EP2818941A1 - Device for locking a sprocket wheel - Google Patents

Abstract

Locking device (1, 2, 3, 4, 5, 6) for a toothed wheel (40) comprising: - a frame (7); - a blocker (9), including an anchor (45), comprising two arms (10, 11) each provided with a pallet (14, 15) intended to come into contact with a tooth of the toothed wheel (40); a first and a second elastic element (12, 13) each having one end connected to the blocker (9) and another end connected to the frame (7); this locking device being characterized in that the locking device is integral or integral with the exception of at least one of the pallets (14, 15) or in that the frame, the blocker, the first elastic member and the second elastic member are integral or integral with the exception of at least one of the vanes (14, 15).

Description

The invention relates to a locking device for a gear wheel which is intended in particular in the field of micromechanics. It is well suited to the field of watchmaking where it can, for example, be part of a direct or indirect impulse escapement, especially in a wristwatch.

Background of the invention

In the field of watchmaking, for centuries has been used a watch mechanism called "escapement" and whose purpose is to maintain and count oscillations pendulum or pendulum of the timepiece. For this purpose, the mechanism periodically communicates part of the driving energy of a cylinder, via a toothed wheel called "escape wheel", to the regulating member (balance spring or pendulum) of the watch or clock. When this toothed wheel is not moving, it is blocked by a mobile called "anchor" or "blocker" depending on the type of exhaust used.

The major disadvantage of this escapement is that the movements of said mobile are performed with significant functional play, which adversely affects the performance of the exhaust.

European patent application no. EP 2,037,335 A2 relates to an anchor for watch exhaust. On the figures 7 and 8 of this patent application is shown an anchor having two fixing arms (numbered 7) and an elastic spring provided to be biased in traction (numbered 10). These three elements are connected to the connecting zone (numbered 6) of the two arms (numbered 2) of the anchor and they are all located on the same side of the anchor. The attachment arms are identical, they form an acute angle between them and each have at their free end an annular eyelet (numbered 8). The spring is disposed between them, equidistant from one and the other, and is provided at its free end with a fixing plate (numbered 11) having an oblong hole (numbered 12).

Such an anchor is very difficult to fix accurately. Indeed, it is necessary to fix each of the two eyelets separately then the fixing plate, knowing that it must be screwed in an adjustable manner. There must also be sufficient space around the mounting plate to adjust its position. In addition, this anchor is very sensitive to dimensional variations in its constituent parts, which must then have very limited manufacturing tolerance intervals.

Summary of the invention

The main object of the invention is to minimize, or even eliminate, the games related to the displacement of a mobile controlling the rotation of a toothed wheel, so as to increase the performance of the mechanism of which this gear is part. This must be done in a simple and precise way.

1. 1.- Dispositif de blocage pour roue dentée comprenant :
   • un châssis ;
   • un bloqueur comprenant deux bras munis chacun d'une palette destinée à venir en contact avec une dent de la roue dentée ;
   • un premier et un deuxième éléments élastiques ayant chacun une extrémité reliée au bloqueur et une autre extrémité reliée au châssis;
   • un troisième élément élastique relié au bloqueur,
   ce dispositif de blocage étant caractérisé en ce qu'il est d'un seul tenant ou d'un seul tenant à l'exception de l'une au moins des palettes.
   Ainsi, grâce à ces caractéristiques, le dispositif de blocage selon l'invention permet un positionnement relatif amélioré de l'ensemble des pièces constitutives du mécanisme. Il peut de cette manière être plan, ce qui facilite sa fixation. De plus, il peut être fabriqué avec des intervalles de tolérance supérieurs, ce qui rend sa fabrication moins délicate.
   Pour l'homme du métier, le dispositif de blocage selon l'invention s'apparente à une ancre ou à un bloqueur pour échappement d'horlogerie. Ce n'est pas à proprement parler un échappement car il n'en comporte pas tous les organes constitutifs (Cf. « Dictionnaire professionnel illustré de l'horlogerie I+II », de G.-A. Berner).
   Des caractéristiques supplémentaires avantageuses du dispositif de blocage selon l'invention définie au point 1 ci-dessus sont égrenées aux points 2 à 15 ci-dessous :
2. 2.- Dispositif de blocage pour roue dentée selon le point 1, dans lequel les premier et deuxième éléments élastiques sont chacun reliés à un bras.
   Une telle caractéristique a l'avantage de permettre d'obtenir un angle de pivotement plus important que si les deux éléments élastiques étaient reliés du même côté, comme c'est le cas dans la demande de brevet européen citée en introduction.
3. 3.- Dispositif de blocage pour roue dentée selon le point 1 ou 2, dans lequel le troisième élément élastique est relié à l'un des bras à un endroit différent de la zone de jonction de ces bras.
   Ceci offre avantageusement la possibilité de prévoir que l'un des premier et deuxième éléments élastiques travaille en traction et l'autre en compression, ce qui est impossible avec l'ancre faisant l'objet de la demande de brevet précitée. En outre, le réglage des contraintes par le troisième élément est facilité car il n'est pas gêné par les premier et deuxième éléments élastiques, comme c'est le cas avec l'ancre susmentionnée.
4. 4.- Dispositif de blocage pour roue dentée selon le point 3, dans lequel le troisième élément élastique est relié à l'extrémité de l'un des bras.
   Ainsi, on maximise les possibilités de réglage de la traction et/ou de la compression des premier et deuxième éléments élastiques.
5. 5.- Dispositif de blocage pour roue dentée selon l'un des points 1 à 4, dans lequel les premier et deuxième éléments élastiques forment entre eux un angle obtus.
6. 6.- Dispositif de blocage pour roue dentée selon l'un des points 1 à 5, dans lequel les premier et deuxième éléments élastiques sont des première et deuxième lames flexibles.
7. 7.- Dispositif de blocage pour roue dentée selon l'un des points 1 à 6, dans lequel le troisième élément élastique est un bloc rigide comportant, sur deux côtés opposés, une troisième et une quatrième lames flexibles.
8. 8.- Dispositif de blocage pour roue dentée selon l'un des points 1 à 7, dans lequel le troisième élément élastique est également relié au châssis.
9. 9.- Dispositif de blocage pour roue dentée selon le point 7, dans lequel la quatrième lame flexible est reliée à un bloc supplémentaire, celui-ci étant, le cas échéant, relié au châssis.
10. 10.- Dispositif de blocage pour roue dentée selon l'un des points 1 à 9, comportant en outre un système de précontrainte exerçant une force sur le troisième élément élastique.
11. 11.- Dispositif de blocage pour roue dentée selon le point 10, dans lequel le système de précontrainte est apte à faire varier la force exercée sur le troisième élément élastique.
12. 12.- Dispositif de blocage pour roue dentée selon le point 11, dans lequel le système de précontrainte variable comprend une vis excentrique ou micrométrique.
13. 13.- Dispositif de blocage pour roue dentée selon le point 11, dans lequel le système de précontrainte variable comprend un bloc supplémentaire relié au châssis par des cinquième et sixième lames flexibles ou au moyen d'un bloc intermédiaire lui-même relié au châssis par des septième et huitième lames.
14. 14.- Dispositif de blocage pour roue dentée selon le point 13, dans lequel les septième et huitième lames sont disposées de telle sorte que lors du déplacement des quatre lames, leurs raccourcissements s'annulent entre eux, de manière à éviter tout mouvement parasite du bloc lors du réglage de la précontrainte.
15. 15.- Dispositif de blocage pour roue dentée selon le point 13 ou 14, dans lequel le bloc intermédiaire comprend un plot et le châssis comprend un évidement apte à recevoir le plot et à délimiter ses mouvements.
    Il va de soi qu'il est possible de combiner ensemble au moins deux de ces points, sauf en cas d'impossibilité technique.
    Par ailleurs, l'invention se rapporte également à une pièce d'horlogerie, résumée au point suivant :
16. 16.- Pièce d'horlogerie comprenant un Dispositif de blocage pour roue dentée selon l'un des points 1 à 15.
    Le point 17 ci-dessous fournit des caractéristiques supplémentaires avantageuses de la pièce d'horlogerie selon l'invention :
17. 17.- Pièce d'horlogerie selon le point 16, le dispositif de blocage faisant partie d'un échappement et la roue dentée étant une roue d'échappement.
    Selon un autre aspect, l'invention a trait également à des procédés de réalisation d'une pièce d'horlogerie dont les caractéristiques essentielles ressortent des points suivants :
18. 18.- Procédé de montage d'une pièce d'horlogerie comprenant les étapes suivantes :
    • on fixe sur la platine un dispositif de blocage selon le point 12 ; et
    • on tourne la vis excentrique jusqu'à l'obtention d'un système bistable.
19. 19.- Procédé de montage d'une pièce d'horlogerie comprenant les étapes suivantes :
    • on fixe sur la platine du mouvement un dispositif de blocage selon le point 13 ou 14;
    • on fixe une vis micrométrique ou excentrique de façon à ce qu'elle soit en contact avec le bloc supplémentaire ; et
    • on tourne la première vis micrométrique ou excentrique jusqu'à l'obtention d'un système bistable.
20. 20.- Procédé de montage d'une pièce d'horlogerie comprenant les étapes suivantes :
    • on fixe sur la platine du mouvement un dispositif de blocage selon l'un des points 13 à 15 ;
    • on fixe une vis micrométrique de façon à ce qu'elle soit en contact avec le bloc intermédiaire ; et
    • on tourne la vis micrométrique jusqu'à l'obtention d'un système bistable.
21. 21.- Procédé de montage d'une pièce d'horlogerie selon le point 20, comprenant en outre l'étape suivante :
    • avant de tourner la vis micrométrique pour obtenir le système bistable, on introduit une cale entre le châssis et le bloc intermédiaire.

