EP2073229B1 - Pyrotechnical short-circuiting switch with self-tightening electric contacts and assembly for protection against internal arcs comprising such a short-circuiting switch - Google Patents

Description

TECHNICAL FIELD OF THE INVENTION

The invention relates to an electrical short-circuiter between at least two electrical terminals. The short-circuiter comprises an insulating casing in which are positioned a pyrotechnic actuator for moving a movable needle for closing a self-clamping electrical contact assembly. Said moving needle is intended to move along a longitudinal axis between a first armed position and a second triggered position. The short-circuiter comprises a self-tightening electrical contact assembly comprising a movable conductive member intended to be connected to at least a first electrical terminal and extending along a longitudinal axis and a hollow envelope intended to be connected to a second electrical terminal. . Said member and said envelope are intended to come into electrical contact by moving relative to each other under the action of the moving needle.

The invention also relates to a set of protection against internal arcs for connecting an electrical busbar to the ground and comprising at least one short-circuiter according to the invention.

STATE OF THE PRIOR ART

It is known to use pyrotechnic actuators for the short-circuiting of electrical contacts. Solutions using pyrotechnic actuators have the advantage of obtaining very short closing times of electrical contacts.

Many patents such as documents US4852494 , US6952332 , US 2003/231439 A1 , describe solutions where the gases generated by a pyrotechnic initiator propel a needle or a piston movable in a direction of displacement. This displacement directly or indirectly causes the closure of contacts electric. Other applications as described in the document W09921254 , use a pyrotechnic actuator to move a connection means and bypass several conductors, including the earth.

In the context of internal arc short-circuiter, the desired performance is very high. The short-circuiting times of the earthed phases must be very short and the contact closed state must be long enough for an upstream circuit breaker to detect the short-circuit fault and cut the power supply. The short-circuit currents are of the order of 50kA or higher. In addition, the internal arc short-circuiter must also have a high dielectric withstand especially supporting lightning strikes.

Electrical contacts obtained by punching conductors or using penetrating contacts of the "tulip" type or contacts with a flexible blade do not always meet the specifications. Indeed, given the high intensity of the electric currents; significant repulsion efforts present at the time of closure of the contacts, can re-open the electrical contacts. In addition, the dielectric suits are not always sufficient.

Solutions using contacting by punching conductors generally do not withstand too high movement speeds of the punch. Indeed at the moment of impact of the punch on the driver, the punched material tends to flow. Reflux of the material at the point of impact is responsible for deterioration of the electrical contact.

SUMMARY OF THE INVENTION

The invention therefore aims to overcome the drawbacks of the state of the art, so as to provide a pyrotechnic electric short-circuiter high dielectric strength and allowing high current flow current.

The movable conductive member of the short-circuiter according to the invention comprises a first electrical contact zone connected to the outer periphery of said member by at least one shoulder. The hollow envelope comprises first deformable electrical connection means intended to come into contact with said at least one a shoulder to move under the action of a force to push and deform against a displacement stop. Said first deformed electrical connection means develops a clamping force having a principal component directed in a radial direction perpendicular to the longitudinal axis. The clamping force provides an electromechanical connection between the first electrical contact area of the movable conductive member and the first deformable electrical connection means.

According to a development mode of the invention, the first deformable electrical connection means have an annular shape. Said annular shape has an inner periphery of substantially identical section to that of the outer periphery of the first electrical contact area of the movable conductive member and an outer periphery of substantially identical section to that of the inner periphery of the hollow envelope.

Preferably, said movable conductive member comprises a cylindrical section at the first electrical contact zone, section having an outer radius equal to the inner radius of said annular shape of the first deformable electrical connection means.

According to a particular embodiment, the first deformable electrical connection means comprise at least one metal washer having, in the radial direction, a developed surface greater than the surface projected on said direction.

Preferably, said at least one metal washer has a conical shape.

Advantageously, the first deformable electrical connection means comprise at least two stacked conical metal washers.

Advantageously, said at least two conical metal washers are stacked head to tail.

