TIMEPIECE RESONATOR INCLUDING AT LEAST ONE FLEXIBLE GUIDE

Abstract

A timepiece resonator including an inertial element moveable in relation to a fixed structure, and suspended to a flexible guide including flexible strips crossed in projection on a plane XY at a single crossing zone ZC, each one deformable in a plane parallel to the plane XY each one extending in a ribbon on either side of a neutral surface perpendicular to the plane XY and joining the first recess with the structure and the second recess with the inertial element, and including at least one rib asymmetrical in relation to its neutral surface, and, at the crossing zone ZC, either each flexible strip does not include any rib, or each rib is asymmetrical in relation to its neutral surface.

Claims

1. A timepiece resonator comprising an inertial element moveable in relation to a fixed structure, and suspended to at least one flexible guide including flexible strips crossed in projection on a plane XY at a single crossing point ZC, each one deformable in a plane parallel to the plane XY each one extending in a ribbon on either side of a neutral surface perpendicular to said plane XY and joining the first recess with said structure and the second recess with said inertial element, wherein each said flexible strip includes at least one rib asymmetrical in relation to its neutral surface, and wherein, at said crossing zone ZC, either each said flexible strip does not include any rib, or each said rib is asymmetrical in relation to its neutral surface, each said asymmetrical rib including an outer relief on the side opposite to each other said strip the distal end of which is separated by an outer distance from said neutral surface, and, facing said outer relief and on the side facing another strip, an inner relief the distal end of which is separated by an inner distance from said neutral surface which is less than said outer distance.

2. The timepiece resonator according to claim 1, wherein, said flexible guide constitutes an elastic return means of said inertial element, said flexible guide comprising at least two said flexible strips deformable in planes parallel to one another and parallel to said projection plane XY, said structure and said inertial element each one being stiffer than each said flexible strip, each said flexible strip has its largest dimension called length L between its said recesses, each said flexible strip including at least two sections of constant thickness equal to a nominal thickness EN, which are separated by at least one relief forming a said rib extending substantially in a direction Z orthogonal to said projection plane XY to limit the anticlastic curvature of said flexible strip.

3. The timepiece resonator according to claim 2, wherein each said flexible strip has, in a plane parallel to said projection plane XY a second dimension E called thickness and which is less than said length L, and, in a direction Z orthogonal to said projection plane XY, a third dimension H called height and the value of which is between those of said length L and said thickness E.

4. The timepiece resonator according to claim 2, wherein at least one said relief is protruding from said flexible strip which supports it, by a distance greater than half the smallest thickness of said at least one flexible strip or said nominal thickness EN, to limit the anticlastic curvature of said at least one flexible strip, and in that wherein said flexible strip includes, at a distance from its said recesses, at least one said rib extending substantially in said direction Z.

5. The timepiece resonator according to claim 3, wherein each said rib is separated from any neck included in said flexible strip, by a value greater than or equal to said height H of said flexible strip

6. The timepiece resonator according to claim 1, wherein at least one said flexible strip is symmetrical in relation to a median plane parallel to said plane XY.

7. The timepiece resonator according to claim 2, wherein each said rib comprises at least one generatrix that is farther from its said neutral surface than the lateral surfaces of said sections of said flexible strip located outside of said ribs, and wherein the longitudinal extension LN of each said rib of said flexible strip, in a direction joining said recesses of said flexible strip, is less than or equal to one fifth of said length L of said flexible strip between its said recesses.

8. The timepiece resonator according to claim 2, wherein at least one said flexible strip comprises a plurality of said sections extending along its said neutral surface and in the geometric extension of one another along said neutral surface with the same said nominal thickness EN, each said section forming a ribbon the lateral surfaces of which are parallel to said direction Z, and wherein, in projection on said plane XY, at least two said sections are separated by a said rib of protruding thickness ES in relation to a said lateral surface, said protruding thickness ES being greater than or equal to said nominal thickness EN.

9. The timepiece resonator according to claim 8, wherein said protruding thickness ES is at least one and a half times greater than said nominal thickness EN.

10. The timepiece resonator according to claim 1, wherein at least one said flexible strip comprises, at a distance from said first recess and from said second recess, at least two said ribs.

