CH704147B1 - Mobile transmission piece energy variable geometry. - Google Patents

Abstract

The invention relates to a transmission device for energy transmission (1) for a micromechanical or watchmaking mechanism that can be placed between a first mobile transmitter and a second mobile receiver of said mechanism, said transmission mobile of energy ( 1) having at least one degree of freedom pivoting about a theoretical axis of pivoting (D). This mobile energy transmission (1) is flexible to variable geometry and monobloc, and comprises elastic return means (4) providing an elastic connection between an axial portion (5) and a peripheral portion (6), said axial portion (5) in the vicinity of said theoretical pivot axis (D), and said peripheral portion (6) radially away from said theoretical pivot axis (D) and said biasing means (4) being arranged to absorb, store or release from; energy during an angular displacement in pivoting around a secondary axis (D1) parallel to or coincident with said theoretical pivot axis (D), between said axial portion (5) and peripheral (6).

Description

The invention relates to a mobile energy transmission for a micro-mechanical mechanism or clock, between at least a first mobile transmitter of said mechanism on the one hand, and at least a second receiver mobile of said mechanism of on the other hand, said mobile energy transmission comprising at least one degree of freedom in pivoting about a theoretical axis of pivoting.

The invention also relates to a watch movement constituted by a clockwork mechanism comprising, between at least a first mobile transmitter and at least a second mobile receiver, at least one such mobile energy transmission.

The invention also relates to a timepiece comprising at least one such movement, or at least one such mobile energy transmission.

The invention relates to the field of micro-mechanics, and more particularly the field of watchmaking.

Background of the invention

The manufacture of oscillating mechanisms for micro-mechanics, and in particular for watchmaking, often uses elastic return means generally constituted by springs. These delicate components are difficult to install and require skilled labor and / or expensive equipment. Such springs are mostly made of steel, so as to have a good longevity, at the same time as a large restoring torque. Their manufacture is very dependent on the quality of the raw material used, but also heat treatments performed. As a result, the manufacture of springs is not very reproducible, and all the mechanisms that incorporate them must be subject to adjustments or adjustments.

It is, again, known elastic return means in the form of shape memory materials, such as vulcanized rubber or some elastomers. The use of elastic blocks of this type is known in heavy mechanics, often in conjunction with a function of silent-block or more generally damping. In addition to the fact that their use in micro-mechanics is difficult, it is found that precisely these damping properties of vibrations, and thus damping oscillations, go against the goal when one seeks instead the maintenance of an oscillation , with the minimum depreciation.

Summary of the invention

The invention proposes to provide, for the fields of micromechanics and watchmaking, a reliable alternative to the use of traditional springs as means of maintenance of an oscillation. This alternative is sought for both micro-mechanics and nano-technologies.

For this purpose, the invention relates to a mobile energy transmission for a micro-mechanical or clockwork mechanism, capable of being placed between at least a first mobile transmitter of said mechanism on the one hand, and the at least one second mobile receiver of said mechanism on the other hand, said mobile power transmission comprising at least one degree of freedom in pivoting about a theoretical axis of pivoting, characterized in that said mobile power transmission is flexible variable geometry while being made integrally, and comprises elastic return means providing a direct or indirect elastic connection between a first axial portion and a second peripheral portion of said mobile, said first axial portion being located in the vicinity of said theoretical axis of pivoting and adapted to cooperate with said first mobile transmitter or respectively the second mobile receiver, and said second peripheral portion being radially away from said theoretical pivot axis and adapted to cooperate with said second mobile receiver or the first mobile transmitter, and said elastic return means being arranged to absorb, store or release energy during a travel angularly pivoting around a secondary axis parallel or coincident with said theoretical pivot axis, between said first axial portion and said second peripheral portion.

The invention also relates to a watch movement comprising at least one such mobile energy transmission.

The invention also relates to a timepiece comprising at least one such movement, or at least one such mobile energy transmission.

