EP3876363B1 - Rotary accessory for power socket - Google Patents

Description

TECHNICAL FIELD OF THE INVENTION

The technical field of the invention is that of electrical outlet equipment.

The present invention relates to rotating electrical socket equipment and in particular rotating electrical multi-socket equipment.

TECHNOLOGICAL BACKGROUND OF THE INVENTION

It is known equipment rotary electrical outlets which are removable accessories comprising a support and an active part rotating relative to the support, the rotating active part comprising a plurality of electrical equipment mechanisms such as a power outlet.

It is known that the rotation between the active part and the support is performed by a detent rotation mechanism allowing several angular positions. The documents EP2515391 A1 and KR100682724B disclose electrical outlet accessories according to the preamble of claim 1.

It is known from the document FR2897724A electrical outlet equipment, in this case a multi-electrical device block comprising an elongated rotatable movable box along an X axis, housing inside the electrical device mechanisms, a support and two rotation mechanisms opposite one to the other with respect to the axis X. Each rotation mechanism comprises a cylindrical opening fixed with respect to the support comprising in its internal periphery a multitude of notches and teeth and on the other hand on the mobile case, a cylindrical part comprising on its outer periphery a multitude of notches and teeth adapted to cooperate with those of the cylindrical opening. These notches and teeth form a plurality of stable angular positions of the movable case relative to the support and allow rotation by friction between the teeth and notches. Indeed, the projections pass from one notch to another by crossing a hard point to pass said housing from one stable angular position to another.

However, it has been shown that the use of this type of rotation mechanism wears out the different notches and notches in a heterogeneous way, which leads to a different feeling of torque when the mobile case is turned relative to the base. Indeed, this heterogeneous wear of the notches quickly leads to a feeling different when turning the mobile housing relative to the support that a notch of the mobile housing can be worn and interact once with a notch or tooth of the unworn support and another time a notch or unworn tooth of the support. In addition, when there are two rotating mechanisms opposed to each other with respect to an X axis, the teeth and notches on each side wear differently, this can produce a twisting torque that is unpleasant for the user. user and can lead to accelerated wear of the rotation mechanisms.

There are also rotation mechanisms comprising a movable part comprising lugs and a fixed part comprising an abutment and an elastically mounted metal ball which allows step-by-step rotation in the notches of the movable part. However, such a mechanism entails regular greasing of the elastically mounted ball to prevent it from seizing up in the housing housing the ball, causing the user to feel blocked. In addition, assembly is more complicated and can lead to additional production costs.

There is therefore a need to reduce these different sensations of rotation for the same number of uses of the rotation mechanism.

SUMMARY OF THE INVENTION

The invention offers a solution to the problems mentioned above, by making it possible to have electrical outlet equipment comprising an elastic rotation mechanism with notches.

• un support et une partie active rotative par rapport au support selon un axe de rotation,
• un mécanisme de rotation à cran permettant la rotation du support par rapport à la partie active, comprenant :
  • une lame ressort comprenant au moins un cran et une butée pour être solidaire avec le support ou la partie active,
  • une partie cylindrique comprenant des crans de forme complémentaire avec le cran de la lame ressort,
• et en ce que la lame ressort se déforme élastiquement en fléchissant lorsque la partie active rotative par rapport au support d'une position angulaire à une autre position angulaire et en ce que dans chaque position angulaire, le cran de la lame ressort est en contact avec respectivement un des crans complémentaires de la partie cylindrique.

One aspect of the invention relates to an electrical outlet accessory comprising:

• a support and an active part rotating relative to the support along an axis of rotation,
• a detent rotation mechanism allowing rotation of the support relative to the active part, comprising:
  • a leaf spring comprising at least one notch and a stop to be integral with the support or the active part,
  • a cylindrical part comprising notches of complementary shape with the notch of the leaf spring,
• and in that the leaf spring deforms elastically by bending when the rotating active part relative to the support from one angular position to another angular position and in that in each angular position, the notch of the leaf spring is in contact with respectively one of the complementary notches of the cylindrical part.

Thanks to the invention, the leaf spring which deforms wears less quickly than the friction between notches and is simple to fit. Thus the detent rotation mechanism has no elastically mounted ball requiring lubrication of the ball. In addition, the abutment of the leaf spring to be integral with the support or the rotating active part, makes it possible to have a simple assembly of the leaf spring which is removable in the support or the active part and therefore allows it to be in another material than that of the support or of the active part, thus making it easier to design and choose the notching spring effect as well as its wear. Indeed, this makes it possible to avoid choosing a more expensive or unsuitable material for the support or the active part in order to avoid wear of the leaf spring.