This goal is achieved by means of a locking device, the essential characteristics of which are described in point 1 below:

1. 1.- Locking device for a gear wheel comprising:
   • a chassis ;
   • a blocker comprising two arms each provided with a pallet intended to come into contact with a tooth of the toothed wheel;
   • first and second resilient members each having one end connected to the blocker and another end connected to the frame;
   • a third elastic element connected to the blocker,
   this locking device being characterized in that it is in one piece or in one piece with the exception of at least one of the pallets.
   Thus, thanks to these characteristics, the locking device according to the invention allows improved relative positioning of all the constituent parts of the mechanism. In this way it can be flat, which facilitates its fixation. In addition, it can be manufactured with higher tolerance intervals, which makes its manufacture less delicate.
   For the skilled person, the locking device according to the invention is similar to an anchor or a blocker for watch exhaust. This is not strictly an escapement because it does not include all the constituent bodies (see "Professional Illustrated Dictionary of Watchmaking I + II", G.-A. Berner).
   Additional advantageous features of the blocking device according to the invention defined in point 1 above are etched at points 2 to 15 below:
2. 2.- blocking device for a gear according to item 1, wherein the first and second elastic members are each connected to an arm.
   Such a characteristic has the advantage of allowing a greater pivot angle to be obtained than if the two elastic elements were connected to the same side, as is the case in the European patent application mentioned in the introduction.
3. 3.- Locking device for a gear wheel according to point 1 or 2, wherein the third elastic element is connected to one of the arms at a different location of the junction zone of these arms.
   This advantageously offers the possibility of providing that one of the first and second elastic elements works in traction and the other in compression, which is impossible with the anchor subject of the aforementioned patent application. In addition, the adjustment of the constraints by the third element is facilitated because it is not hindered by the first and second elastic elements, as is the case with the aforementioned anchor.
4. 4.- Locking device for a gear wheel according to point 3, wherein the third elastic element is connected to the end of one of the arms.
   Thus, the possibilities of adjusting the traction and / or the compression of the first and second elastic elements are maximized.
5. 5.- Locking device for a gear wheel according to one of the points 1 to 4, wherein the first and second elastic elements form between them an obtuse angle.
6. 6. A locking device for a gear wheel according to one of the points 1 to 5, wherein the first and second elastic members are first and second flexible blades.
7. 7. A locking device for a gear wheel according to one of the points 1 to 6, wherein the third elastic member is a rigid block having, on two opposite sides, a third and a fourth flexible blades.
8. 8.- Locking device for a gear wheel according to one of the points 1 to 7, wherein the third elastic element is also connected to the frame.
9. 9.- Locking device for a gear wheel according to point 7, wherein the fourth flexible blade is connected to an additional block, the latter being, where appropriate, connected to the frame.
10. 10. A locking device for a gear wheel according to one of the points 1 to 9, further comprising a biasing system exerting a force on the third elastic element.
11. 11.- Locking device for a gear wheel according to point 10, wherein the prestressing system is adapted to vary the force exerted on the third elastic element.
12. 12.- Locking device for gearwheel according to point 11, wherein the variable preloading system comprises an eccentric screw or micrometer.
13. 13.- locking device for a gear wheel according to point 11, wherein the variable preloading system comprises an additional block connected to the frame by fifth and sixth flexible blades or by means of an intermediate block itself connected to the frame by seventh and eighth blades.
14. 14.- Locking device for gearwheel according to point 13, wherein the seventh and eighth blades are arranged such that during the movement of the four blades, their shortenings are canceled between them, so as to avoid any parasitic movement of the block when adjusting the preload.
15. 15.- Locking device for a gear wheel according to point 13 or 14, wherein the intermediate block comprises a stud and the frame comprises a recess adapted to receive the stud and to delimit its movements.
    It goes without saying that it is possible to combine together at least two of these points, except in the case of technical impossibility.
    Furthermore, the invention also relates to a timepiece, summarized in the following point:
16. 16. Timepiece comprising a locking device for a toothed wheel according to one of the points 1 to 15.
    The point 17 below provides additional advantageous features of the timepiece according to the invention:
17. 17.- Timepiece according to item 16, the locking device forming part of an exhaust and the toothed wheel being an escape wheel.
    According to another aspect, the invention also relates to methods for producing a timepiece whose essential characteristics emerge from the following points:
18. 18. A method of mounting a timepiece comprising the following steps:
    • fixed on the plate a locking device according to point 12; and
    • the eccentric screw is turned until a bistable system is obtained.
19. 19. A method of mounting a timepiece comprising the following steps:
    • a blocking device according to item 13 or 14 is fixed on the movement stage;
    • a micrometric or eccentric screw is fixed so that it is in contact with the additional block; and
    • the first micrometric or eccentric screw is turned until a bistable system is obtained.
20. 20. A method of mounting a timepiece comprising the following steps:
    • a locking device is fixed on the movement plate according to one of the points 13 to 15;
    • a micrometer screw is fixed so that it is in contact with the intermediate block; and
    • the micrometer screw is turned until a bistable system is obtained.
21. 21. A method of mounting a timepiece according to item 20, further comprising the following step:
    • before turning the micrometer screw to obtain the bistable system, a wedge is inserted between the frame and the intermediate block.

