EP4053639A1 - Device for selecting timepiece functions - Google Patents

Abstract

Clockwork mechanism (800; 800') for correcting a clockwork function comprising:- a first rocker (14) comprising a first desmodromic cam connecting element (14a),- a correcting wheel set (404), and- a second rocker (402), the second rocker (402) comprising:- at least one first element (402d) for guiding the corrector wheel set (404),- at least one first element (402b) for friction against the corrector wheel set (404), and - a second desmodromic cam link element (402a) provided to cooperate by contact with the first desmodromic cam link element (14a).

Description

The invention relates to a device for selecting watch functions. The invention also relates to a timepiece mechanism comprising such a selection device. The invention also relates to a watch movement comprising such a selection device or such a mechanism. The invention also relates to a timepiece comprising such a movement or such a selection device or such a mechanism. The invention finally relates to a method of operating such a timepiece or such a movement or such a selection device or such a mechanism.

A mechanism provided with a three-position control rod is generally provided to allow adjustment of a timepiece comprising an additional function, such as for example a calendar or a second time zone, which must be adjusted.

Position "2" or intermediate position of the stem is not always easy to reach by the user of a timepiece, in particular of a watch, and there is a risk that this stem will pass directly from the first (position "1") to the last position (position "3") without it being able to be arranged in a stable manner at the level of the intermediate position (position "2") due in particular to the axial forces required for its actuation . With such a risk, it is then understood that it would be tricky to add yet another intermediate rod position dedicated to adjusting another additional function. Especially since with a fourth stem position, the stroke of the latter would have to be increased, which would pose difficulties in terms of size, both in terms of the movement and in terms of the crown of the watch. To remedy this, one solution would be to reduce the travel between the axial positions of the rod, but this would make the selection of functions even more difficult.

As a result, watches equipped, for example, with a time zone, a moon phase or an annual, semi-perpetual or perpetual calendar, generally have at least one additional interface means in addition of the control rod to be able to select and adjust several additional functions. This additional interface means can for example be in the form of a pusher, or even a selection bezel.

The multiplication of interface means runs the risk of complicating the adjustment of the timepiece. It also implies constraints in terms of design, due to the very fact of the obligation to provide for them within the watch.

The document EP2453322 describes a chronograph movement equipped with a mechanism comprising a stem having three stable axial positions. The particularity of this mechanism lies in the fact that it offers the possibility of adjusting an additional function derived from the time by actuating one of the chronograph pushers when the control rod is not in a first position. More particularly, when the stem of the mechanism is in the first position, the pusher makes it possible to interact with the chronograph, whereas when the stem is in another position, the pusher makes it possible to set an additional function derived from the time.

The document EP1939699 discloses a mechanism having a particular arrangement of a crown provided for the selection and adjustment of various functions. Unlike a mechanism provided with a conventional interface implementing a control rod, a rotation of this crown allows the selection of the function to be adjusted, and a pressure on it allows the adjustment of the function previously selected. The adjustment is therefore made incrementally, as it is possible to do with a simple corrector.

The document CH702803 describes a mechanism comprising a stem having three stable axial positions and further comprising a preferably coaxial crown and pusher. According to one of the axial positions of the rod, the rotation of the crown allows the selection of an adjustment function, and the actuation of the pusher allows an incremental adjustment of the previously selected function.

The document CH702548 describes a mechanism for selecting three configurations of a selection device; winding the movement according to a first configuration, setting a time zone according to a second configuration, and setting the time according to a third configuration. The configuration of this mechanism is selected by pressing on a crown, as on a pusher. Rotating the crown enables winding or adjustment of the previously selected function.

The documents identified within the framework of this state of the art highlight alternative solutions to the mechanisms conventionally provided with a single and unique control rod. Although some of these solutions make it possible to adjust more functions than a three-position control rod allows, they all have the disadvantage of requiring a second interface means such as a pusher, coaxial or not with the crown. , and/or a sequential selection of the different functions. Such mechanisms, which implement a sequential selection of the different functions, can also require an additional display means in order to allow the user to be aware of the selected function, which can impact the aesthetics of the part. of watchmaking. Moreover, even if the use of a pusher provided to allow the adjustment of an additional function of the movement is known and very widely used, its arrangement is not easy both in terms of size and in terms of the tightness of the watch. In addition, the implementation of a pusher implies that the adjustment is done incrementally, which is not suitable for certain functions such as, for example, the manual winding of a movement or setting the time. .

The object of the invention is to provide a device for selecting watchmaking functions making it possible to improve the devices for selecting watchmaking functions known from the prior art. In particular, the invention proposes a device for selecting watch functions that is particularly reliable and easy to use, which makes it possible to obtain at least four configurations for selecting watch functions.

