EP4375757A1 - Winding device of a timepiece barrel, provided with disengaging means - Google Patents

Abstract

The invention relates to a winding device (1), in particular a barrel (2) provided with a spring, comprising a ratchet (3) mounted on a rotary winding shaft (5), the rotary winding shaft ( 5) being for example a barrel winding shaft (2) whose rotation arms the barrel (2), and a winding gear (4) meshing with the ratchet (3), the rotation of the winding gear (4) driving the rotation of the ratchet (3) and that of the rotary winding shaft (5) by applying a torque to the ratchet (3), the winding device (1) being provided with means (10) for disengaging the ratchet (3) and the rotating winding shaft (5). The disengagement means (10) are arranged on the ratchet (3) and on the rotary winding shaft (5), and are configured to disengage the ratchet (3) and the rotary winding shaft (5), when the torque applied to the ratchet (3) significantly exceeds a threshold value, in particular when the barrel (2) is fully cocked.

The invention also relates to a watch movement comprising such a winding device (1).

Description

Technical field of the invention

The invention relates to a winding device, in particular a watch barrel, provided with disengagement means.

The invention also relates to a watch movement comprising such a winding device.

Technology background

Most current mechanical watches with automatic winding generally include an oscillating mass driving a gear train by gravity, the rotation of the drum of which makes it possible to arm a leaf spring, the barrel spring, wound in a drum around an axis, by driving said axis. Rotation is usually forced in one direction, and is prevented from going backwards by a ratchet.

However, when the spring is fully charged, it is necessary to avoid over-charging likely to cause the spring to break, or the oscillator to flutter, during which the amplitude of oscillation increases to the point that the balance abuts against the reverse of the horns of the anchor, and causes a drift due to the rebound of the balance against these stops.

To avoid these risks, such barrels generally have a system for limiting the winding of the barrel spring.

This limitation is generally carried out by sliding the last external leaf of the spring against the internal wall of the drum. When the spring is fully cocked and wound around the barrel winding shaft, the last wound turn presses against the external wall of the drum.

Thus, when the arming torque exceeds the friction torque against the wall of the last turn, the latter begins to slide. To prevent uncontrolled sliding, notches allow the end of the blade to stop sliding as soon as the winding torque has dropped sufficiently.

However, the disadvantage of such a system lies in the sliding-friction process of the last turn inside the drum. Indeed, when the mechanism to be driven requires a significant torque, the support forces and the friction of the leaf of the spring against the wall are accentuated, which leads to wear and a deterioration in the performance of the barrel, even in presence of grease, which is evacuated out of the friction track after a certain time.

Furthermore, within an automatic barrel, it is necessary to meet contradictory criteria to maximize performance, such as reduced friction between the turns, and significant friction between the spring and the drum to guarantee a good torque. arming.

It is also necessary to avoid damage to the drum, such as tearing of the coating, the formation of sludge, wear of the walls under the pressure of the fully armed spring blade.

Summary of the invention

The aim of the present invention is to overcome all or part of the drawbacks cited above by proposing a winding device provided with a system for limiting the winding of a spring, which replaces a system based on the sliding of a spring. a blade against notches in an internal wall of the drum.

For this purpose, the invention relates to a winding device, in particular a watch barrel provided with a spring, comprising a ratchet mounted on a rotary winding shaft, the rotary winding shaft being for example a barrel winding shaft whose rotation arms the barrel, and a winding gear meshing with the ratchet, the rotation of the winding gear causing the rotation of the ratchet and that of the rotating winding shaft by application of a torque on the ratchet, the winding device being provided with disengagement means of the ratchet and the rotating winding shaft.

The invention is remarkable in that the disengagement means are arranged on the ratchet and the rotary winding shaft, and are configured to disengage the ratchet and the winding shaft when the torque applied to the ratchet substantially exceeds a threshold value , especially when the barrel is fully cocked.

Thus, when the winding torque is too high, the ratchet hub disengages from the rotating winding shaft of the barrel and no longer transmits the rotational torque of the ratchet to the winding shaft of the barrel. Thus, the ratchet continues to turn, driven by the winding gear, but the winding shaft no longer turns.