• Selon un mode de réalisation, la lame ressort est solidaire en rotation avec la partie active et la partie cylindrique est solidaire en rotation avec le support. La partie cylindrique peut être monobloc avec le support et être une extrémité du support. Cela permet de rendre solidaire la lame ressort avec la partie active en rotation
• Selon une variante du mode de réalisation précédent, la lame ressort est solidaire en rotation avec le support et la partie cylindrique est solidaire en rotation avec la partie active. La partie cylindrique peut être monobloc avec la partie active et être une extrémité de la partie active.
• Selon un mode de réalisation, la lame ressort se déforme radialement par rapport à l'axe de rotation.
• Selon une variante du mode de réalisation précédent, la lame ressort se déforme parallèlement par rapport à l'axe de rotation. Notamment la lame ressort peut fléchir par une force d'un cran de la partie cylindrique appuyant la lame ressort parallèlement par rapport à l'axe de rotation.
• Selon un mode de réalisation, la lame ressort est métallique.
• Selon un mode de réalisation, la lame ressort comprend deux appuies contre deux appuies du support ou de la partie active rotative, le cran de la lame ressort étant entre les deux appuies de la lame ressort.
• Selon un mode de réalisation, la lame ressort comprend une deuxième butée pour être solidaire avec le support ou la partie active rotative.
• Selon un exemple de ce mode de réalisation, le cran de la lame ressort est entre les deux butées. Cela permet de maintenir la lame ressort tout en guidant sa déformation pour contrôler ainsi son usure. En outre cela permet de simplifier son montage en évitant un risque de déboitement de la lame ressort.
• Selon un exemple de ce mode de réalisation, la lame ressort comprend deux portions planes comprenant chacune une des deux butées et la partie déformée formant le cran est située entre les deux potions planes. Cela permet d'avoir une déformation simple et contrôlée de la lame ressort.
  • Par exemple, la butée est une saillie logée dans une encoche du support ou de la partie active rotative.
  • Par exemple, la butée forme un crochet pour s'ancrer dans un logement de la partie active ou du support.
  • Selon un autre exemple, la butée est une ouverture ou une encoche recevant une saillie, par exemple un plot fixé au support ou à la partie active rotative.
• Selon un mode de réalisation, la lame ressort comprend une butée de guidage pour guider la déformation de la lame ressort en coopérant avec une butée de guidage du support ou de la partie active. Cela permet de guider la déformation de la lame ressort pour éviter des déformations élastiques non contrôlées.
  • Par exemple, la butée de guidage de la lame ressort est une surface périphérique d'une ouverture de guidage guidée et traversée par un plot de guidage solidaire du support ou de la partie active.
  • Par exemple, la butée de guidage de la lame ressort est une surface périphérique d'une ouverture centrale et traversée par une portion cylindrique de centrage et de guidage de la lame ressort, s'étendant axialement dans l'ouverture centrale, solidaire du support ou de la partie active.
  • Selon un exemple, la butée de guidage forme ou est située dans une zone formant la deuxième butée du mode de réalisation précédent.
• Selon un mode de réalisation, la lame ressort est une lamelle entourant au moins en partie l'axe de rotation.
  • Selon un exemple, la lamelle entoure l'axe de rotation à 360°. Par exemple, la lamelle est une couronne ou une rondelle entourant l'axe de rotation à 360°.
  • Selon un exemple, la lamelle comprend deux crans.
  • Par exemple les deux crans sont opposés diamétralement. Les crans peuvent être régulièrement répartis pour permettre d'avoir différentes positions de montage et un équilibrage de sensation de couple de rotation.
  • La lame ressort peut comprendre des butées anti rotation.
  • La lame ressort peut comprendre le même nombre de butées anti rotation que de crans, régulièrement réparties entre les crans. Cela permet d'avoir une lame ressort pouvant avoir plusieurs positions de montage afin de simplifier son montage.
• Selon une variante du mode de réalisation précédent, la lame ressort est une plaque comprenant au moins une portion s'étendant longitudinalement de façon plate et une partie déformée formant le cran. Une telle lame ressort à l'avantage d'avoir un mécanisme de rotation pouvant s'adapter facilement à différent accessoires de prise électrique. En effet, dans le cas d'une partie active rotative comprenant une préhension de grand diamètre, la lame ressort peut comprendre deux plaques pour augmenter la rigidité et ainsi diminuant les coûts de fabrications par rapport à une partie active rotative comprenant un plus petit diamètre de préhension pouvant comprendre une seule plaque.
  • Selon un exemple, la lamelle comprend deux portions planes et la partie déformée formant le cran étant située entre les deux potions planes. Par exemple, chaque portion plane comprend une ouverture traversée par un des deux plots du support ou de la partie active pour permettre de maintenir, déformer et guider la lame ressort.
• Selon un mode de réalisation, le mécanisme de rotation à cran comprend deux lames ressorts. Cela permet d'augmenter le couple de rotation simplement. Par exemple, les deux lames ressorts sont empilées ou sont placés à diffèrent endroits.
• Selon un mode de réalisation, la partie cylindrique comprend des creux formant des crans et la lame ressort comprend une saillie formant cran située dans une position angulaire dans un des creux formant crans de la partie cylindrique et est adaptée à déformer élastiquement par flexion la lame ressort en s'appuyant sur une dent entre deux creux formant crans pour passer d'un creux à un autre creux formant crans de la partie cylindrique.
• Selon une variante de ce mode de réalisation, la partie cylindrique comprend des saillies formant des crans et la lame ressort est une lamelle ayant des portions planes et un creux formant cran situé dans une position angulaire dans une des saillies formant crans de la partie cylindrique et en ce que chaque extrémité du creux formant cran s'étendant des portions planes de la lame ressort est adaptée à déformer élastiquement par flexion la lame ressort en s'appuyant sur une saillie formant cran de la partie cylindrique pour passer d'une saillie à une autre saillie formant cran de la partie cylindrique.
• Selon un mode de réalisation, la partie cylindrique est en plastique.
• Selon un mode de réalisation, la partie cylindrique est en deux parties. Par exemple elle comprend deux extrémités de deux demi-coque formant la partie active ou le support.
• Selon un mode de réalisation, la partie cylindrique entoure l'axe de rotation.
• Selon un mode de réalisation, la partie cylindrique comprend des crans sur au moins 180° autour de l'axe de rotation permettant de réaliser une rotation de la partie active rotative par rapport au support sur au moins 180° autour de l'axe de rotation.
  • Selon un exemple, la partie cylindrique comprend des crans sur 360° autour de l'axe de rotation.
  • Selon un exemple, les crans sont régulièrement répartis.
  • Selon un exemple, la partie cylindrique comprend des crans sur moins de 200° autour de l'axe de rotation.
• Selon un mode de réalisation, l'accessoire comprend un moyen de connexion électrique traversant la partie cylindrique. Par exemple, le moyen de connexion électrique est un câble d'alimentation isolé traversant la partie cylindrique et est connecté à au moins un mécanisme d'appareillage électrique. Un tel moyen de connexion électrique permet d'être souple et de s'adapter à la rotation sans avoir de système de connexion complexe à contact.
  • Selon un exemple, le support comprend une ouverture et un passefile dans l'ouverture traversé par moyen de connexion électrique.
  • Selon un autre exemple, le support comprend un mécanisme d'appareillage électrique, par exemple une prise mâle, raccordé au moyen de connexion électrique.
• Selon un mode de réalisation, la partie active comprend au moins un mécanisme d'appareillage électrique comme une paire de fiches électrique d'une prise de courant.
  • Selon un exemple, le mécanisme d'appareillage électrique est une prise de courant femelle.
  • Selon un exemple, la partie active comprend une pluralité de mécanismes d'appareillage électrique.
• Selon un mode de réalisation, le support comprend un mécanisme d'appareillage électrique de type mâle.
• Selon un mode de réalisation, la partie active s'étend le long de l'axe de rotation et comprend deux extrémités dont une est en liaison par le mécanisme de rotation.
• Selon un mode de réalisation, la partie active comprend une pluralité de mécanismes d'appareillage électrique comprenant des fiches de connexion et en ce que l'accessoire comprend :
  • un câble d'alimentation comprenant des conducteurs pour alimenter selon différents potentiels électriques les fiches de connexion,
  • un système de connexion à bras de contact électrique glissant sur une piste de connexion, comprenant un bras de contact par piste, au nombre au moins des différents potentiels électrique de fiches, les pistes sont connectées chacune à des fiches de même potentiel des mécanismes d'appareillages électrique ou à un des conducteurs du câble et les bras de contact sont connectés chacun respectivement à un des conducteurs du câble ou à des fiches de même potentiel des mécanismes d'appareillages électrique.
• Selon un mode de réalisation, le mécanisme à cran comporte une saillie radiale formant un pion d'équilibrage faisant face aux crans de la partie cylindrique et est opposée diamétralement au cran de la lame ressort.

In addition to the characteristics which have just been mentioned in the previous paragraph, the electrical outlet accessory according to one aspect of the invention may have one or more additional characteristics among the following, considered individually or according to all technically possible combinations:

