Abstract: The present invention relates to switchgear for breaking a medium- or high-voltage electric current, which switchgear comprises a leaktight enclosure in which electrical components are found as well as a gaseous medium for extinguishing the electric arcs likely to occur in said enclosure, and which switchgear is characterized in that: the gaseous medium comprises at least one fluoroketone alone or in a mixture with at least one gas that does not form part of the fluoroketone family; the fluoroketone is present in the enclosure in part in the liquid state and in part in the gaseous state; and in that the enclosure further comprises means for absorbing molecular species that form after the ionization experienced by said fluoroketone during arcing. The invention also relates to a method of manufacturing said switchgear.
Type:
Grant
Filed:
September 20, 2011
Date of Patent:
October 7, 2014
Assignee:
Schneider Electric Energy France
Inventors:
Yannick Kieffel, Daniel Piccoz, Alain Girodet
Abstract: A design for a winding is based on a material of low electrical resistance, such as copper, and of a diameter typically greater than 90 mm, intended to generate a magnetic field in an electrical contact for a medium voltage vacuum circuit-breaker. The winding includes a hollow cylinder including helical slots that are empty of material, arranged in parallel around its longitudinal axis, and that open out both to the hollow and to the outside of the cylinder. The angular length of each helical slot is equal to at least 360°. The design makes it possible to increase the level of the axial magnetic field (AMF) obtained by the winding(s) incorporated into an electrical contact of a vacuum circuit-breaker while improving uniformity, symmetry of the field, and production cost.
Abstract: The embodiments of the switch described herein include latching and locking systems so as to retain the rod of a vacuum bottle in a determined, open or closed, position, the systems being driven and controlled by the same means that cause the movable portion of the vacuum bottle to move, or by the disconnector itself.
Type:
Grant
Filed:
May 25, 2010
Date of Patent:
November 12, 2013
Assignee:
Schneider Electric Energy France
Inventors:
Daniel Piccoz, Floriane Decq, Patrice Grosjean
Abstract: A magnetic actuator circuit for high-voltage switchgear for a vacuum circuit breaker, including at least one permanent magnet and at least one coil connected in series with a transistor switch, and an electromechanical switch connected in series with the transistor switch and the coil. The first electromechanical switch and the transistor switch have an open default state, such that the electromechanical switch closes at an instant that precedes an instant of closing of the transistor switch, and such that it is returned to the open state once the transistor switch has returned to the open state. Such a magnetic actuator circuit may find application for putting a medium and/or high voltage apparatus into and out of circuit.
Abstract: The present invention relates to switchgear for breaking a medium- or high-voltage electric current, which switchgear comprises a leaktight enclosure in which electrical components are found as well as a gaseous medium for extinguishing the electric arcs likely to occur in said enclosure, and which switchgear is characterized in that: the gaseous medium comprises at least one fluoroketone alone or in a mixture with at least one gas that does not form part of the fluoroketone family; the fluoroketone is present in the enclosure in part in the liquid state and in part in the gaseous state; and in that the enclosure further comprises means for absorbing molecular species that form after the ionization experienced by said fluoroketone during arcing. The invention also relates to a method of manufacturing said switchgear.
Type:
Application
Filed:
September 20, 2011
Publication date:
August 22, 2013
Applicant:
SCHNEIDER ELECTRIC ENERGY FRANCE
Inventors:
Yannick Kieffel, Daniel Piccoz, Alain Girodet
Abstract: The present invention provides the use of a composite material comprising a polymeric matrix and at least one metal fluoride filler selected from the cerium fluorides CeF3 and/or CeF4, lanthanum fluoride LaF3 and mixtures thereof, as an electric arc extinction material in electrical equipment.
Abstract: A design for a winding is based on a material of low electrical resistance, such as copper, and of a diameter typically greater than 90 mm, intended to generate a magnetic field in an electrical contact for a medium voltage vacuum circuit-breaker. The winding includes a hollow cylinder including helical slots that are empty of material, arranged in parallel around its longitudinal axis, and that open out both to the hollow and to the outside of the cylinder. The angular length of each helical slot is equal to at least 360°. The design makes it possible to increase the level of the axial magnetic field (AMF) obtained by the winding(s) incorporated into an electrical contact of a vacuum circuit-breaker while improving uniformity, symmetry of the field, and production cost.
Abstract: The embodiments of the switch described herein include latching and locking systems (24) so as to retain the rod (13) of a vacuum bottle (10) in a determined, open or closed, position, the systems being driven and controlled by the same means that cause the movable portion of the vacuum bottle to move, or by the disconnector (4) itself.
Type:
Application
Filed:
May 25, 2010
Publication date:
March 1, 2012
Applicant:
SCHNEIDER ELECTRIC ENERGY FRANCE
Inventors:
Daniel Piccoz, Floriane Decq, Patrice Grosjean
Abstract: A magnetic actuator circuit for high-voltage switchgear for a vacuum circuit breaker, including at least one permanent magnet and at least one coil connected in series with a transistor switch, and an electromechanical switch connected in series with the transistor switch and the coil. The first electromechanical switch and the transistor switch have an open default state, such that the electromechanical switch closes at an instant that precedes an instant of closing of the transistor switch, and such that it is returned to the open state once the transistor switch has returned to the open state. Such a magnetic actuator circuit may find application for putting a medium and/or high voltage apparatus into and out of circuit.