Advantageously, the metal washers are mechanically connected two by two to form a conductive element.

Preferably, the hollow envelope comprises intermediate compression means, said compression means being intended to move in contact with the shoulder and uniformly transmit the thrust force to the first deformable electrical connection means.

According to a development mode of the invention, the movable conductive member is connected to the moving needle by a mechanical connection to form a mobile functional assembly, the needle and said member being at the same electrical potential.

According to another embodiment of the invention, the electric short-circuiter comprises at least second deformable electrical connection means electrically connected to at least one second electrical terminal and intended to come into electrical contact with a second electrical contact zone. of the movable functional assembly moving.

According to a particular embodiment of the invention, the deformable electrical connection means and the mobile conductive member are positioned in a vacuum interrupter, the electrical insulation being made by vacuum.

According to a particular embodiment of the invention, the short-circuiter comprises a semi-liquid dielectric designed to isolate the deformable electrical connection means from the mobile conducting member.

Advantageously, the semi-liquid dielectric comprises a silicone gel

Advantageously, the semi-liquid dielectric is contained in a contention cage.

Preferably, the first electrical contact area is located at a first end of the movable conductive member, said first end having a pointed and hollow penetration area.

Advantageously, the first electrical contact zone of the first end is rough and / or knurled and / or ridged.

Preferably, the pyrotechnic actuator comprises a conductive jack body having means for being electrically connected to the first electrical terminal, electrical connection means maintaining a permanent electrical contact between the conductive cylinder body and the mobile functional assembly.

Advantageously, the electrical connection means comprise a multipoint annular contact positioned between the internal volume of the conductive cylinder body and the mobile functional assembly.

Advantageously, the moving needle comprises a first axial abutment intended to come into contact with a second abutment of the body of the jack to lock said needle in the tripped position.

Advantageously, the second stop of the cylinder body is deformable to absorb a portion of the displacement energy of the needle.

Advantageously, the mobile functional assembly is animated by a gyroscopic movement during its displacement along the longitudinal axis of displacement.

Advantageously, the pyrotechnic actuator comprises a sealing envelope placed inside the cylinder body and enveloping the moving needle.

The internal arc protection assembly according to the invention comprises an internal arc detection sensor connected to a decision center, said decision unit connected to one or more short-circuiters being intended to enable the actuation of the internal arcs. pyrotechnic actuators.

BRIEF DESCRIPTION OF THE FIGURES

• la figure 1 représente une vue en coupe d'un ensemble à contacts électriques auto-serrant dans une position ouverte d'un court-circuiteur électrique selon un premier mode préférentiel de réalisation de l'invention ;
• la figure 2 représente une vue en coupe d'un ensemble à contacts électriques auto-serrant dans une position fermée d'un court-circuiteur électrique selon la figure 1 ;
• la figure 3 représente des variantes de réalisation des moyens de connexion électrique déformables de l'ensemble à contacts électriques selon les figures 1 et 2 ;
• la figure 4 représente une vue en coupe d'un actionneur pyrotechnique dans une position armée selon un mode de réalisation de l'invention ;
• la figure 5 représente une vue en coupe d'un actionneur pyrotechnique dans une position déclenchée selon la figure 4 ;
• la figure 6 représente une vue en coupe d'un court-circuiteur électrique dans une position ouverte selon un premier mode préférentiel de réalisation de l'invention ;
• la figure 6A représente une vue en perspective ouverte d'un court-circuiteur électrique dans une position ouverte selon un premier mode préférentiel de réalisation de l'invention ;
• la figure 7 représente une vue en coupe d'un court-circuiteur électrique dans une position fermée selon la figure 6 ;
• la figure 8 représente une vue en coupe d'un court-circuiteur électrique dans une position ouverte selon un second mode préférentiel de réalisation de l'invention ;
• la figure 9 représente une vue en coupe d'un court-circuiteur électrique dans une position fermée selon la figure 8 ;
• la figure 10 représente une vue d'un ensemble de protection contre les arcs internes selon un premier mode préférentiel de réalisation de l'invention ;
• la figure 11 représente une vue d'un ensemble de protection contre les arcs internes selon un second mode préférentiel de réalisation de l'invention.

