EP4012505A1 - Timepiece device with anti-blocking mobile - Google Patents

Abstract

The watchmaking device (10) according to the invention comprises a mobile (26) and a partner member (42). The mobile (26) comprises first and second coaxial elements (12, 20). The first element (12) carries, for its drive, a toothing and is arranged to drive the second element (20) in rotation. The watchmaking device (10) is arranged to assume a first state in which the mobile (26) and the partner organ (42), remote from each other, cannot interact with each other and a second state in which the second element (20) and the partner member (42) are in contact with each other. The first and second elements (12, 20) are connected by an elastic member (40) allowing them to be positioned angularly relative to each other, this elastic member (40) allowing relative movement of the first and second elements ( 12, 20), in order to avoid blocking of the mobile (26), when the second element (20) and the partner member (42) come into contact.

Description

The present invention relates to a horological device comprising a mobile and a partner member, the mobile comprising first and second coaxial elements, the first element carrying, for its drive, a toothing and being arranged to drive the second element in rotation, the horological device being arranged to assume a first state in which the mobile and the partner member, remote from each other, cannot interact with each other and a second state in which the second element and the member partner are in contact with each other.

According to a known example of such a horological device, the first and second coaxial elements are respectively a month star and a month cam of an annual or perpetual calendar mechanism. The month star is indexed by a jumper, is driven by a month rocker and is integral in rotation with the month cam which indicates the duration of the current month. The month star carries a month indicator hand pivoting above a dial. On the month cam comes to rest after each date change a sensor of a large rocker to read the duration of the month. In this type of device, an attempt is made to ensure that, when the date change also corresponds to a change of month, the month jumper has completed the one-step movement of the month star begun by the tilting of the months before the months cam receives the feeler. In fact, the month jumper may otherwise not be able to overcome the friction exerted by the feeler on the month cam, preventing the month star and therefore the month hand from positioning itself correctly. However, given the instantaneous nature of the various actions, it is not always possible to guarantee their correct sequencing, so that the sensor sometimes causes the month star - month cam to block. This problem can be solved by increasing the strength of the month jumper, but this also involves strengthening the spring of the month rocker and other springs of the date mechanism and, consequently, to increase the energy consumption of the latter.

According to another known example of the horological device defined in the preamble, the first and second coaxial elements are wheels integral in rotation carried by a clutch rocker in an adjustment mechanism, in particular a time-setting mechanism. The first wheel is driven by the rotations of a winding stem operable by the user and in turn drives the second wheel. Depending on the axial position of the winding stem, the clutch lever can occupy an engaged angular position in which the second wheel meshes with an indicator hand drive wheel, typically a timer wheel, and an angular position disengaged wherein the second wheel is remote from the indicator hand drive wheel. During engagement, performed by pulling the winding stem between two determined axial positions, and according to the respective orientations of the second wheel and the indicator hand drive wheel, it may happen that the tip of a tooth of the second wheel comes to rest on the tip of a tooth of the indicator hand driving wheel. This creates a blockage or hard point by bracing requiring manipulations on the winding stem by the user to unlock the device. This problem can be solved by a judicious choice of the point of rotation of the clutch rocker and by using wheels of minimal modulus. However, the complexity of the current mechanisms does not always make it possible to choose the best position of the point of rotation of the clutch rocker. In addition, small module cogs are more susceptible to wear.

The present invention aims to remedy the aforementioned drawbacks or at least to attenuate them.

More generally, the purpose of the present invention is to avoid blocking of the mobile comprising the first and second coaxial elements when the second element and the partner member come into contact.

To this end, there is proposed a timepiece device according to claim 1 and a timepiece, for example a watch or a clock, comprising it.

• la figure 1 est une vue de dessus d'un dispositif horloger selon un premier mode de réalisation de l'invention ;
• la figure 2 est une vue en perspective d'un mobile du dispositif horloger selon le premier mode de réalisation de l'invention ;
• la figure 3 est une vue de dessus d'un dispositif horloger selon un deuxième mode de réalisation de l'invention, avec une bascule d'embrayage dans une position débrayée ;
• la figure 4 est une vue en coupe du dispositif horloger illustré à la figure 3 ;
• la figure 5 est une vue de dessus du dispositif horloger selon le deuxième mode de réalisation, montrant ce dispositif au moment où un mobile porté par la bascule d'embrayage entre en contact avec un organe partenaire ;
• la figure 6 est une vue de dessus du dispositif horloger selon le deuxième mode de réalisation, montrant la bascule d'embrayage dans sa position embrayée ;
• la figure 7 est une vue de dessus du mobile porté par la bascule d'embrayage, selon une variante de réalisation.