1. 1.- Dispositif de blocage pour roue dentée comprenant :
   • un châssis ;
   • un bloqueur, notamment une ancre, comprenant deux bras munis chacun d'une palette destinée à venir en contact avec une dent de la roue dentée;
   • un premier et un deuxième éléments élastiques ayant chacun une extrémité reliée au bloqueur et une autre extrémité reliée au châssis ;
   ce dispositif de blocage étant caractérisé en ce que le dispositif de blocage est d'un seul tenant ou d'un seul tenant à l'exception de l'une au moins des palettes ou en ce que le châssis, le bloqueur, le premier élément élastique et le deuxième élément élastique sont d'un seul tenant ou d'un seul tenant à l'exception de l'une au moins des palettes.
   Dans ce document, par la formulation « un élément est d'un seul tenant », on entend par exemple que l'élément est réalisé d'un seul tenant ou que l'élément est monobloc.
2. 2.- Dispositif de blocage selon la proposition 1, dans lequel le dispositif de blocage comprend un troisième élément élastique relié au bloqueur, notamment un troisième élément élastique relié au bloqueur et d'un seul tenant, ou d'un seul tenant à l'exception de l'une au moins des palettes, avec le châssis, le bloqueur, le premier élément élastique et le deuxième élément élastique.
3. 3.- Dispositif de blocage selon la proposition 1 ou 2, dans lequel le dispositif de blocage comprend une fourchette, notamment dans lequel le bloqueur comprend une fourchette et/ou dans lequel le dispositif de blocage et/ou la fourchette et/ou le bloqueur ne comprend pas de dard.
4. 4.- Dispositif de blocage selon l'une des propositions précédentes, dans lequel le dispositif de blocage, notamment le bloqueur, en particulier la fourchette, est agencé de sorte à interagir avec une cheville solidaire d'un balancier.
5. 5.- Dispositif de blocage selon l'une des propositions précédentes, dans lequel les deux bras forment un angle obtus.
6. 6.- Dispositif de blocage pour roue dentée selon l'une des propositions précédentes, dans lequel les premier et deuxième éléments élastiques sont chacun reliés à un bras et/ou dans lequel les premier et deuxième éléments élastiques s'étendent depuis des points situés à proximité de la zone de jonction des deux bras.
7. 7.- Dispositif de blocage pour roue dentée selon l'une des propositions précédentes, dans lequel le troisième élément élastique comprend plusieurs lames flexibles.
8. 8.- Dispositif de blocage pour roue dentée selon l'une des propositions précédentes, dans lequel le troisième élément élastique est relié à l'un des bras à un endroit différent de la zone de jonction de ces bras, notamment le troisième élément élastique étant relié à l'extrémité de l'un des bras.
9. 9.- Dispositif de blocage pour roue dentée selon l'une des propositions précédentes, dans lequel les premier et deuxième éléments élastiques forment entre eux un angle obtus, notamment un angle de 90° et/ou dans lequel les premier et deuxième éléments élastiques sont des première et deuxième lames flexibles.
10. 10.- Dispositif de blocage pour roue dentée selon l'une des propositions précédentes, dans lequel le troisième élément élastique est un bloc rigide comportant, sur deux côtés opposés, une troisième et une quatrième lames flexibles, la quatrième lame flexible étant éventuellement reliée à un bloc supplémentaire, celui-ci étant, le cas échéant, relié au châssis.
11. 11.- Dispositif de blocage pour roue dentée selon l'une des propositions précédentes, dans lequel le troisième élément élastique est également relié au châssis.
12. 12.- Dispositif de blocage pour roue dentée selon l'une des propositions précédentes, comportant en outre un système de précontrainte exerçant une force sur le troisième élément élastique et/ou comprenant un système de précontrainte agissant sur le troisième élément élastique, notamment agissant sur le troisième élément élastique par l'intermédiaire de deux lames qui sont précontraintes.
13. 13.- Dispositif de blocage pour roue dentée selon la proposition précédente, dans lequel le système de précontrainte est réglable et/ou apte à faire varier la force exercée sur le troisième élément élastique.
14. 14.- Dispositif de blocage pour roue dentée selon la proposition précédente, dans lequel le système de précontrainte variable comprend une vis excentrique ou micrométrique.
15. 15.- Dispositif de blocage pour roue dentée selon la proposition 12 ou 13, dans lequel :
    • le système de précontrainte variable comprend un bloc supplémentaire relié au châssis par des cinquième et sixième lames flexibles ou au moyen d'un bloc intermédiaire lui-même relié au châssis par des septième et huitième lames , et,
    • optionnellement, les septième et huitième lames sont disposées de telle sorte que lors du déplacement des quatre lames, leurs raccourcissements s'annulant entre eux, de manière à éviter tout mouvement parasite du bloc lors du réglage de la précontrainte.
16. 16.- Dispositif de blocage pour roue dentée selon la proposition précédente, dans lequel le bloc intermédiaire comprend un plot et le châssis comprend un évidement apte à recevoir le plot et à délimiter ses mouvements.
17. 17.- Dispositif de blocage pour roue dentée selon l'une des propositions 12 à 16, dans lequel le système de précontrainte comprend un bloc intermédiaire relié au châssis par des lames flexibles et/ou relié au troisième élément élastique par l'intermédiaire de deux lames.
18. 18.- Pièce d'horlogerie comprenant un dispositif de blocage pour roue dentée selon l'une des propositions précédentes, notamment un dispositif de blocage faisant partie d'un échappement et la roue dentée étant une roue d'échappement).
19. 19.- Pièce d'horlogerie selon la proposition précédente, comprenant un balancier et dans lequel le dispositif de blocage, notamment le bloqueur, en particulier la fourchette, est agencé de sorte à interagir avec une cheville (41) solidaire du balancier.
20. 20.- Procédé de montage d'une pièce d'horlogerie comprenant les étapes suivantes :
    • on fixe sur la platine un dispositif de blocage selon l'une des propositions 12 à 17; et
    • on tourne la vis excentrique jusqu'à l'obtention d'un système bistable.
21. 21.- Procédé de montage d'une pièce d'horlogerie comprenant les étapes suivantes :
    • on fixe sur la platine du mouvement un dispositif de blocage (4) selon l'une des propositions 12 à 17;
    • on fixe une vis micrométrique ou excentrique de façon à ce qu'elle soit en contact avec le bloc supplémentaire ; et
    • on tourne la première vis micrométrique ou excentrique jusqu'à l'obtention d'un système bistable.
22. 22.- Procédé de montage d'une pièce d'horlogerie comprenant les étapes suivantes :
    • on fixe sur la platine du mouvement un dispositif de blocage selon l'une des propositions 12 à 17 ;
    • on fixe une vis micrométrique de façon à ce qu'elle soit en contact avec le bloc intermédiaire ; et
    • on tourne la vis micrométrique jusqu'à l'obtention d'un système bistable, et
    • éventuellement, avant de tourner la vis micrométrique pour obtenir le système bistable, on introduit une cale entre le châssis et le bloc intermédiaire.

According to another aspect of the invention, a device is defined according to the following proposals.

