This application claims priority to European Patent Application No. 18169314.4 filed on Apr. 25, 2018, the entire disclosure of which is hereby incorporated herein by reference.
The invention concerns a timepiece regulating mechanism comprising a plurality of primary resonators each including at least one inertial weight which is pivotable with respect to a fixed structure to which said inertial weight is suspended by a plurality of flexible strips.
The invention also concerns a timepiece movement comprising at least one such regulating mechanism.
The invention also concerns a watch including at least one such movement and/or including at least one such regulating mechanism.
The invention concerns the field of regulating mechanisms for mechanical horology.
Timepiece oscillator and resonator technology has evolved significantly with the emergence of techniques for making components from silicon or materials with similar characteristics, which have allowed the advent of monolithic articulated structures or flexible bearings, in particular having strips, which form virtual pivots and obviate the need for conventional pivots, which use energy, are subject to wear and require appropriate lubrication.
However, many parameters still require improvement: low oscillation amplitudes, transmission of high stresses, shock sensitivity and generally, sensitivity to disturbance during wear, in particular with respect to rotation.
French Patent Application No FR2928015A1 in the name of LENOBLE discloses a tangential impulse pallet escapement device for watches, including a toothed escape wheel, pallets and at least one balance/balance spring, the pallets are in two parts, each pivoting on a distinct axis, the two parts are articulated to one another via two transmission arms terminating at their adjacent ends in a common articulation, so that the two parts of the pallets rotate at the same speed but in opposite directions, each part of the pallets including a locking-face and an impulse-face, the latter receiving impulses from the escape wheel teeth in a tangential manner. This device includes two balance/balance springs with distinct axes of oscillatory rotation, and each part of the pallets comprises a fork able to drivably engage on an impulse pin of the corresponding balance/balance spring.
European Patent Application No EP3206089A1 in the name of THE SWATCH GROUP RESEARCH AND DEVELOPMENT Ltd discloses a timepiece resonator mechanism comprising a first support with a first anchor and a second anchor to which is attached a flexural pivot mechanism, which defines a virtual pivot axis about which rotatably pivots a pivoting weight, and which includes at least one front RCC flexural pivot and one back RCC flexural pivot, mounted in series and head-to-tail relative to each other about said virtual pivot axis, said front RCC flexural pivot includes, between the first support and an intermediate rotary support, two straight flexible front strips of the same front length between the clamp points thereof, defining two linear front directions which intersect at the virtual pivot axis and which define therewith a front angle, and wherein the respective anchors of the two straight flexible front strips farthest from the virtual pivot axis are both at the same front distance from the virtual pivot axis. The back RCC flexural pivot includes, between the intermediate rotary support, which includes a third anchor and a fourth anchor, and the pivoting weight, two straight flexible back strips of the same back length between the clamping points thereof, defining two linear back directions which intersect at the virtual pivot axis and which define therewith a back angle, and wherein the respective anchors of the two straight flexible back strips farthest from the virtual pivot axis are both at a same back distance from the virtual pivot axis. This flexural pivot mechanism is planar, and the centre of inertia of the assembly formed by the pivoting weight and any added inertial weight carried by the pivoting weight is on the virtual pivot axis or in immediate proximity thereto. The front angle expressed in degrees is determined by inequalities based on the front lengths and front distances and the back angle expressed in degrees is determined by similar inequalities based on the back lengths and back distances.
European Patent Application No EP3128380A1 discloses a timepiece regulating mechanism comprising a plate and, mounted to move at least in a pivoting motion with respect to said plate, an escape wheel set that pivots about an axis of escapement and is subjected to a drive torque, and at least a first resonator comprising a first stiff structure connected to the plate by first elastic return means. The first stiff structure carries at least one inertia arm, wherein a first inertia arm is arranged to cooperate with the escape wheel set via magnetically and/or electrically charged tracks comprised in both the at least one first inertia arm and the escape wheel set, to form a synchronizing device between the escape wheel set and the first resonator. The synchronizing device is protected from loss of synchronization when there is an accidental increase in torque by a mechanical anti-desynchronization mechanism comprising mechanical escapement stops carried by the escape wheel set and by at least one mechanical inertia arm stop carried by the first inertia arm, and together arranged to maintain a stopped position in the event of accidental torque increase.
French Patent Application No FR1574359A in the name of MEYER discloses an elastic oscillator comprising a fixed support and at least one rotary member and springs disposed radially with respect to the rotary member, fixed, on the one hand to the support and on the other, to the rotary member. The configuration of the springs is such that, within the limits of their useful oscillation amplitude, at their points of contact with the rotary member, these springs describe an arc of a circle whose centre is on the axis of rotation of the rotary member. The springs have a prismatic shape, their length is equal to 1.5 times the arc radius value. The rotary member is fixed to the support by two spring elements disposed at 90° relative to one another, or by three spring elements disposed at 120° relative to one another. A common support can carry two rotary members placed one beside the other and oscillating in opposite directions. The rotary members can comprise meshing members determining the direction of oscillation. The rotary members can be actuated by a common magnetic system. A common support can carry two coaxial rotary members oscillating in opposite directions.
The invention proposes to make a regulator having flexural pivots for mechanical watches, which is insensitive to these disturbances during wear, which is insensitive to shocks, easy to produce, and has the best possible efficiency by minimising friction.
To this end, the invention concerns a timepiece regulating mechanism according to claim 1.
The invention also concerns a timepiece movement comprising at least one such regulating mechanism.
The invention also concerns a watch including at least one such movement and/or including at least one such regulating 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 regulating mechanism 300 comprising a plurality of primary resonators 100, 200. This display mechanism 300 is a mechanism with articulated resonators.
