Patent Grant
11415942
This application claims priority to European Patent Application No. 18163966.7 filed on Mar. 26, 2018, the entire disclosure of which is hereby incorporated herein by reference.
The invention concerns a timepiece transmission mechanism, arranged to be integrated in a timepiece movement and including at least one differential mechanism including at least one planet wheel mounted for free rotation and at least three main wheel sets forming the inputs or outputs of said differential mechanism, which three main wheel sets are formed by a frame, a first wheel set arranged to cooperate with a first train, and a second wheel set arranged to cooperate with a second train, only one of said three main wheel sets carrying at least one said planet wheel permanently meshing with the other two main wheel sets, either directly or through at least one intermediate wheel set which permanently meshes with one of said other two main wheel sets or which is integral in rotation with one of said other two main wheel sets, said differential mechanism being able to kinematically connect said first wheel set and said second wheel set in a coupling position, and to kinematically uncouple them in an uncoupling position.
The invention also concerns a timepiece movement including at least one such transmission mechanism.
The invention also concerns a timepiece, in particular a watch, including at least one such movement, and/or at including least one such transmission mechanism.
The invention also concerns a timepiece movement including at least one such transmission mechanism.
The invention concerns the field of mechanical timepiece mechanisms.
In horology, the coupling function has often been used:
In a winding and time setting mechanism, for example, the sliding pinion performs this coupling and uncoupling function when the crown moves from position T1 (winding) to position T2 (time setting), and vice versa when the crown returns from position T2 to position T1. In this particular case, there is dual coupling, since the winding mechanism is uncoupled when the time setting mechanism is coupled and vice versa.
In a chronograph mechanism, the Start/Stop function is performed by a coupling (Start) and uncoupling (Stop) mechanism. The chronograph coupling may be radial through engagement/disengagement of the toothings of two wheels that are moved together/apart. It may also be axial or vertical, when two wheels that pivot coaxially are held in contact by a spring or held apart by a fork system.
These complex mechanisms incorporate expensive, fragile components which cannot transmit high torque.
Furthermore, these known coupling mechanisms require substantial force to operate the coupling, which means that some components have unnecessarily large dimensions.
European Patent Application No EP3021175A1 in the name of AUDESMARS PIGUET discloses a rattrapante or splits-seconds device with an epicycloidal train for timepieces, especially for chronograph watches, the device comprising a split-seconds pinion carrying a split-seconds hand and mounted for free rotation about an axis of rotation of the timepiece. The device includes a differential comprising an input wheel able to be kinematically connected to an energy source of the timepiece, a first output wheel kinematically connected to the input wheel by at least one planet wheel and meshing with the split-seconds pinion, a second output wheel kinematically connected to the input wheel by said at least one planet wheel, and a control lever for locking either the first output wheel or the second output wheel, such that whichever of the first output wheel and second output wheel is released by the control lever is drivable by the input wheel when the latter is kinematically connected to the timepiece energy source, thus making it possible to lock or respectively release the split-seconds hand.
The invention proposes to offer an alternative solution to the aforecited mechanisms, which limits the number of components that move to perform the coupling and uncoupling functions.
To this end, the invention concerns a timepiece transmission mechanism according to claim 1.
The invention also concerns a timepiece movement including at least one such transmission mechanism.
The invention also concerns a timepiece, in particular a watch, including at least one such movement, and/or at including least one such transmission mechanism.
Other features and advantages of the invention will appear upon reading the following detailed description, with reference to the annexed drawings, in which:
The invention concerns a timepiece transmission mechanism 100, arranged to be integrated in a timepiece movement 500 and including at least one differential mechanism 10.
This differential mechanism 10 includes at least one planet wheel 3, which is mounted for free rotation, and at least three main wheel sets forming inputs or outputs of differential mechanism 10. These three main wheel sets are formed by a frame 60, a first wheel set 1 arranged to cooperate with a first train, and a second wheel set 2 arranged to cooperate with a second train. Only one of these three main wheel sets carries at least one such planet wheel 3 permanently meshing with the other two main wheel sets, either directly, or through at least one intermediate wheel set 8, which permanently meshes with one of the other two main wheel sets, or which is integral in rotation with one of the other two main wheel sets.
This differential mechanism 10 is able to kinematically connect first wheel set 1 and second wheel set 2 in a coupling position, and to kinematically uncouple them in an uncoupling position.
According to the invention, transmission mechanism 100 also includes control means 20, which are arranged to lock only one of these three main wheel sets, in order to couple differential mechanism 10, or to completely release frame 60 and first wheel set 1 and second wheel set 2 in order to uncouple differential mechanism 10, depending on the position given to control means 20 by a selector 30 comprised in transmission mechanism 100 and which is arranged to cooperate with an actuator comprised in a timepiece movement 500, and/or to be operated by a user, or to both cooperate with such an actuator and be operable by a user.
More particularly, these control means 20 are returned to a locking wheel set. This locking wheel set is whichever of the three main wheel sets on which differential mechanism 10 is locked in the coupling position, by elastic return means 40, which are arranged to exert engaging or friction torque on this locking wheel set, which is calibrated to allow a safety uncoupling function when the torque transmitted from one to the other of the other main wheel sets, which does not form this locking wheel set, is higher than the engaging or friction torque.
In a non-limiting embodiment illustrated by the Figures, this selector 30 includes at least one column wheel 31, which is arranged, according to its angular position, to modify the angular position of a lever 21 comprised in control means 20. This lever 21 includes a first beak 22, which is arranged to immobilise or release, depending on its position, a peripheral toothing comprised in the locking wheel set.