1. 1. Dispositif de sélection (200 ; 200') de fonctions horlogères comprenant :
   • un dispositif de tirette (150 ; 150'), et
   • un bâti (100 ; 100'),
     le dispositif de tirette (150 ; 150') comprenant une tirette (2 ; 2') montée mobile sur le bâti (100 ; 100') et une bascule (3 ; 3') montée mobile sur le bâti (100 ; 100') ou sur la tirette (2 ; 2'),
     le dispositif de sélection (200 ; 200') comprenant en outre :
   • un premier dispositif (4 ; 4') d'indexation en position agencé de sorte à agir sur la tirette (2 ; 2'), et
   • un deuxième dispositif (5 ; 5') d'indexation en position agencé de sorte à agir sur la bascule (3 ; 3').
2. 2. Dispositif de sélection (200 ; 200') selon la proposition 1, caractérisé en ce qu'il comprend un élément d'interface (1), en particulier une tige (1) de commande, et en ce que la tirette (2 ; 2') est en prise directe avec l'élément d'interface (1), notamment par le biais d'un premier plot (21 ; 21') de tirette engagé dans une gorge (1a) de l'élément d'interface (1).
3. 3. Dispositif de sélection (200 ; 200') selon l'une des propositions 1 et 2, caractérisé en ce que la tirette (2 ; 2') et la bascule (3 ; 3') sont pivotées autour d'un même axe (A2 ; A2').
4. 4. Dispositif de sélection (200 ; 200') selon l'une des propositions 1 à 3, caractérisé en ce que le dispositif de sélection (200 ; 200'), en particulier le dispositif de tirette (150 ; 150'), comprend un organe d'encliquetage (6 ; 6') agencé de sorte à solidariser la tirette (2 ; 2') et la bascule (3 ; 3').
5. 5. Dispositif de sélection (200 ; 200') selon la proposition 4, caractérisé en ce que l'organe d'encliquetage (6 ; 6') est pivoté sur la bascule (3 ; 3') et agencé de sorte à coopérer avec un deuxième plot (23 ; 23') de tirette (2 ; 2').
6. 6. Dispositif de sélection (200 ; 200') selon la proposition 5, caractérisé en ce que la bascule (3 ; 3') comprend une découpe oblongue (31 ; 31') coopérant avec le deuxième plot (23 ; 23') de tirette (2 ; 2'), de sorte à lier cinématiquement la tirette (2 ; 2') et la bascule (3 ; 3') lors du déplacement de l'élément d'interface (1).
7. 7. Dispositif de sélection (200 ; 200') selon l'une des propositions 5 et 6, caractérisé en ce que l'organe d'encliquetage (6 ; 6') est agencé pour coopérer avec le deuxième plot (23 ; 23') au travers de la découpe oblongue (31 ; 31') formée sur la bascule (3 ; 3').
8. 8. Dispositif de sélection (200 ; 200') selon l'une des propositions 4 à 7, caractérisé en ce que le bâti (100 ; 100') comprend un profil (99 ; 99') coopérant avec l'organe d'encliquetage (6 ; 6') de sorte à commander au moins partiellement la position de l'organe d'encliquetage (6 ; 6') en fonction de la position de tirette (2 ; 2') et/ou de la bascule (3 ; 3').
9. 9. Dispositif de sélection (200 ; 200') selon l'une des propositions 1 à 8, caractérisé en ce que le premier dispositif (4 ; 4') d'indexation en position comprend un premier ressort (41 ; 41') doté d'une première surface fonctionnelle (42 ; 42') et un troisième plot (22 ; 22') de tirette (2 ; 2'), la première surface fonctionnelle (42 ; 42') et la tirette (2 ; 2'), en particulier le troisième plot (22 ; 22'), coopérant par contact.
10. 10. Dispositif de sélection (200) selon l'une des propositions 1 à 9, caractérisé en ce que le deuxième dispositif (5) d'indexation en position comprend un deuxième ressort (51) doté d'une deuxième surface fonctionnelle (52) et un mobile (7) en liaison cinématique, en particulier en liaison d'engrènement, avec la bascule (3), le mobile (7) comprenant une troisième surface fonctionnelle (72) coopérant avec la deuxième surface fonctionnelle (52).
11. 11. Dispositif de sélection (200') selon l'une des propositions 1 à 9, caractérisé en ce que le deuxième dispositif (5') d'indexation en position comprend un deuxième ressort (51') doté d'une deuxième surface fonctionnelle (52') et un quatrième plot (34') de bascule (3'), la deuxième surface fonctionnelle (52') et la bascule (3'), en particulier le quatrième plot (34'), coopérant par contact.
12. 12. Dispositif de sélection (200 ; 200') selon l'une des propositions 1 à 11 et selon la proposition 2, caractérisé en ce que le dispositif de tirette (150 ; 150'), le premier dispositif (4 ; 4') d'indexation en position et le deuxième dispositif (5 ; 5') d'indexation en position sont agencés de sorte qu'une position stable de l'élément d'interface (1) est déterminée soit par le premier dispositif (4 ; 4') d'indexation en position, soit par le deuxième dispositif (5 ; 5') d'indexation en position.
13. 13. Mécanisme horloger (800; 800') comprenant un dispositif de sélection (200 ; 200') de fonctions horlogères selon l'une des propositions 1 à 12.
14. 14. Mouvement horloger (900 ; 900') comprenant un dispositif de sélection (200 ; 200') de fonctions horlogères selon l'une des propositions 1 à 12 et/ou un mécanisme horloger (800 ; 800') selon la proposition 13.
15. 15. Pièce d'horlogerie (1000 ; 1000') comprenant un dispositif de sélection (200 ; 200') de fonctions horlogères selon l'une des propositions 1 à 12 et/ou un mécanisme horloger (800 ; 800') selon la proposition 13 et/ou un mouvement horloger (900 ; 900') selon la proposition 14.
    Selon un deuxième aspect de l'invention, des objets sont définis par les propositions suivantes :
16. 16. Dispositif de sélection (200 ; 200') de fonctions horlogères comprenant :
    • un bâti (100 ; 100'),
    • un élément d'interface (1), en particulier une tige de commande (1), et
    • un dispositif de tirette (150 ; 150'),
      le dispositif de tirette (150 ; 150') étant agencé de sorte à définir :
    • n positions stables de l'élément d'interface (1), avec n ≥ 3, et
    • m configurations de sélection du dispositif de sélection (200 ; 200'), avec m≥n+1.
17. 17. Dispositif de sélection (200 ; 200') selon la proposition 16, caractérisé en ce que le dispositif de tirette (150 ; 150') est agencé de sorte à définir au moins deux configurations de sélection distinctes du dispositif de sélection (200 ; 200') pour une même position stable (P2) de l'élément d'interface (1).
18. 18. Dispositif de sélection (200 ; 200') selon la proposition 17, caractérisé en ce que la même position stable (P2) de l'élément d'interface (1) est une position stable intermédiaire (P2) de l'élément d'interface (1) positionnée entre deux positions stables extrémales (P1), (P3) de l'élément d'interface (1).
19. 19. Dispositif de sélection (200 ; 200') selon l'une des propositions 16 à 18, caractérisé en ce qu'une première position extrémale (P1) de l'élément d'interface (1), stable et la plus enfoncée dans le bâti (100 ; 100'), permet de définir une première configuration (C1) du dispositif de sélection (200 ; 200') qui permet un actionnement d'une chaîne de remontage manuel d'un mouvement horloger (900 ; 900').
20. 20. Dispositif de sélection (200 ; 200') selon l'une des propositions 16 à 19, caractérisé en ce que le dispositif de sélection est agencé de sorte qu'une deuxième position stable intermédiaire (P2) de l'élément d'interface (1) permet de définir :
    • une deuxième configuration (C2) du dispositif de sélection de fonctions qui permet un actionnement d'une première chaîne de réglage unidirectionnel ou bidirectionnel d'une fonction d'indication d'une première information dérivée de l'heure, et
    • une troisième configuration (C3) du dispositif de sélection de fonctions qui permet un actionnement d'une deuxième chaîne de réglage unidirectionnel ou bidirectionnel d'une fonction d'indication d'une deuxième information dérivée de l'heure.
21. 21. Dispositif de sélection (200 ; 200') selon la proposition 20, caractérisé en ce que la première chaîne de réglage est une chaîne de réglage d'une indication des quantièmes et en ce que la deuxième chaîne de réglage est une chaîne de réglage d'une indication des jours.
22. 22. Dispositif de sélection (200 ; 200') selon la proposition 20, caractérisé en ce que la première chaîne de réglage est une chaîne de réglage d'une indication d'un fuseau horaire et en ce que la deuxième chaîne de réglage est une chaîne de réglage d'une indication des quantièmes.
23. 23. Dispositif de sélection (200 ; 200') selon l'une des propositions 16 à 22, caractérisé en ce qu'une troisième position extrémale (P3) de l'élément d'interface (1), stable et la plus retirée du bâti (100 ; 100'), permet de définir une quatrième configuration (C4) du dispositif de sélection qui permet un actionnement d'une chaîne de réglage de l'heure.
24. 24. Dispositif de sélection (200 ; 200') selon l'une des propositions 16 à 23, caractérisé en ce que le dispositif de tirette (150 ; 150') comprend une tirette (2 ; 2') montée mobile sur le bâti (100 ; 100') et une bascule (3 ; 3') montée mobile sur le bâti (100 ; 100') ou sur la tirette (2 ; 2'), le dispositif de sélection (200 ; 200') comprenant en outre :
    • un premier dispositif (4 ; 4') d'indexation en position agencé de sorte à agir sur la tirette (2 ; 2'), et
    • un deuxième dispositif (5 ; 5') d'indexation en position agencé de sorte à agir sur la bascule (3 ; 3').
25. 25. Mécanisme horloger (800 ; 800') comprenant un dispositif de sélection (200 ; 200') de fonctions horlogères selon l'une des propositions 16 à 24.
26. 26. Mouvement horloger (900 ; 900') comprenant un dispositif de sélection (200 ; 200') de fonctions horlogères selon l'une des propositions 16 à 24 et/ou un mécanisme horloger selon la proposition 25.
27. 27. Pièce d'horlogerie (1000 ; 1000') comprenant un dispositif de sélection (200 ; 200') de fonctions horlogères selon l'une des propositions 16 à 24 et/ou un mécanisme horloger selon la proposition 25 et/ou un mouvement horloger selon la proposition 26.
28. 28. Procédé de fonctionnement d'un dispositif de sélection (200 ; 200') de fonctions horlogères selon l'une des propositions 16 à 24 ou d'un mécanisme horloger selon la proposition 25 ou d'un mouvement horloger selon la proposition 26 ou d'une pièce d'horlogerie selon la proposition 27, l'élément d'interface (1) comprenant une deuxième position stable intermédiaire (P2) positionnée entre une première position stable (P1) et une troisième position stable (P3), le procédé comprenant les étapes suivantes :
    • configuration du dispositif de sélection (200 ; 200') selon une deuxième configuration (C2) lorsqu'on déplace l'élément d'interface (1) de la première position stable (P1) à la deuxième position stable intermédiaire (P2), et
    • configuration du dispositif de sélection (200 ; 200') selon une troisième configuration (C3) lorsqu'on effectue un mouvement de va-et-vient de l'élément d'interface (1) depuis la deuxième position stable intermédiaire (P2), en particulier selon un premier sens de traction, et en revenant à la deuxième position stable intermédiaire (P2).
29. 29. Procédé de fonctionnement selon la proposition 28, caractérisé en ce que le dispositif de sélection (200 ; 200') est configuré selon une troisième configuration (C3) lorsqu'on déplace l'élément d'interface (1) de la troisième position stable (P3) à la deuxième position stable intermédiaire (P2).
    Selon un troisième aspect de l'invention, des objets sont définis par les propositions suivantes :
30. 30. Mécanisme horloger (800 ; 800') de correction d'une fonction horlogère comprenant :
    • une première bascule (14) comprenant un premier élément de liaison desmodromique à came (14a),
    • un mobile correcteur (404), et
    • une deuxième bascule (402),
      la deuxième bascule (402) comprenant :
    • au moins un premier élément (402d) de guidage du mobile correcteur (404),
    • au moins un premier élément (402b) de friction contre le mobile correcteur (404), et
    • un deuxième élément de liaison desmodromique à came (402a) prévu pour coopérer par contact avec le premier élément de liaison desmodromique à came (14a).
31. 31. Mécanisme selon la proposition 30, caractérisé en ce que le premier élément de liaison desmodromique à came est un plot (14a) et le deuxième élément de liaison desmodromique à came est un profil de came (402a) ou en ce que le premier élément de liaison desmodromique à came est un profil de came et le deuxième élément de liaison desmodromique à came est un plot.
32. 32. Mécanisme selon la proposition 31, caractérisé en ce que le profil de came (402a) est constitué par une rainure (402a) qui est dotée d'au moins deux portions distinctes (1402a, 2402a), voire trois portions distinctes (1402a, 2402a, 3402a).
33. 33. Mécanisme selon l'une des propositions 30 à 32, caractérisé en ce que la deuxième bascule (402) comprend au moins un bras (402c) et en ce que le premier élément (402b) de friction comprend au moins une surface (402f) de friction, l'au moins un bras (402c) étant agencé de sorte à rappeler élastiquement l'au moins une surface de friction (402f) à l'encontre du mobile correcteur (404).
34. 34. Mécanisme selon l'une des propositions 30 à 33, caractérisé en ce que l'au moins un premier élément (402d) de guidage et l'au moins un premier élément (402b) de friction sont confondus ou formés par un même élément.
35. 35. Mécanisme selon l'une des propositions 30 à 34, caractérisé en ce que la deuxième bascule est monobloc et/ou en ce que la deuxième bascule présente une épaisseur inférieure à 200 µm, voire inférieure à 150 µm.
36. 36. Mécanisme selon l'une des propositions 30 à 35, caractérisé en ce que la première bascule (14) et la deuxième bascule (402) sont configurées et/ou agencées de sorte à positionner la deuxième bascule (402) selon une première position angulaire et une deuxième position angulaire autour d'un axe (402e) de rotation de ladite deuxième bascule (402), la première position angulaire permettant d'activer une première fonction de correction, notamment une fonction de correction de l'indication des quantièmes, et la deuxième position angulaire permettant de désactiver la première fonction de correction.
37. 37. Mécanisme selon l'une des propositions 30 à 36, caractérisé en ce que la première bascule (14) et la deuxième bascule (402) sont configurées et/ou agencées de sorte à autoriser le positionnement de la deuxième bascule (402) selon une troisième position angulaire autour de son axe (402e) permettant d'activer une deuxième fonction de correction, notamment une fonction de correction de l'indication des jours.
38. 38. Mécanisme selon les propositions 36 et 37, caractérisé en ce que la première bascule (14) et la deuxième bascule (402) sont configurées et/ou agencées de sorte que, dans la deuxième position angulaire, la deuxième fonction de correction est désactivée.
39. 39. Mécanisme selon l'une des propositions 30 à 38, caractérisé en ce que le mécanisme comprend un dispositif de sélection (200) comprenant un dispositif de tirette (150) incluant une tirette (2) et une troisième bascule (3), et en ce que la première bascule (14) est pilotée par le dispositif de sélection (200), le dispositif de tirette (150) et la première bascule (14) étant configurés et/ou agencés de sorte que la première bascule (14) est positionnée par la tirette (2) ou par un profil (74) d'un mobile de commande (7) lié cinématiquement à la troisième bascule (3).
40. 40. Mécanisme selon la proposition 39, caractérisé en ce que le mécanisme comprend un élément d'interface (1) et en ce que le mécanisme est agencé de sorte que, lorsque le dispositif de sélection (200) est configuré dans une première configuration (C1) correspondant à une première position axiale (P1) de l'élément d'interface (1), la deuxième bascule (402) est dans la deuxième position angulaire, dans laquelle les première et deuxième fonctions de correction sont désactivées.
41. 41. Mécanisme selon l'une des propositions 39 et 40, caractérisé en ce que le mécanisme comprend un élément d'interface (1) et en ce que le mécanisme est agencé de sorte que, lorsque le dispositif de sélection (200) est configuré dans une deuxième configuration (C2), correspondant à une deuxième position axiale (P2) de l'élément d'interface (1), la deuxième bascule (402) présente la première position angulaire dans laquelle la première fonction de correction est activée.
42. 42. Mécanisme selon l'une des propositions 39 à 41, caractérisé en ce que le mécanisme comprend un élément d'interface (1) et en ce que le mécanisme est agencé de sorte que, lorsque le dispositif de sélection (200) est configuré dans une troisième configuration (C3), correspondant à la deuxième position axiale (P2) de l'élément d'interface (1), la deuxième bascule (402) est susceptible de présenter une troisième position angulaire, dans laquelle la deuxième fonction de correction est activée.
43. 43. Mécanisme selon l'une des propositions 39 à 42, caractérisé en ce que le mécanisme comprend un élément d'interface (1) et en ce que le mécanisme est agencé de sorte que, lorsque le dispositif de sélection (200) est configuré dans une quatrième configuration (C4) correspondant à une troisième position axiale (P3) de l'élément d'interface (1), la deuxième bascule (402) est dans la deuxième position angulaire, dans laquelle les première et deuxième fonctions de correction sont désactivées.
44. 44. Mouvement horloger (900 ; 900') comprenant un mécanisme horloger (800 ; 800') selon l'une des propositions 30 à 43.
45. 45. Pièce d'horlogerie (1000 ; 1000') comprenant un mécanisme horloger selon l'une des propositions 30 à 43 et/ou un mouvement horloger selon la proposition 44.

According to a first aspect of the invention, objects are defined by the following propositions:

1. 1. Device (200; 200') for selecting watch functions comprising:
   • a pull device (150; 150'), and
   • a frame (100; 100'),
     the pull-tab device (150; 150') comprising a pull-tab (2; 2') movably mounted on the frame (100; 100') and a rocker (3; 3') movably mounted on the frame (100; 100') or on the pull tab (2; 2'),
     the selection device (200; 200') further comprising:
   • a first position indexing device (4; 4') arranged so as to act on the pull tab (2; 2'), and
   • a second position indexing device (5; 5') arranged so as to act on the rocker (3; 3').
2. 2. Selection device (200; 200') according to proposal 1, characterized in that it comprises an interface element (1), in particular a control rod (1), and in that the pull tab (2 2') is in direct engagement with the interface element (1), in particular via a first stud (21; 21') of the pull tab engaged in a groove (1a) of the interface element (1).
3. 3. Selection device (200; 200') according to one of proposals 1 and 2, characterized in that the pull tab (2; 2') and the rocker (3; 3') are pivoted around the same axis (A2; A2').
4. 4. Selection device (200; 200') according to one of proposals 1 to 3, characterized in that the selection device (200; 200'), in particular the pull-tab device (150; 150'), comprises a latching member (6; 6') arranged so as to secure the pull tab (2; 2') and the rocker (3; 3').
5. 5. Selection device (200; 200') according to proposal 4, characterized in that the latching member (6; 6') is pivoted on the rocker (3; 3') and arranged so as to cooperate with a second stud (23; 23') for the pull tab (2; 2').
6. 6. Selection device (200; 200') according to proposal 5, characterized in that the rocker (3; 3') comprises an oblong cutout (31; 31') cooperating with the second stud (23; 23') of pull tab (2; 2'), so as to kinematically link the pull tab (2; 2') and the rocker (3; 3') when the interface element (1) is moved.
7. 7. Selection device (200; 200') according to one of proposals 5 and 6, characterized in that the latching member (6; 6') is arranged to cooperate with the second stud (23; 23') through the oblong cutout (31; 31') formed on the rocker (3; 3').
8. 8. Selection device (200; 200') according to one of proposals 4 to 7, characterized in that the frame (100; 100') comprises a profile (99; 99') cooperating with the latching member (6; 6') so as to at least partially control the position of the latching member (6; 6') as a function of the position of the pull tab (2; 2') and/or of the rocker (3; 3').
9. 9. Selection device (200; 200') according to one of proposals 1 to 8, characterized in that the first position indexing device (4; 4') comprises a first spring (41; 41') provided of a first functional surface (42; 42') and a third stud (22; 22') of the pull tab (2; 2'), the first functional surface (42; 42') and the pull tab (2; 2') , in particular the third stud (22; 22'), cooperating by contact.
10. 10. Selection device (200) according to one of proposals 1 to 9, characterized in that the second position indexing device (5) comprises a second spring (51) provided with a second functional surface (52) and a mobile (7) in kinematic connection, in particular in meshing connection, with the rocker (3), the mobile (7) comprising a third functional surface (72) cooperating with the second functional surface (52).
11. 11. Selection device (200') according to one of proposals 1 to 9, characterized in that the second position indexing device (5') comprises a second spring (51') provided with a second functional surface (52') and a fourth stud (34') of the latch (3'), the second functional surface (52') and the latch (3'), in particular the fourth stud (34'), cooperating by contact.
12. 12. Selection device (200; 200') according to one of proposals 1 to 11 and according to proposal 2, characterized in that the pull-tab device (150; 150'), the first device (4; 4') position indexing device and the second position indexing device (5; 5') are arranged such that a stable position of the interface element (1) is determined either by the first device (4; 4 ') for indexing in position, or by the second device (5; 5') for indexing in position.
13. 13. Watchmaking mechanism (800; 800') comprising a device for selecting (200; 200') watchmaking functions according to one of proposals 1 to 12.
14. 14. Watch movement (900; 900') comprising a device for selecting (200; 200') watch functions according to one of proposals 1 to 12 and/or a watch mechanism (800; 800') according to proposal 13.
15. 15. Timepiece (1000; 1000') comprising a device for selecting (200; 200') watchmaking functions according to one of proposals 1 to 12 and/or a watchmaking mechanism (800; 800') according to proposal 13 and/or a watch movement (900; 900') according to proposition 14.
    According to a second aspect of the invention, objects are defined by the following propositions:
16. 16. Device (200; 200') for selecting watch functions comprising:
    • a frame (100; 100'),
    • an interface element (1), in particular a control rod (1), and
    • a pull-tab device (150; 150'),
      the pull-tab device (150; 150') being arranged so as to define:
    • n stable positions of the interface element (1), with n ≥ 3, and
    • m selection configurations of the selection device (200; 200'), with m≥n+1.
17. 17. Selection device (200; 200') according to proposal 16, characterized in that the pull-tab device (150; 150') is arranged so as to define at least two distinct selection configurations of the selection device (200; 200') for the same stable position (P2) of the interface element (1).
18. 18. Selection device (200; 200') according to proposal 17, characterized in that the same stable position (P2) of the interface element (1) is an intermediate stable position (P2) of the element of interface (1) positioned between two extreme stable positions (P1), (P3) of the interface element (1).
19. 19. Selection device (200; 200') according to one of proposals 16 to 18, characterized in that a first extreme position (P1) of the interface element (1), which is stable and the most depressed in the frame (100; 100'), makes it possible to define a first configuration (C1) of the selection device (200; 200') which allows actuation of a manual winding chain of a watch movement (900; 900') .
20. 20. Selection device (200; 200') according to one of proposals 16 to 19, characterized in that the selection device is arranged so that a second intermediate stable position (P2) of the interface element (1) allows you to define:
    • a second configuration (C2) of the selection device of functions which allow actuation of a first unidirectional or bidirectional adjustment chain of a function for indicating a first information item derived from the time, and
    • a third configuration (C3) of the function selection device which allows actuation of a second chain for unidirectional or bidirectional adjustment of a function for indicating a second item of information derived from the time.
21. 21. Selection device (200; 200') according to proposition 20, characterized in that the first adjustment chain is a date indication adjustment chain and in that the second adjustment chain is an adjustment chain an indication of the days.
22. 22. Selection device (200; 200') according to proposal 20, characterized in that the first setting string is a setting string for an indication of a time zone and in that the second setting string is a chain for adjusting a date indication.
23. 23. Selection device (200; 200') according to one of proposals 16 to 22, characterized in that a third extreme position (P3) of the interface element (1), stable and furthest removed from the frame (100; 100'), makes it possible to define a fourth configuration (C4) of the selection device which makes it possible to actuate a time setting chain.
24. 24. Selection device (200; 200') according to one of proposals 16 to 23, characterized in that the pull-tab device (150; 150') comprises a pull-tab (2; 2') movably mounted on the frame ( 100; 100') and a rocker (3; 3') movably mounted on the frame (100; 100') or on the pull tab (2; 2'), the selection device (200; 200') further comprising:
    • a first position indexing device (4; 4') arranged so as to act on the pull tab (2; 2'), and
    • a second position indexing device (5; 5') arranged so as to act on the rocker (3; 3').
25. 25. Watch mechanism (800; 800') comprising a device for selecting (200; 200') watch functions according to one of proposals 16 to 24.
26. 26. Watch movement (900; 900') comprising a device for selecting (200; 200') watch functions according to one of proposals 16 to 24 and/or a watch mechanism according to proposal 25.
27. 27. Timepiece (1000; 1000') comprising a device for selecting (200; 200') horological functions according to one of proposals 16 to 24 and/or a horological mechanism according to proposal 25 and/or a movement watchmaker according to proposition 26.
28. 28. Method of operating a device for selecting (200; 200') horological functions according to one of propositions 16 to 24 or a horological mechanism according to proposition 25 or a horological movement according to proposition 26 or of a timepiece according to proposition 27, the interface element (1) comprising a second intermediate stable position (P2) positioned between a first stable position (P1) and a third stable position (P3), the method including the following steps:
    • configuration of the selection device (200; 200') according to a second configuration (C2) when the interface element (1) is moved from the first stable position (P1) to the second intermediate stable position (P2), and
    • configuration of the selection device (200; 200') according to a third configuration (C3) when a to-and-fro movement of the interface element (1) is performed from the second intermediate stable position (P2), in particular according to a first direction of traction, and returning to the second intermediate stable position (P2).
29. 29. Operating method according to proposal 28, characterized in that the selection device (200; 200') is configured according to a third configuration (C3) when the interface element (1) is moved from the third position stable (P3) to the second intermediate stable position (P2).
    According to a third aspect of the invention, objects are defined by the following propositions:
30. 30. Clockwork mechanism (800; 800') for correcting a clockwork function comprising:
    • a first rocker (14) comprising a first desmodromic cam link (14a),
    • a correcting mobile (404), and
    • a second flip-flop (402),
      the second flip-flop (402) comprising:
    • at least one first element (402d) for guiding the corrector mobile (404),
    • at least one first friction element (402b) against the corrector wheel set (404), and
    • a second desmodromic cam link element (402a) adapted to cooperate by contact with the first desmodromic cam link element (14a).
31. 31. Mechanism according to proposal 30, characterized in that the first desmodromic cam connection element is a stud (14a) and the second desmodromic cam connection element is a cam profile (402a) or in that the first element The second desmodromic cam link is a cam profile and the second desmodromic cam link is a stud.
32. 32. Mechanism according to proposal 31, characterized in that the cam profile (402a) consists of a groove (402a) which has at least two distinct portions (1402a, 2402a), or even three distinct portions (1402a, 2402a, 3402a).
33. 33. Mechanism according to one of proposals 30 to 32, characterized in that the second rocker (402) comprises at least one arm (402c) and in that the first friction element (402b) comprises at least one surface (402f ) of friction, the at least one arm (402c) being arranged so as to elastically return the at least one friction surface (402f) against the corrective wheel set (404).
34. 34. Mechanism according to one of proposals 30 to 33, characterized in that the at least one first element (402d) for guiding and the at least one first element (402b) for friction are combined or formed by the same element .
35. 35. Mechanism according to one of proposals 30 to 34, characterized in that the second lever is in one piece and/or in that the second lever has a thickness of less than 200 μm, or even less than 150 μm.
36. 36. Mechanism according to one of proposals 30 to 35, characterized in that the first rocker (14) and the second rocker (402) are configured and/or arranged so as to position the second rocker (402) according to a first angular position and a second angular position around an axis (402e) of rotation of the said second rocker (402), the first angular position making it possible to activating a first correction function, in particular a date indication correction function, and the second angular position making it possible to deactivate the first correction function.
37. 37. Mechanism according to one of proposals 30 to 36, characterized in that the first rocker (14) and the second rocker (402) are configured and/or arranged so as to allow the positioning of the second rocker (402) according to a third angular position around its axis (402e) making it possible to activate a second correction function, in particular a day indication correction function.
38. 38. Mechanism according to proposals 36 and 37, characterized in that the first rocker (14) and the second rocker (402) are configured and/or arranged so that, in the second angular position, the second correction function is deactivated .
39. 39. Mechanism according to one of proposals 30 to 38, characterized in that the mechanism comprises a selection device (200) comprising a pull-bar device (150) including a pull-bar (2) and a third rocker (3), and in that the first flip-flop (14) is controlled by the selection device (200), the pull-tab device (150) and the first flip-flop (14) being configured and/or arranged so that the first flip-flop (14) is positioned by the pull tab (2) or by a profile (74) of a control wheel (7) kinematically linked to the third rocker (3).
40. 40. Mechanism according to proposal 39, characterized in that the mechanism comprises an interface element (1) and in that the mechanism is arranged so that, when the selection device (200) is configured in a first configuration ( C1) corresponding to a first axial position (P1) of the interface element (1), the second rocker (402) is in the second angular position, in which the first and second correction functions are deactivated.
41. 41. Mechanism according to one of proposals 39 and 40, characterized in that the mechanism comprises an interface element (1) and in that the mechanism is arranged so that, when the selection device (200) is configured in a second configuration (C2), corresponding to a second axial position (P2) of the interface element (1), the second rocker (402) has the first angular position in which the first correction function is activated.
42. 42. Mechanism according to one of proposals 39 to 41, characterized in that the mechanism comprises an interface element (1) and in that the mechanism is arranged so that, when the selection device (200) is configured in a third configuration (C3), corresponding to the second axial position (P2) of the interface element (1), the second rocker (402) is able to have a third angular position, in which the second correction function is activated.
43. 43. Mechanism according to one of proposals 39 to 42, characterized in that the mechanism comprises an interface element (1) and in that the mechanism is arranged so that, when the device for selection (200) is configured in a fourth configuration (C4) corresponding to a third axial position (P3) of the interface element (1), the second rocker (402) is in the second angular position, in which the first and second correction functions are disabled.
44. 44. Clockwork movement (900; 900') comprising a clockwork mechanism (800; 800') according to one of proposals 30 to 43.
45. 45. Timepiece (1000; 1000') comprising a timepiece mechanism according to one of proposals 30 to 43 and/or a timepiece movement according to proposal 44.

Unless there is a technical or logical incompatibility, an object can include any combination of characteristics from the first, second and third aspects.

• La figure 1 est une vue schématique d'un premier mode de réalisation d'une pièce d'horlogerie.
• La figure 2 est une vue en coupe selon un plan longitudinal passant par un axe A1 d'une tige, représentée sur la figure 1.
• Les figures 3 à 14 sont des illustrations de détail du premier mode de réalisation de la pièce d'horlogerie.
• La figure 3 est une vue éclatée en perspective d'une première et d'une deuxième tirette.
• La figure 4 est une vue en perspective éclatée d'un mobile de commande.
• Les figures 5 et 6 sont des vues partielles de dessus d'une première configuration d'un dispositif de sélection.
• Les figures 7 et 8 sont des vues partielles de dessus d'une deuxième configuration du dispositif de sélection.
• Les figures 9 et 10 sont des vues partielles de dessus entre la deuxième configuration et une troisième configuration du dispositif de sélection, une tige se trouvant dans une position instable.
• Les figures 11 et 12 sont des vues partielles de dessus de la troisième configuration du dispositif de sélection.
• Les figures 13 et 14 sont des vues partielles de dessus d'une quatrième configuration du dispositif de sélection.
• La figure 15 est une vue schématique d'un deuxième mode de réalisation d'une pièce d'horlogerie.
• Les figures 16 à 21 sont des illustrations de détail du deuxième mode de réalisation de la pièce d'horlogerie.
• La figure 16 est une vue éclatée en perspective d'une première et d'une deuxième tirette.
• La figure 17 est une vue partielle de dessus d'une première configuration d'un dispositif de sélection.
• La figure 18 est une vue partielle de dessus d'une deuxième configuration du dispositif de sélection.
• La figure 19 est une vue partielle de dessus entre la deuxième configuration et une troisième configuration du dispositif de sélection, une tige se trouvant dans une position instable.
• La figure 20 est une vue partielle de dessus de la troisième configuration du dispositif de sélection.
• La figure 21 est une vue partielle de dessus dans une quatrième configuration du dispositif de sélection.