1. 1.- Locking device for a gear wheel comprising:
   • a chassis ;
   • a blocker, in particular an anchor, comprising two arms each provided with a pallet intended to come into contact with a tooth of the toothed wheel;
   • first and second resilient members each having one end connected to the blocker and another end connected to the frame;
   this locking device being characterized in that the locking device is in one piece or in one piece except for at least one of the pallets or in that the frame, the blocker, the first element elastic and the second elastic element are integral or integral with the exception of at least one of the pallets.
   In this document, by the formulation "an element is in one piece", is meant for example that the element is made in one piece or that the element is monobloc.
2. 2. A locking device according to the proposal 1, wherein the locking device comprises a third elastic element connected to the blocker, in particular a third elastic member connected to the blocker and in one piece, or in one piece except at least one of the pallets, with the frame, the blocker, the first elastic member and the second elastic member.
3. 3. Locking device according to the proposal 1 or 2, wherein the locking device comprises a fork, in particular wherein the blocker comprises a fork and / or wherein the locking device and / or the fork and / or the blocker does not include sting.
4. 4. Blocking device according to one of the preceding proposals, wherein the locking device, in particular the blocker, in particular the fork, is arranged to interact with a peg secured to a rocker arm.
5. 5.- Blocking device according to one of the preceding proposals, wherein the two arms form an obtuse angle.
6. 6. A locking device for a toothed wheel according to one of the preceding proposals, wherein the first and second elastic members are each connected to an arm and / or wherein the first and second elastic members extend from points located at near the junction zone of the two arms.
7. 7.- locking device for a gear wheel according to one of the preceding proposals, wherein the third elastic member comprises a plurality of flexible blades.
8. 8.- locking device for a gear wheel according to one of the preceding proposals, wherein the third elastic member is connected to one of the arms at a different location of the junction zone of these arms, in particular the third elastic element being connected to the end of one of the arms.
9. 9. A locking device for a gear wheel according to one of the preceding proposals, wherein the first and second elastic elements form between them an obtuse angle, in particular an angle of 90 ° and / or in which the first and second elastic elements are first and second flexible blades.
10. 10. A locking device for a gear wheel according to one of the preceding proposals, wherein the third elastic element is a rigid block comprising, on two opposite sides, a third and a fourth flexible blades, the fourth flexible blade being optionally connected to an additional block, the latter being, if necessary, connected to the frame.
11. 11. A locking device for a gear wheel according to one of the preceding proposals, wherein the third elastic element is also connected to the frame.
12. 12. A locking device for a gear wheel according to one of the preceding proposals, further comprising a prestressing system exerting a force on the third elastic element and / or comprising a prestressing system acting on the third elastic element, in particular acting on the third elastic element by means of two blades which are prestressed.
13. 13.- Locking device for gearwheel according to the preceding proposal, wherein the prestressing system is adjustable and / or able to vary the force exerted on the third elastic element.
14. 14.- Locking device for gearwheel according to the previous proposal, wherein the variable preloading system comprises an eccentric screw or micrometer.
15. 15.- locking device for gear wheel according to the proposal 12 or 13, wherein:
    • the variable preloading system comprises an additional block connected to the frame by fifth and sixth flexible blades or by means of an intermediate block itself connected to the frame by seventh and eighth blades, and
    • optionally, the seventh and eighth blades are arranged so that during the movement of the four blades, their shortening canceling them, so as to avoid any parasitic movement of the block when adjusting the preload.
16. 16.- Locking device for toothed wheel according to the previous proposal, wherein the intermediate block comprises a stud and the frame comprises a recess adapted to receive the stud and to delimit its movements.
17. 17.- locking device for a gear wheel according to one of the proposals 12 to 16, wherein the prestressing system comprises an intermediate block connected to the frame by flexible blades and / or connected to the third elastic member via two blades.
18. 18. A timepiece comprising a locking device for a gear wheel according to one of the preceding proposals, in particular a locking device forming part of an exhaust and the toothed wheel being an escape wheel).
19. 19. Timepiece according to the previous proposal, comprising a rocker and wherein the locking device, in particular the blocker, in particular the fork, is arranged to interact with a peg (41) integral with the beam.
20. 20. A method of mounting a timepiece comprising the following steps:
    • fixed on the plate a locking device according to one of the proposals 12 to 17; and
    • the eccentric screw is turned until a bistable system is obtained.
21. 21. A method of mounting a timepiece comprising the following steps:
    • a locking device (4) according to one of the proposals 12 to 17 is fixed on the movement plate;
    • a micrometric or eccentric screw is fixed so that it is in contact with the additional block; and
    • the first micrometric or eccentric screw is turned until a bistable system is obtained.
22. 22.- A method of mounting a timepiece comprising the following steps:
    • fixed on the plate of the movement a locking device according to one of the proposals 12 to 17;
    • a micrometer screw is fixed so that it is in contact with the intermediate block; and
    • the micrometer screw is rotated until a bistable system is obtained, and
    • possibly, before turning the micrometer screw to obtain the bistable system, a shim is introduced between the frame and the intermediate block.

• figure 1 : un dispositif de blocage selon l'invention ;
• figure 2 : un dispositif de blocage selon l'invention appliqué à un échappement du type Robin ;
• figure 3 : un mode avantageux de réalisation du dispositif de blocage selon l'invention appliqué à un échappement du type à détente avec vis excentrique ;

• figure 4 : un autre mode avantageux de réalisation du dispositif de blocage selon l'invention appliqué à un échappement du type à détente ;
• figure 5 : un mode de réalisation du dispositif de blocage selon l'invention qui est une amélioration de celui de la figure 4 ;
• figure 6 : l'application du mode de réalisation de la figure 5 à un échappement du type détente avec plateau inertiel ;
• figure 7 : l'application du mode de réalisation de la figure 5 à un échappement à détente classique ;
• figure 8 : l'application du mode de réalisation de la figure 5 à un échappement du type Robin avec une ancre ;
• figure 9 : l'application du mode de réalisation de la figure 5 à un échappement à impulsion indirecte, du type à ancre suisse classique ;
• figure 10 : un agrandissement d'une partie de la figure 9;
• la figure 11 est une vue en plan d'une partie d'un échappement similaire à l'échappement représenté sur la figure 3, sans les éléments flexibles et le châssis ; et
• les figures 12 à 21 représentent l'échappement de la figure 11 à plus grande échelle, sans le balancier, dans différentes positions au cours d'un cycle d'oscillation.

Other features and advantages of the invention will now be described in detail in the following description, which is given with reference to the appended figures which show schematically:

• figure 1 a blocking device according to the invention;
• figure 2 a blocking device according to the invention applied to a Robin type escapement;
• figure 3 : an advantageous embodiment of the locking device according to the invention applied to an escapement of the expansion type with eccentric screw;

• figure 4 another advantageous embodiment of the locking device according to the invention applied to an escapement of the expansion type;
• figure 5 : an embodiment of the locking device according to the invention which is an improvement of that of the figure 4 ;
• figure 6 : the application of the embodiment of the figure 5 an escapement of the relaxation type with inertial plate;
• figure 7 : the application of the embodiment of the figure 5 to a conventional detent escapement;
• figure 8 : the application of the embodiment of the figure 5 a Robin escapement with an anchor;
• figure 9 : the application of the embodiment of the figure 5 an indirect impulse escapement of the classic Swiss anchor type;
• figure 10 : an enlargement of part of the figure 9 ;
• the figure 11 is a plan view of a portion of an exhaust similar to the exhaust shown on the figure 3 , without the flexible elements and the chassis; and
• the Figures 12 to 21 represent the escape of the figure 11 on a larger scale, without the pendulum, in different positions during an oscillation cycle.

Detailed exposition of the invention Blocking device according to the invention

This locking device is represented generally on the figure 1 where it is arranged next to a toothed wheel with which it is intended to cooperate.

As can be seen in the figure, the locking device 1 comprises a blocker 9 comprising two arms 10,11 forming between them an elbow and an angle (obtuse in the figure but which could be acute) on the side opposite the elbow, c that is to say on the side of the toothed wheel 40.

On the opposite side to the toothed wheel 40, from points situated near the bend or the junction zone of the arms 10, 11, extend flexible blades 12, 13, one per arm 10, 11, forming an angle between them, for example, 90 degrees.

Preferably, the locking device according to the invention comprises a frame 7 designed to be fixed in a known manner on a support such as a platen or a watch movement bridge, for example by means of holes 8 provided for receiving screws of fixation. The flexible blades 12,13 then join this frame 7.

Of course, the flexible blades 12,13 could possibly start from the same arm, provided that their virtual intersection, which defines the pivot point of the blocker, occurs at the appropriate location for the proper operation of the exhaust. However, placing one end of the flexible blades each on one arm maximizes the pivot angle of the device.

One of the arms, the arm 10, is provided at its free end, or near the latter, with an entry pallet 14 intended to lock a tooth of the toothed wheel 40.

The other arm 11 is provided, at its end which is not that connected to the arm 10, or close to this last, an output pallet 15 intended to come into contact with a tooth of the toothed wheel 40.