Advantageously, the locking wheel set includes an external toothing with wolf teeth, to allow a safety uncoupling function in one direction of rotation.
In particular, transmission mechanism 100 further includes mechanical locking means 50, which are arranged to be operated by an actuator comprised in a timepiece movement 500 and/or by a user, and which are arranged to lock these control means 20 in a coupled or uncoupled position.
In a particular, non-limiting embodiment, frame 60, first wheel set 1 and second wheel set 2 are arranged to pivot about axes parallel to a same differential direction.
In a variant, each planet wheel set 3 is arranged to pivot about an axis parallel to this differential direction.
In another variant, each planet wheel set 3 is arranged to pivot about an axis perpendicular to the differential direction.
In yet another variant, each planet wheel set 3 is arranged to pivot about an oblique and non-perpendicular axis with respect to the differential direction.
In a particular, non-limiting embodiment, this planet wheel set 3 is a planet pinion. In the particular case of
In a particular case, particularly in the embodiments illustrated by
In a particular embodiment and as seen in the Figures, this frame 60 is a crown-wheel 6.
More particularly, the at least one planet wheel set 3, or each planet wheel set 3, is carried by first wheel set 1 or second wheel set 2 and permanently meshes with a toothing 4 of an arbor 5 integral at least in rotation with second wheel set 2 or respectively wheel set 1, and the at least one planet wheel 3, or each planet wheel 3, permanently meshes with said crown-wheel 6.
More particularly still, as seen in
The use of a single differential system is not limiting. Indeed, a differential planetary gear and two crowns, a differential gear with two sun gears, a spherical or other differential gear can be used in a similar manner. The use of a crown-wheel for the locking function is not limiting; indeed, it may be advantageous, depending on the transmission ratios required, for the locking function to be performed on one or other input or output of one of these differential trains.
The principle of the invention can be applied to a differential mechanism 10 which includes several stages, and especially with each stage having an epicycloidal train.
More particularly, a dual coupling mechanism is commonly used in horology.
By combining two single coupling mechanisms according to
In a particular embodiment and as illustrated by the Figures, at least one epicycloidal train, and more particularly each epicycloidal train, comprises only gear drive mechanisms.
In another particular embodiment, at least one epicycloidal train, and more particularly each epicycloidal train, includes at least one friction drive mechanism.
More particularly, differential mechanism 10 includes at least two inputs or outputs formed by a first wheel set 1 arranged to cooperate with a first train and a second wheel set 2 arranged to cooperate with a second train, differential mechanism 10 being able to kinematically connect first wheel set 1 and second wheel set 2 in a coupling position, and to kinematically separate them in an uncoupling position.
The invention thus includes a differential train whose two inputs serve to transmit rotation of the train, while the third input serves to couple and uncouple the transmission.
More particularly, and as seen in
When selector 30 and control means 20, which include, in a non-limiting manner in the particular embodiment illustrated by the Figures, a lever 21 having a first beak 22 at one end, lock the toothing of external crown-wheel 6 of the differential train via this first beak 22, the rotation applied to input 2 is transmitted to output 1.
When selector 30 and control means 20 unlock the toothing of external crown-wheel 6 of the differential train, the rotation applied to input 2 is transmitted to differential crown-wheel 6 which is no longer locked and can then rotate freely and stop the transmission of torque to output 1.
In this non-limiting example, this on/off function is controlled by a selector 30 which includes at least one column wheel 31 arranged, depending on its angular position, to modify the angular position of lever 21 comprised in control means 20. Other alternative control means can be used, such as a shuttle, lever or otherwise.
In the embodiment illustrated by
In an advantageous variant and as seen in
The invention also concerns a timepiece movement 500 including at least one such transmission mechanism 100.
The invention also concerns a timepiece 1000, in particular a watch, including at least one such movement 500 and/or at including least one such transmission mechanism 100.
In short, the invention constitutes an alternative solution to already known solutions and has the advantage of limiting the number of components that move to perform the coupling and uncoupling function, in particular in comparison to the clamps of vertical coupling systems.
The invention makes it possible to limit the stresses (forces and/or torques) required to perform the coupling and uncoupling functions.
The invention can be sized to ensure transmission of a higher torque, especially in the case of a vertical chronograph coupling structure where the torque is provided by a friction spring.
The invention makes it possible to make single coupling mechanisms like the on/off chronograph coupling and dual coupling mechanisms such as winding and time setting mechanism: function 1/function 2.
The invention also allows a threshold torque to be calculated with a safety uncoupling function.
| Number | Date | Country | Kind |
|---|---|---|---|
| 18163966 | Mar 2018 | EP | regional |
| Number | Name | Date | Kind |
|---|---|---|---|
| 7965584 | Papi | Jun 2011 | B2 |
| 8337077 | Giacobino | Dec 2012 | B2 |
| 8864368 | Dubois | Oct 2014 | B2 |
| 9477206 | Philippine | Oct 2016 | B2 |
| 20160132022 | Goeller | May 2016 | A1 |
| 20160139567 | Philippine | May 2016 | A1 |
| Number | Date | Country |
|---|---|---|
| 216001 | Jul 1941 | CH |
| 3 021 175 | May 2016 | EP |
| Entry |
|---|
| European Search Report dated Nov. 5, 2018 in European Application 18163966.7 filed on Mar. 26, 2018 (with English translation ofcategories of Cited Documents). |
| Combined Chinese Office Action and Search Report dated Aug. 18, 2020 in corresponding Chinese Patent Application No. 201910227997.7 (with English Translation of Category of Cited Documents), 6 pages. |
| Number | Date | Country | |
|---|---|---|---|
| 20190294110 A1 | Sep 2019 | US |