Other advantages and features will emerge more clearly from the following description of particular embodiments of the invention, given by way of non-limiting examples, and represented in the accompanying drawings in which:

• the figure 1 is a sectional view of a set of electrical contacts self-tightening in an open position of an electric short-circuiter according to a first preferred embodiment of the invention;
• the figure 2 is a sectional view of a self-clamping electrical contact assembly in a closed position of an electrical short-circuit according to the figure 1 ;
• the figure 3 represents alternative embodiments of the deformable electrical connection means of the electrical contact assembly according to the Figures 1 and 2 ;
• the figure 4 represents a sectional view of a pyrotechnic actuator in an armed position according to one embodiment of the invention;
• the figure 5 represents a sectional view of a pyrotechnic actuator in a triggered position according to the figure 4 ;
• the figure 6 represents a sectional view of an electric short-circuiter in an open position according to a first preferred embodiment of the invention;
• the Figure 6A represents an open perspective view of an electrical short-circuiter in an open position according to a first preferred embodiment of the invention;
• the figure 7 represents a sectional view of an electrical short-circuiter in a closed position according to the figure 6 ;
• the figure 8 represents a sectional view of an electric short-circuiter in an open position according to a second preferred embodiment of the invention;
• the figure 9 represents a sectional view of an electrical short-circuiter in a closed position according to the figure 8 ;
• the figure 10 represents a view of an internal arc protection assembly according to a first preferred embodiment of the invention;
• the figure 11 represents a view of an internal arc protection assembly according to a second preferred embodiment of the invention.

DETAILED DESCRIPTION OF AN EMBODIMENT

The electric short-circuit-breaker 1 according to the invention is intended to short-circuit at least two electrical terminals such as, for example, two phase conductors U, V, W between them, two or three U, V phase conductors, W to an earth terminal. The short-circuiter 1 as represented on the Figures 4 and 5 allows for example to connect a phase conductor to a ground terminal.

The short-circuiter 1 has two operating positions; a closed position when all the electrical terminals are at the same electrical potential and an open position when the electrical terminals have different electrical potentials.

The short-circuiter 1 according to the different embodiments of the invention comprises an insulating jacket 100 in which are positioned a pyrotechnic actuator 200 and a self-clamping electrical contact assembly 300.

The operating energy released by the pyrotechnic actuator 200 ensures a high closing speed of the electrical contacts of the self-clamping electrical contact assembly 300. The pyrotechnic actuator 200 comprises a movable needle 201 for moving and causing closing the assembly with self-tightening electrical contacts 300. Traditionally, the moving needle 201 is intended to be propelled by compressed gases generated by the explosion of a pyrotechnic charge. Said needle can move inside a cylinder body 202 along a longitudinal axis Y between a first armed position and a second triggered position. The first armed position of the moving needle 201 generally corresponds to an open electrical state of the self-clamping electrical contact assembly 300. The triggered position of the moving needle 201 generally corresponds to a closed electrical state of the contact assembly. electric self-tightening 300.

The short-circuiter 1 is in a closed state of operation when the self-clamping electrical contact assembly 300 is in a closed electrical state. The short-circuiter 1 is in an open operating state when the self-clamping electrical contact assembly 300 is in an open electrical state.

As shown on Figures 1 and 2 the self-clamping electrical contact assembly 300 comprises a movable conductive member 301 extending along a longitudinal axis Y. Said movable conductive member 301 is adapted to be connected to at least a first electrical terminal. In addition, the self-clamping electrical contact assembly 300 includes a hollow envelope 302 for connection to at least a second electrical terminal. The hollow envelope 302 and the movable conductive member 301 are intended to come into electrical contact by moving relative to each other under the action of the moving needle 201 of the pyrotechnic actuator 200.