The appended drawings represent, by way of examples, two embodiments of a timepiece.

• The figure 1 is a schematic view of a first embodiment of a timepiece.
• The figure 2 is a sectional view along a longitudinal plane passing through an axis A1 of a rod, represented on the figure 1 .
• The figures 3 to 14 are detail illustrations of the first embodiment of the timepiece.
• The picture 3 is an exploded perspective view of a first and a second pull tab.
• The figure 4 is an exploded perspective view of a mobile control.
• The figures 5 and 6 are partial top views of a first configuration of a selection device.
• The figures 7 and 8 are partial top views of a second configuration of the selection device.
• The figures 9 and 10 are partial top views between the second configuration and a third configuration of the selection device, a rod being in an unstable position.
• The figures 11 and 12 are partial top views of the third configuration of the selection device.
• The figures 13 and 14 are partial top views of a fourth configuration of the selection device.
• The figure 15 is a schematic view of a second embodiment of a timepiece.
• The figures 16 to 21 are detail illustrations of the second embodiment of the timepiece.
• The figure 16 is an exploded perspective view of a first and a second pull tab.
• The figure 17 is a partial top view of a first configuration of a selection device.
• The figure 18 is a partial top view of a second configuration of the selection device.
• The figure 19 is a partial top view between the second configuration and a third configuration of the selection device, a rod being in an unstable position.
• The figure 20 is a partial top view of the third configuration of the selection device.
• The figure 21 is a partial top view in a fourth configuration of the selection device.

A first embodiment of a timepiece 1000 is described below with reference to the figures 1 to 14 .

The timepiece 1000 is for example a watch, in particular a wristwatch.

The timepiece 1000 comprises a timepiece movement 900 intended to be mounted in a case or a timepiece box in order to protect it from the external environment.

The watch movement 900 can be an electronic movement or a mechanical movement, in particular an automatic movement. The 900 watch movement includes a 800 watch mechanism.

• une chaîne cinématique 300 de remontage,
• une première chaîne cinématique 400 de réglage, et
• une deuxième chaîne cinématique 500 de réglage.

The timepiece 1000, in particular the timepiece movement 900, in particular the timepiece mechanism 800, comprises a device 200 for selecting timepiece functions. The timepiece 1000, in particular the timepiece movement 900, in particular the timepiece mechanism 800, preferably further comprises:

• a 300 winding kinematic chain,
• a first adjustment kinematic chain 400, and
• a second kinematic chain 500 for adjustment.

Thanks to the solutions described, it is possible to configure the function selection device 200 according to four distinct configurations with a single interface element 1 being presented, for example, in the form of a control rod which can be positioned according to three positions stable axial. In the variant of the first embodiment of timepiece 1000 illustrated by the figures 1 to 14 , this single interface element is in the form of a control rod 1. This rod is operable in rotation and in translation along an axis A1. The translation of this control rod 1 makes it possible to reach three stable axial positions, namely a first extreme position P1, a second intermediate position P2 and a third and last extreme position P3.

Within a mechanism provided with a conventional control rod, each axial position of the rod makes it possible to conform a function selection device, in particular a pull rod, according to a given configuration. The function selection device 200 that is the subject of this document has the specificity of comprising a number of configurations greater than the number of axial positions of the control rod. This is, for example, made possible by the fact that such a selection device 200 has the specificity of comprising a pull-bar device 150 provided with two pull-tabs or rockers, and that it is capable of being indexed in position either by a first device 4 for indexing, or by a second device 5 for indexing. More particularly, the different configurations of the selection device are determined by the synergy of the two drawbars or rockers, and the axial positions of the rod 1 are determined by one or the other of the two indexing devices.

• un dispositif de tirette 150, et
• un bâti 100.

More particularly, the watch function selection device 200 mainly comprises:

• a pull device 150, and
• a frame 100.

• le premier dispositif 4 d'indexation en position agencé de sorte à agir sur la bascule 2, et
• le deuxième dispositif 5 d'indexation en position agencé de sorte à agir sur la bascule 3.

The pull-tab device 150 comprises a rocker 2, notably a first pull-tab 2, movably mounted on the frame 100 and a rocker 3, in particular a second pull-tab 3, movably mounted on the rocker 2 or on the frame 100. The selection device 200 further includes:

• the first position indexing device 4 arranged so as to act on the rocker 2, and
• the second position indexing device 5 arranged so as to act on the rocker 3.

• n positions stables de l'élément d'interface 1, avec n ≥ 3, et
• m configurations de sélection du dispositif de sélection 200, avec m≥n+1.

Alternatively or additionally, the watch function selection device 200 can comprise the interface element 1, in particular the control rod 1, and the pull-cord device 150 can be arranged so as to define:

• n stable positions of interface element 1, with n ≥ 3, and
• m selection configurations of the selection device 200, with m≥n+1.

In the first embodiment of the timepiece 1000, rocker 2 is comparable to a first pull-bar 2, and rocker 3 is comparable to a second pull-bar 3.

The first pull tab 2 is mounted pivoted relative to the frame 100 around an axis A2. Preferably, the second pull tab 3 is mounted pivoted relative to the frame 100 around this same axis A2. The axis A2 is for example perpendicular to a main plane P along which the frame 100 of the movement mainly extends.

The selection of the different functions of the watch mechanism 800 is made possible thanks to the first pull tab 2 and the second pull tab 3, which are more particularly visible on the picture 3 , and the selection device 200 can be shaped respectively according to four distinct configurations C1, C2, C3 and C4 defined by three axial positions P1, P2 and P3 of the interface element 1.

To pass from one position to another, the interface element 1, in particular the control rod 1, can be pulled along the axis A1, perpendicular to the axis A2, according to a first direction D1 called "from traction”, and pushed or pressed along this same axis A1 in a second direction D2 called “compression”.

The rotation of the first pull tab 2 is directly controlled by the translation of the interface element 1. To do this, the first pull tab 2 comprises a first stud 21, which is housed within a first groove 1a of the interface element 1. Elements 1a and 21 thus form a joint connecting interface element 1 and first pull tab 2.

The angular position of the pull tab 2 is defined by the first position indexing device 4 . This first indexing device 4 preferably comprises a first spring 41 provided with a first functional surface 42 (forming in particular a double beak), as well as a second stud 22 of the pull tab, arranged on the first pull tab 2 as shown in particular on the figure 6 . The cooperation of the first functional surface 42 with the second stud 22 makes it possible to define angular indexing positions of the pull tab 2. In particular, this cooperation makes it possible to define two stable angular positions of the first pull tab 2, as well as a third unstable position of the first pull tab 2. By extension, this cooperation also makes it possible to define two stable axial positions of the interface element 1, as well as a third unstable axial position of the interface element 1.

The second pull rod 3 is, for its part, linked to a mobile 7 of control by means of a gear connection 33, 71. To do this, the second pull rod 3 comprises a fourth toothing 33 meshing with a fifth toothing 71 of the mobile 7 command. The angular positioning of the second pull tab 3 is ensured by the second indexing device 5 . The latter preferably comprises a second spring 51 provided with a second functional surface 52 (forming for example a beak), as well as the control wheel set 7 provided with a third functional surface 72 (forming for example star teeth, as illustrated on the figure 4 and 5 ). More particularly, the cooperation of the second functional surface 52 with the third functional surface 72 makes it possible to define three stable angular positions of the second pull tab 3. Furthermore, in a given configuration of the selection device 200, the second pull tab 3 also contributes to the stable axial positioning of the interface element 1.

The control wheel set 7 is advantageously pivoted on the frame 100, in particular pivoted perpendicular to the plane P of the frame 100.

When passing from a first given stable position to a second given stable position of the interface element 1, the first pull tab 2 can drive the second pull tab 3 thanks to a third stud 23 of the first pull tab 2, which is capable to cooperate with a latching member 6, pivoted on the second pull tab 3, through an oblong cutout 31 of the second pull tab 3.

This cooperation is however a function of the prior position of the interface element 1 and of the actuation that it undergoes. To do this, a fifth return spring 62 tends to maintain the latching member 6, in particular its beak 61, on the trajectory of the third stud 23, while a cutout 99 formed on the frame 100 makes it possible to control said spout 61 so that it may or may not end up on the path of the third stud 23. The latching member 6 is for example a lever provided with a spout. More particularly, the latching member 6 comprises a fourth stud 63 intended to cooperate with the profile formed by the periphery of the cutout 99. The respective conformations of this profile and of the fourth stud 63 make it possible to control the position of the member latch 6 depending on the angular position of the second pull tab 3 relative to the frame 100. In other words, depending on the angular position of the second pull tab 3, the latching member 6, more particularly its beak 61, may or may not end up on the trajectory of the third stud 23.

Furthermore, this third stud 23 of the first pull tab 2 is also capable of cooperating with the oblong cutout 31 of the second pull tab 3.

Thus, the selection device 200, in particular the pull-tab device 150, comprises a latching member 6 arranged so as to secure the pull-tab 2 and the rocker 3 in certain operating configurations. The position of this latching member 6 is controlled at least partially by the profile formed by the periphery of the cutout 99 as a function of the position of the pull tab 2 and/or the pull tab 3. More particularly, the snap-fastening 6 is capable of cooperating with the profile formed by the cutout 99 of the frame 100 so that it is capable, according to at least one configuration of the selection device 200 functions, to lock any relative movement between the first and second drawbars 2, 3.

Ultimately, the relative position of the two drawbars 2 and 3, as well as their relative position with respect to the frame 100, advantageously make it possible to select four distinct configurations allowing the actuation of four different functions of the watch movement 900. The detail of the sequencing of the different positions of the interface element 1 and of the configurations of the selection device 200 will be explained below.

• soit par le premier dispositif 4 d'indexation en position,
• soit par le deuxième dispositif 5 d'indexation en position.

Advantageously, the pull tab device 150, the first position indexing device 4 and the second position indexing device 5 are arranged so that a stable position of the interface element 1 is determined:

• either by the first position indexing device 4,
• either by the second device 5 for indexing in position.

Advantageously again, the pull-cord device 150 is arranged so as to define at least two distinct selection configurations of the selection device 200 for the same stable position P2, or intermediate position, of the interface element 1, in particular a same position stable P2 of the interface element 1 between two extremal stable positions P1 and P3 of the interface element 1. Preferably, the second and third configurations are selectable following a reciprocating movement of the element of interface 1 from position P2 of said interface element 1.

• une première configuration C1 permet le remontage manuel de la montre par le biais d'une chaîne cinématique 300 de remontage,
• une deuxième configuration C2 permet le réglage, notamment le réglage bidirectionnel, de l'indication des quantièmes par une première conformation d'une première chaîne 400 de réglage,
• une troisième configuration C3 permet le réglage, notamment le réglage monodirectionnel, de l'indication des jours de la semaine par une deuxième conformation de la première chaîne 400 de réglage,
• une quatrième et dernière configuration C4 permet la mise à l'heure du mouvement par une deuxième chaîne 500 de réglage.

These three positions P1, P2 and P3 of the interface element 1 make it possible to configure the function selection device 200 according to four distinct configurations. These four configurations allow the activation of different chains for winding and adjusting the watch mechanism 800 in order to allow the user to be able to operate the various functions of the watch movement 900. In particular:

• a first configuration C1 allows manual winding of the watch by means of a kinematic winding chain 300,
• a second configuration C2 allows adjustment, in particular bidirectional adjustment, of the date indication by a first conformation of a first adjustment chain 400,
• a third configuration C3 allows the adjustment, in particular the one-way adjustment, of the indication of the days of the week by a second conformation of the first adjustment chain 400,
• a fourth and final configuration C4 enables the time setting of the movement by a second adjustment chain 500.

• la première configuration C1 étant définie par la première position P1 qui se trouve être la position extrémale de l'élément d'interface 1 obtenue par action selon le deuxième sens D2 d'actionnement de l'élément d'interface 1,
• la deuxième configuration C2 étant définie par la deuxième position P2 et ne pouvant être sélectionnée qu'après une traction de l'élément d'interface 1 selon le premier sens D1 depuis la première position P1,
• la troisième configuration C3 étant également définie par la deuxième position P2 de l'élément d'interface 1, après que ce dernier ait effectué un mouvement de va-et-vient, depuis la deuxième position P2 et en revenant à la deuxième position P2, en étant passé transitoirement par la troisième position P3 ou aux environs de la troisième position P3. Dans cet état transitoire, la position P3 est instable. Le retour en arrière de l'élément d'interface 1 depuis la troisième position P3 ou ses environs permet avantageusement de discriminer les deuxième et troisième configurations du dispositif de sélection,
• la quatrième configuration C4 étant définie, quant à elle, par la troisième position P3 de l'élément d'interface 1 qui se trouve être la position extrémale de l'élément d'interface 1 obtenue par action selon le premier sens D1 d'actionnement de l'élément d'interface 1. Comme il est indispensable de sélectionner au préalable la troisième configuration C3 pour sélectionner cette dernière configuration, on ne peut pas la confondre avec la deuxième configuration C2.

