The invention relates to a resonator with fine adjustment via an index-assembly and more particularly to a resonator whose frequency can be adjusted with a smaller variation for the same shift of the index-assembly.
Adjustment of the frequency of a balance/balance-spring resonator can be achieved through modification of the inertia of the balance or of the elastic torque of the balance-spring.
It is known to use an index-assembly to modify the elastic torque of the balance-spring. An index-assembly generally includes two stop members intended to form the count-point, i.e. to define the length of the balance-spring strip, called the active length, which will work in contraction and expansion to provide the elastic torque of the resonator.
However, adjustment via an index-assembly is very sensitive, i.e. a slight shift of the stop members results in a large variation in frequency, and entails the development of micrometric screw systems designed to make adjustment more precise.
It is an object of the present invention to overcome all or part of the aforementioned drawbacks by proposing a resonator with a frequency adjustment system making finer frequency adjustment possible by means of an index-assembly facilitating the final timing work during manufacture and after-sales setting.
To this end, the invention relates to a resonator of the inertia/elasticity type comprising a balance-spring coupled to an inertia flywheel and a system for adjusting the frequency of the resonator comprising an index-assembly including two stop members arranged to cooperate with one coil of the balance-spring in order to selectively choose the active length of the balance-spring, characterized in that the portion of the balance-spring coil cooperating with the index-assembly includes at least one area of greater cross-section than the other coils of the balance-spring so that the index-assembly has less impact on the resonator frequency than on the non-thickened cross-section of the rest of the balance-spring.
Advantageously according to the invention, it is thus understood that an extra thickness of material on the balance-spring coil that cooperates with the index-assembly is sufficient to achieve finer adjustment of the rate of the resonator. Indeed, it was found that an area of larger cross-section results in stiffening, capable, in combination with an index-assembly, of diminishing the effect of this area on the elastic torque of the balance-spring compared to the effect on the rest of the non-thickened balance-spring. It is thus clear that the shift of the index-assembly along the thickened section will have less impact on the resonator frequency than on the non-thickened section of the rest of the balance-spring, which advantageously makes it possible to obtain the same variation in rate with a greater shift of the index-assembly.
In accordance with other advantageous variants of the invention:
Moreover, the invention relates to a timepiece comprising a cock and a plate, characterized in that the timepiece further includes a resonator according to any of the preceding variants, the index-assembly being mounted on the cock and the resonator being mounted to pivot, by means of a staff, between the cock and the plate.
Other features and advantages will appear clearly from the following description, given by way of non-limiting illustration, with reference to the annexed drawings, in which:
Adjustment via an index-assembly is very sensitive, i.e. a slight shift of the stop members results in a large variation in frequency, and entails the development of micrometric screw systems designed to make adjustment more precise. By way of information, a variation of one second per day is generally obtained with a shift of approximately 2 to 3 micrometers of the index-assembly stop members along the outer coil, which corresponds to an index rotation of around 0.05°.
The present invention proposes to restore interest in adjustment via an index-assembly by proposing an adjustment to the resonator of one second per day for a larger shift of the index-assembly such as, for example, comprised between 10 and 50 micrometers, along the portion of the balance-spring coil cooperating with the index-assembly.
Advantageously according to the invention, it is even clear that it is possible to envisage a universal adjustment for the calibres of the same industrial group or the same watch brand, consisting in developing an identical shift of the index for each calibre, allowing the one second-per-day variation of the resonator. Indeed, such a universal adjustment would simplify the final timing work during manufacture and after-sales setting.
Thus, the invention relates to a resonator of the inertia/elasticity type comprising a balance-spring coupled to an inertia flywheel such as, for example, a balance/balance-spring resonator. A balance-spring 1, as partially shown in
Further, the resonator includes a frequency adjustment system comprising an index-assembly arranged to cooperate with one coil of the balance-spring to selectively choose the active length of the balance-spring. The coil is preferably the outer coil of the balance-spring for evident reasons of accessibility. However, it is also possible to use, as an equivalent alternative, the penultimate coil, i.e. the coil preceding the outer coil.
Advantageously according to the invention, the portion of the balance-spring coil cooperating with the index-assembly comprises at least one area of larger cross-section than the other balance-spring coils for finer adjustment of the resonator frequency. Consequently, as explained above, each area of larger cross-section than the other balance-spring coils may have a variation in thickness E and/or a variation in height H to modify its cross-section.