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

• the figure 1 is a top view of a timepiece device according to a first embodiment of the invention;
• the figure 2 is a perspective view of a mobile of the timepiece device according to the first embodiment of the invention;
• the picture 3 is a top view of a timepiece device according to a second embodiment of the invention, with a clutch rocker in a disengaged position;
• the figure 4 is a sectional view of the horological device illustrated in picture 3 ;
• the figure 5 is a top view of the timepiece device according to the second embodiment, showing this device when a wheel set carried by the clutch rocker comes into contact with a partner member;
• the figure 6 is a top view of the timepiece device according to the second embodiment, showing the clutch rocker in its engaged position;
• the figure 7 is a top view of the mobile carried by the clutch lever, according to an alternative embodiment.

With reference to the figure 1 , a timepiece device 10 according to a first embodiment of the invention, for a timepiece such as a wristwatch, a pocket watch, a pendant watch or a clock, is part of a calendar mechanism instant jump perpetual. The watchmaking device 10 includes a month star 12, a month rocker (not shown) advances by one step at each change of month and whose angular position is indexed by a month jumper 14 on which acts a jumper return spring 16. The axis 18 of the month star 12 carries a needle or other indicator member (not shown) serving to indicate to the user the current month. The watchmaking device 10 further comprises a month cam 20 having on its periphery solid parts 22 corresponding to the months of thirty-one days, notches 24a corresponding to the months of thirty days and an opening 24b in which is located, coaxially with the month cam 20, a four-year cam (not shown) for managing the months of February of twenty-nine or twenty-eight days. The 20 month cam is coaxial and connected to the 12 month star to form with it a 26 month mobile.

In the example shown, the month star 12 is in one piece with its shaft 18 and a large diameter portion 28 of the latter freely passes through a central bore of the month cam 20. Two screws 30, 32 diametrically screws screwed into the star of the months 12 hold axially and freely, by their heads, the cam of the months 20. The first screw 30 has its head housed in a first oblong countersink 34 of the cam of the months 20 and its bearing passes through a hole also oblong from the 20 months cam. The head of the second screw 32 (shown in transparency on the figure 2 ) is housed in a second oblong counterbore 36 of the month cam 20. The bearing surface 38 of the second screw 32 is received in a recess 39 of the month cam 20. The oblong shape of the counterbores 34, 36 allows limited rotation of the month cam 20 with respect to the month star 12. The maximum angle of rotation of the month cam 20 with respect to the month star, distributed on either side of the screws 30, 32, corresponds typically within a step of the 12 month star, but it can be lower or higher than this value. An elastic member 40 composed of two leaf springs 40a and 40b, symmetrical with respect to a diametral plane, is machined in the month cam 20. Each leaf spring 40a, 40b is joined by one end to the month cam 20 and is presses by its other end on the periphery of the bearing surface 38 of the screw 32. These two leaf springs 40a, 40b are thus prestressed in opposition to maintain the month cam 20 in a fixed angular position with respect to the month star 12 and centered between the two extreme positions defined by the oblong counterbores 34, 36, in the absence of external force applied around the cam from 20 months.

The watchmaking device 10 also includes a flip-flop 42, called the large flip-flop, shown partially in figure 1 . This large flip-flop 42 has the function of at least advancing each day at midnight, by one step, a date wheel (not shown) allowing the date display and to advance the date wheel by one, two or three additional steps, depending on the length of the month, on the last day of each month less than thirty-one days. This large rocker 42 pivots at a point 44 and has a feeler 46 intended to rest on the periphery of the month cam 20 under the action of a return spring (not shown) of the large rocker 42, to read the duration of the current month, just after each jump of the date mobile.

The horological device 10 is described here in the context of a perpetual calendar mechanism, but it is clear that it could alternatively form part of an annual calendar mechanism which does not take into account the actual duration of a month of february.

