EP3333637A1 - Mechanical clock movement with power reserve detection - Google Patents

Abstract

The mechanical clockwork (1) with power reserve indication comprises a barrel system (2, 3) with a load output in connection with a chassis wheel (10a) of a differential (10), and with a discharge outlet in connection with a ring gear (10b) of the differential. The differential is in connection with a power reserve indicator (12) to display the power reserve. The watch movement comprises at least one locking member (13, 14) disposed on the ring gear and at least one blocking element (11) arranged on the chassis wheel during the rotation of the ring gear with respect to the chassis wheel. The locking member is intended to come into contact with the locking element when the power reserve is at zero in order to block the clockwork movement.

Description

TECHNICAL AREA

The present invention relates to a mechanical clockwork movement provided with power reserve detection means. The watch movement comprises at least one barrel system in connection with a differential load wheel and a differential discharge wheel.

BACKGROUND

A mechanical watchmaking movement generally comprises a barrel system driving at least one wheel at the load outlet and a wheel at the discharge outlet respectively connected to a load wheel and a discharge wheel of a differential. A set of wheels in connection with an intermediate wheel of the differential controls a power-reserve display, but no movement element is provided for a movement-locking operation when the power-reserve is at zero.

The patent EP 0 568 499 B1 discloses a power reserve indicator device for a mechanical watch. The indicator device comprises at least one star wheel with an indicator member, which is rotated during loading or unloading of the barrel. The indicator organ makes it possible to display the power reserve of the watch. However nothing is planned to ensure a blocking of the movement, when the power reserve approaches zero.

The patent CH 698 752 B1 describes a timepiece, which includes a mechanism for indicating the power reserve. It comprises two barrels facing each other and connected by a common tree, which controls the display mechanism of the power reserve. However nothing is planned to ensure a blocking of the movement, when the power reserve approaches zero.

We can still mention the patent EP 1 970 778 B1 , which describes a timepiece with a movement and a power reserve indicator device. This timepiece comprises a cylinder system mounted between a watch plate and a bridge. The power reserve indicator device comprises a differential connected by a first input to the barrel shaft and by a second input to the barrel. The differential is arranged coaxially with the barrel shaft. The output of the barrel is connected to a power reserve indicator member. Nothing is planned to ensure a blockage of the movement, when the power reserve approaches zero.

SUMMARY OF THE INVENTION

The main purpose of the invention is therefore to overcome the drawbacks of the state of the art by proposing a mechanical clockwork movement provided with power reserve detection means and capable of blocking the operation of the movement when the power reserve is present. is close to zero.

For this purpose, the present invention relates to a mechanical clockwork movement provided with power reserve detection means, which comprises the characteristics of the independent claim 1.

Particular embodiments of the mechanical clockwork are defined in the dependent claims 2 to 12.

An advantage of the mechanical clockwork movement lies in the fact that it comprises a differential in connection with the barrel system via a drive wheel and a set of wheels with one or two reducing stages. . The differential comprises a crown on which are mounted coaxially a sun gear of a power reserve indicator, and a chassis wheel mounted on an axial shaft of the sun gear. A locking member is mounted on the frame wheel to engage a ring lock member in a zero power reserve detection position to be indicated.

Advantageously, the locking element is a satellite wheel driven in rotation by an inner surface of the edge of the ring. A locking member in the form of a notch or a truncated toothing portion is provided to lock the satellite wheel in a minimum power reserve position, which also blocks the clockwork movement. Another locking member may be further provided to lock the satellite wheel in a maximum power reserve position.

BRIEF DESCRIPTION OF THE FIGURES

• la figure 1 représente une vue tridimensionnelle de dessus d'une forme d'exécution d'un mouvement d'horlogerie mécanique muni de moyens de détection de réserve de marche selon l'invention,
• la figure 2 représente une vue tridimensionnelle de dessus d'un barillet et du rouage pour la fonction d'armage ou de charge du barillet selon l'invention,
• la figure 3 représente une vue de côté en coupe partielle du système à barillet et des moyens de détection de réserve de marche disposés selon une ligne pour mieux représenter l'ensemble de roues pour la fonction d'armage ou de charge du barillet selon l'invention,
• la figure 4 représente une vue tridimensionnelle de dessus d'un barillet et du rouage pour la fonction de désarmage ou de décharge du barillet selon l'invention,
• la figure 5 représente une vue de côté en coupe partielle du système à barillet et des moyens de détection de réserve de marche disposés selon une ligne pour mieux représenter l'ensemble de roues pour la fonction de désarmage ou de décharge du barillet selon l'invention,
• les figures 6a et 6b représentent une vue tridimensionnelle du différentiel planétaire avec ces éléments de blocage en position de réserve de marche maximum et en position de réserve marche minimum du mouvement d'horlogerie mécanique selon l'invention.