Thanks to the invention, the risks of premature wear of the barrel are avoided, because the limiting device is arranged upstream and outside the barrel. In addition, we avoid using conventional winding limitation devices, based on friction of the spring inside the barrel.

According to a particular embodiment of the invention, the disengagement means comprise a plurality of flexible pawls and a first set of teeth, the flexible pawls cooperating with the first set of teeth to transmit the torque of the ratchet to the rotating winding shaft to do so turn.

According to a particular embodiment of the invention, the flexible pawls mesh with the first toothing when the torque is lower than the threshold value.

According to a particular embodiment of the invention, the flexible pawls bend when the torque is significantly greater than the threshold value, so that the flexible pawls no longer mesh with the first tooth, the rotation of the ratchet no longer driving the rotating winding shaft.

According to a particular embodiment of the invention, the first toothing is arranged on the rotary winding shaft and the flexible pawls are arranged on the ratchet.

According to a particular embodiment of the invention, the ratchet comprises a hub on which the flexible pawls are arranged, the flexible pawls extending towards the rotating winding shaft.

According to a particular embodiment of the invention, the rotary winding shaft is arranged through the hub of the ratchet, the first toothing being arranged around the rotary winding shaft at the level of the hub.

According to a particular embodiment of the invention, the flexible pawls are distributed angularly around the rotating winding shaft.

According to a particular embodiment of the invention, each pawl comprises a flexible blade and a tooth arranged at the free end of the flexible blade, the teeth of the flexible pawls cooperating with the first toothing.

According to a particular embodiment of the invention, the ratchet comprises a peripheral rim provided with a second peripheral toothing cooperating with a third toothing of the winding train.

According to a particular embodiment of the invention, the ratchet is mounted on the barrel.

According to a particular embodiment of the invention, the rotary winding shaft is the winding shaft of the barrel making it possible to wind the barrel spring.

The invention also relates to a watch movement comprising a barrel, the watch movement comprising such a device for winding the barrel.

Brief description of the figures

• la figure 1 représente schématiquement une vue de dessus d'un dispositif de remontage selon un mode de réalisation de l'invention, en position embrayée, et
• la figure 2 représente schématiquement une vue de dessus du dispositif de remontage selon le mode de réalisation de l'invention de la figure 1, en position débrayée, notamment lorsque le ressort du barillet est complètement armé.

The aims, advantages and characteristics of the present invention will appear on reading several embodiments given solely by way of non-limiting examples, with reference to the appended drawings in which:

• there figure 1 schematically represents a top view of a winding device according to one embodiment of the invention, in the engaged position, and
• there figure 2 schematically represents a top view of the winding device according to the embodiment of the invention of the figure 1 , in the disengaged position, particularly when the barrel spring is fully armed.

Detailed description of the invention

THE figures 1 and 2 represent an embodiment of a winding device 1, here a watch barrel 2, according to the invention.

The winding device 1 of the barrel 2 comprises a ratchet 3 and a winding gear 4. The winding gear 4 meshes with the ratchet 3, so that when the winding gear 4 is rotated in a first direction, the ratchet 3 is rotated in a second direction opposite to the first direction.

The ratchet 3 is mounted on a winding shaft 5, the winding shaft 5 allowing the winding of the barrel 2. In the example, the winding shaft 5 is the winding shaft of the barrel 2, the ratchet being mounted on barrel 2.

In a variant, not shown, the winding shaft is not mounted on the barrel, the winding shaft comprising a pinion meshing with a mobile driving the winding shaft of the barrel to arm the spring, if the ratchet does not is not mounted on the barrel.

The winding shaft 5 is preferably cylindrical. A first toothing 6 is arranged around the winding shaft 5.

The ratchet 3 comprises a hub 7 and a peripheral rim 8, the hub 7 being arranged inside the peripheral rim 8. The hub 7 and the peripheral rim 8 have the shape of circular rings, the hub 7 having a radius smaller than that of the peripheral rim 8. The hub 7 and the peripheral rim 8 are connected by at least one arm, here four arms 9 distributed angularly around the hub 7. The hub 7 and the peripheral rim 8 preferably extend in the same plane.

