EP4361739A1 - Function selection system for watch - Google Patents

Abstract

The invention relates to a function selection system for a watch comprising a frame (100) carrying a movable member (31) between n stable positions, n being an integer greater than or equal to 2, said movable member (31) being intended to be moved from one stable position to another relative to the frame by a movement communicated to the watch (10) by its wearer, maintained in each of said stable positions by an elastic or magnetic restoring force, and arranged so that it is able to select a function according to the stable position it occupies. The invention also relates to a watch mechanism comprising such a function selection system and a watch comprising such a watch mechanism.

Description

The present invention relates to a function selection system for a watch. The invention also relates to a watch mechanism comprising such a function selection system and a watch comprising such a mechanism.

By definition, complicated watches include numerous functions including, for example, chronograph functions, alarm functions or display of the day of the week, date, month, year, moon phase, information according to which a year is a leap year or not, the display of several time zones in the case of so-called GMT (Greenwich Mean Time) watches.

In the majority of cases, each of said functions requires a correction and/or triggering device which requires an external control member (push button, correction rod or corrector for example) which is specific to it for its actuation.

Multiplying the number of external control elements can quickly become cumbersome or even impractical and unsightly in a timepiece displaying a lot of information, particularly in a watch such as a pocket watch or a wristwatch in which the considerations of space are particularly limiting. In addition, increasing the number of push buttons and/or correctors inevitably increases costs and constraints, particularly to guarantee watertightness.

Watch mechanisms comprising several display correction devices operable by means of the same control member are known. For example, we know of watches allowing both the day of the week and the date to be displayed and comprising a winding stem allowing the choice of correcting the display of the date or that of the day of the week. Some of them include a winding stem capable of taking several distinct axial positions, intermediate between the winding position (rest) and the time setting position (pulled), and allowing in one of these axial positions to correct the date and in another to correct the day of the week. Others include a winding stem allowing the date to be corrected by pivoting in one direction and the day of the week to be corrected by pivoting in the other direction.

An aim of the present invention is to propose a system making it possible, in a watch comprising numerous functions to be controlled, to limit the number of external control members for controlling these functions.

To this end, the invention proposes a function selection system for a watch comprising a frame carrying a movable member between n stable positions, n being an integer greater than or equal to 2, said movable member being intended to be moved from one position stable to another in relation to the frame by a movement communicated to the watch by its wearer, maintained in each of said stable positions by an elastic or magnetic restoring force and arranged so that it is capable of selecting a function according to the stable position which he occupies.

The movement communicated to the watch by its wearer and capable of moving the movable member from one stable position to another is typically a voluntary movement causing an acceleration of the movable member or of a part of the controlling function selection system. the movement of the mobile member. In the context of the present invention, one can typically play on the value of this elastic or magnetic restoring force to define the energy that the wearer must provide to his watch to change the selected function. This energy is typically transmitted to the watch by its wearer by a rotating movement of the wrist with acceleration.

In the context of the present invention, the different functions among which the function selection takes place are typically chosen from chronograph functions (trigger, stop, reset), chime (trigger, stop) or display ( in particular correction) of the day of the week, the date, the month, the year, the moon phase, the information according to which a year is a leap year or not, the display of several time zones in the case so-called GMT (Greenwich Mean Time) watches.

In a watch mechanism comprising a function selection system according to the invention, it is possible to provide a single control member to control several different functions. The user is able to select, through the function selection system, the specific function on which the control unit acts.

In the context of the present invention, each movement communicated to the watch by its wearer and capable of generating a change in stable position of the movable member is typically applied in a direction having a main component in a predetermined direction and the movement of the member movable towards a stable position or another depends on the direction of said movement in said predetermined direction.

The movable member is typically capable of moving between two extreme positions constituting two of said n stable positions under the effect of one or more successive movements communicated to the watch by its wearer.

Advantageously, the function selection system according to the invention comprises a rocker intended to pivot relative to the frame between two extreme positions constituting stable positions of the rocker. Each of said stable positions of the rocker is associated with a stable position of the mobile member. The pivoting amplitude of the rocker is typically delimited by stops which define said two extreme positions.

Preferably, the rocker is unbalanced in order to amplify said movements. It typically carries an element whose density is greater than its own, eccentric in relation to its center of rotation. Said element is preferably arranged on the end farthest from the center of rotation of the rocker.