Preferably, the hollow envelope 302 is fixed in the insulating casing 100 of the short-circuiter 1. The movable conductive member 301 is then intended to be propelled by the moving needle 201 of the pyrotechnic actuator 200.

According to the embodiments of the invention, the moving needle 201 is connected by a mechanical connection to a second end 313 of the movable conductive member 301. Thus, the movement of the movable needle 201 causes that of the organ movable conductor 301 along the same longitudinal axis of displacement Y. Thus, although able to form two distinct physical parts, the moving needle 201 and the movable conductive member 301 form a single movable functional assembly 201-301. Indeed, the two parts constituting the mobile functional assembly 201-301 move simultaneously along the longitudinal axis of displacement Y and are at the same electrical potential.

As shown on Figures 1 and 2 the movable conductive member 301 has the first electrical contact zone. This first electrical contact zone is preferably placed at a first end 312. Said first electrical contact zone is connected to the outer periphery of said movable conductive member 301 by at least one shoulder 314.

Preferably, the movable conductive member 301 is of cylindrical shape. The diameter of the cylinder at the first end 312 is less than diameter of the rest of the movable conductive member 301. The junction of the cylinders of different diameter then forms said shoulder 314.

According to an alternative embodiment not shown, the shoulder may be for example made by means of a washer engaged on the cylindrical body of the movable conductive member 301.

As shown on Figures 1 and 2 , the hollow envelope 302 comprises first deformable electrical connection means 323. Said first deformable electrical connection means 323 are intended to move and to deform under the action of a thrust force Fp generated by the conductive member mobile 301 on the move. The thrust force Fp is generated when the shoulder 314 of the movable conductive member 301 comes into contact with the first deformable electrical connection means 323. Said connection means, placed in contact or coming into contact with a displacement stop 322 then tend to deform. Said first deformable first deformable electrical connection means 323 then develop a clamping force Fs having a principal component directed in a radial direction Z perpendicular to the longitudinal axis of displacement Y. The clamping force Fs provides both a mechanical connection and an electrical connection. between the first electrical contact zone of the movable conductive member 301 and the deformable electrical connection means 303.

In addition, given the presence of the clamping force Fs, at the time of closing, the movable conductive member 301 can not bounce against the hollow envelope 302. A harmful rebound would cause a reopening of the electrical contacts of the contact assembly 300.

The hollow envelope 302 preferably comprises a cylindrical opening bore. The first deformable electrical connection means 323 are annular in shape and are positioned within the cylindrical bore. Said annular shape has an outer periphery of substantially identical section to that of the inner periphery of the bore of the hollow envelope 302.

In addition, the movable conductive member 301 has a cylindrical section at level the first electrical contact area. The annular shape of the first deformable electrical connection means 323 has an inner periphery of substantially identical section to that of the outer periphery of the first electrical contact area of the movable conductive member 301.

As shown on the figure 3 the first deformable electrical connection means 323 comprise at least one metal washer 324. Said at least one metal washer comprises, in the radial direction Z, a developed surface greater than the projected surface in this same direction.

As an exemplary embodiment, said at least one metal washer 324 has a conical shape. As shown on the figure 1 the first deformable electrical connection means 323 comprise at least two stacked conical metal washers 324. The conical metal washers 324 are preferably stacked upside down.

The choice of the number of metal washers 324 to be stacked is conditioned by the electrical current density flowing through the self-clamping electrical contact assembly 300 when the short-circuiter 1 is in the closed position. According to a development mode, the short-circuiter 1 is intended for the circulation of short-circuit currents of several kilos amperes. Twelve metal washers 324 are then stacked head-spades against the displacement stop 322.

According to an alternative embodiment, the metal washers 324 conical and stacked head to tail are mechanically connected in pairs to form a deformable conductive element.