Geometric prestressing

According to a characteristic of the invention, an elastic element 16 is connected to the blocker, preferably at the end of one of the arms, for example at the end of the arm 11. This elastic element 16 consists of a block rigid rectangular 17 which is extended on its transverse side facing the arm 11 by a flexible blade 18 and, on its other transverse side, by a flexible blade 19.

This flexible blade 19 can be connected to a fixing block 20.

However, the flexible blade 19 is preferably connected to the frame 7. Thus, on the figure 2 , the flexible blade 19 is connected to an L-shaped portion 21 which joins the frame 7.

• une première articulation au châssis au moyen des lames flexibles 12,13 ;
• une deuxième articulation entre le bras 11 et l'élément élastique 16 au moyen de la lame flexible 18; et
• une troisième articulation entre l'élément élastique 16 et le bloc 20 (figure 1) ou la partie 21 en forme de L (figure 2), au moyen de la lame flexible 19.

The elastic element 16 is essential to the proper functioning of the locking device according to the invention. Indeed, it allows for a pivot system with three joints, namely:

• a first articulation to the frame by means of the flexible blades 12, 13;
• a second articulation between the arm 11 and the elastic element 16 by means of the flexible blade 18; and
• a third articulation between the elastic element 16 and the block 20 ( figure 1 ) or the L-shaped part 21 ( figure 2 ) by means of the flexible blade 19.

Such a pivot system with three joints is also called "knee".

The sizing of the frame 21, or the fine adjustment of the distance between the block 20 and the frame 7, makes it possible to give a bistable behavior to the mechanism, that is to say that the pivoting system with three joints allows the blocker 9 to evolve between two stable and well-defined equilibrium positions through an unstable equilibrium position.

The prestressing can be obtained by appropriate dimensioning of the parts of the locking device. It can be provided from the design of the locking device. So, on the figure 2 if the L-shaped portion 21 bears on the blade 19, it indirectly exerts prestressing on the arm 11.

On the figure 1 , the block 20 can be fixed near the rigid block 17, at a distance less than the length of the blade 19, so as to press the blade 19.

The figure 2 represents a blocking device 2 according to the invention, as applied to an exhaust type Robin. As can be seen, the end of the arm 10 which is opposite the arm 11 extends, beyond the input pallet 14, by a fork-shaped portion 22 provided to cooperate with a rocker whose only plateau 23 is represented on the figure 2 .

This fork-shaped portion 22 and its cooperation with the balance are well known to those skilled in the art. The latter can be found in the reference works dealing with Robin escapements, or possibly in the European patent application no. EP-A-1,122,617 , all the details concerning the precise form of Part 22 and its cooperation with the pendulum.

The figure 3 represents the locking device according to the invention, as applied to a relaxation-type escapement. Therefore, a trigger 25, which is connected known manner to the blocker 9, cooperates with an unlocking pin 26 fixed to the plate 27 of a rocker shown in FIG. Similarly, a pulse pallet 28 is provided on a part integral with the balance to be driven by the escapement wheel 40. All this is well known to those skilled in the art who can find, in reference books dealing with escapements of the expansion type, or possibly in the patent application European Patent No. EP-A-1 708 046 , all the details concerning the blocker, the fixing and the precise shape of the trigger 25 as well as its cooperation with the balance.

Thanks to the frame 7, the locking device according to the invention can be implemented more easily. Indeed, the pivoting by the flexible blades, and especially the bistable behavior of the system, requires a good control of the dimensions and positioning of the various elements. The solution described in the application EP 2,037,335 is very problematic from this point of view, because the elastic elements are each secured separately to the watch movement. If the blocker 9, the elastic elements 12, 13, 16 and, where appropriate, other elements of the device according to the embodiment chosen, are made in one piece with the frame 7, it is the latter that is secured to the movement during assembly and the relative positioning of the various elements is not changed by the assembly of the locking device in the watch movement.

Elastic prestressing

According to an advantageous embodiment of the invention, the operation of the three-joint system is improved by virtue of a prestressing system acting on the elastic element 16.

This elastic prestressing system allows better control of the prestressing force than with the geometrical prestressing method. This makes it possible to reduce the sensitivity of the bistable behavior to the dimensional errors of the constituent parts of the locking device according to the invention and thus makes it possible to increase the dimensional tolerances.

This prestressing system constantly exerts an elastic force on the elastic element 16 via the blades 31 and 32 ( figure 4 ) which are prestressed.

Adjustable geometric prestressing

Preferably, the prestressing system is adjustable, that is to say it is capable of varying the stress exerted on the elastic element 16.

This can be achieved by means of an eccentric screw. So, as we can see on the figure 3 , a variable preloading system is realized using an eccentric screw 29. When it is rotated, it drives the additional block 24 in rotation. The latter then presses more or less, according to the direction of rotation of the eccentric screw 29, on the blade 19, which pushes the rigid block 17, the blade 18 and the arm 11 of the blocker 9.

Adjustable elastic prestressing

On the figure 4 is shown another way to realize an adjustable elastic prestressing system. It consists of connecting the blade 19 of the elastic member 16 to an additional block 30 which is itself connected to the frame 7 by means of flexible blades 31,32 which play a guiding role. By then moving, for example by means of a screw (not shown), the additional block 30, exerts and varies the prestressing exerted on the elastic element 16. This preload can also be increased by a suitable dimensioning of the portion 7a of the frame 7 to which are connected the flexible blades 31,32.

On the figure 5 is shown an advantageous variant of the embodiment shown in FIG. figure 4 . In this variant, the additional block 30 is not connected directly to the frame 7, but by means of an intermediate block 33 which is itself connected to the frame 7 by flexible blades 34, 35 which play a guiding role.

Thus, when a displacement Δx is imposed on the intermediate block 33, the blades 31, 32, 34 and 35 flex identically and the intermediate block 33 tends to move upwards at the same time as from left to right (on the figure 5 ) because of the relative shortening of these four blades. This system therefore acts as a pre-load spring consisting of blades 31 and 32 working in parallel and whose prestressing stroke is x. The shortening of the blades 31,32 and 34,35 compensates in such a way that the block 30 undergoes no movement from top to bottom. This has the advantage that the adjustment of the preload (and this, whatever the distance Δx) does not change the geometry of the knee (alignment of the joints of the parts 19 and 11, figure 5 ) and thus its stability conditions.

Prestressing by an external force

Alternatively, it is possible to implement external prestressing acting as an additional spring exerting a force F on block 30 of Figures 4 and 5 . The blades 31 and 32 play only a role of guidance, while they previously played both a guiding role and that of a spring.

On the figure 4 the force F (not shown) then applies directly to the block 30 in the direction of the elastic element 16.

On the figure 5 , the force F (not shown) is applied to the block 33, in the direction of displacement Δx shown in this figure and the preload is transmitted to the elastic element 16 via the blades 31 and 32.

Advantages of the prestressing system

Thus, thanks to the geometric or elastic prestressing system, whether variable or fixed, the blocker 9 adopts a bistable behavior, that is to say that it can no longer oscillate freely around a position of equilibrium single center, but switches from one extreme stable position to another. Increased security is thus obtained: during the unlocking phase before the impulse, the pulling torque due to the bistable flexible pivot formed by the elastic blades 12, 13 is added to the pulling force of the escape wheel 40. This pulling torque determines the dynamic behavior of the flexible pivot. If we compare this system with a conventional expansion exhaust, we see that the return torque of the bistable flexible pivot replaces the return torque of the spring of the conventional expansion escapement.

This provides a major advantage: part of the energy normally required for the unlocking of a blocker is recovered because the actual steering angle of the balance (angle traveled between the moment when the balance comes into contact with the fork or the trigger finger of the anchor and the moment the jammer releases the wheel exhaust) decreases thanks to the bi-stability property that naturally rock the blocker 9 in its second stable position, thereby reducing the contact time with the balance.