The hub 7 delimits an interior space in which the winding shaft 5 passes at least in part.

The peripheral rim 8 comprises a second external toothing 11 distributed along the peripheral rim 8 around the ratchet 3. The second toothing 11 cooperates with a third toothing 12 arranged on the winding gear 4. The winding gear 4 comprises a pinion provided of the third toothing 12 arranged at its periphery.

The barrel 2 comprises a so-called “barrel” spring, wound in the form of a spiral (not shown in the figures), arranged inside the barrel 2, which must be armed, either by an automatic winding system, or by a manual winding system

To this end, the winding device 1 further comprises a system of cogs 13, for example driven by an automatic winding mass (not shown in the figures) of the watch movement. The cog system 13 can also be driven by a winding stem (not shown in the figures) operable by means of a crown, in the case of manual winding.

A mobile 21 of the cog system 13 meshes with the third toothing 12 of the winding cog 4. Thus, by actuating the cog system 13, a torque is applied to the ratchet 4, which transmits it at least in part to the shaft winding gear 5 via the winding gear 4 driven by the mobile 21, and via the ratchet 3 driven by the winding gear 4.

According to the invention, the winding device 1 comprises means 10 for disengaging the ratchet and the winding shaft. The disengagement means 10 comprise the first toothing 6 arranged around the winding shaft 5, preferably on the same level corresponding to that of the ratchet 3.

The disengagement means 10 also comprise a plurality of flexible pawls 15 extending from the hub 7 towards the winding shaft 5. The flexible pawls 15 are distributed angularly inside the hub 7, in the plane of the ratchet 3. The flexible pawls 15 cooperate with the first toothing 6, so that the rotation of the ratchet 3 generates the rotation of the winding shaft 5, when winding the barrel 2.

Each pawl 15 comprises a flexible blade 16 extending from the hub 7 of the ratchet 3. At the free end of each flexible blade 16, a tooth 17 is arranged capable of cooperating with the first toothing 6 of the winding shaft 5 During reassembly, the teeth 17 of the flexible pawls 15 are inserted into the first toothing 6 to rotate it.

The disengagement means 10 comprise at least one flexible pawl 15, preferably at least four flexible pawls. The number of flexible pawls 15 depends on the flexibility of the flexible blades 16, and on the threshold value of the torque beyond which the disengagement means 10 are configured to disengage the ratchet 3 and the winding shaft 5.

In this embodiment, the disengagement means 10 comprise sixteen flexible pawls 15 distributed around the winding shaft.

The flexible blades 16 are configured to bend beyond a torque threshold usually necessary to cock the barrel. Thus, beyond a threshold value, when the torque is too high, the flexible blades 16 bend, so that the teeth 17 of the flexible pawls 15 jump into the first toothing without being able to drive it. Consequently, the winding shaft 5 no longer turns despite the rotation of the ratchet 3.

On the figure 1 , in winding configuration, the winding torque exerted on the winding shaft by the ratchet 3 is less than the threshold value, so that the flexible blades 16 of the flexible pawls 15 remain substantially straight. Thus, the flexible pawls 15 drive the winding shaft 5 via the first toothing 6.

On the figure 2 , when the barrel 2 is fully cocked, the torque exerted on the winding shaft 5 by the ratchet 3 exceeds the threshold value, so that the flexible blades 16 of the flexible pawls 15 bend. In other words, the torque required to rotate the winding shaft 5 becomes too great for the flexible pawls, which bend. Consequently, the teeth 17 of the flexible pawls 15 no longer have sufficient grip on the first toothing 6, to drive the winding shaft 5.

These disengagement means make it possible to protect the barrel 2 from over-cocking, and avoid premature wear inside the barrel 2.

The barrel 2 further comprises a fourth peripheral toothing 18 configured to cooperate with a fifth toothing 19 of a mobile 20 of the watch movement. The mobile 20 is for example a center mobile or an average wheel, or even a ringing mobile. Once armed, the barrel 2 supplies the energy necessary for the operation of the clock movement via the mobile 20.