11. The timepiece resonator according to claim 1, wherein at least one said flexible strip is straight and includes its said neutral surface which is flat in a strip direction D joining said first recess and said second recess.

12. The timepiece resonator according to claim 3, wherein at least one said flexible strip comprises at least one said rib that extends over the entire height H of said flexible strip in said direction Z.

13. The timepiece resonator according to claim 3, wherein said height H of at least one said flexible strip is less than or equal to one fifth of said length L of said flexible strip between its said recesses.

14. The timepiece resonator according to claim 3, wherein the transverse maximum thickness EM of said flexible strip is less than or equal to one fifth of said height H of said flexible strip.

15. The timepiece resonator according to claim 2, wherein said flexible strip forms a straight prism extending in said direction Z.

16. The timepiece resonator according to claim 15, wherein the base of said prism in said plane XY is symmetrical in relation to the projection of said neutral surface in said plane XY.

17. The timepiece resonator according to claim 8, wherein the longitudinal extension LN of each said rib of at least one said flexible strip is less than or equal to the transverse protruding thickness ES of said rib.

18. The timepiece resonator according to claim 1, wherein at least one said rib is a rectangular parallelepiped.

19. The timepiece resonator according to claim 1, wherein at least one said rib is symmetrical in relation to said neutral surface.

20. The timepiece resonator according to claim 2, wherein at least one said flexible strip comprises, at a distance from said first recess and from said second recess, a plurality of said ribs protruding alternately on either side of said sections.

21. The timepiece resonator according to claim 1, wherein any projection of at least one said flexible strip, in its rest position, on said plane XY encompasses its said neutral surface.

22. The timepiece resonator according to claim 1, wherein at least one said flexible strip includes comprises, at a distance from said first recess and from said second recess, a plurality of said ribs regularly distributed in a longitudinal direction joining said recesses.

23. The timepiece resonator according to claim 3, wherein at least one said flexible strip comprises, at a distance from said first recess and from said second recess, a plurality of said ribs, the number of which is greater than or equal to the difference between on the one hand the quotient L/H between said length L and said height H, and on the other hand one unit.

24. The timepiece resonator according to claim 1, wherein the projection of at least one said flexible strip on said plane XY includes, at all of the surface junctions, rounded neck-mouldings with a minimum radius value of 10 micrometres.

25. The timepiece resonator according to claim 1, wherein at least one said flexible strip is made of micromachinable material or silicon temperature-compensated by a peripheral layer of silicon dioxide.

26. A timepiece comprising at least one timepiece resonator according to claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0035] Other features and advantages of the invention will become apparent upon reading the following detailed description, with reference to the appended drawings, wherein:

[0036] FIG. 1 shows, schematically, partial and in perspective view, a flexible guide included in a resonator according to the invention, which includes two flexible strips located in parallel planes, and which cross in projection on an projection plane XY parallel to these two planes; the supporting structure and the inertial mass suspended by the elastic strips are only briefly shown at the recesses of the flexible strips; this flexible guide relates to a first alternative implementation, where, at a projection crossing zone ZC, the flexible strips include on only one side ribs intended to limit the anticlastic curvature;

[0037] FIG. 2 is a plan view of the flexible guide of FIG. 1;

[0038] FIG. 3 is a detail of the crossing zone of the strips of FIG. 2;

[0039] FIG. 4 is an even more enlarged detail of this same crossing zone, and where the hatchings show the superposition zone of the strips in a rest state;

[0040] FIG. 5 shows, in a manner similar to FIG. 1, a second alternative implementation, where, at the crossing zone ZC in projection, the flexible strips include on their two sides ribs intended to limit the anticlastic curvature, these ribs being of unequal transverse extension;

[0041] FIG. 6 is a plan view of the flexible guide of FIG. 5;

[0042] FIG. 7 is a detail of the crossing zone of the strips of FIG. 6;

[0043] FIG. 8 is an even more enlarged detail of this same crossing zone and where the hatchings show the superposition zone of the strips in a rest state;

[0044] FIG. 9 illustrates a different configuration of the invention, where, at the crossing zone ZC in projection, the flexible strips include on their two sides equal ribs intended to limit the anticlastic curvature, and where the hatchings show the superposition zone of the strips in a rest state, which is much more extensive than in FIGS. 5 and 8 specific to the invention;

[0045] FIG. 10 is a block diagram showing a timepiece, particularly a watch, including a resonator according to the invention with at least one such flexible guide including flexible strips of geometry optimised against the anticlastic curvature.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0046] The invention proposes to improve the control of the anticlastic curvature of the flexible strips included in a resonator flexible guide, by also enhancing the embodiments described by document EP3667432.

