679706B2 (en) 2017-06-13
US20150279579A1 (en) 2015-10-01
WO2014068201A1 (en) 2014-05-08
CA2890550A1 (en) 2014-05-08
FR2997788B1 (en) 2016-01-22
EP2915172A1 (en) 2015-09-09
CA2890550C (en) 2021-11-23
FR2997788A1 (en) 2014-05-09
HUE055384T2 (en) 2021-11-29

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