Brief description of the drawings

Other features and advantages of the invention will be better understood on reading the description which follows, with reference to the accompanying drawings in which: <tb> figs. 1 to 5 <SEP> represent, schematically and perspective, various embodiments of the invention.

Detailed Description of the Preferred Embodiments

The invention relates to the field of micro-mechanics, and more particularly to the field of watchmaking.

A mobile energy transmission is used to decouple the inertia of a part of a cog in a watch movement.

The invention relates, in a particular application, to the application of the energy transmission mobile to a constant-force mechanism, wherein the mobile energy transmission constitutes a buffer energy reservoir between the cylinder and the exhaust of a timepiece, thus transmitting a constant torque to the exhaust. The skilled person will easily use the mobile according to the invention for integration with a constant force device type Jeanneret, as described in the document "General Theory of Watchmaking, Léopold Defossez, Swiss House of the Horlogerie, La Chaux-de-Fonds ", volume II, page 129.

The invention allows, again, the decoupling of the inertia of a part of a cog: in the case of a vortex, for example, the inertia of the gear train to put in motion at each pulse is large , and penalizes the performance of the exhaust. A flexible wheel according to the invention, interposed between the high inertia elements and the exhaust, allows the exhaust to move quickly before the large inertia is set in motion, thereby improving the efficiency of the exhaust . This application is particularly innovative, and uses with advantage the compactness of the mobile according to the invention.

If the invention is useful for storing energy, before delivering it at the appropriate time to a mobile receiver, it is also quite suitable for protecting a fragile member of a movement against shocks, or, more generally, against strong accelerations. In particular, its application to the protection of a fragile exhaust against shocks is effective. Indeed, when taking rest or during shocks on the needles, the torque transmitted in the train can be momentarily much higher than the torque of the barrel. If we typically have an exhaust made of fragile material, such as silicon or another material obtained by MEMS technologies or obtained by a LIGA process (from German Lithography, Galvanik, Abformung), or similar, possibly skeletonized to the extreme for its lightening, we risk breaking it. A flexibility of a mobile according to the invention, judiciously placed in the train, absorbs some of the energy of the shock. We find a similar protection to that offered by a wheel according to the patent OMEGA EP 1 870 784, with however the difference that the invention allows to have a rigid peripheral part and deformable, which is advantageous if it is of a toothing.

The most advantageous operating features are: - protection of a friction coupling during shocks or in its normal operation: - for the same reasons as in the above point, a friction coupling could slip momentarily during an impact (external shock or rest stop of the exhaust). Flexibility in the train makes it possible to reduce the instantaneous torque peak transmitted through the coupling (for example a chronograph). - gear without play: superposition of two boards, linked together by an angular return spring, so as to sandwich the teeth of a pinion.

The means used may consist of a board pivoted freely on the axis of the pinion, or a pinion pivoted on the axis of the board, with one-piece return spring (spiral spring or coil spring) between the pinion and the board .

It is possible to implement several types of flexible guides (then combine guiding and flexibility): - flexible arms - elastic system, called butterfly - four-pass RCC (Remote Center Compliance) hub.

In a preferred application, as visible in the figures, the invention relates to a mobile energy transmission 1 for a micro-mechanical or clockwork mechanism, between at least a first mobile transmitter of said mechanism of on the one hand, and at least one second mobile receiver of said mechanism on the other hand, said mobile energy transmission 1 having at least one degree of freedom in pivoting about a theoretical axis of pivoting D. This mobile transmission of energy 1 is flexible with variable geometry while being produced integrally, and comprises elastic return means 4 providing a direct or indirect elastic connection between a first axial portion 5 and a second peripheral portion 6, said first axial portion 5 being located in the vicinity of said theoretical pivot axis D and cooperating with said first mobile transmitter or respectively the second mobile receiver, and the said second peripheral portion 6 being radially distant from said theoretical pivot axis D and cooperating with said second mobile receiver or respectively the first mobile transmitter, and said elastic return means 4 being arranged for, depending on the angular position and the pivoting direction, to absorb , storing or releasing energy during a pivoting angular deflection, around a secondary axis D1 parallel to or coinciding with said theoretical pivot axis D, between said first axial portion 5 and said second peripheral portion 6.