• According to one embodiment, the leaf spring is integral in rotation with the active part and the cylindrical part is integral in rotation with the support. The cylindrical part can be integral with the support and be one end of the support. This makes it possible to make the spring blade integral with the active part in rotation
• According to a variant of the previous embodiment, the leaf spring is integral in rotation with the support and the cylindrical part is integral in rotation with the active part. The cylindrical part can be integral with the active part and be one end of the active part.
• According to one embodiment, the leaf spring deforms radially with respect to the axis of rotation.
• According to a variant of the previous embodiment, the leaf spring deforms parallel to the axis of rotation. In particular the leaf spring can bend by a force of a notch of the cylindrical part pressing the leaf spring parallel with respect to the axis of rotation.
• According to one embodiment, the leaf spring is metallic.
• According to one embodiment, the leaf spring comprises two supports against two supports of the support or of the rotating active part, the notch of the leaf spring being between the two supports of the leaf spring.
• According to one embodiment, the leaf spring comprises a second stop to be integral with the support or the rotating active part.
• According to an example of this embodiment, the notch of the leaf spring is between the two stops. This makes it possible to maintain the leaf spring while guiding its deformation in order to control its wear. In addition, this makes it possible to simplify its assembly by avoiding a risk of dislocation of the leaf spring.
• According to an example of this embodiment, the leaf spring comprises two flat portions each comprising one of the two stops and the deformed part forming the notch is located between the two flat potions. This makes it possible to have a simple and controlled deformation of the leaf spring.
  • For example, the abutment is a projection housed in a notch of the support or of the rotating active part.
  • For example, the abutment forms a hook to be anchored in a housing of the active part or of the support.
  • According to another example, the abutment is an opening or a notch receiving a projection, for example a stud fixed to the support or to the rotating active part.
• According to one embodiment, the leaf spring comprises a guide stop to guide the deformation of the leaf spring by cooperating with a guide stop of the support or of the active part. This makes it possible to guide the deformation of the leaf spring to avoid uncontrolled elastic deformations.
  • For example, the guide abutment of the leaf spring is a peripheral surface of a guide opening guided and traversed by a guide stud secured to the support or to the active part.
  • For example, the guide abutment of the leaf spring is a peripheral surface of a central opening and traversed by a cylindrical portion for centering and guiding the leaf spring, extending axially in the central opening, secured to the support or of the active part.
  • According to one example, the guide abutment forms or is located in a zone forming the second abutment of the previous embodiment.
• According to one embodiment, the leaf spring is a lamella at least partially surrounding the axis of rotation.
  • According to one example, the lamella surrounds the axis of rotation through 360°. For example, the lamella is a crown or a washer surrounding the axis of rotation at 360°.
  • According to one example, the slat comprises two notches.
  • For example, the two notches are diametrically opposed. The detents can be evenly spaced to allow for different mounting positions and torque feel balancing.
  • The leaf spring may include anti-rotation stops.
  • The leaf spring may comprise the same number of anti-rotation stops as of notches, regularly distributed between the notches. This makes it possible to have a leaf spring which can have several mounting positions in order to simplify its mounting.
• According to a variant of the previous embodiment, the leaf spring is a plate comprising at least one portion extending longitudinally in a flat manner and a deformed part forming the notch. Such a spring blade has the advantage of having a rotation mechanism that can be easily adapted to different electrical outlet accessories. Indeed, in the case of a rotating active part comprising a large diameter grip, the leaf spring can comprise two plates to increase rigidity and thus reduce manufacturing costs compared to a rotating active part comprising a smaller diameter of grip that may comprise a single plate.
  • According to one example, the lamella comprises two flat portions and the deformed part forming the notch being located between the two flat potions. For example, each flat portion comprises an opening through which one of the two studs of the support or of the active part passes to make it possible to maintain, deform and guide the leaf spring.
• According to one embodiment, the detent rotation mechanism comprises two leaf springs. This makes it possible to simply increase the rotation torque. For example, the two leaf springs are stacked or are placed in different places.
• According to one embodiment, the cylindrical part comprises recesses forming notches and the leaf spring comprises a projection forming a notch located in an angular position in one of the recesses forming notches of the cylindrical part and is adapted to elastically deform the leaf spring by bending by relying on a tooth between two recesses forming notches to pass from one recess to another recess forming notches of the cylindrical part.
• According to a variant of this embodiment, the cylindrical part comprises projections forming notches and the leaf spring is a lamella having flat portions and a recess forming a notch located in an angular position in one of the projections forming notches of the cylindrical part and in that each end of the recess forming a notch extending from the flat portions of the leaf spring is adapted to elastically deform the leaf spring by bending by resting on a projection forming a notch of the cylindrical part to pass from a projection to a another projection forming notch of the cylindrical part.
• According to one embodiment, the cylindrical part is made of plastic.
• According to one embodiment, the cylindrical part is in two parts. For example, it comprises two ends of two half-shells forming the active part or the support.
• According to one embodiment, the cylindrical part surrounds the axis of rotation.
• According to one embodiment, the cylindrical part comprises notches over at least 180° around the axis of rotation allowing the rotating active part to be rotated relative to the support over at least 180° around the axis of rotation .
  • According to one example, the cylindrical part comprises notches over 360° around the axis of rotation.
  • According to one example, the notches are regularly distributed.
  • According to one example, the cylindrical part comprises notches over less than 200° around the axis of rotation.
• According to one embodiment, the accessory comprises an electrical connection means passing through the cylindrical part. For example, the electrical connection means is an insulated power cable passing through the cylindrical part and is connected to at least one electrical equipment mechanism. Such an electrical connection means makes it possible to be flexible and to adapt to rotation without having a complex contact connection system.
  • According to one example, the support comprises an opening and a grommet in the opening through which an electrical connection means passes.
  • According to another example, the support comprises an electrical equipment mechanism, for example a male plug, connected to the electrical connection means.
• According to one embodiment, the active part comprises at least one electrical device mechanism such as a pair of electrical plugs of a power outlet.
  • According to one example, the electrical equipment mechanism is a female socket outlet.
  • According to one example, the active part comprises a plurality of electrical equipment mechanisms.
• According to one embodiment, the support comprises a male-type electrical equipment mechanism.
• According to one embodiment, the active part extends along the axis of rotation and comprises two ends, one of which is connected by the rotation mechanism.
• According to one embodiment, the active part comprises a plurality of electrical equipment mechanisms comprising connection plugs and in that the accessory comprises:
  • a power cable comprising conductors for supplying the connection plugs according to different electrical potentials,
  • a connection system with an electric contact arm sliding on a connection track, comprising one contact arm per track, at least in number of the different electric potentials of plugs, the tracks are each connected to plugs of the same potential of the mechanisms of electrical equipment or to one of the conductors of the cable and the contact arms are each connected respectively to one of the conductors of the cable or to plugs of the same potential of the mechanisms of electrical equipment.
• According to one embodiment, the notch mechanism comprises a radial projection forming a balancing pin facing the notches of the cylindrical part and is diametrically opposed to the notch of the leaf spring.

The invention and its various applications will be better understood on reading the following description and on examining the accompanying figures.

BRIEF DESCRIPTION OF FIGURES

• [ Fig. 1A] représente une vue schématique tridimensionnelle en éclatée d'un accessoire de prise électrique selon un premier exemple d'un premier mode de réalisation.
• [ Fig. 1B] représente une vue schématique tridimensionnelle en éclatée d'une portion d'un mécanisme de rotation à cran du premier exemple d'un premier mode de réalisation.
• [ Fig. 1C] représente une coupe d'une deuxième portion d'un mécanisme de rotation à cran du premier exemple d'un premier mode de réalisation.
• [ Fig. 2] représente schématiquement une portion d'un mécanisme de rotation à cran selon un deuxième exemple du premier mode de réalisation.
• [ Fig. 3] représente partiellement une vue schématique d'un accessoire de prise électrique selon un troisième exemple d'un premier mode de réalisation.
• [ Fig. 4] représente schématiquement un exemple d'un deuxième mode de réalisation d'accessoire de prise électrique.
• [ Fig. 5A] représente schématiquement une vue tridimensionnelle d'un exemple de mécanisme de rotation à cran selon le deuxième mode de réalisation d'accessoire de prise électrique.
• [ Fig. 5B] représente schématiquement une vue tridimensionnelle d'une lame ressort du mécanisme de rotation à cran de la figure 5A.
• [ Fig. 5C] représente schématiquement une vue tridimensionnelle d'une partie cylindrique du mécanisme de rotation à cran de la figure 5A.
• [ Fig. 6] représente schématiquement une vue tridimensionnelle éclatée d'une portion d'accessoire de prise électrique selon le deuxième mode de réalisation.
• [ Fig. 7] représente schématiquement une vue tridimensionnelle en coupe partielle d'une portion d'accessoire de prise électrique selon le deuxième mode de réalisation.
• [ Fig. 8] représente schématiquement une vue tridimensionnelle en coupe partielle d'une autre portion d'accessoire de prise électrique selon le deuxième mode de réalisation.