[0047] Thus, the invention relates to a timepiece resonator 100 including an inertial element 5 moveable in relation to a fixed structure 4, and that is suspended to at least one flexible guide 10 including flexible strips 1, 2, crossed in projection on a plane XY at a single crossing zone ZC. Each one of these flexible strips 1, 2, is deformable in a plane parallel to the plane XY. Each one extending in a ribbon on either side of a neutral surface SN1, SN2, perpendicular to the plane XY and joining on the one hand the first respective recess 41, 42, with the structure 4, and on the other hand and the second respective recess 51, 52, with the inertial element 5. In sum, the ribbon constitutes the core of the flexible strip 1, 2.

[0048] According to the invention, each flexible strip 1, 2, includes at least one rib 3, which is asymmetrical in relation to its neutral surface SN1, SN2. In addition, at the crossing zone ZC, either each flexible strip 1, 2, does not include any rib 3, or each rib 3 is asymmetrical in relation to its neutral surface SN1, SN2.

[0049] More particularly, the flexible guide 10 constitutes an elastic return means of the inertial element 5. This flexible guide 10 includes at least two flexible strips 1, 2, deformable in planes P1, P2, parallel with one another and parallel to the projection plane XY.

[0050] The structure 4 and the inertial element 5 are, each one, stiffer than each flexible strip 1, 2. Each flexible strip 1, 2, has its largest dimension called length L between its recesses 41, 42; 51, 52. Each flexible strip 1, 2, includes at least two sections 6 of constant thickness equal to a nominal thickness EN, which are separated by at least one relief 11, 12, respectively 21, 22, forming a rib 3 extending substantially in a direction Z orthogonal to the projection plane XY to limit the anticlastic curvature of the flexible strip 1, 2.

[0051] More particularly, at the crossing zone ZC, each rib 3 is asymmetrical in relation to its neutral surface SN1, SN2.

[0052] More particularly, each asymmetrical rib 3 includes an outer relief 11, 21, on the side opposite to each other strip the distal end of which is separated by an outer distance DE1, DE2, from the neutral surface SN1, SN2, and, facing the outer relief 11, 21, and on the side facing another strip, an inner relief 12, 22, the distal end of which is separated by an inner distance DI1, DI2, from the neutral surface SN1, SN2, which is less than the outer distance DE1, DE2.

[0053] More particularly, each flexible strip 1, 2, has, in a plane parallel to the projection plane XY, a second dimension E called thickness and that is less than the length L, and, in a direction Z orthogonal to the projection plane XY, a third dimension H called height and the value of which is between those of the length L and of the thickness E.

[0054] More particularly, at least one relief 11, 12, 21, 22, is protruding from the flexible strip 1, 2, which supports it by a value that is greater than half the smallest thickness of the flexible strip 1, 2, or the nominal thickness EN, to limit the anticlastic curvature of this flexible strip 1, 2, and the flexible strip 1, 2, includes, at a distance from its recesses, at least one rib 3 extending substantially in the direction Z.

[0055] More particularly, each rib 3 is separated from any neck included in the flexible strip 1, 2, by a value greater than or equal to the height H of the flexible strip 1, 2.

[0056] More particularly, at least one flexible strip 1, 2, is symmetrical in relation to the median plane parallel to the plane XY.

[0057] More particularly, each rib 3 includes at least one generatrix 31 that is farther from its neutral surface SN1, SN2, than the lateral surfaces of the sections 6 of the flexible strip 1, 2, located outside of the ribs 3. In addition, more particularly, the longitudinal extension LN of each rib 3 of the flexible strip 1, 2, in a direction joining the recesses 41, 42, respectively 51, 52 of the flexible strip 1, 2, is less than or equal to one fifth of the length L of the flexible strip 1, 2, between its recesses 41, 42, respectively 51, 52.