The aims, advantages and characteristics of a mechanical clockwork movement provided with power reserve detection means will appear better in the following description in a nonlimiting manner with regard to the drawings in which:

• the figure 1 represents a three-dimensional view from above of an embodiment of a mechanical clockwork movement provided with power reserve detection means according to the invention,
• the figure 2 represents a three-dimensional view from above of a barrel and the gear train for the arming or charging function of the barrel according to the invention,
• the figure 3 is a partial sectional side view of the barrel system and power reserve detecting means arranged along a line to better represent the set of wheels for the arming or load function of the barrel according to the invention,
• the figure 4 represents a three-dimensional view from above of a barrel and the gear train for the disarming or discharging function of the barrel according to the invention,
• the figure 5 is a partial sectional side view of the barrel system and power reserve detecting means disposed along a line to better represent the wheel assembly for the disarming or discharging function of the barrel according to the invention,
• the Figures 6a and 6b represent a three-dimensional view of the planetary differential with these blocking elements in the maximum power-reserve position and in the minimum on-reserve position of the mechanical clockwork according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

In the following description, all the components of a mechanical clockwork movement provided with power reserve detection means, which are well known to a person skilled in this technical field, are only described in a simplified manner.

The figure 1 represents a three-dimensional view from above of certain components of the mechanical clockwork movement 1. The mechanical clockwork movement 1 comprises at least one barrel system, which may be single barrel or two barrels 2, 3 as shown and well known , and having a charge output and a discharge output for driving in particular a time base wheel not shown.

The mechanical clockwork movement 1 comprises a differential 10 rotatably mounted about an axis of rotation and connected respectively to the charge outlet and the discharge outlet of the barrel system. The differential 10 is preferably connected via a reducing stage or speed reduction chain to the load outlet from the first cylinder 2 and the discharge outlet from the second cylinder 3. A mobile of drive 4 between the barrel system 2, 3 and the differential 10 may be provided. This drive wheel 4 may comprise a central rod 4a and a ring 4b arranged around the rod coaxially. The ring 4b is held on an intermediate portion of the central rod 4a between two flanges of the central rod 4a while allowing the rotation of the ring around the central rod. The diameter of the flanges or both ends of the rod 4a may be identical to the outer diameter of the ring 4b.

The charge output wheel of the first barrel 2 is in contact with a first flange or first end of the central rod 4a to drive it in rotation. The charge output wheel of the first barrel 2 may comprise a toothing for meshing with a toothing of the first flange or first end of the central rod 4a. The discharge outlet wheel of the second barrel 3 is a contact of the ring 4b to drive it in rotation. The discharge outlet wheel of the second cylinder 3 may comprise a toothing for meshing with a toothing of the ring 4b.

As will be explained in more detail on the Figures 2 to 5 following, the driving wheel 4 rotates a set of wheels 5, 6, 7, 8 of a reducing stage between the barrel system 2, 3 and the differential 10. Since the charge outlet of the first barrel 2, the rod 4a of the driving wheel drives, by its second flange, the set of wheels 5a, 6, 7a of a first gear stage, the third wheel 7a of which is in contact with a first load wheel 10a of the differential 10 , which is a chassis wheel in the form of a steering wheel. Since the discharge exit of the second barrel 3, the ring 4b of the driving wheel 4 drives the set of wheels 5b, 8 and 7b of a second gear stage, the third wheel 7b is in contact with a ring 10b of the differential 10. The crown 10b is preferably arranged coaxially with the chassis wheel 10a.

The differential 10 thus comprises a ring gear 10b, a chassis wheel 10a coaxial with the ring gear and a sun gear 12 with an axial rod 12 'as a power reserve indicator. The axial rod 12 'passes through a central opening of the chassis wheel 10a and can be connected to a not shown power reserve indication needle. The sun gear 12 is placed on a base of the ring gear 10b between the chassis wheel 10a and the ring gear 10b and is coaxial with the chassis wheel 10a and the ring gear 10b. Preferably, the outer diameter of the ring 10b is similar to the outer diameter of the chassis wheel 10a, while the diameter of the sun gear 12 is smaller to be placed inside the peripheral edge of the ring gear 10b.

The differential 10 further comprises at least one movement locking member 13, 14 connected to the ring gear 10b and preferably to the peripheral edge of the ring gear to cooperate with at least one blocking element 11 in connection with the chassis wheel 10a to block the timepiece movement in a zero power reserve position of the cylinder system, or even in a maximum load position of the cylinder system.