According to one embodiment of the invention as visible in FIG. 1, said first axial portion 5 and said second peripheral portion 6 are coaxial in the free state, and said elastic return means 4 are further arranged to coaxially retain said first axial portion 5 and said second peripheral portion 6 during the deformation of said means elastic return 4.

According to one embodiment of the invention, said second peripheral portion 6 is rigid and dimensionally stable.

According to one embodiment of the invention as visible in FIGS. 1 to 3, said elastic connection is substantially plane in a plane perpendicular to said theoretical axis of pivoting D.

According to one embodiment of the invention, said angular deflection in rotation is several degrees or several tens of degrees.

According to one embodiment of the invention as visible in FIGS. 1 to 3 said elastic return means 4 comprise at least one arm 7 extending between said first axial portion 5 and said second peripheral portion 6, and said arm 7 comprises at least one elastic portion.

According to one embodiment of the invention as visible in FIG. 3, said arm 7 is elastic.

According to one embodiment of the invention as visible in FIGS. 1 and 2, said elastic return means 4 comprise at least one arm 7 comprising at least one rigid portion 12, which extends between said first axial portion 5 and said second peripheral portion 6 to which it is connected respectively by at least one first elastic blade 8 and at least one second elastic blade 9 that it comprises.

According to one embodiment of the invention, said elastic return means 4 comprise a plurality of said arms 7 located in planes parallel to each other or to each other and these planes being all perpendicular to said theoretical axis of pivoting D.

According to one embodiment of the invention as visible in FIG. 1, said elastic return means 4 comprise at least one arm 7 having a plurality of rigid portions 12A and 12B which extend between said first axial portion 5 and said second peripheral portion 6. As visible on the left side of FIG. . 1, which has a double axial symmetry, since the first axial portion 5, the arm 7 extends radially to a rigid portion 12A device. This rigid peripheral portion 12A is connected, on either side of this radial arm, on the one hand in the upper part of the figure to a rigid portion 12 close to the axis by an elastic portion 13 constituted by an elastic blade 8 and, on the other hand, substantially symmetrically, in the lower part of the figure, to another rigid portion 12B close to the axis by an elastic portion 13 constituted by an elastic blade 14. Each of the rigid parts 12, 12B, close to the axis is connected to the second peripheral portion 6 by an elastic blade 9. The right part of FIG. 1 shows, in symmetry, the same fasteners.

According to one embodiment of the invention as visible in FIG. 1, said elastic portion 13 comprises at least one elastic blade 14.

According to one embodiment of the invention, the energy transmission mobile 1 has a butterfly type configuration as shown in FIG. 1, comprising at least one arm 7 comprising at least one rigid portion 12 extending between said first axial portion 5 and said second peripheral portion 6 to which it is connected respectively by at least one first elastic blade 8 and by at least one second blade elastic 9, said rigid portion 12 constituting an intermediate mass movable substantially pivotally about said theoretical axis of pivoting D.

According to one embodiment of the invention as visible in FIG. 2, the power transmission mobile 1 has a four-necked RCC-type configuration, comprising two non-aligned arms 7 each having at least one rigid portion 12 which extends between said first axial portion 5 and said second peripheral portion 6 to which it is connected respectively by at least a first elastic blade 8 and by at least a second elastic blade 9.

According to one embodiment of the invention as visible in FIG. 2, said two arms 7 form between them an angle centered substantially on said theoretical axis of pivoting D and close to 90 °.

According to one embodiment of the invention, said elastic return means 4 have an angular displacement limited to a pivotal stroke of said first portion 5 relative to said second portion 6 determined by travel limitation means angular.

According to one embodiment of the invention, said elastic return means 4 have a stiffness much lower than that of said first portion 5 and said second portion 6, in a ratio less than 0.30 compared to the most low stiffness of said first portion 5 or said second portion 6.

