This application claims priority from European patent application No. 17180307.5 filed on Jul. 7, 2017, the entire disclosure of which is hereby incorporated herein by reference.
The invention relates to a timepiece oscillator structure comprising at least one divisible unit, which comprises at least one component which comprises at least one flexible blade or at least one blade with necks, joining two main units, each more rigid than said flexible blade or blade with necks, where said divisible unit comprises at least one protection unit which is designed to be adjacent to at least one said main unit to which it is connected by at least one divisible linkage which is designed in order to make possible the detachment of said protection unit from said component when said component is fixed, by means of at least said particular main unit which is designed to be adjacent to said protection unit, to a more rigid external element than said flexible blade or than the necks of said blade with necks.
The invention also relates to a timepiece oscillator mechanism comprising at least one such structure.
The invention also relates to a timepiece movement comprising at least one such timepiece oscillator mechanism.
The invention also relates to a watch comprising such a timepiece movement.
The invention also relates to a method for assembling a timepiece mechanism comprising at least one component, which comprises at least one flexible blade or blade with necks joining two units, each more rigid than this flexible blade or blade with necks.
The invention relates to timepiece oscillator mechanisms and manufacture thereof.
The development of technologies for manufacturing timepiece components made of micromachinable materials, in particular made of silicon and silicon oxide, has made possible the production of elastic components with perfectly reproducible features, representing huge progress relative to the prior art comprising springs made of special steels. In particular, these technologies have made possible the design of oscillators with thin flexible blades, of very reduced dimensions and having very good chronometric properties.
However, handling such components is particularly delicate and any incorrect manoeuvre leads to destruction of components, the cost of which remains still high.
The application WO 2016/062889 A2 in the name of Richemont describes a regulating element for a mechanical clock movement comprising an escapement wheel and a vibrating oscillator provided with at least two vibrating arms and a pallets part which is connected to said vibrating arms and comprises elements arranged so as to cooperate directly with the teeth of the escapement wheel, so as to maintain periodic alternations of the vibrating oscillator and to make the escapement wheel move forward upon each alternation of the oscillations.
The invention proposes to industrialise the manufacture and assembly of components made of micromachinable materials, making possible handling with great safety and in particular by automated handling means.
To this end, the invention relates to a timepiece oscillator structure according to claim 1.
The invention also relates to a timepiece oscillator mechanism comprising at least one such structure.
The invention also relates to a timepiece movement comprising at least one such timepiece oscillator mechanism.
The invention also relates to a watch comprising such a timepiece movement.
The invention also relates to a method for assembling a timepiece mechanism comprising at least one component, which comprises at least one flexible blade or blade with necks joining two main units, each more rigid than this flexible blade or blade with necks.
Other features and advantages of the invention will appear upon reading the detailed description which will follow, with reference to the annexed drawings, where:
The invention relates to a timepiece oscillator structure, comprising at least one divisible unit 10.
This divisible unit 10 is designed to protect, during manufacture, handling, assembly, the most fragile elements of at least one timepiece component 1.
The divisible unit 10 is designed to be separated, after its assembly with other elements, into one functional part formed by each component 1 which it comprises, and a sacrificial part which has no longer any use within the timepiece mechanism, in the centre of which the component 1 is incorporated. This sacrificial part is designed for easy handling, by an operator or by an automated handling means, and it forms a protection unit 4 which protects each component 1, and in particular the most fragile elements which the latter encloses, until separation of the protection unit 4 and components 1 by breaking by bending and/or twisting, cut with a tool such as a wire cutter or saw, or laser-cut, or other.
The divisible unit 10 is designed also, in a particular variant described further on, to allow pretensioning of a flexible element which the component 1 comprises, during manufacture of this divisible unit 10, and in order to preserve the pretensioning position during the entire assembly of the component 1, which makes any stress by a shaping tool or similar unnecessary.
In a preferred but non-limiting application of the invention, the fragile element to be protected is a flexible element, such as a blade or a spring, or similar.
More particularly, the divisible unit 10 comprises thus at least one component 1, which comprises at least one flexible blade 2 or at least one blade with necks 20.
This flexible blade 2 or blade with necks 20, joins two main units 3, each more rigid than the flexible blade 2 or the blade with necks 20 under consideration, at the level of embedding for the flexible blade 2, or at the level of necks 21 for the blade with necks 20.
According to the invention, the divisible unit 10 comprises at least one protection unit 4 which is adjacent to at least one such main unit 3, to which the protection unit 4 is connected by at least one divisible linkage 5. This divisible linkage 5 is designed in order to make possible the detachment of the protection unit 4 from the component 1 when this component 1 is fixed, by means of at least the particular main unit 3 which is adjacent to the protection unit 4, to an external element 9, which is more rigid than the flexible blade 2 or than the necks of the blade with necks 20.
The Figures illustrate, in a non-limiting manner, straight flexible blades 2, blades with necks 20 with a neck 21 on both sides, or even a flexible blade 2 comprising an eye 25 in its central part, it is understood that the shapes of these fragile elements can be extremely varied.
In particular, the component 1 is a timepiece oscillator component, and the flexible blade 2, or the blade with necks 20, is a main component of the oscillator, and ensures the chronometric properties thereof.
The divisible linkage 5 can be produced in various ways. In
In a particularly advantageous configuration, and as visible in the Figures, the same protection unit 4 is adjacent to the main units 3 situated on both sides of the same flexible blade 2 or blade with necks 20, in order to protect this flexible blade 2 or blade with necks 20.
More particularly, each main unit 3 is adjacent to a protection unit 4 to which it is connected by a divisible linkage 5.