In order to improve the distribution of the force to push Fp applied to the first deformable electrical connection means 323, it is preferable to place an intermediate piece between the shoulder 314 of the movable conductive member 301 and said connection means. The hollow envelope 302 comprises intermediate compression means 325 placed at the opening of the bore of the hollow envelope 302. Preferably, the intermediate compression means 325 comprise a metal washer whose internal diameter is less than outer diameter of the movable conductive member 301 so that the shoulder 314 can abut against said metal washer. Said intermediate compression means 325 are intended to move in contact with the shoulder 314 and uniformly transmit the thrust force Fp to the first deformable electrical connection means 323. The intermediate compression means 325 are conductive.

When the electrical contacts of the assembly 300 are in an open electrical state, the first electrical contact zone and the first deformable electrical connection means 323 are isolated by a dielectric 4 or by vacuum.

According to a first preferred embodiment as represented on the Figures 6 and 7 , taking into account the geometrical constraints of realization of the short-circuiter 1 and the isolation distances to be respected, a dielectric 4 is used to isolate the first electrical contact zone and the first deformable electrical connection means 323. The dielectric 4 is semi liquid and preferably comprises a silicone gel.

For example, when the short-circuiter 1 is used to electrically connect a phase to a ground terminal, the isolation distances between the electrical terminals must be sufficient to isolate them especially in the event of a lightning strike. According to this embodiment, in order to facilitate the crossing of the semi-liquid dielectric, the first end 312 of the movable conductive member 301 comprises a pointed penetration zone. In order to reduce the mechanical stresses due to the expansion of the semi-liquid dielectric 4 in the internal volume of the contact assembly, the first end 312 of the movable conductive member 301 comprises a pointed and hollow penetration zone. Part of the dielectric 4 can infiltrate inside the movable conductive member 301 when the latter passes through the dielectric.

The mobile functional assembly 201-301 comprises a first zone and at least a second electrical contact zone. The electrical contact zones are electrically connected to one another. Said first electrical contact zone, located at the first end 312 of the conductive member 301, is intended to be in electrical contact with the first deformable electrical connection means 323 of the hollow envelope 302 of the self-clamping contact assembly 300, said assembly then being in the closed position.

Said at least one second electrical contact zone of the mobile functional assembly 201-301 is intended to be connected to at least one second electrical terminal.

That is, said at least one second electrical contact zone is permanently connected to the second terminal regardless of the electrical state of the self-clamping electrical contact assembly 300.

That is, said at least one second electrical contact area is intended to be placed in contact with the second terminal after the movable conductive member 301 has begun moving, that is, after the moving needle 201 has left the armed position.

According to a first preferred embodiment as presented on the Figures 6 and 7 , the mobile functional assembly 201-301 comprises at least a second electrical contact zone in permanent contact with a second electrical terminal of the short-circuiter. The concept of permanent contact means that the contact between said second zone and the second electrical terminal is achieved regardless of the position of the movable conductive member 301.

As shown on Figures 4 and 5 , the pyrotechnic actuator 200 comprises a conductive cylinder body 202 having a first and a second end. The connection between said second zone and said second terminal is achieved via a cylinder body 202 of the pyrotechnic actuator 200. The first end is closed by a cylinder head 204. The second end has an opening for the passage of the moving needle 201 A pyrotechnic initiator 206 placed inside the yoke 204 for generating a gas inside the cylinder body 202 and propelling the moving needle 201 through the second end.

The mobile functional assembly 201-301 is electrically connected to the second electrical terminal via the driver cylinder body 202. The cylinder body 202 comprises means intended to be electrically connected to the first electrical terminal. In addition, electrical connection means 207 maintain a permanent electrical contact between the conductive cylinder body 202 and the mobile functional assembly 201-301. The electrical connection means 207 comprise a multipoint annular contact 207 positioned between the internal volume of the conductive cylinder body 202 and the mobile functional assembly 201-301. For example, the multipoint annular contact 207 is composed of at least one helical spring wound and positioned in a circular groove. For example, the groove is placed in the inner wall of the cylinder body 202. The sizing and the number of multipoint annular contact 207 is a function of the caliber of the device and the intensity of the electric currents.