The chassis wheel 10a of the differential 10 comprises as blocking element at least one satellite wheel 11 rotatably mounted on an axial branch of the chassis wheel 10a. This satellite wheel 11 is in contact with a circular inner surface of the peripheral edge of the ring gear 10b and rotated during the rotation of the ring gear 10b with respect to the chassis wheel 10a. Preferably, the inner surface of the ring 10b comprises at least a portion of its periphery a toothing for meshing with a toothing of the satellite wheel 11. The sun gear 12 is driven by the satellite wheel 11 in contact with its peripheral edge. The sun gear 12 may also comprise a toothing to mesh with the satellite wheel 11. The peripheral edge of the ring gear 10b, the satellite wheel 11 and the sun gear 12 are arranged in the same plane on the base of the ring gear 10b.

When the satellite wheel 11 comes into contact with at least one first locking member, which may be a first notch 13 or a first portion of truncated toothing, there is a locking rotation of the ring 10b relative to the chassis wheel 10a. This also has the effect of blocking the watch movement to the power reserve at zero. During the winding of the barrel system, the satellite wheel 11 comes into contact with a second locking member, which may be a second detent 14 or a second portion of truncated toothing. A locking rotation of the ring 10b relative to the chassis wheel 10a occurs, which also has the effect of blocking the clockwork to the complete arming of the barrel system. The angle of rotation of the ring gear with respect to the frame wheel between the two locking positions can be defined between 90 ° and 180 ° for example, but other angles can be defined.

The Figures 2 and 3 are a three-dimensional view from above and a vertical partial sectional view of the first barrel 2 of the barrel system, the wheel assembly and the differential 10 for the arming or load function of the barrel system.

On these Figures 2 and 3 , we note well the central rod 4a of the drive wheel 4, which is rotated by the load output wheel of the first winding barrel 2 in contact with the first flange of the central rod 4a. The second rim of the central rod 4a drives a first wheel 5a of the first reduction stage. The second flange may comprise a toothing for meshing with an external toothing of the first wheel 5a. A central gear of the first wheel 5a drives a second reversing wheel 6. The central gear of the first wheel is of smaller diameter than the external toothing of the first wheel 5a to reduce the speed of rotation of the second wheel 6 relative to the speed of rotation of the first wheel 5a. The central pinion may comprise a toothing for meshing with an external toothing of the second wheel 6. The second wheel 6 drives the third wheel 7a by acting solely as an inverting wheel. The third wheel 7a may comprise an external toothing for meshing with an external toothing of the second wheel 6. A central gear of the third wheel 7a is in contact with the chassis wheel 10a of the differential 10. This central gear is of diameter less than external toothing of the third wheel 7a and may also comprise a toothing for meshing with an external toothing of the chassis wheel 10a.

The Figures 4 and 5 represent a three-dimensional view from above and a vertical partial sectional view of the second barrel 3 of the barrel system, the wheel assembly and the differential 10 for the disarming or discharging function of the barrel system.

On these Figures 4 and 5 the ring 4b of the driving wheel 4, which is rotated by the discharge outlet wheel of the second disarming barrel 3 in contact with the ring 4b, is well noted. The ring 4b drives a first wheel 5b of the second reduction stage. The ring 4b may comprise a toothing for meshing with an external toothing of the first wheel 5b. A central gear of the first wheel 5b drives a second wheel 8. The central gear of the first wheel is of smaller diameter than the external toothing of the first wheel 5b to reduce the speed of rotation of the second wheel 8 relative to the speed of rotation of the first wheel 5b. The central pinion may comprise a toothing for meshing with an external toothing of the second wheel 8. A central pinion of the second wheel 8 drives a third wheel 7b. The central pinion of the second wheel 8 is of smaller diameter than the teeth The third wheel 7b may comprise an external toothing for meshing with a toothing of the central pinion of the second wheel 8. A central pinion of the third wheel 7b is in contact with the outer edge of the ring 10b of the second wheel. differential 10. This central pinion is of smaller diameter than the outer toothing of the third wheel 7b and may also include a toothing for meshing with an external toothing of the outer edge of the ring 10b.

The Figures 6a and 6b represent a three-dimensional view of the planetary differential 10. The planetary differential 10 is presented in figure 6a in maximum power reserve position, while in figure 6b , it is presented in reserve position walk to zero. The moving parts are presented with an arrow indicating the direction of rotation of each part before blocking.

The differential 10 is presented with a ring gear 10b, which comprises a peripheral edge and a base or bottom, a sun gear 12 mounted on the base of the ring coaxially and a chassis wheel 10a mounted coaxially on the rod 12 'of the sun gear 12. The satellite wheel 11 is rotatably mounted about an axis fixed to one of the three axial arms of the chassis wheel 10a. This satellite wheel 11 is rotated by the inner surface of the edge of the ring 10b. The rotatably driven planet wheel 11 also rotates the sun gear 12 in contact with the planet wheel 11. Thus the sun gear 12 is a piece of a power reserve indicator, which may further include a needle attached to the end. of the shank 12 'of the sun gear 12. Sufficient space is provided between the ring gear 10b and the chassis wheel 10a while allowing the planet wheel 11 to be driven by the inner surface of the edge of the ring gear 10b.