In a particular configuration, at least one said main unit 3 forms a free inertial mass, and is designed to be fixed to another free inertial mass of another divisible unit 10, or to an external element 9; this is for example the case of
At least one main unit 3 comprises at least one assembly surface 6 or 11 for rigid fixing thereof to the at least one external element 9. The Figures distinguish smooth assembly surfaces 6, such as borings or similar, and traversing housings 11 comprising a relief which is able to ensure clamping: more particularly, and as visible in
More particularly, each main unit 3 comprises at least one such assembling surface 6 or 11 for rigid fixing thereof to at least one external element 9.
More particularly, at least one said main unit 3 forms a free inertial mass and is devoid of any linkage with an external element 9, which can be the case of
More particularly, the divisible unit 10 comprises a single protection unit 4. This configuration is very reliable if the divisible unit 10 is compact and easily accessible laterally, and it is preferred whenever possible. However, in certain configurations, the divisible unit 10 is very extended in length, or even, once assembled is no longer accessible from everywhere, or even its implantation prevents extraction of a single protection unit 4, in this case it is useful to have a plurality of protection units 4.
In a particularly advantageous application, in the centre of the divisible unit 10, at least one said flexible blade 2 or blade with necks 20 is prestressed in a multistable state, as long as each said protection unit 4 is connected to the component 1. This configuration is interesting in particular when the divisible unit 10 is produced in silicon, and when the prestressing of the flexible element which it comprises is ensured by growth of silicon dioxide, which takes place differentiated on the thin zones and solid zones, and involves buckling of the flexible element: the solid part here is formed by the protection unit 4 in addition to the main units 3. The advantage is the assembling of such a component without requiring any particular pretensioning, the pretensioning is ensured, preserved integrally, and functioning is perfectly reproducible once the component 1 is enclosed and fixed in the structure 100 of which it is part: destruction of the divisible unit does not strictly change anything in the prestressing of the flexible element.
More particularly, the divisible unit 10 is planar, extends between two parallel upper and lower surfaces, and is made of a micromachinable material, or made of silicon and silicon oxide, or made of DLC, or made of an at least partially amorphous material, or similar.
In a particular embodiment, this divisible unit 10 extends over a single level corresponding to the thickness of the thickest said flexible blade 2 or blade with necks 20 which it comprises.
In a particular embodiment, as visible in the example of
In a particular advantageous configuration, the divisible unit 10 is monobloc and non-dismantlable.
The invention also relates to a timepiece oscillator structure 100, comprising a plurality of components 1 fixed one on the other, at least one component 1 of which is a constituent of a divisible unit 10, as described above. More particularly, the structure 100 comprises a plurality of components 1 which are stacked one on the other, at least one component 1 of which is a constituent of such a divisible unit 10.
More particularly, the structure 100 comprises at least two components 1 which are stacked one on the other, each being a constituent of such a divisible unit 10 comprising one said flexible blade 2 or blade with necks 20, and these flexible blades 2 or blades with necks 20 intersect, in projection on a plane parallel to the plane of each of the components 1.
In particular, all the components 1 which said structure 100 comprises form a stack subjected to a clamping force by a linkage clamped along the direction of stacking by connection means which comprise at least one assembled rivet and/or one screw-nut assembly and/or at least one component fixed by clamping.
In one variant, at least some of the components 1 which the structure 100 comprises are maintained in the stack by gluing. More particularly, all the components 1 which the structure 100 comprises form a stack maintained by gluing.
Advantageously, the structure 100 comprises at least one component 1 comprising a traversing housing 11 for passage and fixing of a spindle or a pin or a screw, this traversing housing 11 comprising a plurality of elastic centring springs 12 and a plurality of limit stops for limitation of radial travel 13. In the case of one development of the divisible unit 10 made of silicon, the position of these limit stops 13 is designed in order to allow sufficient straight travel not to break the silicon, this travel is close to 10 micrometers relative to the nominal diameter of the pin or the element of the assembly linkage.
After assembly and connection by screwing and/or fixing and/or gluing or other, each divisible unit 10 is broken at the level of each divisible linkage 5. Hence the protection elements 4 are eliminated from this structure 100.
The invention also relates to a timepiece oscillator mechanism 1000 comprising at least one such structure 100.
The invention also relates to a timepiece movement 2000 comprising at least one such timepiece oscillator mechanism 1000, and/or comprising at least one such structure 100, and/or comprising at least one said divisible unit 10.
The invention also relates to a watch 3000 comprising such a timepiece movement 2000.
The invention also relates to a method for producing a timepiece mechanism comprising at least one component 1, which comprises at least one flexible blade 2 or blade with necks 20 joining two main units 3, each more rigid than this flexible blade 2 or blade with necks 20.
According to this method, there is produced, for at least one component 1, a divisible unit 10 as described above, each divisible unit 10 is assembled with the other constituents of the timepiece mechanism and then all the protection units 14 are separated by breaking of each divisible linkage 5.
More particularly, assembling of the constituents of the timepiece mechanism is effected on a board or tooling equipment, this board or respectively this tooling equipment is fitted with connection means which comprise at least one assembled rivet and/or one screw-nut assembly and/or at least one component fixed by clamping, and/or an adhesive, for assembling with clamping and/or gluing of a stack of constituents along the direction of stacking, and the clamping and/or gluing of the connection means is implemented before implementing breaking of each divisible linkage 5.
Number | Date | Country | Kind |
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17180307 | Jul 2017 | EP | regional |
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Entry |
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European Search Report dated Mar. 1, 2018 in European Application 17180307.5, filed on Jul. 7, 2017 (with English Translation of Categories of cited documents & Written Opinion). |
Number | Date | Country | |
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20190011887 A1 | Jan 2019 | US |