The rocker typically comprises an element, for example a pin or a tooth of a star, intended to be held in abutment against a first inclined plane of a jumper, respectively against a first face of an elastic blade, or against a second inclined plane of said jumper, respectively against a second face of said elastic blade. Said jumper or said elastic blade being fixed on the frame to define two distinct stable positions of the seesaw.

The energy that the user must provide to cause acceleration allowing the seesaw to move from one stable position to another depends, among other things, on the stiffness of the spring of this jumper or this elastic blade as well as of its shape. This force can therefore be easily adjusted by playing on this criterion.

The rocker is for example integral in rotation with a star positioned by a jumper or by an elastic blade, preferably a jumper, fixed on the frame.

In a particular implementation of the object of the invention, the function selection system according to the invention comprises a connecting rod mounted to pivot around a fixed axis of rotation relative to the rocker. The connecting rod carries the movable member and is guided along a predetermined trajectory so as to bring the movable member into each of said n stable positions.

The invention also relates to a watch mechanism comprising a function selection system as described above. Such a watch mechanism typically comprises a control member, accessible from outside the watch case, whose actuation by the wearer of the watch allows the mobile member to cooperate, depending on the stable position it occupies, with a separate trigger, to control the selected function. It is preferably a time zone mechanism comprising at least one function for incrementing the display of the hours of a time zone and a function for decrementing the display of the hours of said time zone, the function selection system allowing one or other of said functions to be selected.

Finally, the invention relates to a watch, typically a wristwatch or a pocket watch, comprising such a watch mechanism.

• la figure 1 représente en vue de dessus un mécanisme horloger pour montre comprenant un système de sélection de fonctions selon un premier mode de réalisation de l'invention ;
• la figure 2 représente une coupe transversale du mécanisme illustré à la figure 1 selon une ligne brisée A-A représentée à la figure 1 ;
• la figure 3 est une vue éclatée du mécanisme illustré à la figure 1 ;
• la figure 4 est une vue de dessus d'une montre comprenant un mécanisme tel qu'illustré à la figure 1 ;
• la figure 5a est une vue simplifiée de dessus du mécanisme horloger illustré à la figure 1 dans lequel une première fonction est sélectionnée ;
• la figure 5b est une vue de dessus du système de sélection de fonction du mécanisme illustré à la figure 5a ;
• la figure 6a est une vue simplifiée de dessus du mécanisme horloger illustré à la figure 1 dans lequel une deuxième fonction est sélectionnée ;
• la figure 6b est une vue de dessus du système de sélection de fonction du mécanisme illustré à la figure 6a ;
• la figure 7a est une vue simplifiée de dessus d'un mécanisme horloger pour montre comprenant un système de sélection de fonctions selon un second mode de réalisation de l'invention ;
• la figure 7b est une vue de dessus du système de sélection de fonction du mécanisme illustré à la figure 7a ;
• les figures 8 à 11 sont des vues successives d'un mécanisme horloger pour montre comprenant un système de sélection de fonctions selon une variante du second mode de réalisation de l'invention au cours du changement de sélection de fonction.

Other characteristics and advantages of the present invention will appear on reading the following detailed description given with reference to the appended drawings in which:

• there figure 1 represents in top view a watch mechanism for a watch comprising a function selection system according to a first embodiment of the invention;
• there figure 2 represents a cross section of the mechanism illustrated in figure 1 along a broken line AA represented on the figure 1 ;
• there Figure 3 is an exploded view of the mechanism illustrated in figure 1 ;
• there Figure 4 is a top view of a watch comprising a mechanism as illustrated in figure 1 ;
• there figure 5a is a simplified top view of the watch mechanism illustrated in figure 1 in which a first function is selected;
• there figure 5b is a top view of the function selection system of the mechanism shown in figure 5a ;
• there figure 6a is a simplified top view of the watch mechanism illustrated in figure 1 in which a second function is selected;
• there figure 6b is a top view of the function selection system of the mechanism shown in figure 6a ;
• there figure 7a is a simplified top view of a watch mechanism for a watch comprising a function selection system according to a second embodiment of the invention;
• there figure 7b is a top view of the function selection system of the mechanism shown in figure 7a ;
• THE figures 8 to 11 are successive views of a watch mechanism for a watch comprising a function selection system according to a variant of the second embodiment of the invention during the function selection change.

There figure 1 represents a watch mechanism 1 for a watch comprising a function selection system according to a first embodiment of the invention. THE figure 2 And 3 illustrate more precisely certain parts of this mechanism 1. An example of a watch 10 comprising such a watch mechanism 1 is illustrated in Figure 4 . This is a GMT watch allowing the display of two time zones, one intended for the display of local time called "local time" (hand 91) and the other for the display of the time of the place of residence known as “home time” (pointer 131).