The invention is applicable, in particular but not exclusively, to resonators on short-stroke flexural pivots for mechanical watches, which are usually very sensitive to disturbance during wear, and particularly very sensitive to angular accelerations, especially in rotation.
The Figures only illustrate, in a non-limiting manner, the variant with two such primary resonators 100, 200, but those skilled in the art will have no difficulty in extrapolating the features of the invention to a higher number of resonators.
These primary resonators 100, 200 each include at least one inertial weight 102, 202, which is pivotable with respect to a fixed structure 101, 201, to which inertial weight 102, 202 is suspended by a plurality of flexible strips 103, 203. These flexible strips define, in a known manner, a virtual pivot axis about which the inertial weight concerned pivots, with a very small distance, of several micrometres or tens of micrometres, in particular less than 30 micrometres, between the position of the instantaneous pivot axis and the theoretical pivot axis dictated by the shape and position of the flexible strips.
According to the invention, this regulating mechanism 300 includes mechanical means for synchronizing at least two such primary resonators 100, 200. These mechanical synchronizing means include an articulated connection between two inertial weights 102, 202 comprised in the two primary resonators 100, 200.
This articulated connection is arranged, under normal conditions, to allow pivoting of the two inertial weights 102, 202, in opposite directions of rotation, and with close rotation angle values. The articulated connection is arranged, in case of shock, to prevent pivoting of the two inertial weights 102, 202 in the same direction of rotation.
In a particular embodiment, this articulated connection has some play.
More particularly and in a non-limiting manner, and as seen in
Thus, as seen in
In case of rotary shock, first resonator 100 and second resonator 200 tend to rotate in the same direction, and the articulated connection prevents them doing so, which ensures proper operation of the escapement with which at least one of the two resonators cooperates. There is no untimely stopping, as would be the case of a single resonator on a short-stroke flexural pivot.
The resonator oscillations can be maintained in various ways.
More particularly, this oscillator includes enlarged pallets 401, as described in European Patent Application No EP16200152 in the name of ETA Manufacture Horlogère Suisse, and in the Applications that depend thereon: PCT/EP2017/069037, PCT/EP2017/069038, PCT/EP2017/069039, PCT/EP2017/069040, PCT/EP2017/069041, PCT/EP2017/069043, PCT/EP2017/078497, PCT/EP2017/080121.
An arm 110, comprised in primary resonator 100, 200 with which escapement mechanism 400 is arranged to cooperate—first resonator 100 in the case of
A second means of maintaining the resonator oscillations is to use a frictional rest escapement, which acts alternately on first resonator 200 and second resonator 200.
Thus, according to the invention and as seen in
This variant has many advantages.
Indeed, the energy is distributed equally over the two resonators. When the two primary resonators 100, 200 have the same frequency and poising adjustment, the articulated connection is only in mechanical contact in case of shock: pin 104 and slot 204 never touch each other, except in case of external disturbance. This makes it possible to minimise disruption to operation caused by friction between pin 104 and slot 204.
Preferably, the geometry of pallet stones 121, 221, is the same for both resonators, which makes it possible to optimise the friction paths. Compared to a conventional frictional rest escapement, in which both pallet stones are on the same mobile element, the configuration according to the invention, with one pallet stone per mobile element, makes it possible to choose a pallet stone geometry having the same efficiency, without being obliged to use the curved pallet stones known from the Graham deadbeat escapement.
Thus, more particularly, frictional rest escapement mechanism 400 includes an escape wheel 420 made of silicon and/or silicon dioxide, and pallet stones 121; 221 are made of ruby to minimise the contact forces between teeth 421 of escape wheel 420 and pallet stones 121, 221.
A third means of maintaining the resonator oscillations consists in using an articulated regulating mechanism 300, which includes an oscillator that includes a direct, double tangential impulse, detached escapement mechanism 400, as seen in
This mechanism is comparable to a coaxial escapement, in which the direct impulse from the pallets is replaced here by a direct impulse on the inertial weight of the second resonator.
More particularly, in a variant illustrated by
According to this third means, escapement mechanism 400 is a detached escapement with a direct, double tangential impulse.
Indeed, it is detached since the resonator is free during part of its oscillation, which is favourable from a chronometric point of view.
It has a double impulse, since one impulse is produced at each vibration of the oscillation.
It has a tangential impulse, since the contact which produces the impulse occurs substantially on the line that connects the centre of inertia of the inertial weight concerned to the centre of the escape wheel (as opposed to the friction impulse of a conventional Swiss lever escapement).
It has a direct impulse since the impulse is given directly from the wheel to the resonator, without necessarily passing through pallets.
It is clear that this direct double impulse is possible only because the two inertial weights pivot in opposite directions. Thus, the escape wheel, which always rotates in the same direction, can push one of the inertial weights during the first vibration, and the other during the second vibration.
The dot and dash lines A, B, C, D of
With regard to the flexural pivots, various configurations can be used.
The invention also concerns a timepiece movement 500 including at least one such timepiece regulating mechanism 300.
The invention also concerns a watch 1000 including at least one such movement 500, and/or at least one such timepiece regulating mechanism 300.
Number | Date | Country | Kind |
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18169314 | Apr 2018 | EP | regional |
Number | Name | Date | Kind |
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3520127 | Meyer | Jul 1970 | A |
9052693 | Kawauchiya | Jun 2015 | B2 |
10520890 | Semon | Dec 2019 | B2 |
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20170123380 | Winkler | May 2017 | A1 |
20170220002 | Helfer | Aug 2017 | A1 |
20170227930 | Di Domenico | Aug 2017 | A1 |
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Number | Date | Country |
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106444335 | Feb 2017 | CN |
3 128 380 | Feb 2017 | EP |
3 206 089 | Aug 2017 | EP |
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Entry |
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Number | Date | Country | |
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20190332056 A1 | Oct 2019 | US |