The figures are presented by way of indication and in no way limit the invention.

• [ Fig. 1A ] shows an exploded three-dimensional schematic view of an electrical outlet accessory according to a first example of a first embodiment.
• [ Fig. 1B ] shows an exploded three-dimensional schematic view of a portion of a detent rotation mechanism of the first example of a first embodiment.
• [ Fig. 1 C ] shows a section of a second portion of a detent rotation mechanism of the first example of a first embodiment.
• [ Fig. 2 ] schematically represents a portion of a detent rotation mechanism according to a second example of the first embodiment.
• [ Fig. 3 ] partially represents a schematic view of an electrical outlet accessory according to a third example of a first embodiment.
• [ Fig. 4 ] schematically represents an example of a second embodiment of an electrical outlet accessory.
• [ Fig. 5A ] schematically represents a three-dimensional view of an example of a notch rotation mechanism according to the second embodiment of the electrical outlet accessory.
• [ Fig. 5B ] schematically represents a three-dimensional view of a leaf spring of the detent rotation mechanism of the figure 5A .
• [ Fig. 5C ] schematically represents a three-dimensional view of a cylindrical part of the detent rotation mechanism of the figure 5A .
• [ Fig. 6 ] schematically represents an exploded three-dimensional view of an electrical socket accessory portion according to the second embodiment.
• [ Fig. 7 ] schematically represents a three-dimensional view in partial section of a portion of electrical outlet accessory according to the second embodiment.
• [ Fig. 8 ] schematically represents a three-dimensional view in partial section of another electrical socket accessory portion according to the second embodiment.

DETAILED DESCRIPTION

The figures are presented by way of indication and in no way limit the invention. Unless specified otherwise, the same element appearing in different figures has a single reference.

The Figure 1A shows a schematic representation a schematic view of an electrical outlet accessory according to a first example of a first embodiment.

In this example, the electrical outlet accessory 1 is an electrical multi-equipment unit, here a multiple outlet unit, intended to rest on a table or a work surface or even on a floor.

The electrical socket accessory 1 comprises an active part 11 elongated along an axis X, internally housing a plurality of electrical equipment mechanisms 12 such as current socket or switch mechanisms. In this example, each plurality of electrical equipment mechanisms 12 comprises two earth plugs 122 and two female power supply plugs 121 but may, for example, comprise an earth plug and two female plugs or even other types of plugs according to the standards of the different countries of sale such as for example a USB port.

The electrical outlet accessory 1 comprises at least one support 13a, 13b. In this case, in this example the electrical socket accessory 1 comprises a first support 13a and a second support 13b to rest the electrical socket accessory 1 with the axis X parallel to a support, for example horizontal, on a table or a work plan or even on a floor but could comprise only one support 13a, 13b having the axis X perpendicular to a support, for example vertical with respect to a table.

The electrical outlet accessory 1 comprises a first and a second detent rotation mechanism 3a, 3b allowing the rotation of the active part 11 with respect to the first support 13a and the second support 13b respectively. The figure 1B shows, in more detail, in exploded view, the second notch rotation mechanism 3b of part of the electrical outlet accessory 1 and the figure 1C shows a section of the electrical outlet accessory 1 at the level of the first detent rotation mechanism 3a.

The electrical outlet accessory 1 can also comprise a single detent rotation mechanism, for example the first detent rotation mechanism 3a. In this case the second support 13b comprises only a connection free of rotation along the axis X with respect to the active part 11.

The active part 11 can be a casing which preferably globally has the shape of a tube. The active part 11 is formed in this example by assembling an upper cylindrical half-shell 110A and a lower cylindrical half-shell 110B. The joint between the half-shells can be made by clipping or screwing, in this case by screwing.

The active part 11 further comprises in this example, a trim 111 which fills an opening of the upper half-shell 110A and which here defines a plurality of wells 111A for receiving electrical equipment mechanisms 12, in this case sockets current, aligned along the X axis of the active part 11.

Each reception well 111A comprises in its bottom two holes forming the female power plugs 121 for the passage of contact pins of an electrical plug and each reception well 111A here comprises two pins forming the earth plugs 122 which emerge in the receiving well 111A perpendicular to its bottom.

Said bezel 111 comprises, at one end, a button 111B for actuating a control switch of said multi-device unit. The actuating key is in this case pivotable along an axis perpendicular to the axis of rotation X and makes it possible to cut off the electrical supply to all of the electrical equipment mechanisms.

The active part 11 comprises a first end 113a and a second end 113b opposite the first end 113a each mounted for rotation around the axis X in the first support 13a and the second support 13b respectively.

Each support 13a, 13b comprises a support element 130 comprising a circular housing each respectively surrounding the first and second ends 113a, 113b of the active part 11. The internal periphery of the circular housing of the support element 130 of each support 13a, 13b is complementary with an outer peripheral surface of respectively each first and second ends 113a, 113b.

In this example, each support 13a, 13b is therefore intended to rest on a support surface (not shown) and the active part 11 is therefore an outer casing arranged with each support element 130 to extend above and to proximity to said support surface. Each support 13a, 13b comprises two support feet 131 extending from the support element 130 intended to rest on the support surface. In this case, each support foot 131 comprises an opening for fixing the feet to the support surface using a fixing member such as a screw or a rivet, as well as a rectangular-shaped opening for receiving a flexible plastic clamping collar with anti-return ratchet, also called cable clamp, for example of the type known under the “ ^Colson® ” brand or the “ ^Colring® ” brand allowing attachment to cylindrical or profiled tubular supports.

In this example, each support element 130 of the first and second support 13a, 13b comprises an opening through which the first and second ends 113a, 113b respectively of the active part 11 pass.

The first and the second end 113a, 113b, the second end 113b of which is particularly visible on the figure 1B , comprises a shoulder having a solid radial surface closing the inside of the active part 11. The shoulder comprises an outer periphery for centering and cooperating in rotation with an internal shoulder of the support element 130. Each solid radial surface of the first and the second end 113a, 113b thus closes the opening of the corresponding support 13a, 13b.

The first and the second ends 113a, 113b of the active part 11 have an identical shape except in that the first end 113a comprises an axial opening crossed by the axis X, filled by a grommet 18 crossed by a power cable 8 visible in section on the figure 1C representing a radial section of the electrical outlet accessory 1. The power cable 8 comprising at least one external part, not shown, and an internal part for connecting the electrical equipment mechanisms 12 to a network, in this case through the control switch. The power cable 8 in this case comprises three wires for connecting the phase, neutral and earth plugs. The grommet 18 extends axially outside the housing formed by the opening of the first support 13a.

According to another example not shown, the active part 11 comprises a radial opening and a grommet in the opening through which passes a power cable connected to the electrical equipment mechanisms 12.

According to another example not shown, the first support 13a comprises an axial opening and a grommet filling the opening, through which passes a power cable connected to the electrical equipment mechanisms 12 passing through an axial opening of the active part.