[0058] More particularly, at least one flexible strip 1, 2, includes a plurality of such sections 6 extending along its neutral surface SN1, SN2, and in the geometric extension of one another along the neutral surface SN1, SN2, with the same nominal thickness EN, each section 6 forming a ribbon the lateral surfaces 60 of which are parallel to the direction Z. In addition, in projection on the plane XY, at least two sections 6 are separated by a rib 3 of protruding thickness ES in relation to a lateral surface 60, the protruding thickness ES being greater than or equal to the nominal thickness EN. Yet more particularly, this protruding thickness ES is at least one and a half times greater than the nominal thickness EN.

[0059] More particularly, at least one flexible strip 1, 2, includes, at a distance from the first recess 41, 42, and from the second recess 51, 52, at least two ribs 3.

[0060] More particularly, at least one flexible strip 1, 2, is straight and includes its neutral surface SN1, SN2, which is flat in a strip direction D joining the first recess 41, 42, and the second recess 51, 52.

[0061] More particularly, at least one flexible strip 1, 2, includes at least one rib 3 that extends over the entire height H of the flexible strip 1, 2, in the direction Z.

[0062] More particularly, the height H of at least one flexible strip 1, 2, is less than or equal to one fifth of the length L of the flexible strip 1, 2, between its recesses 41, 42, respectively 51, 52.

[0063] More particularly, the transverse maximum thickness EM of the flexible strip 1, 2, is less than or equal to one fifth of the height H of this flexible strip 1, 2.

[0064] More particularly, the flexible strip 1, 2, forms a straight prism extending in the direction Z. Here, prism means a volume from the translation of a base surface, in a rectilinear or curvilinear direction, a straight prism being from the translation in a rectilinear direction. More particularly, the base of this prism in the plane XY is symmetrical in relation to the projection of the neutral surface SN1, SN2, in the plane XY.

[0065] More particularly, the longitudinal extension LN of each rib 3 of at least one flexible strip 1, 2, is less than or equal to the transverse protruding thickness ES of the rib 3.

[0066] More particularly, at least one rib 3 is a rectangular parallelepiped.

[0067] More particularly, at least one rib 3 is symmetrical in relation to the neutral surface SN1, SN2.

[0068] More particularly, at least one flexible strip 1, 2, includes, at a distance from the first recess 41, 42, and from the second recess 51, 52, a plurality of ribs 3 protruding alternately on either side of the sections 6.

[0069] More particularly, any projection of at least one flexible strip 1, 2, in its rest position, on the plane XY encompasses its neutral surface SN1, SN2.

[0070] More particularly, at least one flexible strip 1, 2, includes, at a distance from the first recess 41, 42, and from the second recess 51, 52, a plurality of ribs 3 regularly distributed in a longitudinal direction joining the recesses 41, 42, and 51, 52.

[0071] More particularly, at least one flexible strip 1, 2, includes, at a distance from the first recess 41, 42, and from the second recess 51, 52, a plurality of ribs 3, the number of which is greater than or equal to the difference between on the one hand the quotient L/H between the length L and the height H, and on the other hand one unit.

[0072] More particularly, the projection of at least one flexible strip 1, 2, on the plane XY includes, at all of the surface junctions, rounded neck-mouldings with a minimum radius value of 10 micrometres.

[0073] The figures show non-limiting, particular cases, where each one of the flexible strips 1, 2, includes, either ribs on one side of the strip ribbon, or all of the ribs that have the same transverse protrusion on the same side of the strip ribbon. These configurations are the most advantageous.

[0074] However, the invention essentially relates to the particular arrangement of the flexible strips at their crossing zone ZC in projection, to facilitate the development of the corresponding flexible guides 10. Therefore, the invention remains applicable to variants not illustrated, where the flexible strips 1, 2, include other rib arrangements: for example strips with ribs sometimes extending on one side and sometimes on the other side of the strip (for example outwardly before the crossing and on the other side after), or also alternating ribs, etc.

[0075] More particularly, at least one flexible strip 1, 2, is made of micromachinable material or of silicon temperature-compensated by a peripheral layer of silicon dioxide.

[0076] More particularly, at least one flexible strip 1, 2, is made by a DRIE or LIGA or similar process.

[0077] The invention also relates to a timepiece 1000 including at least one such timepiece resonator 100. More particularly, this timepiece 100 is a watch, in particular a mechanical watch.