Advantageously, the selection device 200 allows easy and intuitive selection of the various watch functions:

• the first configuration C1 being defined by the first position P1 which happens to be the extreme position of the interface element 1 obtained by action according to the second direction D2 of actuation of the interface element 1,
• the second configuration C2 being defined by the second position P2 and which can only be selected after pulling the interface element 1 in the first direction D1 from the first position P1,
• the third configuration C3 also being defined by the second position P2 of the interface element 1, after the latter has performed a to-and-fro movement, from the second position P2 and returning to the second position P2, while passing temporarily through the third position P3 or around the third position P3. In this transitory state, the position P3 is unstable. The backward movement of the interface element 1 from the third position P3 or its surroundings advantageously makes it possible to discriminate between the second and third configurations of the selection device,
• the fourth configuration C4 being defined, for its part, by the third position P3 of the interface element 1 which happens to be the extreme position of the interface element 1 obtained by action according to the first direction D1 of actuation of the interface element 1. As it is essential to select the third configuration C3 beforehand in order to select this last configuration, it cannot be confused with the second configuration C2.

It can be seen that it is therefore possible to discriminate, by the kinematics of the interface element 1, all the configurations of the device 200 for selecting functions.

The first extremal position P1 of the interface element 1, stable and furthest in the frame 100, makes it possible to define a first configuration C1 of the selection device which allows actuation of the manual winding chain of the watch movement 900.

• une deuxième configuration C2 du dispositif de sélection de fonctions qui permet un actionnement d'une première chaîne de réglage unidirectionnel ou bidirectionnel d'une fonction d'indication d'une première information dérivée de l'heure, et
• une troisième configuration C3 du dispositif de sélection de fonctions qui permet un actionnement d'une deuxième chaîne de réglage unidirectionnel ou bidirectionnel d'une fonction d'indication d'une deuxième information dérivée de l'heure.

The second intermediate stable position P2 of the interface element 1 makes it possible to define:

• a second configuration C2 of the function selection device which allows actuation of a first unidirectional or bidirectional adjustment chain of a function for indicating a first item of information derived from the time, and
• a third configuration C3 of the function selection device which allows actuation of a second unidirectional or bidirectional adjustment chain of a function for indicating a second item of information derived from the time.

For example, the first adjustment chain is an adjustment chain (in particular for bidirectional adjustment) of an indication of the dates and the second setting chain is a setting chain (in particular unidirectional setting) of an indication of the days.

For example again, the first setting string could be a setting string (in particular bidirectional setting) of an indication of a time zone and the second setting string could be a setting string (in particular unidirectional setting) of an indication of the dates.

Finally, the third extreme position P3 of the interface element 1, stable and furthest removed from the frame 100, makes it possible to define a fourth configuration C4 of the selection device which allows actuation of a time setting chain .

The detail of the mechanism 800 is explained below through the variant of the first embodiment of the timepiece 1000 illustrated by the figures 1 to 14 .

The figure 2 illustrates a part of the winding kinematic chain 300 made operational thanks to the first configuration C1 of the function selection device 200, when the control rod 1 is located in the first position P1. This winding kinematic chain 300 here comprises a vertical clutch device comprising a first crown wheel 301 meshing with a winding pinion 10 squarely mounted on the control stem 1. This first crown wheel 301 is also capable of meshing with a second crown wheel 302 depending on the state of the vertical clutch device, controlled by the axial position of the control rod 1 along the axis A1. A sliding pin 303, secured to the second crown wheel 302, is located at the bottom of a second groove 1b of the control rod 1 thanks to the support of a return spring 304. The first wheel 301 and the second wheel 302 are then engaged with each other, thus allowing manual winding of the movement. When the control rod 1 is in the other positions P2 and P3, the sliding pin 303 is outside the second groove 1b, thus disengaging the second crown wheel 302 from the first crown wheel 301. Such a vertical clutch device is for example described in the document WO2012175595 .

The first adjustment chain 400 is capable of being engaged by a first toothing 11a of a sliding pinion 11 mounted square on the control rod 1. More precisely, when the control rod 1 is in the second position P2, the sliding pinion 11 is placed by a rocker 12 pivoted on the frame 100 and controlled by the mobile control 7 so that the toothing 11a of the sliding pinion 11 can mesh with a third frontal toothing 401a of a first pinion 401 of the first 400 tuning chain. This first pinion is provided to drive a corrector wheel set 404 via a wheel set 403. This corrector wheel set 404 has the particularity of being pivoted on a rocker 402 controlled by a rocker 14 of the watch mechanism 800.

As illustrated in particular on the figure 4 , the control wheel set 7, which includes a control cam, comprises a third profile 73 and a fourth profile 74 capable of cooperating respectively with the levers 12, 14. A return spring 13 and a return spring 15 respectively tend to return these latches 12, 14 to these third and fourth profiles 73, 74 of the mobile control 7 with which they are likely to cooperate.

When the device 200 is configured according to the second configuration C2 or according to the third configuration C3, the third profile 73 of the mobile 7 makes it possible to release rocker 12 under the effect of spring 13, in order to allow sliding pinion 11 to mesh with first chain 400 for adjustment.

When the device 200 is configured according to the second configuration C2 or according to the third configuration C3, the fourth profile 74 of the mobile 7 makes it possible to control the rocker 14 in cooperation with the spring 15, in order to allow the positioning of the rocker 402. The cooperation of the rocker 14 and of the rocker 402 is carried out here in particular by means of a first pin 14a of the rocker 14, which cooperates by contact with a cam profile 402a of the rocker 402.

• le mobile correcteur 404,
• la bascule 14 incluant un premier élément 14a de liaison desmodromique à came, et
• la bascule 402.

The horological mechanism 800 for correcting one or more horological functions thus comprises:

• the 404 corrector spindle,
• the rocker 14 including a first desmodromic cam link element 14a, and
• flip-flop 402.

• au moins un premier élément 402d de guidage du mobile correcteur 404,
• au moins un premier élément 402b de friction contre le mobile correcteur 404,
• un deuxième élément 402a de liaison desmodromique à came prévu pour coopérer par contact avec le premier élément 14a de liaison desmodromique à came.

Flip-flop 402 has the particularity of comprising:

• at least one first element 402d for guiding the corrector mobile 404,
• at least one first friction element 402b against the corrector mobile 404,
• a second desmodromic cam link element 402a provided to cooperate by contact with the first desmodromic cam link element 14a.

• une première branche présentant, à une extrémité, l'élément 402e de guidage en rotation et, à l'autre extrémité, l'au moins un premier élément 402d de guidage du mobile correcteur 404 et l'au moins un premier élément 402b de friction contre le mobile correcteur 404,
• une deuxième branche présentant, à une extrémité, l'élément 402e de guidage en rotation et, à l'autre extrémité, le deuxième élément 402a de liaison desmodromique à came.

Rocker 402 is in particular pivoted relative to frame 100 on an axis 402e or a rotation guide element 402e. The rocker preferably comprises two branches connected to each other at the level of the element 402e for guiding in rotation:

• a first branch having, at one end, the element 402e of rotational guidance and, at the other end, the at least one first element 402d for guiding the corrector mobile 404 and the at least one first element 402b for friction against the corrective mobile 404,
• a second branch having, at one end, the rotation guide element 402e and, at the other end, the second desmodromic cam connecting element 402a.

By action of the desmodromic cam linkage, the position of the flip-flop 14 determines the position or configuration of the flip-flop 402.

Thus, rocker 14 and rocker 402 are configured and/or arranged so as to position rocker 402 according to a first angular position and a second angular position around its axis 402e, the first angular position making it possible to activate a first function of correction, in particular a date indication correction function, and the second angular position making it possible to deactivate the first correction function.

Advantageously, the rocker 14 and the rocker 402 are configured and/or arranged so as to position the rocker 402 according to a third angular position around its axis 402e, making it possible to activate a second correction function, in particular a correction function of the indication of the days.

Preferably, flip-flop 14 and flip-flop 402 are configured and/or arranged so that, in the second angular position, the second correction function is deactivated.

In the variant shown on the figures 1 to 14 of the first embodiment, the first desmodromic cam link element is a stud 14a or a pin and the second desmodromic link element cam profile is a 402a cam profile. Alternatively, in another variant, the first desmodromic cam link element could be a cam profile and the second desmodromic cam link element could be a stud or a pin.

In particular, the corrector wheel set 404 comprises a date indication corrector 406, as well as a toothed wheel 405 integral in rotation with the corrector 406. The cooperation of the elements 14 and 74 makes it possible to position the corrector 406 of the corrector wheel set 404 in the toothing of a 600 date disc (as shown on the figure 7 ) or to position the toothed wheel 405 of the corrector mobile 404 in the toothing of a star 700 of the day display (as represented on the figure 11 ) or even to disengage the corrector mobile 404 from any adjustment function (as represented on the figure 5 , 9 and 13 ).

Preferably, the rocker 402 comprises at least one arm 402c and the first friction element 402b comprises at least one friction surface 402f, the at least one arm 402c being arranged so as to elastically return the at least one friction surface 402f against the corrector mobile 404.

In the particular flip-flop variant 402 illustrated in particular by the figure 5 , the latter is more specifically provided with two elastically deformable arms 402c each comprising two bearing surfaces 402f cooperating by contact with the portion 404a of the corrector mobile, preferably having a cylindrical shape. In this particular rocker variant 402, the friction element 402b is thus implemented by means of two elastically deformable arms each comprising two bearing surfaces 402f cooperating by contact with the portion 404a of the corrector wheel set. Thus shaped, the friction element 402b applies at least a radial or substantially radial force (with the effects of the coefficient of friction near) on the portion 404a of the corrector mobile.

In this particular variant of rocker 402, the four bearing surfaces 402f define a housing allowing the engagement of the portion 404a of the corrector mobile within the rocker 402. Preferably, the bearing surfaces 402f are evenly distributed around the portion 404a of the corrector mobile 404, that is to say that the angular interval between any neighboring bearing surfaces is identical or substantially identical.

In this particular variant of rocker 402, the element 402d for guiding the rotation of the corrector wheel set 404 is implemented by the bearing surfaces 402f cooperating by contact with the portion 404a of the corrector wheel set. In this particular case, the rotation guide element 402d of the corrector wheel set 404 and the friction element 402b are thus merged or formed by the same element.

Preferably, flip-flop 402 is in one piece. Latch 402 can for example be obtained by cutting in a plate or by electroforming techniques such as LIGA.

• de guidage en rotation du mobile correcteur, et
• de pilotage de sa position par contact avec la bascule 14,

sont assurées sur un même niveau ou au niveau d'un même plan constituant un plan principal de la bascule selon lequel s'étend principalement la bascule, ou ont un plan en commun.Advantageously, flip-flop 402 can comprise a single and same level, that is to say that its functions:

• for guiding the corrector mobile in rotation, and
• controlling its position by contact with the rocker 14,

are provided on the same level or at the level of the same plane constituting a main plane of the latch along which the latch mainly extends, or have a plane in common.

Consequently, the thickness of the rocker 402 or the bulk thickness of the rocker can be reduced. The thickness or the overall thickness may be less than 200 μm or less than 150 μm.

The friction torque generated by the friction element 402b acting on the portion 404a of the corrector mobile allows the latch 402 and its corrector mobile to pivot around the element 402e for guiding the rotation of the latch 402, and this in depending on the direction of rotation of the chain 400 adjustment. Thus, each inversion of the direction of rotation applied to the adjustment chain is capable of generating a rotation of the rocker 402 under the effect of the rotation of the corrector mobile.

This rocker 402 here has the particularity of comprising the profile 402a, which is in the form of a groove, which is provided to cooperate with the stud 14a of the rocker 14. Advantageously, the groove 402a has three distinct portions 1402a, 2402a, 3402a. The cooperation between the elements 14a and 402a makes it possible to define at least three angular positions of the lever 402 around the guide element 402e.