The satellite wheel 11 is blocked by a first locking member 13 from the edge of the ring 10b to the figure 6b showing the power-reserve detecting position at zero. The satellite wheel 11 is blocked by a second locking member 14 of the edge of the ring 10b at the figure 6a showing the maximum power reserve detection position.

Of course each locking member 13, 14 may be of a different form than that presented on the Figures 6a and 6b , but allowing the blocking of the satellite wheel 11 in the two positions of maximum and minimum power reserve detection. The blocking of the satellite wheel 11 mounted on the chassis wheel blocks the watch movement as hoped.

From the description that has just been given, several embodiments of the mechanical watchmaking movement with power reserve detection means can be designed by those skilled in the art without departing from the scope of the invention defined by the claims. The blocking element of the chassis wheel may be a lug instead of the satellite wheel to come to lock against a locking member of the crown.

Claims (12)

Mechanical watch movement (1) with power reserve indication, comprising at least one barrel system (2, 3) with a load output in connection with a load wheel, such as a chassis wheel (10a) a differential (10), and with a discharge outlet in connection with a discharge wheel, such as a ring (10b) of the differential (10),
characterized in that the differential (10) is connected to a power reserve indicator (12) for displaying the power reserve, and
in that it comprises at least one locking member (13, 14) disposed on the ring gear (10b) and at least one blocking element (11) arranged on the frame wheel (10a) during the rotation of the ring gear relative to the chassis wheel, the locking member being intended to come into contact with the locking element, when the power reserve is zero in order to block the clockwork movement. Mechanical clockwork movement (1) according to claim 1, characterized in that the chassis wheel (10a) is mounted coaxially with the ring gear (10b). Mechanical clockwork movement (1) according to one of the preceding claims, characterized in that the ring (10b) comprises a peripheral edge and a base, the locking member (13, 14) being arranged on an inner side the peripheral edge. Mechanical clockwork movement (1) according to claim 3, characterized in that the chassis wheel (10a) comprises a satellite wheel (11) as locking element, which is mounted free to rotate on the chassis wheel (10a), the satellite wheel (11) being in contact with an inner surface of the peripheral edge of the ring gear (10b) to be rotated during rotation of the ring gear or the chassis wheel. Mechanical clockwork movement (1) according to claim 4, characterized in that the satellite wheel (11) is arranged free to rotate on one of the axial legs of the chassis wheel (10a). Mechanical clockwork movement (1) according to claim 4, characterized in that the power reserve indicator is a sun gear (12) with an axial rod (12 '), the sun gear being disposed between the ring gear (10b) ) and the chassis wheel (10a) and the axial rod (12 ') passing through a central opening of the chassis wheel (10a). Mechanical clockwork movement (1) according to claim 6, characterized in that the sun gear (12) is in contact with the planet wheel (11) so as to be rotated during the rotation of the planet wheel (11). ). Mechanical clock movement (1) according to one of claims 4 to 7, characterized in that the peripheral edge of the ring comprises on the inner surface of the ring (10b), a first locking member (13) and a second locking member (14) angularly offset from the first locking member, in that the satellite wheel (11) is rotated during the rotation of the ring gear or the chassis wheel to the first locking member (13) in the discharge phase of the barrel system for blocking the clock movement in contact with the first locking member (13) to the power reserve at zero, and in that the satellite wheel (11) is rotated during the rotating the ring gear or the chassis wheel to the second locking member (14) in the charging phase of the barrel system to block the clockwork movement in contact with the second locking member (14). Mechanical clockwork movement (1) according to one of claims 3 and 8, characterized in that each locking member is a notch (13, 14) or a truncated toothing portion for the locking in cooperation of the element of locking the chassis wheel. Mechanical clock movement (1) according to claim 1, characterized in that a first reducing stage (5a, 6, 7a) is arranged between the charging outlet of the barrel system (2, 3) and the chassis wheel ( 10a). Mechanical clockwork movement (1) according to claim 10, characterized in that a second reducing stage (5b, 8, 7b) is arranged between the discharge outlet of the barrel system (2, 3) and the ring gear (10b). ). Mechanical clockwork movement (1) according to claim 11, characterized in that it comprises a drive wheel (4), which is composed of a central rod (4a) and a ring (4b) mounted free rotation between two flanges of the central rod (4a), in that the central rod (4a) is connected to the charging outlet of the barrel system (2, 3) and the first gear stage, while the ring (4b) ) is connected to the discharge outlet of the barrel system (2, 3) and the second reducing stage.

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