Indeed, it was found that an area of larger cross-section results in stiffening, capable, in combination with an index-assembly, of diminishing the effect of this area on the elastic torque of the balance-spring compared to the effect on the rest of the non-thickened balance-spring. It is thus clear that the shift of the index-assembly along the thickened section will have less impact on the resonator frequency than on the non-thickened section of the rest of the balance-spring, which advantageously makes it possible to obtain the same variation in rate with a greater shift of the index-assembly.
A first embodiment of the invention is illustrated in
Index-assembly 31 is also mounted on cock 14 and includes two stop members 33, 35. Index-assembly 31 is arranged to cooperate, preferably, with one portion 24 of outer coil 26 of balance-spring 21 which includes at least one area of larger cross-section than the other balance-spring coils for finer adjustment of the frequency of resonator 11. However, it is also possible to use, as an equivalent alternative, a thickened portion on the penultimate coil, i.e. the coil preceding outer coil 26.
In the example of
Preferably, the cross-sectional thickening is achieved simply by an increased thickness of area 24 as illustrated in
Advantageously according to the invention, this type of balance-spring 21 may be obtained by additive or destructive manufacturing methods. Thus, among non-limiting examples of additive or destructive manufacturing methods the following may be cited: LIGA processes, three-dimensional printing, methods mixing mask photolithography and dry or wet etching according to the patterns of said mask, methods mixing alloy casting and wire rolling in at least two distinct consecutive sections or laser etching.
It is clear in this regard that the balance-spring can be manufactured from numerous materials. By way of non-limiting examples, the balance-spring may thus be manufactured from a base of silicon, ceramic or metal. When the balance is silicon-based, it may include, for example, single crystal silicon, doped single crystal silicon, polycrystalline silicon, doped polycrystalline silicon, porous silicon, silicon oxide, quartz, silica, silicon nitride or silicon carbide.
Further, when the balance-spring is ceramic based, it may include, for example, photostructurable glass, borosilicate, aluminosilicate, quartz glass, zerodur, single crystal corundum, polycrystalline corundum, alumina, aluminium oxide, aluminium nitride, single crystal ruby, polycrystalline ruby, zirconium oxide, titanium oxide, titanium nitride, titanium carbide, tungsten nitride, tungsten carbide, boron nitride or boron carbide.
Finally, when the balance-spring is metal-based, it may include, for example, an iron alloy like 15P, 20AP or 316L steel, or NIVAROX CT, a copper alloy such as brass, a nickel alloy such as nickel silver or NIVAFLEX, titanium or an alloy thereof, gold or an alloy thereof, silver or an alloy thereof, platinum or an alloy thereof, ruthenium or an alloy thereof, rhodium or an alloy thereof, or palladium or an alloy thereof.
Thus, by way of example, thickness E2 and index-assembly 31 are arranged to offer an adjustment of resonator 11 of one second per day for a shift of index-assembly 31 comprised between 10 and 50 micrometers, such as, for example, 20 micrometers, along thickened area 24 of outer coil 26 of balance-spring 21.
It is thus clear that, in addition to the difference in thickness in area 24, the two stop members 33, 35 of index-assembly 31 are selectively positioned on either side of thickness E2 of area 24 of balance-spring 21 and are movable in the same direction A as the length of area 24 of outer coil 26.
In the example of
According to a second embodiment visible in
Consequently, in the example of
Thus, advantageously according to the two embodiments of the invention, a timepiece comprising the resonator according to the invention may be developed with the possibility of choosing a finer or even universal adjustment, which makes the use of index-assembly adjustment more attractive for the final timing work during manufacture and after-sales setting.
Further, according to an alternative (not represented), the variation in thickness between areas E5, E4, E3, E2 and E1 could be progressive between said areas in order to offer a continuously variable adjustment of the resonator for a shift of index-assembly 31 between the areas of thicknesses E5, E4, E3, E2 and E1.
Of course, this invention is not limited to the illustrated example but is capable of various variants and modifications that will appear to those skilled in the art. In particular, the arrangement of areas 24, 42, 44, 48 and of index-assembly 31 may be modified, for example for reasons of ease of implementation.
According to a first alternative illustrated in
According to a second alternative illustrated in
According to a third alternative illustrated in
Number | Date | Country | Kind |
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15170557.1 | Jun 2015 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/060814 | 5/13/2016 | WO | 00 |