• une meilleure précision due à la suppression du pivotement entre un axe et des paliers et donc la suppression des jeux de pivotement, ce qui aide grandement à la réalisation pratique d'un échappement dont l'ancre montre un très faible angle de basculement, comme l'échappement Robin (3 degrés contre 15 degrés pour un échappement ancre suisse standard) ;
• la précision sur le pivotement est également accrue ;
• la propriété de bistabilité permet de supprimer une sécurité ; dans le cas de l'échappement Robin et de l'ancre suisse, on peut ainsi renoncer à munir l'ancre d'un dard (système anti-renversement) ; dans le cas de l'échappement Robin, à détente ou à ancre suisse, on peut aussi supprimer le tirage de la dent de la roue sur la palette et le recul de la roue lors du dégagement, par exemple avec des palettes à bord arrondi ; le tirage est alors remplacé par le puits de potentiel du bloqueur à vaincre, ce qui évite le recul géométrique et le recul dynamique et permet de récupérer une partie de l'énergie utilisée pour basculer le bloqueur.

Other advantages arise from the fixed or variable prestressing system:

• better accuracy due to the elimination of pivoting between an axis and bearings and thus the elimination of the pivoting games, which greatly aids the practical realization of an escapement whose anchor shows a very low angle of tilt, as the Robin exhaust (3 degrees against 15 degrees for a standard Swiss anchor escapement);
• the accuracy on the pivoting is also increased;
• the property of bistability makes it possible to suppress a security; in the case of the Robin escapement and the Swiss anchor, it is thus possible to give up the anchor with a dart (anti-rollover system); in the case of the escapement Robin, trigger or Swiss anchor, it is also possible to suppress the drawing of the tooth of the wheel on the pallet and the recoil of the wheel during disengagement, for example with pallets with rounded edge; the draft is then replaced by the potential well of the blocker to overcome, which avoids geometric recoil and dynamic recoil and allows to recover some of the energy used to switch the blocker.

Preferably, as seen on the figure 5 , the intermediate block 33 comprises a stud 36 and the frame 7 comprises a recess 37 adapted to receive this stud and to delimit its movements. The stud 36 thus plays the role of limiting abutment, in order to secure the system and avoid accidental breaks during the application of prestressing. Indeed, the displacement of the stud 36 is limited by the walls of the recess 37. Its maximum displacement is intended to remain less than the displacement corresponding to the breaking stress.

The figure 6 represents the use of the locking device which has just been described in a relaxation-type escapement. Only the shape of the frame 7 is different here from that of the chassis of the figure 5 .

On the figure 6 it can be seen that the balance is surmounted by an inertial plate 52. The latter and its operation are described in detail in the European patent application published under No. EP 2,221,677 and the contents of which are incorporated by reference in the present patent application. In this application EP 2,221,677 , the inertial plate 52 is called "inertial member 11".

The locking device according to the invention also has several advantages over systems known from the state of the art, in particular the European patent application no. EP 2,037,7335 A2 which concerns an anchor for watch exhaust.

In the above application, the figures 7 and 8 show that the first two elements forming the pivot are placed on the same side of the blocker and having between them an angle much less than 90 ° (30 ° in the case of the figure 7 ), with the third element placed on the bisector and within the angle formed by the first two elements (see paragraph 22, 1.43-48).

This arrangement can make it possible to obtain a bistable behavior but has size disadvantages. On the one hand, the two elastic elements work in buckling when the system is in a bistable mode. The buckling is difficult to control in practice because the critical load to apply on each element to do it flamer is 8π * E * I / l ² , where E is the Young's modulus of the material, l is the length of the element and I is its inertia (which depends in the case of rectangular blades of the height h and the thickness e of the cube, I = h * e ^3/12). It can be seen that this critical load is very sensitive to the dimensions of the blade, and in particular to its thickness. The slightest imperfection of manufacture can thus greatly vary the load required to obtain the bistable behavior.

On the other hand, the angle between the first two elements that form the pivot is much less than 90 °, which makes the system sensitive to imperfections. The force required to apply on the third element to make the bistable system will be largely reflected on the blades: the component of the force along the blades will in any case not be less than 70.7% (cos (θ / 2) with θ = 90 °) of the force applied to the third elastic element. In the case of figure 7 of the aforementioned request, it will be 96%.

Finally, the elastic energy is stored integrally in the two pivoting elements, by buckling of the blades.

In the locking device according to the invention, the angle between the first two elements which form the pivot is generally 90 ° and can even be higher. The force is in turn preferentially applied in a direction which is outside the sector formed by the two pivoting elements, so that only one blade is stressed in compression and thus by buckling, the other blade being stressed in tension. The influence of dimensional variation on the critical load is therefore significantly reduced, so that manufacturing tolerances are much less critical for the operation of the system. The distribution between compression (buckling) and tensile stresses can be further adjusted with the angle between the first two elastic members and with the orientation of the force F relative to the first two elastic members. Finally, the elastic energy is stored largely in the third elastic element.

The locking device according to the invention therefore advantageously offers the possibility of providing that one of the first and second elastic elements works in traction and the other in compression, which is impossible with the anchor being the subject of the application. aforementioned patent. In addition, the adjustment of the constraints by the third element is facilitated because it is not hindered by the first and second elastic elements, as is the case with the aforementioned anchor.

The blocking device according to the invention extends in a single plane and can be made in one piece, for example in silicon using the DRIE ("Deep Reaction Ion Etching") method or in Ni or NiP using the UV-LiGA process ("Lithography, Galvanoformung, Abformung"). These two methods make it possible to manufacture the locking device according to the invention while respecting the strict tolerances required.

It is also possible and equally advantageous to use the same methods for making multi-level parts.

Alternatively, it is possible to realize the locking device according to the invention in two or three parts, that is to say by providing that one or / and the other of the pallets is / are mounted (s) on the blocker. Ruby palettes can then be used to allow fine adjustment of the penetrations.

Use of the blocking device according to the invention

The locking device for a gearwheel according to the invention applies to numerous mechanisms, in particular to direct-impulse escape mechanisms, such as escapements of the Robin or detent type of a timepiece, in particular in a wristwatch.

"Direct impulse escapement" means that the impulse of the sprocket is directly communicated to the pendulum.

So, on the figure 7 is shown a conventional expansion escapement, in which the inertial plate 52 of the figure 6 has been replaced by an ankle 41 which interacts with an expansion blade 42. This blade 42 flexes when the pin 41 comes into contact with it and drives the blocker 9 in the direction G via a pin 43, while it disappears. in the H direction.

On the figure 8 is shown an exhaust type Robin in which the pin 41 secured to the rocker interacts with a fork 44 extending the end of the arm 10 of the blocker 9, in order to release the latter and release the toothed wheel 40. The latter is released at each alternation but transmits an impulse only to alternating out of two: it is therefore a blowout escapement.

Measurements have shown that the average yield of the blocking device according to the invention as represented on the figure 6 is very good and allows in particular to achieve a relaxation escapement for functional wristwatch with security adapted for reliable operation, despite the shocks normally suffered by a wristwatch.

The locking device according to the invention also applies to escapements with an indirect impulse, such as the Swiss lever escapement.

"Indirect Pulse Exhaust" means that the impulse is transmitted indirectly from the gear wheel to the pendulum.

So, on the figure 9 is shown a classic Swiss lever escapement, in which the pulse is transmitted from the toothed wheel 40 to the balance via an anchor 45 and a fork 46. As can be seen in this figure, the frame 7 advantageously allows to directly integrate the limit stops 47,48 of the movement of the anchor 45, which are also called stars. The frame 7 is in fact provided with an opening 51 allowing the rotation of the pin 41 carried by the plate integral with the balance and the displacement of the fork 46.