According to this preferred embodiment of the invention, two multipoint annular contacts 207 are in contact with said second electrical contact zones of the mobile functional assembly 201-301. As an exemplary embodiment, a first multipoint annular contact 207 is in contact with the moving needle 201 and a second annular contact is in contact with the movable conductive member 301.

According to an alternative embodiment of the invention, the jack body 202 may comprise an inner envelope 203 positioned inside said body and enveloping at least a portion of the movable needle 201. The inner casing 203 ensures a better gas tightness generated by the pyrotechnic initiator 206 at the time of its activation. The inner casing 203 also provides better mechanical strength at the time of the explosion of the pyrotechnic initiator charge 206. Preferably, the inner casing 203 has the shape of a tube.

According to an alternative embodiment, the mobile functional assembly 201-301, preferably the moving needle 201, comprises a first axial abutment intended to come into contact with a second abutment of the body of the jack 202 to lock said needle in the tripped position. As shown on Figures 4 and 5 the second stop can be positioned on the inner casing 203 of the cylinder body 202. Said second stop of the body of the jack 202 is deformable to absorb a part of the displacement energy of the moving needle 201.

According to a second preferred embodiment as shown in the Figures 8 and 9 , the mobile functional assembly 201-301 comprises at least a second electrical zone in contact intended to be placed in contact with at least one second electrical terminal after the movable conductive member 301 has begun to move.

When the short-circuiter 1 is in the open position, the self-clamping electrical contact assembly 300 is in an open state, and all electrical terminals are electrically isolated.

When the short-circuiter 1 is in the closed position, the self-clamping electrical contact assembly 300 is closed after a displacement of the mobile functional assembly 201-301. The first electrical contact zone of the movable conductive member 301 is in contact with the first deformable electrical connection means 323 of the hollow envelope 302. Said at least one second electrical contact zone is then in contact with a second electrical terminal via a second deformable electrical connection means 400. Indeed, during its movement, the movable assembly 201-301 comes into contact with at least one second deformable electrical connection means 400 electrically connected to a second electrical terminal. Thus, in the closed position, the second deformable electrical connection means 400 connected to a second electrical terminal are placed in short circuit with the first electrical terminal connected via the mobile functional assembly 201-301 and the first deformable electrical connection means 323. .

According to this second preferred embodiment of the invention, the short-circuiter 1 comprises three second deformable electrical connection means 400 respectively connected to an electrical terminal. This embodiment makes it possible to short-circuit three phase conductors U, V, W to earth. Indeed, each second deformable electrical connection means 400 will be in contact with a second electrical contact zone of the mobile functional assembly 201-301, themselves connected to the one earth terminal via the set to self-clamping electrical contacts 300. Said electrical contact areas of the movable functional assembly 201-301 are all at the same earth potential when the self-clamping electrical contact assembly 300 is in a closed state. According to one embodiment, the means of the jack body 202 intended to be connected to the first electrical terminal are not. Thus, the mobile functional assembly 201-301 is not in contact with an electrical terminal when the short-circuiter 1 is in the open position.

According to a particular embodiment not shown, the short-circuiter 1 comprises only two second electric connection means with lamellae 400 respectively connected to a phase conductor. The third phase conductor would then be connected to the cylinder body 202, itself electrically connected to the functional mobile assembly 201-301 by one or more multipoint annular contacts 207.

The electrical insulation between the deformable electrical connection means 400 may be made by vacuum, all the elements then being preferably positioned in a vacuum interrupter.

As an exemplary embodiment, the second deformable electrical connection means 400 comprise circular lamellar electrical contacts 400.

• Premièrement, l'actionneur pyrotechnique est étanche et aucune manifestation extérieure due aux gaz d'explosion n'est observée à l'extérieur du corps de vérin 202. En effet, le corps de vérin 202 associé à l'ensemble fonctionnel mobile 201-301 assure une étanchéité de l'intérieur vers l'extérieur dudit corps.
• Deuxièmement, le corps de vérin 202 est conducteur et est destiné à être connecté électriquement à une borne électrique.
• Troisièmement, l'ensemble fonctionnel mobile 201-301 comprenant au moins une aiguille mobile 201 est conducteur et est destiné à être connectée électriquement au corps de vérin 202.