More particularly, when the function selection device 200 happens to be in the second configuration C2, the pad 14a makes it possible to lock the angular position of the flip-flop 402 so that the corrector mobile 404 can carry out a bidirectional adjustment of the date indication (as seen on the figure 7 ). In this second configuration, stud 14a of flip-flop 14 is located at first portion 1402a of groove 402a. This first portion comprises two parallel or substantially parallel flanks arranged on either side of stud 14a, which prevent any untimely rotation of rocker 402 around its axis 402e except for clearance between the stud and the flanks, the distance between the two sides corresponding to the diameter of the stud to the nearest clearance. Each of these flanks forms an angle of the order of 90° with respect to a segment defined by a first point passing through the pivot axis A14 of rocker 14 and a second point passing through the center of stud 14a. In other words, the flanks are arranged orthoradially or substantially orthoradially opposite the axis A14. Each of these flanks also forms a non-zero angle (for example substantially 90°) with the direction orthoradial to the axis 402e. Such a conformation prevents any untimely rotation of rocker 402 around axis 402e under the effect of elements 402b, 402c, 402d potentially actuated by rotation of mobiles 401, 403, 404 around their respective axis. In this second configuration C2, rocker 14, under the effect of its return spring 15, is positioned in a hollow formed within profile 74 of control wheel set 7 connected to second pull rod 3.

When the function selection device 200 happens to be in the third configuration C3, the pad 14a makes it possible to position the rocker 402 while giving it a degree of freedom in rotation so as to allow the corrector mobile 404 to perform a one-way adjustment of the indication of the days (as visible on the figure 11 ). In this third configuration C3, stud 14a is placed within a third portion 3402a of groove 402a. This third portion 3402a comprises flanks shaped and oriented in such a way that the latter allow a rotation of the latch 402 around the axis 402e over a given angular range, so that the latter is capable of reaching an angular position allowing the wheel 405 to mesh with the wheel 700 for indicating the days under the effect of the elements 402b, 402c, 402d potentially actuated by a rotation of the mobiles 401, 403, 404 around their respective axes. More particularly, the distance between two sides of the third portion 3402a, in a direction orthoradial to the axis 402e, is greater than the diameter of the stud 14a. For example, this distance is of the order of three times the diameter of the pad 14a.

In the other configurations C1 and C4, the position of the flip-flop 402, still defined by the stud 14a, is such that the corrector mobile 404 is out of range of the date or day indicators (as visible on the figure 5 , 13 ). In these configurations C1 and C4, the stud 14a of the flip-flop 14 is located at the level of the second portion 2402a of groove 402a. This second portion comprises two parallel or substantially parallel flanks arranged on either side of stud 14a, which prevent any untimely rotation of rocker 402 around its axis 402e, except for clearance between the stud and the flanks, the distance between the two sides corresponding to the diameter of the stud to the nearest clearance. Each of these flanks forms an angle of the order of 45° with respect to a segment defined by a first point passing through the axis A14 and a second point passing through the center of the stud 14a. Each of these flanks also forms a non-zero angle with the direction orthoradial to the axis 402e.

In the first configuration C1, the rocker 14 has the particularity of being held in position against its return spring 15 by the pull tab 2, in particular by the profile 24 of the pull tab 2, the latter being positioned by the control rod 1, itself positioned according to the first axial position P1.

In the fourth configuration C4, the rocker 14 is positioned against its spring 15 by the profile 74 of the mobile 7, the latter being positioned by the control rod 1, itself positioned according to the third axial position P3. In this fourth configuration, the second adjustment chain 500 enables the time setting of the movement. More specifically, the function selection device 200 conforms the watch mechanism 800 so that a second front toothing 11b of the sliding pinion 11 meshes with a second pinion 501 of the second chain 500, thus allowing the user to to be able to set the time of the movement. More particularly, in this configuration, the profile 73 of the mobile 7 makes it possible to position the rocker 12 so that a second front toothing 11b of the sliding pinion 11 meshes with a second pinion 501 of the second chain 500, thus allowing the user to to be able to set the time of the movement.

The detail of the sequencing of the different positions of the interface element 1, in particular of the control rod 1, and of the configurations of the selection device 200 is explained below by means of the variant of the first embodiment of the 1000 timepiece illustrated by the figures 1 to 14 .

The first configuration C1 of the function selection device 200, illustrated by the figures 5 and 6 , defines the winding configuration of the movement 900. The control stem 1 is in the first position P1, which activates or makes operational the kinematic winding chain 300, and it is held in this position by the first device 4 of indexing. More particularly, the second stud 22 of the first pull tab 2 is held in position by the first flank 42a of the first functional surface 42 of the first spring 41.

The second pull tab 3 is, for its part, held in position by the second device 5 for indexing. More particularly, it is held in position by the second functional surface 52 which cooperates here with a first notch 72a for indexing the third functional surface 72 of the mobile 7.

In this first configuration, the latching member 6 is disengaged from the path of the third stud 23. More particularly, the respective conformations of the fourth stud 63 and of the profile of the cutout 99 of the frame 100 make it possible to keep the spout 61 out of reach of the third stud 23.

In this first configuration, the rockers 12 and 14, by the arrangement of the control rod 1 and the first pull tab 2, are here out of reach of the third and fourth profiles 73, 74 of the mobile 7 of control.

More particularly, the sliding pinion 11 is here returned by the rocker 12 against a bearing surface of the control rod 1 so that it is disengaged from any adjustment chain, while the rocker 14 is held in position by the first pull tab 2 through a second profile 24. In this configuration, rocker 402 is positioned by rocker 14 so that corrector wheel 404 is out of range of the date disc and the day display star.

Switching from the first configuration C1 to the second configuration C2 :

To configure the function selection device 200 according to the second configuration C2 illustrated by the figures 7 and 8 , it is necessary to pull the control rod 1 in the first direction D1, from the first position P1 to the second position P2. During this action, the third stud 23 of the first pull tab 2 freely traverses the oblong cutout 31 of the second pull tab 3 without dragging the latter. The control rod 1 and the first pull tab 2 are then indexed by a hollow formed by a second flank 42b of the first spring 41 cooperating with the second stud 22 of the first pull tab 2. According to this second configuration C2, the position of the second zipper 3 remains unchanged from the first configuration C1.

The mobile control 7 and the latching member 6 have remained immobile, and the latter remains out of range of the trajectory of the third stud 23.

The axial displacement of the control rod 1 in the first direction D1 causes the disengagement of the kinematic chain 300 for winding, and the clutch of the first chain 400 for adjustment. The displacement of the rocker 12, under the effect of the spring 13, is possible here, because the third profile 73 is here shaped so as to leave it this degree of freedom.

In this configuration, rocker 14 is no longer retained by second profile 24 of first pull tab 2, which enables it to position rocker 402 in a stable angular position around axis 402e, which is characterized by the fact that the corrector 406 is arranged in the toothing of the disc 600 of the dates, in particular at the level of its pitch diameter. As for the rocker 12, the movement of the rocker 14 is possible here because the profile 74 is shaped so as to leave it this degree of freedom.

More particularly, in this second configuration, the toothing 11a of the sliding pinion 11 meshes with the front toothing 401a of the pinion 401 of the first chain 400 of adjustment. This first pinion drives the corrector mobile 404 via the mobile 403 pivoted around the axis 402e.

Switching from the second configuration C2 to the third configuration C3:

By pulling again on the control rod 1, the latter temporarily reaches the third position P3 before returning to the second position P2, under the effect of the first spring 41, after the control rod 1 is released by the user .

The transient, unstable state in which control rod 1 is temporarily in third position P3 is illustrated by the figures 9 and 10 . This unstable position of the control rod 1 makes it possible to configure the function selection device 200 so as to allow one-way adjustment of the day indication.

In the pulling action of the control rod 1 towards the third position P3, the first pull rod 2 drives the second pull rod 3 which then drives the control wheel set 7. This is made possible thanks to the third stud 23 of the first pull rod 2 which acts against a first end of the oblong cutout 31 of the second pull tab 3, the latter being already disposed at this first end according to the second configuration C2.

At the end of its rotational movement, the second pull tab 3 is maintained in its new position thanks to the second device 5 for indexing. More particularly, the second pull tab 3 is held in its new position by the second functional surface 52 cooperating here with a second notch 72b for indexing the third functional surface 72 of the mobile 7, the latter being connected to the second pull tab 3 by the bias of the gear connection 33, 71.

Thus, while the control rod 1 is in an unstable position, the second pull tab 3 is itself in a stable position defined by the second device 5 for indexing.

In this new stable position of the second pull tab 3, the profile of the cutout 99 formed in the frame 100 makes it possible to release the latching member 6. Thus, under the effect of the fifth return spring 62, the locking member ratchet 6 is found on the trajectory of the third stud 23. More specifically, a fourth flank 61a of beak 61 is now in contact with third stud 23.

Like the control rod 1, the first pull tab 2 is also in an unstable position, the position of the latter not being defined by the first device 4 for indexing. More specifically, the second stud 22 of the first pull tab 2 is located on a third flank 42c of the first spring 41, which tends to bring the control rod 1 back to the second position P2, in the hollow of the second flank 42b, after the user has released the control rod 1. After this last action, the function selection device 200 is then configured according to the third configuration C3. This configuration is illustrated by the figures 11 and 12 .

When the control rod 1 returns to the second position P2, the third stud 23 of the first pull tab 2 then pushes back the fourth flank 61a of the spout 61 of the latching member 6. This latching member 6 can thus fold down and allow the third stud 23 to pass on the other side of the beak 61. The stud 23 is thus locked between a fifth flank 61b of the beak 61 and a second end of the oblong cutout 31. The first and second pull tabs are then secured in rotation . Any relative rotational movement between the first and second drawbars is therefore impossible.

In this third configuration C3, the first and second pull tabs are thus indexed in a stable position by the second indexing device 5 . By extension, the control rod 1 is also indexed in a stable position by the second device 5 for indexing.

In this third configuration C3, the flip-flop 12 here retains its position as defined by the second configuration C2, which allows the sliding pinion 11 to remain engaged with the first chain 400 adjustment.

On the other hand, the profile 74 of the control mobile 7 actuates the flip-flop 14 so that the latter configures the flip-flop 402 so as to allow the setting of the days. In particular, this allows the wheel 405 of the corrector wheel set 404 to perform a one-way adjustment of the day indication by engaging the teeth of the day wheel 700.

Thus, in this third configuration, sliding pinion 11, first pinion 401, mobile 403 and corrector mobile 404 remain meshed. Only the position of the rocker 14 is modified under the effect of the rotation of the mobile control 7, which is driven by a to-and-fro movement of the control rod 1 allowing the mechanism to pass from the second configuration C2 to the third configuration C3. More particularly, in this third configuration, rocker 14 is positioned by a projection formed at the level of profile 74 of control wheel set 7.

Switching from the third C3 configuration to the fourth C4 configuration :

A new traction on the control rod 1 in the first direction D1 allows the control rod 1 to reach the third stable position P3, and defines the function selection device 200 according to the fourth configuration C4. This configuration is illustrated by the figures 13 and 14 .

When the control rod 1 passes from positions P2 to P3, the first pull rod 2 carries with it the second pull rod 3, the latter being fixed in rotation by means of the elements 23, 31 and 6.

The second pull tab 3 is then held in a new stable position by the second indexing device 5 . More particularly, the second functional surface 52 cooperates here with a third notch 72c for indexing the third functional surface 72 of the mobile 7.

By extension, the first pull tab 2 is also held in a stable position by means of the second indexing device 5, while the second stud 22 of the pull tab is still located on the third side 42c of the first spring 41.

In this fourth configuration, rocker 12 is actuated by profile 73 so that sliding pinion 11 can engage second chain 500 for adjustment.

Rocker 14 is itself actuated by profile 74 so that rocker 402 is positioned so that corrector wheel set 404 is out of range of the toothing of the date disc and that of the star for the days of the week.

The time setting of the movement can therefore be performed by the user.

The fourth configuration C4 differs from the first configuration in that the rocker 14 is held in position not by the profile 24 of the pull tab 2, but by a profile 74 of the control wheel set 7 kinematically linked to the second pull tab 3, the latter being previously positioned by the control rod 1, itself positioned according to the third axial position P3 via the first pull tab 2.

Switching from the second configuration C2 to the first configuration C1:

From the second configuration C2, by pushing the control rod 1 in the second direction D2 from the position P2 to the position P1, the first pull tab 2 is simply reconfigured according to the first configuration C1. More particularly, the second stud 22 of the pull tab passes from the second flank 42b to the first flank 42a of the first spring 41.

The return of the control rod 1 to position P1 allows the winding kinematic chain 300 to be engaged again. Simultaneously, the control rod 1 also disengages the sliding pinion 11 of the first chain 400 of adjustment.