The invention also relates to a watch movement, not shown in the figures, the movement comprising a barrel and a device for winding the barrel as described above.

Naturally, the invention is not limited to the embodiments described with reference to the figures and variants could be considered without departing from the scope of the invention.

For example, in the embodiment of figures 1 and 2 , the flexible pawls 15 are arranged on the ratchet 3 and the first toothing 6 is arranged on the winding shaft 5.

But in another embodiment, not shown, it is possible to arrange the flexible pawls on the winding shaft and to arrange a first set of teeth inside the ratchet hub. The flexible blades of the flexible ratchets extend from the winding shaft towards the ratchet hub so as to cooperate with the first toothing.

Thus, as long as the torque exerted on the flexible pawls is less than a threshold value, the ratchet drives the winding shaft, and when the torque exerted on the flexible pawls exceeds the threshold value, the flexible blades bend and no longer engage. with the first toothing, the ratchet rotating without driving the winding shaft.

Claims (13)

Winding device (1), in particular a barrel (2) provided with a spring, comprising a ratchet (3) mounted on a rotary winding shaft (5), the rotary winding shaft (5) being for example a barrel winding shaft (2) whose rotation arms the barrel (2), and a winding gear (4) meshing with the ratchet (3), the rotation of the winding gear (4) causing the rotation of the ratchet ( 3) and that of the rotary winding shaft (5) by applying a torque to the ratchet (3), the winding device (1) being provided with means for disengaging (10) from the ratchet (3) and the rotary winding shaft (5), characterized in that the disengagement means (10) are arranged on the ratchet (3) and on the rotary winding shaft (5), and are configured to disengage the ratchet (3 ) and the rotary winding shaft (5), when the torque applied to the ratchet (3) significantly exceeds a threshold value, in particular when the barrel (2) is fully cocked. Winding device according to claim 1, characterized in that the disengagement means (10) comprise a plurality of flexible pawls (15) and a first toothing (6), the flexible pawls (15) cooperating with the first toothing (6) to transmit torque from the ratchet (3) to the rotating winding shaft (5) to rotate it. Winding device according to claim 2, characterized in that the flexible pawls (15) mesh with the first toothing (6) when the torque is less than the threshold value. Winding device according to claim 2 or 3, characterized in that the flexible pawls (15) bend when the torque is significantly greater than the threshold value, so that the flexible pawls (15) no longer mesh with the first toothing (6), the rotation of the ratchet (3) no longer drives the rotating winding shaft (5). Winding device according to any one of claims 2 to 4, characterized in that the first toothing (6) is arranged on the rotating winding shaft (5) and the flexible pawls (15) are arranged on the ratchet (3). Winding device according to claim 5, characterized in that the ratchet (3) comprises a hub (7) on which the flexible pawls (15) are arranged, the flexible pawls (15) extending towards the rotary winding shaft (5). Winding device according to claim 5 or 6, characterized in that the rotary winding shaft (5) is arranged through the hub (7) of the ratchet (3), the first toothing (6) being arranged around the rotating winding shaft (5) at the hub. Winding device according to any one of claims 2 to 7, characterized in that the flexible pawls (15) are distributed angularly around the rotary winding shaft (5). Winding device according to any one of claims 2 to 8, characterized in that each pawl (15) comprises a flexible blade (16) and a tooth (17) arranged at the free end of the flexible blade (16). ), the teeth (17) of the flexible pawls (15) cooperating with the first toothing (6). Winding device according to any one of the preceding claims, characterized in that the ratchet (3) comprises a peripheral rim (8) provided with a second peripheral toothing (11) cooperating with a third toothing (12) of the gear train winding (4). Winding device according to any one of the preceding claims, characterized in that the ratchet (3) is mounted on the barrel (2). Winding device according to any one of the preceding claims, characterized in that the rotary winding shaft (5) is the winding shaft of the barrel (2) making it possible to wind the spring of the barrel (2). Timepiece movement comprising a barrel (2) and a winding device (1) for the barrel (2) according to any one of the preceding claims.

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