The peculiarity of the pyrotechnic actuator according to these preferred embodiments of the invention is to form a complete and autonomous pyrotechnic actuation module which includes at least three functionalities:

• First, the pyrotechnic actuator is sealed and no external manifestation due to the explosion gases is observed outside the cylinder body 202. Indeed, the cylinder body 202 associated with the mobile functional assembly 201-301 ensures a seal from the inside to the outside of said body.
• Secondly, the cylinder body 202 is conductive and is intended to be electrically connected to an electrical terminal.
• Thirdly, the mobile functional assembly 201-301 comprising at least one moving needle 201 is conductive and is intended to be connected electrically to the cylinder body 202.

According to a variant of the preferred embodiments of the invention, the moving needle 201 is animated with a gyroscopic movement during its movement from the first armed position to the second triggered position. This gyro movement is transmitted to the movable conductive member 301 during its movement.

According to an alternative embodiment of the invention, the dielectric 4 semi liquid is contained in a contention cage 303 placed in the insulating envelope. The contention cage 303 comprises at least two rings connected by rods.

According to an alternative embodiment of the invention, the first electrical contact zone of the first end 312 is rough and / or knurled and / or ridged. This surface state of the first contact zone allows better electrical contact of the contacts of the self-clamping electrical contact assembly 300 in the closed position.

According to an alternative embodiment of the invention, all the electrical contact zones of the mobile functional assembly 201-301 are rough and / or knurled and / or ridged.

The invention also relates to a protection assembly against internal arcs. As shown on Figures 10 and 11 , said assembly is intended for the protection of an electrical installation powered by an electric busbar U, V, W. In order to prevent and limit the damage caused by the birth of an electric arc between the bars, the assembly protection is intended to connect all the electric bars U, V, W to earth. This earth connection must be carried out during the time required for complete disconnection of the installation by a circuit breaker. Said protection circuit breaker is generally placed upstream of the short-circuit fault.

The internal arc protection kit includes a specific sensor that detects the internal arc. This sensor, not shown, can in particular be an optical sensor. This sensor is connected, preferably by fibers This decision unit 2 authorizes the actuation of the pyrotechnic actuators of one or more short-circuiter 1 according to the invention. An optical fiber link allows very fast information transfers.

As shown on the figure 8 each phase can be connected to the earth by a short-circuiter 1 independent, it will speak of short-circuiter 1 single phase.

The decision unit 2 causes the pyrotechnic actuators of each short-circuiter 1 to be fired. The synchronization between the three short-circuiters 1 is ensured by the detonation tube 22. In the event of a fault, the triggering of a single short-circuit circuiter 1 ensures simultaneous closure of the other two.

The firing of the pyrotechnic charge causes the almost instantaneous translation of a mobile functional assembly 201-301. Said assembly is placed and locked in the first deformable electrical connection means 323. All the electrical terminals U, V, W are then short-circuited to earth in a few microseconds.

According to another embodiment as represented on the figure 9 only one short-circuiter 1 is used to short-circuit the three phases simultaneously. We will speak of a 3-phase short-circuiter. The internal arc protection assembly also includes a specific sensor to detect the internal arc. This sensor is connected to the decision unit 2 which authorizes the actuation of the pyrotechnic actuator of the three-phase short-circuiter 1.