• un bâti, typiquement une planche 100 ;
• une roue de 24h « local time » 2 et une roue de 24h « home time » 3 coaxiales, montées libres en rotation autour d'un axe 4 chassé dans la planche 100 et reliées par une liaison élastique. La liaison élastique comprend une étoile 5 solidaire en rotation de la roue de 24h « home time » 3 et un sautoir 6 engagé dans la denture de cette étoile 5 et fixé sur la roue de 24h « local time » 2.
• une chaussée 7, comprise dans le rouage de minuterie du mouvement de base, montée pivotante sur le tube de centre et entraînée en rotation par une roue d'entraînement 8 à un rythme d'un tour par heure. De manière classique, la roue d'entraînement 8 est montée à friction sur la chaussée 7 et reliée cinématiquement au barillet du mouvement de la montre 10 pour son entraînement ;

• une roue de 12h « local time » 9 est montée pivotante autour du canon de la chaussée 7. La roue de 12h « local time » 9 porte typiquement une aiguille 91 permettant l'affichage de l'heure locale sur le cadran 14 de la montre 10 (voir figure 4) ;
• un mobile des heures 11 comprenant une deuxième 11a et une troisième 11b roues de douze heures solidaires en rotation l'une de l'autre et montées pivotantes autour du canon de la chaussée 7.

With reference to figures 1 to 3 , the watch mechanism 1 comprises, among other things:

• a frame, typically a board 100;
• a 24-hour “local time” wheel 2 and a 24-hour “home time” wheel 3 coaxial, mounted freely in rotation around an axis 4 driven into the board 100 and connected by an elastic connection. The elastic connection comprises a star 5 integral in rotation with the 24-hour “home time” wheel 3 and a jumper 6 engaged in the teeth of this star 5 and fixed on the 24-hour “local time” wheel 2.
• a roadway 7, included in the timer train of the basic movement, pivotally mounted on the center tube and rotated by a drive wheel 8 at a rate of one revolution per hour. Of conventionally, the drive wheel 8 is friction mounted on the roadway 7 and kinematically connected to the barrel of the watch movement 10 for its drive;

• a 12 o'clock "local time" wheel 9 is pivotally mounted around the barrel of the roadway 7. The 12 o'clock "local time" wheel 9 typically carries a hand 91 allowing the local time to be displayed on the dial 14 of the watch 10 (see Figure 4 ) ;
• an hour mobile 11 comprising a second 11a and a third 11b twelve-hour wheels integral in rotation with one another and pivotally mounted around the barrel of the roadway 7.

The hour mobile 11 is rotated at a rate of one revolution every twelve hours by the roadway 7 in a known manner. Typically the second twelve hour wheel 11a is rotated via a mobile (not illustrated) comprising a wheel meshing with the roadway 7 and a timer pinion meshing with the second twelve hour wheel 11a.

The third hour wheel 11b meshes with a time setting gear 12 which meshes with a twelve-hour “home time” wheel 13. The twelve-hour “home time” wheel 13 is, for its part, pivotally mounted on the barrel of the twelve hour “local time” wheel 9. It typically carries a hand 131 allowing the time of the place of residence to be displayed on the dial 14 of the watch 10.

The third twelve-hour wheel 11b also meshes with the 24-hour “home time” wheel 3 and the 24-hour “local time” wheel 2 meshes with the 12-hour “local time” wheel 9.

The basic working principle of mechanism 1 is as follows. Under the influence of drive wheel 8, hour mobile 11 rotates at a rate of one revolution every 12 hours. It drives, via its third hour wheel 11b, the 24-hour “home time” wheel 3 at a rate of one revolution per 24 hours. This causes the 24-hour “local time” wheel 2 to rotate at the same rate (via the elastic connection 5, 6). The 24-hour “local time” wheel 2 in turn causes the rotation of the 12-hour “local time” wheel 9 and the hand 91 which it carries.

During its pivoting, the third wheel 11b of the hour wheel 11 also drives the 12 o'clock "home time" wheel 13 and the hand 131 which it carries via the time setting gear 12.

A time setting mechanism not illustrated typically makes it possible to directly rotate the time setting reference 12 and thus causes the correction of the display of the local time (local time) and the time of the place of residence (home time).