According to one embodiment of the invention, said elastic return means 4 consist of substantially radial blades with respect to said theoretical axis of pivoting D.

According to one embodiment of the invention, the energy transmission mobile 1 is made of a micro-machinable material, or silicon, or quartz or one of their compounds, or an alloy derived from the technology of MEMS (electromechanical microsystems), or an alloy as obtained by the LIGA process, or an at least partially amorphous material. In a particular embodiment, it is made of a combination of some of these materials, the material being a rigid Young modulus material greater than 80,000 MPa.

The invention also relates to a watch movement constituted by a clockwork mechanism comprising, between at least a first mobile transmitter and at least a second mobile receiver, at least one such mobile energy transmission 1.

The invention also relates to a timepiece comprising at least one such movement, or at least one such mobile energy transmission 1.

According to one embodiment of the invention, such a power transmission mobile 1 is used to decouple the inertia of a part of a cog in a watch movement comprising on the one hand an exhaust and on the other hand a third mobile of inertia greater than that of said escapement, by the interposition of said mobile energy transmission 1 either directly or in a train, between said exhaust and said third mobile, so as to allow pivoting fast said exhaust before said third mobile is set in motion at each pulse.

According to one embodiment of the invention is a mobile energy transmission 1, wherein said third mobile is a vortex or a carousel.

According to one embodiment of the invention, a mobile energy transmission unit 1 is used, in which said exhaust pipe comprises an escape wheel constituted by such a power transmission mobile 1.

According to one embodiment of the invention, such a power transmission mobile 1 is used to absorb excess energy in a watchmaking gear train, when a torque transmitted to the wheel by a shock or a strong acceleration or during the quiescent of the exhaust is momentarily much higher than the torque of a barrel supplying said energy movement, by realizing at least one of the elements of said train in the form of a said mobile transmission transmission. energy 1.

According to one embodiment of the invention, such a power transmission mobile 1 is used for a said watch movement comprising an escapement, characterized in that the said exhaust comprises an escape wheel constituted by a said mobile of energy transmission 1.

According to one embodiment of the invention is used such a mobile energy transmission 1 to absorb excess energy in a watch movement comprising a gear train and at least one friction coupling, when a torque transmitted to the gear train by a shock or a strong acceleration or during the quiescent of the exhaust is momentarily much higher than the torque of a barrel supplying said energy movement, by realizing at least one of the elements of said train in the form of a said energy transmission mobile 1, to reduce the instantaneous torque peak transmitted through said friction coupling.

According to one embodiment of the invention is used such a transmission of energy transmission 1 for a said chronograph watch movement comprising at least one friction coupling.

According to one embodiment of the invention, such a power transmission mobile 1 is used for a watch movement comprising, between an energy storage cylinder and an exhaust, a work train comprising at least one said moving part. energy transmission 1 to form a buffer energy reservoir between said cylinder and said exhaust, to transmit a constant torque to said exhaust.

According to one embodiment of the invention, such a mobile energy transmission device 1 is used for a watch movement comprising two boards interconnected by an angular return spring constituted by a said mobile transmission of energy. 1, to sandwich the teeth of a pinion, and constitute a gear mechanism without play.

According to one embodiment of the invention, such a power transmission mobile 1 is used in a watch movement in which said first mobile transmitter or said second mobile receiver of said mechanism is held fixed in anchorage relative to a platinum or bridge that includes said watch movement.

Of course, the present invention is not limited to the example shown but is capable of various variations and modifications that will occur to those skilled in the art, within the scope defined by the appended claims.