Claims (15)

1. An electric short-circuiting switch (1) between at least two electric terminals, a short-circuiting switch comprising an insulating enclosure (100) in which there are positioned:

   - a pyrotechnical actuator (200) designed to move a movable needle (201) for closing a self-clamping electric contact assembly (300), said movable needle (201) being designed to move along a longitudinal axis (Y) between a first set position and a second tripped position,

   - a self-clamping electric contact assembly (300) comprising:

   - a movable conducting member (301) designed to be connected to at least a first electric terminal and extending along a longitudinal axis (Y),

   - a hollow enclosure (302) designed to be connected to a second electric terminal,

   - said member and said enclosure being designed to come into electric contact by moving with respect to one another due to the action of the movable needle (201),

   characterized in that:

   - the movable conducting member (301) comprises a first electric contact area connected to the outer circumference of said member by at least one rim (314),

   - the hollow enclosure (302) comprises first deformable electric connection means (323) designed to come into contact with said at least one rim (314) to move due to the action of a thrust force (Fp) and to deform against a movement stop (322),

   - said first deformable electric connection means (323) developing a clamping force (Fs) having a main component directed in a radial direction (Z) perpendicular to the longitudinal axis (Y), the clamping force (Fs) ensuring an electromechanical connection between the first electric contact area of the movable conducting member (301) and the first deformable electric connection means (323).
2. The electric short-circuiting switch according to claim 1, characterized in that the first deformable electric connection means (323) have an annular shape,

   - said annular shape having an internal circumference of substantially identical cross-section to that of the external circumference of the first electric contact area of the movable conducting member (301),

   - said annular shape having an external circumference of substantially identical cross-section to that of the internal circumference of the hollow enclosure (302).
3. The electric short-circuiting switch according to claim 2, characterized in that said movable conducting member (301) comprises a cylindrical section at the level of the first electric contact area, a section having an external radius equal to the internal radius of said annular shape of the first deformable electric connection means (323).
4. The electric short-circuiting switch according to claim 2 or 3, characterized in that the first deformable electric connection means (323) comprise at least one metal washer (324) comprising, in a radial direction (Z), a developed surface that is larger than the projected surface on said direction.
5. The electric short-circuiting switch according to claim 4, characterized in that said at least one metal washer (324) has a conical shape.
6. The electric short-circuiting switch according to claim 5, characterized in that the first deformable electric connection means (323) comprise at least two stacked conical metal washers (324).
7. The electric short-circuiting switch according to claim 6, characterized in that said at least two conical metal washers (324) are stacked head-to-tail.
8. The electric short-circuiting switch according to any one of the foregoing claims, characterized in that the movable conducting member (301) is connected to the movable needle (201) by a mechanical link to form a movable functional assembly (201-301), the needle and said member being at the same electric potential.
9. The electric short-circuiting switch according to any one of the foregoing claims, characterized in that the deformable electric connection means (323, 400) and the movable conducting member (301) are positioned in a vacuum cartridge, in the open position, electric insulation being performed by the vacuum.
10. The electric short-circuiting switch according to any one of the foregoing claims 1 to 9, characterized in that it comprises a semi-liquid dielectric (4) designed to insulate the deformable electric connection means (323, 400) from the movable conducting member (301).
11. The electric short-circuiting switch according to any one of the foregoing claims, characterized in that the first electric contact area is located at the level of a first end (312) of the movable conducting member (301), said first end (312) comprising a pointed and hollow penetration area.
12. The electric short-circuiting switch according to any one of the foregoing claims, characterized in that the pyrotechnical actuator (200) comprises a conducting jack body (202) having means designed to be electrically connected to the first electric terminal, electric connection means (207) maintaining a permanent electric contact between the conducting jack body (202) and the movable functional assembly (201-301).
13. The electric short-circuiting switch according to claim 12, characterized in that the electric connection means (207) comprise a multipoint annular contact positioned between the internal volume of the conducting jack body (202) and the movable functional assembly (201-301).
14. The electric short-circuiting switch according to any one of the foregoing claims, characterized in that the pyrotechnical actuator (200) comprises a tightly sealed enclosure (203) placed inside the jack body (202) and enveloping the movable needle (201).
15. An assembly for protection against internal arcs designed to earth a set of electric bars U, V, W and comprising at least one short-circuiting switch (1) according to the foregoing claims, characterized in that it comprises a detection sensor of the internal arc connected to a decision-making unit (2), said decision-making unit (2) connected to one or more short-circuiting switches (1) being designed to authorize actuation of the pyrotechnical actuators.

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