The increased precision of the pivoting provided by the invention has the advantage of making it possible to eliminate a security. As a result, in a Swiss lever escapement such as that shown on the figure 9 (Just as in the case of an exhaust type Robin), it is possible to give away the anchor 45 of the stinger 50 because the system prevents the reversal of the anchor, for example following a shock. It is also possible or alternatively to suppress the pulling of the teeth of the toothed wheel 40 on the entry and exit pallets 14 and thus the retraction of this toothed wheel during disengagement, for example by using an entry pallet 14 and 15 whose rest plane 49 is rounded instead of being rectilinear, as can be seen on the figure 10 . As a result, the draft is replaced by the potential well of the blocker to be overcome, which avoids the geometric recoil and the dynamic recoil and makes it possible to recover a part of the energy used to switch the blocker 9. This solution is illustrated on the figure 10 for a Swiss lever escapement, but can also be applied to a trigger exhaust or Robin.

Methods of producing a timepiece

With the embodiments of Figures 3 to 10 , the angular rigidity of the blocker 9 can be modified and adjusted until a bistable operating mode is achieved. The potential energy of the system then has two wells of potential clearly defined around a maximum and allowing a very precise pivoting of the blocker from one position to another.

Thus, during the manufacture of a timepiece, it is advantageous to implement, besides the conventional steps well known to those skilled in the art, steps specific to the locking device according to the invention.

Therefore, if the variable pretensioning system locking device 3 visible on the figure 3 after having fixed the locking device on the movement stage of the timepiece, the eccentric screw 29 is rotated until a bistable system is obtained.

If one uses the locking device with adjustable preloading system 4 visible on the figure 4 after fixing the locking device on the movement of the timepiece, a micrometer or eccentric screw is fixed on the plate so that it is in contact with the additional block 30, then it is turned suitably to obtain a bistable system.

If using the locking device with adjustable preload system 5 or 6, visible in the respective figure 5 or 6, after having fixed the locking device on the turntable of the movement of the timepiece, a micrometer or eccentric screw 38 is fixed on the plate, so that it is in contact with the intermediate block 33, and is then rotated appropriately up to obtaining a bistable system. To further increase the positioning accuracy, it is possible to introduce, before turning the screw 38 to make the adjustment, wedge-shaped wedge 39 between the frame 7 and the intermediate block 33. The wedge 39 then acts as an adjustable stop whose the gearing factor allows a fine displacement adjustment.

Application to a detent escapement with sliding pallet

Returning to figures 3 , 9 and 10 it can be seen that the escapement represented is a bit peculiar. This escape will now be described in detail with reference to Figures 11 to 21 on which, for the sake of simplicity, there is shown neither the elastic blades, nor the rigid blocks, fixing, additional and intermediate, nor the frame.

1. a. Echappement à détente pour mouvement d'horlogerie, comprenant un balancier 3' solidaire d'un élément d'impulsion 2', une roue d'échappement 1' dont la denture coupe la trajectoire de l'élément d'impulsion 2', une bascule de détente 4' présentant un élément d'arrêt 4a' et un élément de dégagement élastique 4c', des moyens pour engager l'élément d'arrêt dans la trajectoire de la denture de la roue d'échappement 1', et un doigt de dégagement 7' solidaire en rotation du balancier 3' pour venir en prise avec l'élément de dégagement élastique 4c' de la bascule 4' une fois par période d'oscillation du balancier pour dégager l'élément d'arrêt 4a' de la denture de la roue d'échappement,
   cet échappement ayant ceci de particulier que lesdits moyens pour engager l'élément d'arrêt 4a' dans la trajectoire de la denture de la roue d'échappement 1' comportent une surface de glissement 4b' solidaire de la bascule de détente 4', disposée pour pénétrer dans la trajectoire de la denture de la roue d'échappement 1' lorsque l'élément d'arrêt 4a' en sort, cette surface de glissement étant conformée pour que la force exercée sur elle par une dent de la roue d'échappement 1' provoque le retour de l'élément d'arrêt 4a' de la bascule de détente 4' dans la trajectoire de la denture de la roue d'échappement 1'.
   Des caractéristiques avantageuses de cet échappement sont indiquées aux points b et c suivants :
2. b. Echappement selon le point a, dans lequel l'élément d'arrêt 4a' de la bascule de détente comporte une surface de sécurité 4e' située en-dehors de la trajectoire des dents de la roue d'échappement 1' et adjacente à cette trajectoire en position de déverrouillage de la bascule de détente 4'.
3. c. Echappement selon le point b, dans lequel la longueur de la surface de sécurité 4e' correspond à l'angle que parcourt la roue d'échappement 1' pour communiquer l'impulsion motrice au balancier 3', pour empêcher le retour prématuré de l'élément d'arrêt 4a' dans la trajectoire des dents de la roue d'échappement 1'.

This is a detent escapement for watch movement that can be summarized as follows:

1. at. Expansion escapement for a watch movement, comprising a rocker 3 'secured to a pulse element 2', an escape wheel 1 'whose toothing intersects the trajectory of the pulse element 2', a rocker detent 4 'having a stop member 4a' and an elastic release member 4c ', means for engaging the stop member in the path of the toothing of the escape wheel 1', and a finger of release 7 'integral in rotation with the rocker 3' to engage with the elastic release element 4c 'of the rocker 4' once per oscillation period of the rocker to release the stop element 4a 'of the toothing of the escape wheel,
   this exhaust having the particular feature that said means for engaging the stop element 4a 'in the path of the toothing of the escape wheel 1' comprise a sliding surface 4b 'integral with the trigger rocker 4', arranged to enter the path of the toothing of the escape wheel 1 'when the stop element 4a' comes out of it, this sliding surface being shaped so that the force exerted on it by a tooth of the escape wheel 1 'causes the return of the stop element 4a' of the trigger rocker 4 'in the path of the toothing of the escape wheel 1'.
   Advantageous features of this exhaust are indicated in points b and c below:
2. b. Exhaust according to point a, wherein the stop element 4a 'of the trigger rocker comprises a safety surface 4e' located outside the path of the teeth of the escape wheel 1 'and adjacent to this trajectory in the unlocking position of the trigger rocker 4 '.
3. vs. Exhaust according to point b, wherein the length of the safety surface 4e 'corresponds to the angle traveled by the escape wheel 1' to communicate the driving pulse to the beam 3 ', to prevent the premature return of the stopping element 4a 'in the path of the teeth of the escape wheel 1'.

The main advantage of such an exhaust is to increase the safety against shocks. Another advantage lies in the fact that the stop element of the trigger rocker is not brought back into the path of the teeth of the escape wheel by a spring armed by the balance, but by the sliding surface against which a tooth of the escape wheel acts to move the lever to the locking position of the escape wheel. The energy consumed is lower and is not supplied by the balance wheel, but by the escape wheel, minimizing the disturbance of the oscillation period of the balance-balance oscillator. In addition, this trigger rocker with a stop element and a sliding surface which penetrate alternately in the path of the toothing of the escape wheel is an additional security.

Advantageously, the stop element of the trigger rocker comprises a safety surface located outside the path of the teeth of the escape wheel and adjacent to this path in the unlocking position of the trigger rocker. The length of this safety surface corresponds to the angle traveled by the escape wheel to communicate the driving pulse to the balance, to prevent the premature return of the stop element in the trajectory of the teeth of the wheel. exhaust. It is therefore still a second additional security.

Specifically, the exhaust illustrated by the figure 11 comprises an escape wheel 1 'whose circular trajectory of the teeth intersects the trajectory of a pulse pallet 2' integral with the balance 3 'associated with a spiral (not shown).

A trigger rocker 4 'can move freely between two stops 5', 6 '. It comprises on the one hand a stop element whose abutment face 4a 'serves to stop a tooth of the escape wheel 1' and secondly a sliding surface 4b 'to allow a tooth of the wheel escape from sliding on this surface 4b 'and flip the rocker counterclockwise to bring the stop face into the path of the teeth of the escape wheel 1 '. This trigger rocker 4 'further comprises an elastic release member 4c' bearing against a stop 4d and whose free end enters the path of a release finger 7 'integral with the rocker 3'.