As explained in the introduction, when moving from the last day of a month to the first day of the following month, it is not always possible to guarantee that the feeler 46 will fall on the months cam 20 after the months jumper 14 will have completed the repositioning of the 12 month star triggered by the month flip. This therefore means that the month cam 20 can be slowed down by the feeler 46 before the repositioning of the month mobile 26 by the month jumper 14. In the present invention, such a situation has no effect on the display of the month. In fact, thanks to the elastic connection between the 20 month cam and the 12 month star, these can disengage and allow the 12 month star to continue to advance under the action of the 14 month jumper despite the stop month cam 20, the force of the elastic member 40 being lower than that of the month jumper 14 - jumper return spring 16 assembly. The month cam 20 returns to its position of equilibrium relative to the month star 12 under the action of the elastic member 40 as soon as the large lever 42 leaves contact with the month cam 20 or the four-year cam, before the next date change. The angular offset between the months cam 20 and the months star 12 during the information acquisition on the months cam 20 by the large rocker 42 has no consequence since the first day of a month, like all on days other than the last day of a month, the information on the duration of the month is not used to move the date wheel set. It will also be noted that the bidirectional nature of the relative mobility of the month cam 20 and of the month star 12 gives full freedom to the month star 12 to perform a back and forth movement before its stabilization under the action of the 14 month jumper.

This first embodiment of the invention can find applications other than the display of the month in a calendar mechanism, for example the display of the date, with its cam for triggering the months. In general, this first embodiment is applicable to any mobile comprising a star and a cam to be positioned while a partner member is capable of coming to brake the cam before the mobile has been able to reach its final position.

Referring now to figures 3 and 4 , a horological device 50 according to a second embodiment of the invention is part of a mechanism for setting the time of a timepiece such as a wristwatch, a pocket watch, a pendant watch or a clock. The time-setting mechanism comprises, in a conventional manner, a winding stem or time-setting stem 52 terminated by a crown (not shown) which can be manipulated by the user, a sliding pinion 54 mounted on the crown 52 integrally in rotation but axially free with respect thereto, a pull tab 56 controlled by the winding stem 52, a pull rod spring 58 acting on the pull rod 56 to index the axial positions of the winding stem 52, a sliding pinion rocker 60 acting on the sliding pinion 54 and controlled by the pull rod 56, an intermediate rocker 62 controlled by the pull rod 56, a clutch rocker 64 controlled by the intermediate rocker 62 and a reference 66 coaxial with the clutch rocker 64 and free to rotate relative to the latter.

The clutch rocker 64 carries a mobile clutch 68 comprising a lower wheel 70 and an upper wheel 72 coaxial and located on either side of the clutch rocker 64. The lower wheel 70 meshes permanently with the reference 66 and is in one piece with the shaft, 74, of the clutch wheel set 68. The upper wheel 72 is loosely mounted around the shaft 74 and held axially by a finger 76 driven onto the end of the shaft 74 and located in a housing 78 of the upper wheel 72.

Two stops 80, 82 projecting from the wall of the housing 78 limit the mobility in rotation of the finger 76 with respect to the upper wheel 72, therefore the relative mobility in rotation of the lower and upper wheels 70, 72. An elastic member 84 composed of two leaf springs 84a, 84b symmetrical with respect to a diametral plane is integral with the finger 76. Each leaf spring 84a, 84b is joined by one end to the finger 76 and is supported by its other end against the rear face of one of the stops 80, 82. These two leaf springs 84a, 84b are thus prestressed in opposition to maintain the upper wheel 72 in a fixed angular position relative to the lower wheel 70 - position in which the protuberance 76a of the finger 76 is centered between the two stops 80, 82 - in the absence of external force applied to the periphery of the upper wheel 72.

The watchmaking device 50 further comprises a timer wheel set 86 whose wheel 88 meshes with a roadway 89 carrying a minute indicator hand (not shown) and whose pinion 90 meshes with an hour wheel (not shown) carrying an indicator hand hours. Depending on the axial position of the winding stem 52, the clutch rocker 64 can occupy one or two disengaged positions in which the clutch wheel set 68 is remote from the timer wheel 88 and therefore cannot interact with it, and an engaged position in which the toothing of the upper wheel 72 of the clutch wheel set 68 is engaged in the toothing of the timer wheel 88. The number of disengaged positions is one if the winding stem 52 is in two axial positions (a neutral position for winding and a pulled out position for setting the time) and two if the winding stem 52 has three axial positions (a neutral position for winding, an intermediate position for setting a complication such as an alarm or date mechanism, for example, and a pulled-out position for setting on time). In the second case, which is that illustrated in the drawing, the clutch rocker 64 carries a second clutch wheel set (not shown) which cooperates with a gear train independent of the timer wheel set 86 in the intermediate axial position of the clutch rod. crown 52.