In this same action, the first pull rod 2 pushes back the rocker 14 thus ensuring that the corrector mobile 404, pivoted on the rocker 402, is out of reach of the toothing of the date disc and that of the day star.

Switching from the third configuration C3 to the first configuration C1 :

From the third configuration C3, only the first configuration C1 can be selected when the control rod 1 is pushed back from the second position P2 to the first position P1.

By pushing the control rod 1 in the second direction D2, the latter simultaneously drives the first and second pull rods 2, 3 so as to reconfigure the function selection device 200 according to the first configuration C1. This is made possible by the fact that, in the third configuration C3, the third stud 23 is in abutment in the oblong cutout 31.

It follows that the beak 61 of the latching member 6, which is on the path of the third stud 23 in the third configuration C3, is at again out of reach of the third stud 23 thanks to the cooperation of the fourth stud 63 with the profile of the cutout 99.

Switching from the fourth configuration C4 to the first configuration C1 :

From the fourth configuration C4, as from the third configuration C3, the second configuration C2 cannot be selected by pushing back the control rod 1 in the second direction D2. Only the third and first configurations C3 and C1 can be reached by pushing back the control rod 1.

In this fourth configuration C4, the relative position of the first and second pull tabs 2, 3 is identical to that known from the third configuration C3. The kinematics of the pull tabs 2, 3 when returning to the first configuration C1 from the fourth configuration C4 is therefore substantially identical to that known from the third configuration C3. The control rod 1 thus drives the first pull tab 2 which drives the second pull tab 3 thanks to the third stud 23 in contact with the oblong cutout 31.

In the same way, the spout 61 of the latching member 6 is disengaged from the trajectory of the third stud 23 thanks to the cooperation of the fourth stud 63 with the profile of the cutout 99.

A second embodiment of a timepiece 1000' is described below with reference to the figures 15 to 21 .

Preferably, the second embodiment differs from the first embodiment only in part of its characteristics.

Thus, the references of elements of the second embodiment are deduced from those of elements of the first embodiment (having identical or substantially identical structures and/or identical or substantially identical functions) by the addition of an apostrophe "'".

The timepiece 1000' is for example a watch, in particular a wristwatch.

The timepiece 1000' comprises a timepiece movement 900' intended to be mounted in a case or a timepiece box in order to protect it from the external environment.

The watch movement 900' can be an electronic movement or a mechanical movement, in particular an automatic movement. The watch movement 900' includes a watch mechanism 800'.

• une chaîne cinématique de remontage,
• une première chaîne cinématique de réglage, et
• une deuxième chaîne cinématique de réglage.

The timepiece 1000', in particular the timepiece movement 900', in particular the timepiece mechanism 800', comprises a device 200' for selecting timepiece functions. The timepiece 1000', in particular the timepiece movement 900', in particular the timepiece mechanism 800', preferably further comprises:

• a winding kinematic chain,
• a first adjustment kinematic chain, and
• a second adjustment kinematic chain.

• un dispositif de tirette 150', et
• un bâti 100'.

The watch function selection device 200' mainly comprises:

• a pull device 150', and
• a 100' frame.

• un premier dispositif 4' d'indexation en position agencé de sorte à agir sur la tirette 2', et
• un deuxième dispositif 5' d'indexation en position agencé de sorte à agir sur la bascule 3'.

Advantageously, the pull tab device 150' comprises a rocker 2', in particular a pull tab 2', movably mounted on the frame 100' and a rocker 3' movably mounted on the frame 100 or on the pull tab 2' and the selection device 200 ' also includes:

• a first position indexing device 4' arranged so as to act on the pull tab 2', and
• a second position indexing device 5' arranged so as to act on the rocker 3'.

• n positions stables de l'élément d'interface 1, avec n ≥ 3, et
• m configurations de sélection du dispositif de sélection 200',
  avec m≥n+1.

Alternatively or additionally, the watch function selection device 200' can comprise an interface element 1, in particular a control rod 1, and the pull-cord device 150' can be arranged so as to define:

• n stable positions of interface element 1, with n ≥ 3, and
• m selection configurations of the selection device 200',
  with m≥n+1.

This second embodiment differs mainly from the first by the arrangement of the snap-fastening member as well as by the device for selecting the various winding and adjustment chains, which has the particularity of not comprising any control wheel set.

Furthermore, the second embodiment differs from the first embodiment in that the second position indexing device 5' comprises a second spring 51' provided with a second functional surface 52' (forming a double beak) and a fifth stud 34' secured to the second pull tab 3'. The cooperation of the second functional surface 52' with the fifth stud 34' makes it possible to define the three stable angular positions of the second pull tab 3'.

Compared to the first embodiment, the snap-fastening member 6' of this second embodiment comprises a fourth functional surface 63' instead of a stud. This fourth functional surface is intended to cooperate with the profile formed by the periphery of the cutout 99' of the frame 100'. The kinematics of this latching member, as well as those of the components with which it is capable of cooperating, are identical to those known from the first embodiment.

The control of the two flip-flops 12', 14' of this second embodiment does not take place here by means of a control wheel set. It is directly the first and second drawbars 2', 3' which control them. Nevertheless, the various winding and adjustment chains have an operation similar to that known from the first mode. Moreover, as for the first embodiment, a second profile 24', or more particularly here a sixth stud 24' is also capable of cooperating with the flip-flop 14'.

Furthermore, this second embodiment also has the particularity of having the second stud 22', the third stud 23' and the sixth stud 24' arranged coaxially.

As for the first embodiment, the function selection device 200' according to the second embodiment allows the different functions of the watch mechanism 800' to be selected thanks to a first slider 2' and a second slider 3' (as represented on the figure 16 ) which can conform respectively according to four distinct configurations C1, C2, C3 and C4 defined by three axial positions P1, P2 and P3 of the interface element 1 of the control.

With the exception of the aforementioned design differences between the two embodiments, the selection of the different configurations of this second mode is substantially identical or equivalent to that of the first mode. Therefore, the whole of the description of the first embodiment describing the passages from one configuration to another can be transposed to this second mode and this independently of the few aforementioned structural differences.

The figure 17 illustrates the function selection device 200' according to the first configuration C1.

The figure 18 illustrates the function selection device 200' according to the second configuration C2.

The figure 19 makes it possible to illustrate the transient, unstable state in which the control rod 1 of the function selection device 200' is temporarily in the third position P3, during the transition from the second configuration C2 to the third configuration C3.

The figure 20 illustrates the function selection device 200' according to the third configuration C3.

The figure 21 illustrates the function selection device 200' according to the fourth configuration C4.

A mode of execution of a method of operating a device for selecting watch functions as mentioned previously or of a watch mechanism as mentioned previously or of a watch movement as mentioned previously or of a timepiece as mentioned above is described below.

• le dispositif de sélection 200 ; 200' est configuré selon la deuxième configuration C2 lorsqu'on déplace l'élément d'interface 1 de la première position stable P1 à la deuxième position stable intermédiaire P2, et
• le dispositif de sélection 200 ; 200' est configuré selon une troisième configuration C3 lorsqu'on effectue un mouvement de va-et-vient de l'élément d'interface 1 depuis la deuxième position stable intermédiaire P2, en particulier selon le premier sens de traction, et en revenant à la deuxième position stable intermédiaire P2.

The process includes the following steps:

• the selection device 200; 200' is configured according to the second configuration C2 when the interface element 1 is moved from the first stable position P1 to the second intermediate stable position P2, and
• the selection device 200; 200' is configured according to a third configuration C3 when the interface element 1 is moved back and forth from the second intermediate stable position P2, in particular according to the first direction of traction, and returning to the second intermediate stable position P2.

Advantageously, the selection device 200; 200' is configured according to a third configuration C3 when the interface element 1 is moved from the third stable position P3 to the second intermediate stable position P2.

The various manipulations or actions possible at the interface element 1 which make it possible to select the various configurations of the selection device are explained below.

Switching from the first configuration C1 to the second configuration C2:

The first position P1 of the interface element 1 defines the first configuration C1 of the selection device 200; 200' of functions. From this first position P1, when the user pulls the interface element 1 in the first direction D1, the latter reaches the second position P2, thus conforming the selection device 200; 200' of functions according to the second configuration C2.

Switching from the second configuration C2 to the third configuration C3:

From the second position P2, when the selection device 200; 200' is in the second configuration C2, it is possible to pull the interface element 1 again in the first direction D1. The device selection 200; 200' of functions then conforms according to the third configuration C3 while the interface element 1 reaches a third position P3 or substantially close to P3, which is unstable here. Therefore, when the interface element 1 is released by the user, the latter returns to the second stable position P2. The interface element 1 therefore moves back and forth to shape the device according to this third configuration C3.

Switching from the third C3 configuration to the fourth C4 configuration :

To configure the selection device 200; 200' of functions according to the fourth configuration C4, it is necessary beforehand for it to be configured according to the third configuration C3. Thus, once this third configuration C3 has been selected, a new traction of the interface element 1 makes it possible to conform the selection device 200; 200' according to the fourth configuration C4. During this action, the interface element 1 reaches the third position P3 which is stable here.

Switching from the fourth configuration C4 to the third configuration C3:

The third stable position P3 of the interface element 1 therefore defines the fourth configuration C4 of the selection device. From this third and last position P3, by pushing the interface element 1 to the second position P2, the selection device 200; 200' can only be reconfigured to a third C3 configuration.

Switching from the third configuration C3 to the first configuration C1:

Regardless of the configuration in which the selection device 200 is previously located; 200' of functions, it is impossible to configure it in the second C2 configuration by pushing the element interface 1 according to the second direction D2. The sequencing of the mechanism imposes here that the selection of this second configuration C2 is necessarily done by pulling the interface element 1 from the first position P1. Therefore, when the interface element 1 is pressed from the second position P2, it inevitably returns to the first position P1, which conforms the selection device 200; 200' according to the first configuration C1.

Switching from the second configuration C2 to the first configuration C1 :

When the selection device 200; 200' of functions is configured according to the second configuration C2, pressing the interface element 1 according to the second direction D2 makes it possible to reach the first position P1, which conforms the selection device 200; 200' according to the first configuration C1.

Thus, from the first position P1 of the interface element 1, each pull performed on the interface element 1 makes it possible to successively select the different configurations of the selection device according to the predefined order C1, C2, C3 and C4 .

Advantageously, the selection device 200; 200' can only be shaped according to the fourth configuration C4 corresponding to the time-setting function after having manipulated the interface element 1 characterized by a to-and-fro movement, which prevents the user from stopping the movement unexpectedly if the mechanism is fitted with a “seconds stop” or a “balance stop”.

Preferably, the control interface controlling the mechanism or the selection device allowing the selection of the different functions or configurations of the selection device taking part in said mechanism is identical regardless of the embodiment or the embodiment variant.

The function selection device makes it possible to make the various chains of the watch mechanism operational, respectively allowing winding and adjustment of the various functions of the watch. These chains are for example identical or substantially identical regardless of the embodiment.

In the embodiments described, the selection devices are used to select particular horological functions. However, a selection device according to the invention can be used to select any desired watchmaking functions that can be arranged within a timepiece. These may be horological functions, in particular time or calendar functions or functions derived from time. It can also be control or adjustment functions, for example a ringtone.

In the embodiments, it is for example possible to select manual winding, a bidirectional adjustment function for the date indication, a one-way adjustment function for the day indication and a time-setting function, while offering an intuitive interface and whose apparent operation for the user is substantially identical to that of a known interface of a three-position mechanism.

In the embodiments and variants described, the number of positions of the indexing element is three and the number of configurations of the selection device is four. However, these numbers can be modified, in particular increased. For example, it would be entirely possible to build a variant of a selection device comprising an additional position for interface element 1, which would make it possible to define at least one additional new configuration. This additional position could, for example, be reached by once again pulling the interface element 1 from the third position P3. The relative movement of the two drawbars is locked in this third position P3. An additional traction of the interface element 1 would thus allow the second pull tab 3; 3' to be able to be indexed by the second device 5; 5' for indexing according to a new angular position. As for the first zipper 2; 2', the third flank 42c; 42c' would just have to be lengthened to allow it to reach this new angular position.

Furthermore, the two configurations C2, C3 which can be selected here when the interface element 1 is placed in the second position P2 could of course be defined by any other axial position of the interface element. The mechanism could also comprise at least two axial positions of the interface element for which two configurations are selectable. Moreover, it would also be possible for more than two configurations to be selectable for the same axial position of the interface element.