The stop element of the trigger rocker 4 'still has a safety surface 4' which is situated outside the path of the teeth of the escape wheel 1 'and adjacent to this trajectory when the trigger rocker 4 'press against the stop 5' ( Figures 13 to 16 ). This surface extends over an angle of the escape wheel 1 'corresponding to the angle during which a tooth of the escape wheel communicates its pulse to the pulse pallet 2' of the balance 3 '.

An oscillation cycle of the balance spring 3 'is decomposed according to the different phases illustrated by the Figures 11 to 21 .

In the phase illustrated by the figure 11 , the balance 3 'turns in the opposite direction of that of clockwise. The abutment face 4a 'of the stop element of the latch 4' holds the escape wheel 1 'which holds the latch 4' against the stop 6 '.

The phase illustrated by the figure 12 corresponds to the moment when the release finger 7 'integral with the rocker arm 3' meets the elastic disengagement member 4c 'bearing against the stop 4d'. Due to the abutment 4d 'and the direction of rotation opposite that of the clockwise balance 3', the elastic release element 4c 'behaves as a rigid element.

The trigger rocker 4 'then passes under the action of the release finger 7' of the support against the stop 6 'to the support against the stop 5 '( figure 13 ), thus releasing the escape wheel 1 'whose tooth was stopped by the abutment face 4a' of the stop element of the trigger rocker 4 '.

The escape wheel being subjected to the torque of the mainspring (not shown) transmitted by the finishing train (not shown), is then driven in the direction of clockwise. One of his teeth then encounters the pulse pallet 2 'of the balance 3' ( figure 14 ). This is the beginning of the impulse phase during which the energy of the mainspring is transmitted to the balance 3 'to transmit the energy necessary to maintain its oscillating movement.

This impulse phase ends when the tooth of the escape wheel leaves the impulse pallet, i.e., substantially in the position illustrated by the figure 15 . As can be seen, throughout this pulse phase, the safety surface 4e 'of the stop element of the trigger rocker 4' prevents the stop member from entering the path of the teeth of the escape wheel 1 ', following an impact for example.

After the impulse phase, the escape wheel 1 'continues its rotation and one of its teeth meets the sliding surface 4b' ( figure 16 ). By sliding against this surface 4b ', the tooth of the escape wheel rotates the rocker 4' in the opposite direction of that of the clockwise and returns it against the stop 6 '( figure 17 ). This tilting also brings the stop element of the rocker 4 'into the path of the teeth of the escape wheel 1', so that a tooth of the escape wheel abuts against the abutment face 4a ' of the stop element and exerts on the rocker 4 'a couple which holds it against the stop 6' ( figure 18 ).

Meanwhile, the balance 3 'continued to turn counterclockwise until the hairspring stopped and turned it clockwise.

When the release finger 7 'meets the elastic disengagement element 4c' of the trigger rocker 4 '( figure 19 ), it moves it away from the stop 4d '( figure 20 ) without moving the trigger rocker 4 '. The pulse pallet 2 'of the balance 3' passes between two adjacent teeth of the escape wheel 1 'without coming into contact with them.

The pendulum 3 'continues its rotation until it is stopped by the hairspring and is driven in a counter-clockwise rotation ( figure 21 ), thus starting a new oscillation cycle. The detent escapement shown on the Figures 11 to 21 can be improved by adding a frame, elastic blades, etc., to achieve the exhaust shown on the figure 3 . Thus, a flexible pivot is achieved and it is possible to eliminate virtually all games related to the movement of the blocker, with an increase in the accuracy of the relative positioning of the constituent parts of the locking device. The improved exhaust has its own behavior whose primary purpose is to increase the safety of operation.

Claims (15)

Locking device (1, 2, 3, 4, 5, 6) for a toothed wheel (40) comprising: - a frame (7); - a blocker (9), including an anchor (45), comprising two arms (10, 11) each provided with a pallet (14, 15) intended to come into contact with a tooth of the toothed wheel (40); a first and a second elastic element (12, 13) each having one end connected to the blocker (9) and another end connected to the frame (7); this locking device being characterized in that the locking device is integral or integral with the exception of at least one of the pallets (14, 15) or in that the frame, the blocker, the first elastic member and the second elastic member are integral or integral with the exception of at least one of the vanes (14, 15). Locking device according to claim 1, wherein the locking device comprises a third elastic element (16) connected to the blocker (9), in particular a third elastic element (16) connected to the blocker (9) and in one piece, or in one piece except for at least one of the pallets (14, 15), with the frame, the blocker, the first elastic member and the second elastic member. Locking device according to claim 1 or 2, wherein the locking device comprises a fork (44, 46), in particular in which the blocker comprises a fork and / or wherein the locking device and / or the fork and / or the blocker does not include a stinger. Locking device according to one of the preceding claims, wherein the locking device, in particular the blocker, in particular the fork, is arranged to interact with a peg (41) integral with a rocker arm. Locking device according to one of the preceding claims, wherein the two arms form an obtuse angle. Locking device (1, 2, 3, 4, 5, 6) for a toothed wheel (40) according to one of the preceding claims, in which the first and second elastic elements (12, 13) are each connected to one arm ( 10, 11) and / or wherein the first and second resilient members (12, 13) extend from points near the junction area of the two arms (10, 11). Locking device (1, 2, 3, 4, 5, 6) for a toothed wheel (40) according to one of the preceding claims, wherein the third elastic element comprises a plurality of flexible blades. Locking device (1, 2, 3, 4, 5, 6) for a toothed wheel (40) according to one of the preceding claims, in which the first and second elastic elements (12, 13) form between them an obtuse angle, in particular an angle of 90 ° and / or in which the first and second elements elastic members (12, 13) are first and second flexible blades (12, 13). Locking device (2, 4, 5, 6) for a toothed wheel (40) according to one of the preceding claims, wherein the third elastic element (16) is also connected to the frame (7). Locking device (1, 2, 3, 4, 5, 6) for a toothed wheel (40) according to one of the preceding claims, further comprising a biasing system exerting a force on the third elastic element (16) and / or comprising a prestressing system acting on the third elastic element, in particular acting on the third elastic element by means of two blades (31, 32) which are prestressed. Locking device (3, 4, 5, 6) for toothed wheel (40) according to the preceding claim, wherein the prestressing system is adjustable and / or able to vary the force exerted on the third elastic element (16). A gear locking device (4, 5, 6) according to claim 10 or 11, wherein: the variable prestressing system comprises an additional block (30) connected to the frame (7) by fifth and sixth flexible blades (31, 32) or by means of an intermediate block (33) itself connected to the frame (7). ) by seventh and eighth blades (34,35), and optionally, the seventh and eighth blades (34, 35) are arranged in such a way that, during the displacement of the four blades (31, 32, 34, 35), their shortenings canceling each other, so as to avoid any parasitic movement of the block (30) when adjusting the prestressing. Locking device (1, 2, 3, 4, 5, 6) for a toothed wheel (40) according to one of Claims 10 to 12, in which the prestressing system comprises an intermediate block (33) connected to the chassis by means of flexible blades (34, 35) and / or connected to the third elastic element by means of two blades (31, 32). Timepiece comprising a locking device (1, 2, 3, 4, 5, 6) for a toothed wheel (40) according to one of the preceding claims, in particular a locking device (1, 2, 3, 4, 5, 6) forming part of an exhaust and the gear wheel (40) being an escape wheel (12). Timepiece according to the preceding claim, comprising a rocker and wherein the locking device, in particular the blocker, in particular the fork, is arranged to interact with a peg (41) integral with the balance.

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