The mechanism 1 also includes a local time correction device comprising a first “decrement” function allowing the user to decrement the local time display by one hour and a second “increment” function allowing the user to increment local time display by one hour. This device allows the user to easily correct the local time display depending on their location. It includes a function selection system and a control member 20 making it possible to activate the selected function. In practice, the user first selects the “increment” or “decrement” function that he wishes to use then presses a push button 21 to control the selected function, i.e. to increment or decrement the local time display by one hour.

The function selection system according to the first embodiment of the invention ( figures 1 to 6b ) comprises a connecting rod 30 carrying a stud 31 and a selection rocker 50. The stud 31 is intended to move in a guided manner between two stable positions under the influence of movements of the selection rocker 50.

Here, the “decrement” and “increment” functions are respectively controlled by a first 41 and a second 42 rockers arranged to cooperate with the 24-hour “local time” wheel 2 to rotate it in one direction (clockwise to decrement) or in the other (counterclockwise to increment). These first and second flip-flops constitute triggers of said functions.

The control unit 20 mentioned above is a local time corrector. This is a rocker subjected to the elastic return action of a spring 24 which has a part (forming the push button 21) accessible from outside the watch case 10.

The movements of the control member 20 are rotational movements around an axis of rotation A1 fixed relative to the board 100. Their amplitude is limited by a sliding system comprising a screw 22 screwed into the board 100 and a hole oblong 23 of the control member 20.

• soit de la première bascule 41 autour d'un axe de rotation virtuel A2 contre la force de rappel élastique d'un ressort 41a, lorsque le plot 31 se trouve dans une première position stable illustrée aux figures 1, 5a et 5b;
• soit de la deuxième bascule 42 autour d'un axe de rotation virtuel A3 contre la force de rappel élastique d'un ressort 42a lorsque le plot 31 se trouve dans une deuxième position stable illustrée aux figures 6a et 6b.

The members of the local time correction device are arranged so that, when the user acts on the control member 20 by pressing the push button 21, he causes, via the stud 31, the pivoting :

• either of the first rocker 41 around a virtual axis of rotation A2 against the elastic return force of a spring 41a, when the stud 31 is found in a first stable position illustrated in figures 1 , 5a and 5b ;
• either of the second rocker 42 around a virtual axis of rotation A3 against the elastic return force of a spring 42a when the stud 31 is in a second stable position illustrated in figures 6a and 6b .

Actuation of the first rocker 41 makes it possible to decrement the display of local times by one hour and actuation of the second rocker 42 makes it possible to increment the display of local times by one hour. However, this has no impact on the display of the time of the place of residence. Indeed, the aforementioned elastic connection 5, 6 makes it possible to secure in rotation the 24-hour “local time” wheel 2 and the 24-hour “home time” wheel 3 during current operation (excluding change of local time) of the mechanism 1 and also allows the 24-hour “local time” wheel 2 to pivot without driving the 24-hour “home time” wheel 3 (disengagement) when correcting the local time display via push-button 21.

The selection rocker 50 is pivotally mounted around an axis of rotation A4 by means of a pivoting system, here a ball bearing 51. Its amplitude of pivoting around the axis A4 is limited by stops 52a and 52b . Thus, the rocker 50 is capable of pivoting between a first extreme position represented in the figure 5a and a second extreme position represented in figure 6a . It carries a pin 53 against which a jumper 54 fixed on the board 100 rests so that each of said two extreme positions is stable.

When the inclined plane identified by the mark 54a of the jumper 54 is in support against the pin 53 ( figures 5a and 5b ), the selection flip-flop 50 is in its first stable position and when the inclined plane identified by the mark 54b of the jumper 54 is resting against the pin 53 ( figures 6a and 6b ), the selection rocker 50 is in its second stable position.

It is possible to act on the stiffness of the spring of the jumper 54 and on its shape to adjust the force that the user must provide to change the selected function.

Advantageously, the selection flip-flop 50 is balanced by means of a heavy pellet 55, typically metallic, illustrated in particular in figures 5a, 5b , 6a and 6b , and carries a display member 56, here a portion of an annular disk. A zone 56a of the upper surface of this display member 56 presents an optical contrast with the rest of said upper surface. This zone 56a is for example colored, textured, fluorescent or other... It allows the user to see through the dial 14 of the watch 10 which function, "increment" or "decrement", is selected. Alternatively, this information can be displayed otherwise, for example by means of a needle.

When the stud 31 is in its first stable position, zone 56a is visible through a first window 141 of the watch dial 10 and indicates to the user that the “decrement” function is selected. When the stud 31 is in its second stable position, the zone 56a is intended to appear through a second window 142 of the watch 10 (this is the case at the figure 4 ) and tells the user that the “increment” function is selected.