Claims (28)

1. Mobile energy transmission (1) for a micromechanical or clockwork mechanism, able to be placed between, at least a first mobile transmitter of said mechanism on the one hand, and at least a second mobile receiver said mechanism on the other hand, said mobile energy transmission (1) having at least one degree of freedom in pivoting about a theoretical axis of pivoting (D), characterized in that said mobile power transmission (1 ) is flexible with variable geometry while being made in one piece, and comprises elastic return means (4) providing a direct or indirect elastic connection between a first axial portion (5) and a second peripheral portion (6) of said mobile transmission of energy (1), said first axial portion (5) being located in the vicinity of said theoretical pivot axis (D) and able to cooperate with said first mobile transmitter or the second mobile respectively the receiver, and said second peripheral portion (6) being radially distant from said theoretical pivot axis (D) and able to cooperate with said second mobile receiver or the first mobile transmitter respectively, and said elastic return means (4) being arranged to absorbing, storing or releasing energy during a pivoting angular deflection around a secondary axis (D1) parallel to or coinciding with said theoretical pivot axis (D), between said first axial portion (5) and said second peripheral part (6). 2. Mobile power transmission (1) according to claim 1, characterized in that said first axial portion (5) and said second peripheral portion (6) are coaxial in the free state, and said elastic return means (4) are arranged to coaxially maintain said first axial portion (5) and said second peripheral portion (6) during the deformation of said elastic return means (4). 3. Mobile power transmission (1) according to claim 1 or 2, characterized in that said second peripheral portion (6) is rigid and dimensionally stable 4. Mobile power transmission (1) according to one of the preceding claims, characterized in that said elastic connection is substantially flat in a plane perpendicular to said theoretical axis of pivoting (D). 5. Mobile energy transmission (1) according to one of the preceding claims, characterized in that said elastic return means (4) comprise at least one arm (7) extending between said first axial portion (5) and said second peripheral portion (6), and said arm (7) has at least one resilient portion. 6. Mobile power transmission (1) according to the preceding claim, characterized in that said arm (7) is resilient. 7. Mobile power transmission (1) according to one of claims 1 to 5, characterized in that said elastic return means (4) comprise at least one arm (7) having at least one rigid portion (12) , which rigid portion (12) extends between said first axial portion (5) and said second peripheral portion (6) to which said arm (7) is connected respectively by at least one first elastic blade (8) that comprises said arm ( 7) and by at least a second elastic blade (9) that comprises said arm (7). 8. Mobile power transmission (1) according to claim 7, characterized in that said elastic return means (4) comprise a plurality of arms (7) in planes parallel to each other or merged and said plans being all perpendicular to said theoretical pivot axis (D). 9. Mobile power transmission (1) according to one of claims 1 to 5, characterized in that said elastic return means (4) comprise at least one arm (7) having rigid portions (12; 12A; 12B), said arm (7) extending between said first axial portion (5) and said second peripheral portion (6), said arm (7) having a first rigid portion (12A) extending radially from said first axial portion (5), said first rigid portion (12A) being connected, substantially symmetrically, respectively on either side of its radial extent, to a second rigid portion (12; 12B) of the arm close to the theoretical axis of pivoting ( D1) by a first elastic portion (13) constituted by a first elastic blade (8; 14) of the arm, each of the second rigid portions (12; 12B) being connected to said second peripheral portion (6) by a second elastic portion constituted by by a second blade elastic (9) of the arm. 10. Mobile power transmission (1) according to claim 5, characterized in that said elastic portion (13) comprises an elastic blade (14). 11. mobile energy transmission (1) according to one of claims 1 to 5, characterized in that it comprises at least one arm (7) forming the elastic return means (4) and having at least a portion rigid (12) which extends between said first axial portion (5) and said second peripheral portion (6) to which the arm (7) is connected respectively by at least a first elastic blade (8) and by at least a second blade elastic member (9), said rigid portion (12) being movable about said theoretical pivot axis (D). Mobile energy transmission device (1) according to one of claims 1 to 5, characterized in that it has a four-necked RCC pivot type configuration, in that it comprises two arms (7) no aligned each having at least one rigid portion (12) which extends between said first axial portion (5) and said second peripheral portion (6) to which each of the arms (7) is respectively connected by at least a first elastic blade (8). ) and by at least one second elastic blade (9) that it comprises. 