In this example shown, the rotation of the active part 11 in the support elements 130 of the supports 13a, 13b allows several turns of rotation. The rotation is in this example limited by the torsion of the cable when the latter is connected to an electrical equipment mechanism to electrically supply the electrical equipment mechanisms 12. Thus the first and the second detent rotation mechanism 3a, 3b allows several turns around the axis of rotation X, of the active part 11 with respect to the first and second support 13a, 13b before twisting the cable blocking the rotation.

According to another example not shown, the cylindrical part may have an anti-rotation stop, such as for example that shown in a third example of this first embodiment shown in the picture 3 explained in detail below. The rotation of the active part 11 in the support elements 130 is thus limited by this anti-rotation stop. The rotation of the active part 11, with respect to the first and second supports 13a, 13b can take place over 360° minus the degree of the thickness of the anti-rotation stop, for example 258°. The rotation limit makes it possible to prevent the electrical cables from being torn off and disconnected by undergoing torsional stresses during the rotation of the active part relative to the support part. The electric cable has the advantage of not causing an electric arc or an electric fault with each step-by-step rotation of the active part 11 relative to the first and second supports 13a, 13b. In the case where the cable crosses the active part 11 on a radial side, the anti-rotation stop can also prevent rotation beyond 180° to avoid turns of the cable around the active part 11.

In another example not shown, in which the rotation mechanism 3a, 3b allows several turns of rotation of the active part 11, relative to the first and second supports 13a, 13b, the device may not have any limitation of the rotation by twisting the cable 8, comprising an electrical contact arm connection system sliding on a connection track, pivoting with the support 13a or the active part 11. The tracks are each connected to plugs of the same potential of the mechanisms of electrical equipment 12 or to one of the conductors of the cable 8 and the contact arms are each connected respectively to one of the conductors of the cable 8 or to plugs of the same potential of the electrical equipment mechanisms 12. The number of arms and tracks corresponding to the numbers of different potential, in this case three ( earth, neutral and phase). For example, the cable 8 comprises for each of these conductors a connection to a corresponding electrical contact arm of the connection system and a 360° track per contact arm, each located on the active part, insulated and offset from each other. , in that each plug of each electrical equipment mechanism 12 is connected to one of the corresponding tracks. For example the cable 8 comprises a phase conductor connected to a phase arm, a neutral conductor connected to a neutral arm and an earth conductor connected to an earth arm, and the active part comprises three concentric circular tracks located for example on a radial face of end 113a. The tracks can be on an outer radial face of the end 113a of a solid radial surface closing the inside of the active part 11 or an inner radial face of the radial surface through which the grommet 18 passes, mounted in rotation with this radial surface of the active part 11. According to another example, the tracks are mounted on an X-axis track shaft comprising rings forming a track like a ring commutator. For example, the raceway shaft extends in a housing of the support 13 comprising a radial surface closing the raceway shaft housing. The contact arms can each be a conductive elastic strip prestressed against the corresponding track. The track shaft can be fixed either to the support 13a or to the active part 11 and the contact arms are respectively fixed to the active part 11 or to the support 13a.

Each notch rotation mechanism 3a, 3b allowing the rotation of the corresponding support 13a, 13b with respect to the active part 11, comprises a leaf spring 30a, 30b forming a notch 300 and a cylindrical part 31a, 31b comprising notches 311 of complementary with the notch 300 of the leaf spring 30a, 30b.

In this example, the two leaf springs 30a, 30b are identical and the cylindrical part 31a, 31b are identical. In this case, the supports 13a and 13b are also identical. This makes it possible to simplify the assembly and the manufacturing cost.

Each leaf spring 30a, 30b deforms elastically when the active part 11 rotates with respect to the corresponding support 13a, 13b from one angular position to another angular position.

In each angular position, the notch 300 of the leaf spring 30a, 30b is in contact with respectively one of the corresponding notches 311 of the cylindrical part 31a, 31b.

The fact that the leaf spring 30a, 30b deforms makes it possible to have a notch 300 which wears less quickly than between plastic notches which rub against each other at each rotation solely by friction. In addition, such a leaf spring 30a, 30b is simple to mount compared to an elastically mounted ball system requiring lubrication of the ball. The leaf spring 30a, 30b is therefore removably mounted (removable) and can therefore be in another material.

In this example shown, each leaf spring 30a, 30b is metallic and the cylindrical part 31a, 31b comprising notches 311 is plastic.

In this example shown, each leaf spring 30a, 30b comprises a single notch 300, thus making it possible to reduce different sensations at each angular rotation step by step. In addition, the fact of having a rotation mechanism 3a, 3b on each side of the active part 11 with respect to the supports 13a, 13b, makes it possible to reduce the sensation of a torque between the rotational connections of the part activates 11 and supports 13a, 13b.

In this embodiment, each leaf spring 30a, 30b is integral in rotation with the active part 11 and the corresponding cylindrical part 31a, 31b is integral in rotation with the corresponding support 13a, 13b. The notch mechanism 3a, 3b comprises a radial projection forming a balancing pin 1103 (of which that of the end 113A is visible on the figure 1A and 1 C ) facing the notches of the cylindrical part 31a, 31b and is diametrically opposed to the notch 300 of the leaf spring 3a, 3b. In this case, each notch mechanism 3a, 3b comprises a balancing pin. Each balancing pin 1103 extends radially towards the cylindrical part comprising a maximum radius less than the radius of the notch 300 of the leaf spring 3a, 3b. In this case, the maximum radius with respect to the X axis is closer to the smallest radius of each tooth 312 than to the largest radius of each notch 311 of the active part to prevent it from being damaged quickly and changing the sensation of rotation between the two rotation mechanisms 3a, 3b for the user over time. These balancing pins 1103 allow the balancing in position during the rotation, which can avoid the transfer by gravity of the active part 11 to only the leaf spring 30a, 30b. The games necessary for the rotation are thus partly guaranteed by these balancing pins and relieves the leaf spring of the weight of the active part in certain angular positions of the active part 11 with respect to the supports 13A, 13B.

By an element "fixed in rotation" to another element, it is meant that if an element rotates along the axis of rotation X the other element rotates along the axis of rotation X. Thus in this embodiment if the part active 11 rotates relative to the support 13a, 13b, the leaf spring 30a, 30b with the active part 11 rotates along the axis of rotation X relative to the support 13a, 13b and the cylindrical part 31a, 31b rotates along the axis of rotation X with the corresponding support relative to the active part 11.

In this example shown, the leaf spring 30a, 30b deforms radially with respect to the axis of rotation X but could also, according to another example of the detent rotation mechanism not shown, deform parallel to the axis of rotation X .

In this example of this embodiment, the notch 300 of the leaf spring 30 is a rounded projection and the notches 311 of each cylindrical part 31a, 31b are each a recess or notch, complementary rounded between teeth 312 of the cylindrical part 31a , 31b. In this case, in this example, the notches 311, of each cylindrical part 31a, 31b, undulate with the teeth 312 on at least part of the peripheral internal surface of the support element 130 of the support 13. In this example the notches 311 of the cylindrical part 31a, 31b, undulate with the teeth 312, over 360°, i.e. over the entire peripheral internal surface of the support element 130. In this example, the leaf spring 30a, 30b is located radially to the interior of the cylindrical part 31a, 31b.