In a design variant of the first indexing device 4; 4', it is possible to conform the third flank 42c; 42c' so that it does not tend to bring back the first zipper 2; 2' in the hollow of the second flank 42b; 42b'. To do this, another elastic element could be capable of bringing said pull tab back into the hollow of the second flank 42b; 42b'.

The fifth spring 62; 62' for recalling the latching member 6; 6' could also be supported alternatively on the frame 100; 100' instead of on the first or second drawbar. Conversely, the fifth spring 62; 62' could also be embedded in frame 100; 100' and press the latching member 6; 6'.

Instead of pivoting on the second zipper 3; 3', the latching member 6; 6 'could simply be in the form of a flexible element or a recessed spring, which could for example be included in said pull tab. This spring should then have a conformation acting as a beak capable of cooperating with the frame 100; 100' and the first drawbar 2; 2'.

In the embodiments and variants described, the first and second drawbars are arranged coaxially. Of course, these pull tabs could not be arranged in this way. The second zipper 3; 3' can thus be likened to a pivoted rocker, whether or not the latter is arranged coaxially with the first pull tab 2; 2'.

As described previously, the selection of the third configuration C3 requires that the interface element 1 be pulled from the second position P2 to the third position P3, here unstable, then released by the user, so that it can return to the second position P2. In a design variant, it is possible that the so-called unstable position is not located exactly on the third position P3. Indeed, it could very well be before or after this third position P3. Ultimately, the amplitude of this back and forth movement of the interface element 1 must just be sufficient for the latching member 6; 6' can lock the relative movement of the two pull tabs after this action.

In another embodiment not shown, the clockwork mechanism 800; 800' could include as many winding chains and/or settings as there are configurations selectable by the selection device 200; 200' of functions. In other words, each selection of a given configuration could correspond to the clutch of a specific and dedicated winding or adjustment chain.

Of course, in another embodiment not shown, the watch mechanism 800; 800' could include a manual winding chain which could be engaged not by a vertical clutch, but by means of a sliding pinion integral in rotation with the control rod and capable of moving in the direction of the control rod .

In the embodiments and variants described, a control rod 1 acts as an interface element on the first pull tab 2; 2' which is directly engaged with the interface element 1. Of course the first pull tab 2; 2' could be connected indirectly to interface element 1, for example via one or more rockers or rods. In a first example, the selection of functions could be done by means of a crown arranged on a secondary rod parallel to the interface element 1, via a means kinematically connecting the two rods. This type of arrangement is found in particular in constructions in which it is necessary to offset the position of the crown relative to that of the stem of the movement. In a second example, the selection could be made by means of a crown arranged on a secondary rod parallel to the axes of the hands, by means of a means making it possible to control the translation of a rod similar to that of the element d interface 1 described in this document by the translation of this alternative interface means.

In the same logic, it is entirely possible that the actuation of this function selection device also takes place by means of another interface means, such as, for example, a rotating bezel.

Although certainly less intuitive for the user, the directions D1 and D2 described up to now could also be reversed. The operation of the entire mechanism would therefore also be reversed.

The elements of the first and second devices 4; 4', 5; 5 'indexing can be shaped according to any geometry so as to allow the stable positioning of the pull device 150; 150' comprising the first and second pull tabs 2; 2', 3; 3'. In particular, the elements of the first and second devices 4; 4', 5; 5 'of indexing can of course be shaped according to any geometries so as to allow the stable positioning of the first pull tab 2; 2' for at least a first stable position of the interface element 1 and to allow the stable positioning of the second pull tab 3; 3' for at least a second stable position of the interface element 1.

Throughout this document, the term “zipper” is preferably understood to mean a rocker whose position is controlled by an interface element, in particular a control rod, directly for example by means of a zipper stud and cooperating with a groove made on the control rod. By “zipper” is preferably also meant a rocker whose position is controlled directly by the action of another zipper.

Throughout this document, “top view” means a view from the face of the movement located on the dial side.

Throughout this document, by “indexing of an element”, “angular indexing of an element” or “positional indexing of an element”, is meant the definition of different stable positions of an element. These stable positions can be separated by a continuum of unstable intermediate positions. Between two stable positions or two positions indexed or two indexing positions, the element temporarily passes through a continuum of unstable or less stable intermediate positions.

“Stable position” denotes a given position of the interface element 1, of the first pull tab or of the second pull tab (or rocker), once the interface element 1 is released by the user. In particular, “stable axial position” designates a given axial position of the interface element 1 once the latter has been released by the user.

This “stable position” is defined by the first indexing device 4; 4' and/or by the second device 5; 5' of indexing.

The term “unstable position” designates a given position of the interface element 1 which is exclusively defined by a maintained action by a user. Once the interface element 1 is released, the latter returns to a stable position, different from the unstable position.

By “zipper device” 150; 150', we mean a device comprising at least two pivoted rockers connected together and movable relative to each other. A first rocker 2; 2 'can meet the definition of "zipper", the latter being in direct contact with a control rod. A second rocker 3; 3 'can also meet the definition of pull tab knowing that the latter has a conformation substantially equivalent to that of the first flip-flop 2; 2', and that this second flip-flop 3; 3' is pivoted coaxially with the first flip-flop 2; 2'. However, this second rocker is not necessarily pivoted coaxially with the first rocker.

Throughout this document, the term “configuration” of the function selection device refers to a very precise arrangement or conformation elements taking part in the mechanism, making it possible to make operational or to engage the winding and/or adjustment chains.

Concerning the "functions" of the movement on which one can act with the mechanism, throughout this document, "function" designates any manual winding of an energy accumulation spring, any corrections of time indications or derivatives time, and more generally any additional functions that can be arranged on a timepiece.

By “sequential” mechanism, we mean here a mechanism capable of selecting different configurations of a selection device for the same stable position of a control member.

The device according to the invention can be qualified as a "semi-sequential" mechanism knowing that it allows both to select different configurations of a selection device by moving an interface element between various stable positions, and at least one configuration of said selection device by a to-and-fro movement of the interface element, in particular from a given stable position to this same stable position.

Throughout this document, the terms “adjustment function” and “correction function” are used as synonyms.

Throughout this document, the studs preferably have a cylindrical shape. More generally, a stud of an element preferably consists of a finger extending perpendicularly or substantially perpendicularly to a plane along which the rest of the element extends. For example, a stud is constituted by a pin or an ankle. Throughout the document, the cooperation of the first and second desmodromic connecting elements makes it possible in particular to configure the selection device from one given configuration to another. In particular, it makes it possible, during the passage from one configuration to another, to cause the rocker 402 to move according to different angular positions under the effect of the movement of the rocker 14, and this independently of any return spring.

In other words, by "desmodromic connection", we mean a connection arranged so as to make it possible to define the position of the second rocker 402 from the position of the first rocker 14 without using a return spring of the second rocker against the first seesaw. This desmodromic connection makes it possible to define, unequivocally, a position of the second rocker for each of several positions of the first rocker.

A movement of the flip-flop 402 carried out independently of the movement of the flip-flop 14 is nevertheless possible, in particular when the selection device is configured according to the third configuration C3. In this third configuration, the first and second desmodromic connecting elements are arranged such that they allow the rocker 402 to be positioned in a third angular position.

• par le premier dispositif d'indexation dans une ou plusieurs premières positions, et
• par le deuxième dispositif d'indexation dans une ou plusieurs deuxièmes positions,

de manière exclusive.In the different embodiments and variants, the interface element can be indexed in position:

• by the first indexing device in one or more first positions, and
• by the second indexing device in one or more second positions,

exclusively.

• par le premier dispositif d'indexation et par le deuxième dispositif d'indexation de manière redondante, ou
• par le premier dispositif d'indexation et par le deuxième dispositif d'indexation de manière complémentaire,

In addition, the interface element can be indexed in position, in one or more third positions:

• by the first indexing device and by the second indexing device redundantly, or
• by the first indexing device and by the second indexing device in a complementary manner,

The solutions described present a mode of operation close to that of the known mechanisms, while offering the possibility of selecting a greater number of adjustment configurations. Moreover, this solution makes it possible to overcome all the drawbacks identified in the state of the art.

The solutions described allow rapid adjustments of several display functions, in particular of several display functions of a calendar. The solutions described make it possible, for example, to benefit from rapid and bidirectional adjustment of a date indication, as well as adjustment of an indication of the days of the week.

The solutions described make it possible to implement a single and unique interface means having an intuitive actuation mode, while allowing the adjustment of a large number of functions.

Claims (16)

Clockwork mechanism (800; 800') for correcting a clockwork function comprising: - a first rocker (14) comprising a first desmodromic cam connecting element (14a), - a corrective mobile (404), and - a second rocker (402),
the second flip-flop (402) comprising: - at least a first element (402d) for guiding the corrector mobile (404), - at least one first friction element (402b) against the corrector wheel set (404), and - a second desmodromic cam link element (402a) provided to cooperate by contact with the first desmodromic cam link element (14a). Mechanism according to the preceding claim, characterized in that the first desmodromic cam link element is a stud (14a) and the second desmodromic cam link element is a cam profile (402a) or in that the first link element desmodromic cam link is a cam profile and the second desmodromic cam link is a stud. Mechanism according to the preceding claim, characterized in that the cam profile (402a) consists of a groove (402a) which is provided with at least two distinct portions (1402a, 2402a), or even three distinct portions (1402a, 2402a, 3402a). Mechanism according to one of the preceding claims, characterized in that the second rocker (402) comprises at least one arm (402c) and in that the first friction element (402b) comprises at least one friction surface (402f), the at least one arm (402c) being arranged so as to elastically return the at least one friction surface (402f) against the corrector mobile (404). Mechanism according to one of the preceding claims, characterized in that the at least one first guide element (402d) and the at least one first friction element (402b) are combined or formed by the same element. Mechanism according to one of the preceding claims, characterized in that the second rocker is in one piece and/or in that the second rocker has a thickness of less than 200 µm, or even less than 150 µm. Mechanism according to one of the preceding claims, characterized in that the first rocker (14) and the second rocker (402) are configured and/or arranged so as to position the second rocker (402) according to a first angular position and a second angular position around an axis (402e) of rotation of said second rocker (402), the first angular position making it possible to activate a first correction function, in particular a date indication correction function, and the second position angular to deactivate the first correction function. Mechanism according to one of the preceding claims, characterized in that the first rocker (14) and the second rocker (402) are configured and/or arranged so as to allow the positioning of the second rocker (402) according to a third angular position around its axis (402e) making it possible to activate a second function correction, in particular a function for correcting the indication of the days. Mechanism according to Claims 7 and 8, characterized in that the first rocker (14) and the second rocker (402) are configured and/or arranged so that, in the second angular position, the second correction function is deactivated. Mechanism according to one of the preceding claims, characterized in that the mechanism comprises a selection device (200) comprising a pull rod device (150) including a pull rod (2) and a third rocker (3), and in that the first flip-flop (14) is controlled by the selection device (200), the pull-bar device (150) and the first flip-flop (14) being configured and/or arranged so that the first flip-flop (14) is positioned by the pull-bar (2) or by a profile (74) of a mobile control (7) kinematically linked to the third rocker (3). Mechanism according to Claim 10, characterized in that the mechanism comprises an interface element (1) and in that the mechanism is arranged so that, when the selection device (200) is configured in a first configuration (C1) corresponding to a first axial position (P1) of the interface element (1), the second rocker (402) is in the second angular position, in which the first and second correction functions are deactivated. Mechanism according to one of Claims 10 and 11, characterized in that the mechanism comprises an interface element (1) and in that the mechanism is arranged so that, when the selection device (200) is configured in a second configuration (C2), corresponding to a second axial position (P2) of the interface element (1), the second rocker (402) has the first angular position in which the first correction function is activated. Mechanism according to one of Claims 10 to 12, characterized in that the mechanism comprises an interface element (1) and in that the mechanism is arranged so that, when the selection device (200) is configured in a third configuration (C3), corresponding to the second axial position (P2) of the interface element (1), the second rocker (402) is capable of having a third angular position, in which the second correction function is activated . Mechanism according to one of Claims 10 to 13, characterized in that the mechanism comprises an interface element (1) and in that the mechanism is arranged so that when the selection device (200) is configured in a fourth configuration (C4), corresponding to a third axial position (P3) of the interface element (1), the second rocker (402) is in the second angular position, in which the first and second correction functions are deactivated. Clockwork movement (900; 900') comprising a clockwork mechanism (800; 800') according to one of the preceding claims. Timepiece (1000; 1000') comprising a timepiece mechanism according to one of Claims 1 to 14 and/or a timepiece movement according to the preceding claim.

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