The selection rocker 50 carries a pin 57 around which the connecting rod 30 is pivotally mounted. Each time the selection rocker 50 alternates from one stable position to another, the connecting rod 30 is therefore moved. His movements are guided by a sliding system composed of an excrescence of the stud 31 extending into a recess 101 in the shape of an inverted F formed in the board 100.

When the selection rocker 50 is in its first stable position, the stud 31 is in its first stable position, at the level of the junction of the lower arm of the recess in F, as illustrated in figure 5a . When the selection rocker 50 is in its second stable position, the stud 31 is in its second stable position, at the level of the junction of the upper arm of the recess in F, as illustrated in Fig. figure 6a . The two arms of the recess 101 in F make it possible to guide the stud 31 towards the rocker 41 or 42 selected during actuation of the control member 20.

The operating principle is as follows:
The wearer of the watch 10 can, by a simple voluntary movement, typically of his wrist (case of the wristwatch), cause accelerations of the heavy pellet 55 to move the selection rocker 50 from a stable position to the 'other. He can thus select the function (“decrement” or “increment”) that he wishes to use by a simple voluntary movement, typically of his wrist. He can then check the selected function on dial 14 of watch 10. Then, by pressing pusher 21, it activates the selected function by moving pin 31 and therefore the corresponding rocker 41 or 42. It thus corrects the display of the local time (hand 91) without impacting the display of the time of the place of residence (hand 131).

THE figures 7a and 7b illustrate a watch mechanism 1' for a watch comprising a function selection system according to a second embodiment of the invention.

Like the function selection system of mechanism 1, the function selection system of mechanism 1' allows the selection of a function chosen from two by a simple movement, typically of the wrist, of the wearer of the watch.

The mechanism 1' differs from the mechanism 1 only in that, instead of cooperating with a pin 53, the jumper 54 cooperates with a positioning star 53'. The positioning star 53' is intended to pivot around the axis of rotation A4 of the rocker 50. It is integral in rotation with the rocker 50.

In this embodiment, the positioning star 53' can only take two positions, the first illustrated in the figure 7a corresponding to the first stable position of the selection flip-flop 50 and the stud 31 and another (not illustrated) corresponding to the second stable position of the selection flip-flop 50 and the stud 31. In this second stable position, the star of positioning 53 'would have rotated one step clockwise relative to the position illustrated in figure 7a .

The other considerations relating to the mechanism 1, in particular its behavior during the movements communicated to the watch by the user and the pressures which it exerts on the pusher 21, remain valid for the second embodiment.

With the exception of those bearing the references 1' and 53', objects bearing the same references as figures 1 to 6b are identical or similar to those of the first embodiment.

THE figures 8 to 11 illustrate a 1" watch mechanism for a watch comprising a function selection system according to a variant of the second embodiment of the invention. The function selection system of the 1" mechanism allows the selection of a function to choose from among four per a simple movement, typically of the wrist, of the wearer of the watch.

This mechanism 1" differs from the mechanism 1' in that the selection rocker 50" has four stable positions corresponding to the four pivoting positions of the positioning star 53" (identical to the positioning star 53' of the second mode) illustrated in figures 8, 9 , 10 and 11 . Each of these stable positions defines a distinct stable position for the pad 31 and corresponds to the selection of a specific function among four.

The 30" connecting rod and the 31" stud are identical to those illustrated in figures 1 to 7b but their movements are slightly different. Indeed, the recess 101" made in the board 100 and in which an excrescence of the stud 31" moves (to form a guide slide) has a shape adapted to the third embodiment. The inverted “F” defined previously has four arms here instead of two, for four functions instead of two. Each of said arms is arranged to guide the stud 31" to the actuation member or trigger (rocker or other) of the selected function during actuation of the control member 20".

Like the control members described previously, the control member 20" of the mechanism 1" makes it possible to act on the stud 31" so that it activates the selected function. Here it can trigger and/or correct four different functions.

The other considerations relating to mechanism 1' remain valid for this variant. With the exception of those bearing the references 1", 20", 30", 31", 50", 53" and 101", objects bearing the same references as figures 7a and 7b are identical or similar to those described with reference to these figures.

Whatever the embodiment of the invention, by making it possible to select the function on which a single control member acts, the function selection system according to the invention makes it possible to limit the number of control members necessary to operate different functions. We can in fact have a single control member accessible from outside a watch case, to control a large number of functions, the selection of the function to be activated does not require an additional control member but a simple selection system controllable by movements of the user, typically their wrist.