According to another example not shown, the leaf spring 30a, 30b is axially housed on a radial surface of the end 113 of the active part 11 and includes its notches 300 extending from this part towards the notches 311 of the support 13a, 13b , being located axially opposite the outside of the cylindrical part 31a, 31b.

In this example shown, each leaf spring 30a 30b comprises a plate comprising at least one portion extending longitudinally in a flat manner and a deformed part forming the notch 300. In this case, the strip comprises two flat portions and the deformed part forming the notch 300 is located between the two flat potions.

In this example shown, each cylindrical part 31a, 31b is an internal peripheral part 130 of the corresponding support 13a, 13b and each leaf spring 30a, 30b comprises in this example, a stop 303i to be integral with the active part 11. occurrence each leaf spring 30a, 30b comprises two abutments 303i each forming a hook to be anchored in a housing 113i of the active part 11. The notch 300 of each leaf spring 30a, 30b, in this case a rounded projection, is located approximately in the middle between the two stops 303i.

The housings 113i of the first leaf spring 30a and of the second leaf spring 30b are each formed respectively in the outer periphery of the first end 113a and the second end 113b. Each housing 113i of the stops 303i of each leaf spring 30a, 30b thus makes it possible to hold the leaf spring 30a, 30b radially and axially with the walls of the support element 130.

In this example, the first leaf spring 30a and the second leaf spring 30b are each mounted elastically constrained by having their hook-shaped stops 303i each in a housing 113i of the active part 11.

On the figure 1C , it can be seen in the section that each housing 113i allows the deformation of the leaf spring 30a, 30b by allowing the planar portions extending longitudinally in a flat manner of the plate to deform radially towards the axis X while deforming the tabs hook-shaped stops 303i in the housing 113i. In particular, the leaf spring therefore comprises two supports resting against two projections extending from each housing 113i to guide the deformation of the leaf spring. These two projections extend outwards from the outer peripheral surface comprising the housing between the corresponding hook and the notch 300 of the leaf spring. Thus when the active part 11 is turned relative to the two supports 13a, 13b, initially each leaf spring 30a, 30b compresses elastically by sliding its notch 300 against an edge of a notch 311 of the cylindrical part 31a, 31b until it is against a tooth 312 between two notches 311 of the cylindrical part 31a, 31b while elastically deforming by compression and bending the leaf spring 30a, 30b by its bearings on the projections of the support each forming a bearing so that the blade spring deforms. This deformation is therefore controlled and addition is radial with respect to the axis of rotation allowing it to rotate in both directions of rotation. Secondly, each leaf spring 30a, 30b expands elastically by sliding its notch 300 against an edge of a notch 311 until it is at the bottom of the notch 311 of the cylindrical part 31a, 31b.

The figure 2 shows a second example of a portion of a detent rotation mechanism 3 of the first embodiment, which can replace the first or/and the second rotation mechanism 3a, 3b.

The rotation mechanism 3 is identical to the first and second rotation mechanisms 3a, 3b except with regard to the following characteristics:

In this second example, the leaf spring 30 of the rotation mechanism 3 is integral in rotation with one of the two supports, referenced support 13 and the cylindrical part 31 is integral in rotation with one end 113 of the active part 11, different from the ends 113a and 113b of the first example.

The leaf spring 30 is also located radially outside the cylindrical part 31 and therefore the cylindrical part 31 comprises notches 311 and teeth 312 which undulate on an outer periphery and not on an inner periphery as in the cylindrical part 31a , 31b of the first example.

Furthermore, the end 113 of the active part 11 comprises an opening 113C passing through and opening into the end 113 and the support 13 closes the opening 113C.

In addition, leaf spring 30 is different in that it comprises, in this example, an abutment 303a to be integral with support 13 and not a hook-shaped abutment 303i to be integral with active part 11 as in the first example. . In this case, the abutment 303a is an opening, called abutment opening 303a, located at a first longitudinal end, crossed by a stud 133a forming part of the support element 130 of the support 13. The abutment opening 303a corresponds to the shape of the pad 133a. The abutment opening 303a therefore passes through in this example a first planar portion of the lamella. The leaf spring 30 further comprises a guide abutment 335b, in this case a peripheral surface surrounding a guide opening 335 located at a second longitudinal end opposite the first longitudinal end. The guide opening 335 is located in the second planar portion of the lamella. The guide opening 335 extends longitudinally in the planar portion of the slat by cooperating with a guide stop 133b of the support 13, in this case a guide stud 133b passing through the guide opening 335. In this example, the guide stud 133b is part of the support element 130 of the support 13 but can be part of the active part as in a second example shown in picture 3 described in detail below. The notch 300, in this case a rounded projection, is located between the abutment opening 303a and the guide opening 335, approximately in the middle. The leaf spring therefore also comprises two supports which are supported on two shoulders of each guide abutment 133a, 133b each forming a support for the leaf spring for its deformation. The leaf spring therefore comprises two abutments resting on the two shoulders and the notch is between the two abutments making it possible to control the deformation.

According to another example, not shown, of the notch rotation mechanism 3, the notches 311 of the cylindrical part 31 undulate with the teeth 312 on at least part of the peripheral internal surface of the end 113 of the active part 11. In this example not shown, the leaf spring 30 can therefore be located radially inside the cylindrical part 31 or at least its notches 300.

According to the example not shown, in which the leaf spring 30 deforms parallel to the axis of rotation, the notches 311 of the cylindrical part 31 undulate with the teeth 312 on a radial surface of the end 113 of the cylindrical part 31 corresponding in this example to one end of the active part 11.

According to another example not shown, the cylindrical part 31 comprises projections forming notches and the leaf spring 50 is a lamella having flat portions and a recess forming a notch located in an angular position in one of the projections forming notches of the cylindrical part 31 and in that each end of the recess forming a notch extending from the flat portions of the leaf spring is adapted to elastically deform the leaf spring by bending by resting on a projection forming a notch of the cylindrical part to pass from one projection to another notch-forming projection of the cylindrical part. In other words, in this example, the teeth 312 and hollow 311 of the cylindrical part can be identical to this example shown except in that it is the teeth 312 which form the notches and the leaf spring comprises a hollow instead of the projection for form a notch receiving a tooth from the cylindrical part.

In this second example shown, when the active part 11 is turned relative to the support 13, the leaf spring 30 will initially deform from an initial position in which the active part 11 was stable relative to the support 13, to a deformed position by progressively pressing notch 300 against a tooth 312 contiguous to notch 311 housing notch 300 in the initial position. In a second step, the projection of the notch 300 will enter the neighboring hollow notch 311 thus allowing the leaf spring to pass from the deformed position to the initial position in a new hollow 311. When passing from the initial position to the position deformed, the leaf spring 30 will deform elastically by bending, in this case radially, bringing its second end closer to the guide stud 133b sliding in the guide opening 335. When passing from the deformed position to the initial position , the notch 300 of the leaf spring 30 will enter a notch 311 returning to its initial position and moving its second end away from the guide stud 133b sliding in the guide opening 335. This deformation is therefore controlled and further is radial with respect to the axis of rotation allowing it to rotate in both directions of rotation.

Thus each cooperation of the notch 300 with the complementary notches 311 form a stop means for positioning said active part 11 according to a plurality of stable angular positions relative to the support 13.