The pivoting of the clutch rocker 64 towards its engaged position, achieved by pulling the winding stem 52 to its pulled position, takes place in the clockwise direction of the picture 3 and rotates the lower wheel 70 clockwise also because the lower wheel 70 is in mesh with the idler 66 itself then in mesh with the sliding pinion 54. If a tooth of the upper wheel 72 comes through its tip in contact with the tip of a tooth of the timer wheel 88, as illustrated in the figure 5 , a bracing effect is avoided thanks to the elastic connection between the lower and upper wheels 70, 72, which allows the upper wheel 72 to move back, that is to say to turn counterclockwise (cf. . figure 6 ). The elastic member 84 is indeed less strong than the lanterning of the roadway 89 and yields easily as soon as a buttress occurs. This prevents a blocking of the mobile clutch 68 which would require manipulations on the winding stem 52 to release it.

In its engaged state ( figure 6 ), the clutch wheel set 68 allows the user to adjust the angular position of the timer wheel set 86, therefore indicator hands, by turning the winding stem 52 in one direction or the other. In one of the two directions of rotation, the finger 76 quickly presses against one of the stops 80, 82 to rotate the upper wheel 72. In the other direction of rotation of the winding stem 52, the finger 76 quickly presses against the other of the stops 80, 82 to drive the upper wheel 72 in rotation.

When, after setting the time, the user pushes back the winding stem 52, the clutch rocker 64 and the clutch wheel set 68 move away from the timer wheel set 86. During this movement, the elastic member 84 facilitates the disengagement of the upper wheel 72 from the toothing of the timer wheel 88 by allowing the upper wheel 72 to temporarily rotate clockwise while the lower wheel 70 and clutch rocker 64 rotate counterclockwise. However, given that the risk of jamming is lower when disengaging than when engaging, it is possible to favor the clutch and to produce the elastic member 84 in the form of a single leaf spring as illustrated in the figure 7 , with the finger 76 pressed against one of the stops 80, 82 in the disengaged state, in order to reduce the size of the mobile clutch 68.

This second embodiment of the invention can find applications other than time setting, for example setting a complication such as a calendar.

Claims (9)

Watchmaking device (10; 50) comprising a mobile (26; 68) and a partner member (42; 88), the mobile (26; 68) comprising first and second coaxial elements (12, 20; 70, 72), the first element (12; 70) carrying, for its drive, a set of teeth and being arranged to drive the second element (20; 72) in rotation, the timepiece device (10; 50) being arranged to assume a first state in which the mobile (26; 68) and the partner organ (42; 88), distant from each other, cannot interact with each other and a second state in which the second element (20; 72) and the partner member (42; 88) are in contact with each other, characterized in that the first and second elements (12, 20; 70, 72) are connected by an elastic member (40; 84) allowing them to be positioned angularly with respect to each other, this elastic member (40; 84) allowing relative movement of the first and second elements (12, 20; 70, 72), in order to avoid b mobile lock (26; 68), when the second element (20; 72) and the partner member (42; 88) come into contact. Timepiece device (10; 50) according to Claim 1, characterized in that the elastic member (40; 84) allows relative displacement of the first and second elements (12, 20; 70, 72), against an elastic force exerted by the elastic member (40; 84), in both directions of rotation. Timepiece device (10; 50) according to Claim 1 or 2, characterized in that the elastic member (40; 84) comprises first and second leaf springs (40a, 40b; 84a, 84b) working in opposition. Timepiece device (10) according to any one of Claims 1 to 3, characterized in that the first element (12) is a star subjected to the action of a jumper (14), the second element (20) is a cam and the partner member (42) is arranged to feel the cam (20). Timepiece device (10) according to Claim 4, characterized in that the wheel set (26) is a wheel set for the months of a calendar mechanism. Timepiece device (50) according to any one of Claims 1 to 3, characterized in that the mobile (68) is carried by a clutch rocker (64) and in that the first state of the timepiece device (50) corresponds in a disengaged position of the clutch rocker (64) in which a toothing of the second element (72) is outside a toothing of the partner member (88) and the second state of the timepiece device (50) corresponds to a engaged position of the clutch rocker (64) in which the toothing of the second element (72) is engaged in the toothing of the partner member (88). Timepiece device (50) according to Claim 6, characterized in that the clutch rocker (64) is controlled by a winding stem (52) operable by a user. Horological device (50) according to Claim 7, characterized in that the clutch rocker (64) is in its engaged position when the winding stem (52) is in an axial time-setting position. Timepiece, for example watch or clock, comprising a timepiece device (10; 50) according to any one of Claims 1 to 8.

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