The preceding description attempts to describe particular embodiments by way of non-limiting illustration, and the invention is not limited to the implementation of certain particular characteristics which have just been described, such as for example the structure of the function selection system or the forms represented for the different constituents.

Other means can be implemented to allow a movable member such as the stud 31, 31" of the examples described with reference to the figures 1 to 11 to take several stable positions voluntarily under the influence of a movement communicated to the watch by its wearer.

In the watch mechanisms 1' and 1", the star 53', 53" can be replaced by a set of pins (four in the example) playing the role of the four useful teeth of the star 53', 53".

In the different watch mechanisms illustrated, the jumper 54 can be replaced by an elastic blade comprising two faces.

Furthermore, if in the examples illustrated, the maintenance of the stud 31, 31" in each of its stable positions is ensured by an elastic restoring force, typically a jumper (or an elastic blade), this can alternatively be ensured by a magnetic force, typically by magnets fixed for example on the one hand on the rocker 50, 50" and on the other hand on the board 100.

In the examples illustrated in the figures, the control member is a pivoting member, part of which (push button) is accessible from outside the watch case. Alternatively, it may be a simple pusher, or any member capable of acting on the movable member (stud) so that it in turn activates the trigger with which it must act.

Claims (13)

Function selection system for a watch comprising a frame (100) carrying a movable member (31) between n stable positions, n being an integer greater than or equal to 2, said movable member (31) being intended to be moved by one stable position to another relative to the frame by a movement communicated to the watch (10) by its wearer, maintained in each of said stable positions by an elastic or magnetic restoring force and arranged so that it is capable of selecting a function according to the stable position it occupies. Function selection system according to claim 1, characterized in that each movement communicated to the watch (10) by its wearer and capable of generating a change in stable position of the movable member (31) is applied in a direction having a main component in a predetermined direction and in that the movement of the movable member (31) towards one stable position or another depends on the direction of said movement in said predetermined direction. Function selection system according to claim 1 or 2, characterized in that said movable member (31) is capable of moving between two extreme positions constituting two of said n positions stable under the effect of one or more successive movements communicated to the watch (10) by its wearer. Function selection system according to any one of claims 1 to 3, characterized in that it comprises a rocker (50) intended to pivot relative to the frame between two extreme positions constituting stable positions, each of said stable positions of the rocker (50) being associated with a stable position of the movable member (31). Function selection system according to claim 4, characterized in that the rocker (50) is unbalanced in order to amplify said movements. Function selection system according to claim 5, characterized in that the rocker (50; 50") carries, preferably on its end farthest from its center of rotation, an element (55) whose density is greater than hers. Function selection system according to one of claims 4 to 6, characterized in that said rocker (50; 50") comprises an element, typically a pin (53) or a tooth of a star (53';53") , intended to be held in abutment against a first inclined plane (54a) of a jumper (54), respectively against a first face of an elastic blade, or against a second inclined plane (54b) of said jumper (54), respectively against a second face of said elastic blade, said jumper or said elastic blade being fixed on the frame (100) to define two distinct stable positions of the rocker (50; 50"). Function selection system according to any one of claims 4 to 7, characterized in that said rocker (50") is integral in rotation with a star (53', 53") positioned by an elastic member such as a jumper (54) or an elastic blade, preferably a jumper (54), fixed on the frame (100). Function selection system according to any one of claims 4 to 8, characterized in that it comprises a connecting rod (30; 30") pivotally mounted around an axis of rotation fixed relative to the rocker (50; 50 "), said connecting rod (30; 30") carrying the movable member (31; 31") and being guided along a trajectory so as to bring the movable member (31; 31") into each of said n positions stable. Watch mechanism (1; 1'; 1") comprising a function selection system according to one of the preceding claims. Watch mechanism (1; 1';1") according to claim 10, characterized in that it comprises a control member (20; 20") whose actuation by the wearer of the watch (10) allows the mobile member (31; 31") to cooperate, depending on the stable position it occupies, with a separate trigger (41, 42), to control the selected function. Watch mechanism (1; 1';1") according to claim 10 or 11, characterized in that it is a time zone mechanism comprising at least one function for incrementing the hour display by one zone time and a function for decrementing the display of the hours of said time zone and in that the function selection system makes it possible to select one or the other of said functions. Watch comprising a watch mechanism (1; 1'; 1") according to one of claims 10 to 12.

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