The picture 3 partially represents a third example of an electrical socket accessory 1' represented without its electrical equipment mechanisms 12 according to the first embodiment. This third example is different from the second example of the first embodiment in that the electrical socket accessory 1' is a power strip, the support 13' of which comprises a male electrical device mechanism 12, not shown. In other words, in this example, the electrical outlet accessory 1' does not include an external power cable and the support 13' does not include a foot. The electrical socket accessory 1' comprises in this example, an electrical connection device allowing the plugs of the electrical fitting mechanisms 12 of the active part to be connected to the respective plugs of the male electrical fitting mechanism 12 of the support 13', for example by electric cables, or a system with pivoting contact arms with the support 13'. The electric cable has the advantage of not causing an electric arc or an electric fault with each rotation.

The third example is similar to the second example except for the differences described below.

In this third example, the active part 11' surrounds the support 13'.

In this third example, the active part 11' comprises three reception wells 111A oriented differently from one another, such as a triplet. The active part 11' could comprise a single well allowing it to have a rotary grip. The active part 11' is represented on the picture 3 without a half-shell and without its electrical equipment mechanisms 12 in order to see the detent rotation mechanism 3'.

The rotation mechanism with notches 3' is similar to the first example and different from the second example in that the support 13' comprises the cylindrical part 31 comprising notches 311 at an end opposite the male plugs of the electrical equipment mechanism 12 and therefore in that the active part 11' comprises the leaf spring 30' comprising the notch 300. The variants described previously concerning the rotation mechanism with notches 3a, 3b in the first and second example are also compatible with this third example.

In addition, in this third example, it can be seen that the cylindrical part 311 extending from the support element 130' comprises a rotation stop 134 limiting the rotation of the active part 11 in the bearing elements 130 to 180°. This anti-rotation stop 134 bears against the half-shell, not shown, of the active part 11'. The cylindrical part 311 therefore comprises in this third example notches 311 only over 180°. Of course, the rotation of the active part 11 relative to the support 13' can take place over 360° minus X degrees corresponding to the rotation stop 134 by including notches 311 over 360° of the cylindrical part 311.

The figure 4 shows an example of a second embodiment of electrical outlet accessory 2.

The electrical socket accessory 2 comprises an active part 21 of an electrical multi-device block, similar to that of the first example of the figure 1 , which is elongated along an axis X, internally housing a plurality of electrical equipment mechanisms 12 such as socket or switch mechanisms similarly to those of the first embodiment.

The electrical outlet accessory 2 comprises a support 23 different from the first example of the first embodiment in that in this example the electrical outlet accessory 2 comprises only one support 23 having the axis X perpendicular to a support, for example vertical with respect to a table. This example of this second embodiment has the advantage of having a single rotation mechanism 5 and thus has no problem of sensation of torsion in the event of a malfunction of one of the two rotation mechanisms of the first example of the first embodiment. However, the electrical socket accessory 2 of this second embodiment can be a multi-electrical device block such as in the example of the figure 1 or a power strip from the example of the picture 3 but has a rotation mechanism 5 between the support 23 and the active part 21 different from the first embodiment, described below in detail.

The figures 5A to 5C represent an example of a notch rotation mechanism 5 according to the second embodiment of an electrical outlet accessory 2.

In this second embodiment, the detent rotation mechanism 5 comprises a leaf spring 50 which is a blade surrounding at least partly the axis of rotation X. In this case in this example, the leaf spring 50 surrounds the 360° axis of rotation. In this example, the lamella is a washer surrounding the axis of rotation through 360° but could be, according to another example, a crown.

In this example, the leaf spring 50 comprises several notches 500, which are in this case regularly distributed to allow different mounting positions and a balancing of sensation of torque. In this case the notches 500 are at least two and in this example there are two, a first notch 500a diametrically opposed to a second notch 500b.

The leaf spring therefore comprises two flat portions forming the washer and each deformed part forming a notch 500 is located between the two flat potions.

In this example, the notches 500 are as in the examples of the first embodiment a rounded projection but could also be a hollow as explained in the first embodiment.

In this example, the leaf spring 50 deforms parallel to the axis of rotation X but could deform as in the examples of the first embodiment perpendicular to the axis of rotation X.

The detent rotation mechanism 5 comprises a cylindrical part 51 having detents 511 which undulate with teeth 512 between each detent 511 on a radial surface of the cylindrical part 51 different from the examples shown of the first embodiment in which the detents 511 undulate with teeth 512 on a peripheral surface. Each hollow 511 has the shape of a conical portion widening from an internal diameter of the cylindrical part 51 towards an external diameter of the cylindrical part 51. The notches 511 and the teeth 512 are rounded forming waves undulating angularly along the radial surface of the cylindrical part 51, in this case in this example over 360°.

The cylindrical part 51 further comprises a rotation stop 514 making it possible to limit the rotation of a first element fixed in rotation to the cylindrical part 51 with respect to a second element fixed in rotation to the leaf spring 50. This rotation stop 514 therefore comes into abutment against another abutment of the second element.

In this example, the leaf spring 50 is therefore axially opposite this radial surface of the cylindrical part 51 and deforms axially elastically by bending when the cylindrical part 51 rotates relative to the leaf spring 50.

Thus, in an initial position, called stable, the first notch 500a and the second notch 500b are each located respectively in a first hollow 511a and second hollow 511b each forming a notch 511.

When the cylindrical part 51 is turned with respect to the leaf spring 50, initially the leaf spring 50 will deform axially from its initial position towards a deformed position, by pressing each first notch 500a, and second notch 500b against a tooth 512 contiguous to the first hollow 511a and second hollow 511b. Secondly, each projection of the first notch 500a and second notch 500b will fit into the hollow notch 511 adjacent respectively to the first hollow 511a and second hollow 511b, thus allowing the leaf spring 50 to pass from the deformed position to the initial position .

When passing from the initial position to the deformed position, the leaf spring 50 will therefore deform elastically by bending, in this case axially, by pressing its notches 500a, 500b on the teeth 512 and against axial stops 503a, 503b explained in detail below. The two axial stops each form a support for the deformation of the leaf spring. Each notch is located between these two axial stops.

When passing from the deformed position to the initial position, the notches 500 of the leaf spring 50 will enter a notch 511 on returning to its initial position. The leaf spring 50 is therefore mounted in a housing allowing freedom of flexion;

In the case where the leaf spring 50 deforms perpendicularly to the axis of rotation X, the leaf spring 50 comprises portions separated from the cylindrical part 51, for example at the level of the stops so as to allow the deformation of the leaf spring 50 .

The leaf spring 50 is in this example of this embodiment mounted fixed in rotation with the active part 21 which is therefore the second element and the cylindrical part 51 is mounted fixed with the support 23 which is therefore the first element. In particular in this example, the cylindrical part 51 is one end of the support 23.

The leaf spring 50 comprises at least one axial and rotation stop 503a, 503b to prevent it from rotating and to take support axially with respect to the second element housing it, in this case with respect to the active part 21. In this case the leaf spring 50 comprises a first stop 503a and a second stop 503b which extend axially from the washer part, in the other direction than the first notch 500a and second notch 500b. In particular the stops 503a, 503b and the notches 500a, 500b are regularly distributed angularly in an alternating manner.

The figure 6 schematically represents an exploded three-dimensional view of a portion of electrical outlet accessory 2 according to the second embodiment.

You can see on this figure 6 that the active part 21 also comprises two lower 210B and upper 210A half-shells. The support 23 comprises in this example the cylindrical part 51 which is surrounded by the ends of the two lower 210B and upper 210A half-shells together forming the housing for the leaf spring 50.