13. Mobile power transmission (1) according to the preceding claim, characterized in that the two arms (7) form between them an angle of 90 ° centered substantially on said theoretical axis of pivoting (D). 14. Mobile power transmission (1) according to one of the preceding claims, characterized in that said elastic return means (4) have an angular displacement limited to a pivotal stroke of said first portion (5) relative to said second portion (6) determined by angular displacement limiting means. 15. Mobile power transmission (1) according to one of claims 1 to 8, characterized in that said elastic return means (4) have a stiffness less than that of said first axial portion (5) and said second peripheral portion (6), in a ratio less than 0.30 relative to the lowest stiffness of said first axial portion (5) or said second peripheral portion (6). 16. Power transmission mobile (1) according to one of the preceding claims, characterized in that said elastic return means (4) consist of blades substantially radial with respect to said theoretical axis of pivoting (D). 17. Power transmission mobile (1) according to one of the preceding claims, characterized in that it is made of a micro-machinable material, or silicon, or quartz or one of their compounds, or an alloy derived from MEMS technology, or an alloy as obtained by the LIGA process, or an at least partially amorphous material. 18. Watchmaking movement constituted by a clockwork mechanism comprising, between at least one first mobile transmitter and at least one second mobile receiver, at least one mobile energy transmission (1) according to one of claims 1 to 17. 19. Watch movement according to claim 18, characterized in that it comprises a gear comprising a said mobile energy transmission (1) interposed directly or indirectly between an exhaust and a third mobile, said third mobile being of higher inertia to that said exhaust, and in that said mobile energy transmission (1) decouples the inertia of a portion of said train, to allow a rapid pivoting of said exhaust before said third mobile is set in motion at each pulse of said exhaust. 20. Watch movement according to claim 19, characterized in that it comprises a vortex or a carousel, and in that a flexible wheel constituting said mobile energy transmission (1), interposed between the mobile of greater inertia and the exhaust, allows the exhaust to move quickly before said mobile of greater inertia is set in motion, to improve the efficiency of the exhaust. 21. Watchmaking movement according to claim 19 or 20, characterized in that said exhaust comprises an escape wheel constituted by another mobile energy transmission (1) according to one of claims 1 to 17. 22. Watch movement according to claim 18, characterized in that it comprises a power supply barrel, an exhaust mechanism, and a gear train comprising the at least one energy transmission mobile (1) which absorbs a excess energy in said train, when a torque transmitted to the wheel by a shock or a strong acceleration or during the quiescent of the exhaust is momentarily much higher than the torque of said barrel supplying said energy movement. 23. Watch movement according to claim 18 further comprising an escapement, characterized in that said exhaust comprises an escape wheel constituted by another said mobile energy transmission (1). 24. Watch movement according to claim 18, characterized in that it comprises a barrel, an exhaust mechanism, at least one friction coupling, and a gear comprising said mobile energy transmission (1), where the mobile of energy transmission (1) absorbs excess energy in a said movement, when a torque transmitted to the wheel by a shock or a strong acceleration or during the quiescent of the exhaust is momentarily much higher than the torque of said barrel powering said energy movement, to decrease the instantaneous torque peak transmitted through said friction coupling. 25. Watch movement according to claim 24, characterized in that it constitutes a chronograph watch movement comprising at least one friction coupling. 26. Horological movement according to claim 18, characterized in that it comprises, between an energy storage cylinder and an exhaust, a train comprising said mobile energy transmission (1) which constitutes a buffer energy reservoir between said barrel and said escapement, for transmitting a constant torque to said escapement. 27. Watchmaking movement according to claim 18, characterized in that said first mobile transmitter or second mobile receiver is held fixed in anchorage relative to a plate or bridge that includes said watch movement. 28. Timepiece comprising at least one watch movement according to one of claims 18 to 27, or at least one mobile energy transmission (1) according to one of claims 1 to 17.