The figure 7 schematically represents a three-dimensional view in partial section of a portion of electrical outlet accessory 2 according to the second embodiment. On this figure 7 , the upper half-shell 210A is not shown and the lower half-shell 210B of the electrical outlet accessory 2 is cut along a plane perpendicular to the axis X of rotation.

The leaf spring 50 includes a guide stop 535b to guide the deformation of the leaf spring 50 by cooperating with a guide stop 235 of the support or of the active part. In this case, the leaf spring 50 comprises a central opening 535 forming with its peripheral surface surrounding the opening the guide abutment 535b and the support 23 comprises a guide abutment 235 formed by a cylindrical centering portion extending axially at the interior of the central opening 535 thus centering the leaf spring 50 to guide it during its installation and its elastic deformation by bending.

The support 23 comprises a groove 25 to receive a semi-cylindrical internal shoulder 215A of the upper half-shell 210A and another semi-cylindrical internal shoulder 215B of the lower half-shell 210B visible on the figure 8 .

The figure 8 schematically represents a three-dimensional view in partial section of another electrical socket accessory portion according to the second embodiment. On this figure 8 , the support 23 is not shown and the lower half-shell 210A of the electrical outlet accessory 2 is cut along an angular plane with respect to the axis X of rotation.

The active part 21 comprises at least on one of its half-shells 210A, 210B, support points 214 visible on the figure 8 , for example in stops with the anti-rotation stops 503a and 503b thus allowing the leaf spring 50 to flex elastically when its two notches 500 are resting against the teeth 512. In addition, in this example, each half-shell 210A, 210B includes end of deflection stops 2140 to help guide the shape of the elastic deformation by deflection of the leaf spring 50 in order to prevent the latter from deflecting in a plastic deformation. Indeed, the end of deflection stops 2140 in the form of support ribs have an axial height dimensioned to provide the necessary and sufficient play for the deformation of the leaf spring 50.

Thus the leaf spring 50 is sandwiched between the cylindrical part 51 comprising notches 511 and the support points 214.

You can also see on the figure 4 and 8 that the active part 11 comprises in this example a trim 211 as in the first example of the first mode embodiment, which protrudes from the upper half-shell 210A. The trim 211 defines a plurality of wells 111A for receiving electrical equipment mechanisms 12, in this case sockets, aligned along the axis X of the active part 11.

According to another example of this embodiment, not shown, the leaf spring 50 is integral with the support and the active part comprises the cylindrical part comprising the notches.

According to another example of these embodiments, not shown, the accessory comprises several rotation mechanisms, for example it comprises one between a second support and the active part or the accessory further comprises a rotation mechanism between two portions rotatable with respect to each other of the active part making it possible to be able to orient electrical equipment mechanisms in different angular orientations. The active part can comprise several half-shells, in particular in the case of two rotating portions. The two portions rotating relative to each other of the active part can be oriented along other axes of rotation, for example perpendicular to the axis of rotation X.

According to another example of these embodiments, not shown, the support may also comprise one or more electrical equipment mechanisms.

Claims (10)

1. Electrical socket accessory (1, 1', 2) comprising:

   - a support (13a, 13b, 13, 13', 23) and an active part (11, 11', 21) rotating with respect to the support (13a, 13b, 13, 13', 23) along an axis of rotation (X),

   - a notched rotation mechanism (3a, 3b, 3, 3', 5) allowing for the rotation of the support (13a, 13b, 13, 13', 23) with respect to the active part (11, 11', 21), comprising:

   ∘ a leaf spring (30a, 30b, 30, 30', 50) comprising at least one notch (300, 500, 500a, 500b) and

   ∘ a cylindrical part (31a, 31b, 31, 51) comprising notches (311, 511, 511a, 511b) complementary in shape with the notch (300, 500, 500a, 500b) of the leaf spring (30a, 30b, 30, 30', 50),

   - and in that the leaf spring (30a, 30b, 30, 30', 50) is elastically deformed by bending when the active part (11, 11', 21) rotates with respect to the support (13a, 13b, 13, 13', 23) from one angular position to another angular position and in that in each angular position, the notch (300, 500, 500a, 500b) of the leaf spring (30a, 30b, 30, 30', 50) is in contact with respectively one of the complementary notches (311, 511, 511a, 511b) of the cylindrical part (31a, 31b, 31, 51)

   - the electrical socket accessory being characterised in that the leaf spring comprises a stop (303i, 303a, 503a, 503b) to be integral with the support or the active part.
2. Electrical socket accessory (1, 1', 2) according to the preceding claim, wherein the leaf spring (30a, 30b, 30', 50) is integral in rotation with the active part (11, 11', 21) and the cylindrical part (31a, 31b, 31, 51) is integral in rotation with the support (13a, 13b, 13', 23).
3. Electrical socket accessory (1) according to claim 1, wherein the leaf spring (30) is integral in rotation with the support (13) and the cylindrical part (31) is integral in rotation with the active part (21).
4. Electrical socket accessory (1, 1') according to one of the preceding claims, wherein the leaf spring (30a, 30b, 30, 30') is radially deformed with respect to the axis of rotation (X).
5. Electrical socket accessory (2) according to one of claims 1 to 4, wherein the leaf spring (50) is deformed in parallel with respect to the axis of rotation.
6. Electrical socket accessory (1, 1', 2), according to one of the preceding claims, wherein the leaf spring (30, 30', 50) comprises a guide stop (335b, 535b) to guide the deformation of the leaf spring (30, 30', 50) by cooperating with a guide stop (133b, 335) of the support (13, 13', 23) or of the active part (11, 11', 21).
7. Electrical socket accessory (2), according to one of the preceding claims, wherein the leaf spring (50) is a strip that at least partially surrounds the axis of rotation (X).
8. Electrical socket accessory (1, 1'), according to one of claims 1 to 6, wherein the leaf spring (30a, 30b, 30, 30') is a plate comprising at least one portion extending longitudinally flat and a deformed part forming the notch (300).
9. Electrical socket accessory (1, 1', 2), according to one of the preceding claims, wherein the cylindrical part (31a, 31b, 31, 51) comprises hollows forming notches (311, 511, 511a, 511b) and the leaf spring (30a, 30b, 30, 30', 50) comprises a protrusion forming a notch (300, 500, 500a, 500b) situated in an angular position in one of the hollows forming notches (311, 511, 511a, 511b) of the cylindrical part (31a, 31b, 31, 51) and is adapted to elastically deform by bending the leaf spring by pressing on a tooth (312, 512) between two hollows forming notches (311, 511, 511a, 511b) to pass from one hollow forming notches (311, 511, 511a, 511b) to another hollow forming notches (311, 511, 511a, 511b) of the cylindrical part (31, 51).
10. Electrical socket accessory (1, 1'), according to one of the preceding claims, wherein the active part (11) comprises a plurality of electrical fitting mechanisms (12) comprising connection plugs (121, 122) and in that the accessory comprises:

    - a power cable (8) comprising conductors to supply according to different electrical potentials, the connection plugs (121, 122),

    - an electrical contact arm connection system sliding on a connection track, comprising one contact arm per track, in the number of at least the different electrical potentials of plugs, the tracks are each connected to plugs of the same potential of the electrical fitting mechanisms (12) or to one of the conductors of the cable (8) and the contact arms are each respectively connected to one of the conductors of the cable (8) or to plugs of the same potential of the electrical fitting mechanisms (12).

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