This application claims priority from European Patent Application No. 11177438.6 filed Aug. 12, 2011, the entire disclosure of which is incorporated herein by reference.
The invention relates to an escapement system for a timepiece and, more specifically, a system of this type comprising pallet fork wherein the function of the lever and that of the fork can be uncoupled.
Free escapement systems of the Swiss lever type are difficult to improve since they are a compromise between the lowest possible inertia and the best possible tribology of the pallet-stones and fork. Thus, it is difficult to prevent sticking between the impulse pin and the horns of the fork whilst maintaining minimum inertia and even insensitivity to magnetic fields.
It is an object of the present invention to overcome all of part of the aforecited drawbacks by proposing a method for fabricating pallets having a low inertia lever and a fork with favourable tribological properties.
The invention therefore relates to a method for fabricating pallets for an escapement system, characterized in that it includes the following steps:
According to a first alternative embodiment, the fabricating method according to the invention differs in that it includes the following steps:
According to a second alternative embodiment, the fabricating method according to the invention differs in that it includes the following steps:
Thus, advantageously according to the invention, the mechanical features provided by the lever material are no longer dependent on those of the fork. Consequently, by way of example, the lever may advantageously offer low inertia and the fork optimised tribology.
In accordance with other advantageous features of the invention:
Finally, the invention relates to a timepiece, characterized in that it includes an escapement system with pallets obtained from the method according to any of the preceding embodiments.
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:
The examples illustrated in
Pallets 3 preferably include a lever 9 formed of a first metallic material which is preferably selected for its low density, low sensitivity to magnetic fields and possibly its capacity to change, for example, ruby pallet stones 10, 12.
Thus, preferably, the material of lever 9 may be, for example, titanium, aluminium or an austenitic cobalt alloy.
Lever 9 includes arms 11 and 13 for carrying pallet stones 10 and 12 in order to cooperate with at least one escape wheel (not shown), of escapement system 1. The pallet staff 14 is mounted between these two arms 11 and 13 for pivotably mounting pallets 3. Staff 14 may be made, for example, of a material like steel, brass or copper-nickel-zinc alloy. Finally, at the opposite end to arms 11 and 13, lever 9 has a dart 15 and a pallets fork 17.
Advantageously according to the invention, dart 15 is integral with lever 9 and preferably in the extension thereof. Dart 15 is for cooperating with the small roller 4 to prevent accidental movements of pallets fork 17.
pallet fork 17 preferably includes an over-moulding 19 formed by a second material which is preferably different from the first material of lever 9 and intended to improve the tribological properties of fork 17 on impulse pin 7 while avoiding adversely affecting the overall inertia of pallets 3. Preferably, the material of fork 17 is also paramagnetic in order to reduce the sensitivity of pallets 3 to magnetic fields.
The material of pallets fork 17 is ideally a material exhibiting low wear and having a low friction coefficient in association with impulse pin 7 of large roller 8. This material may be a polymer.
Preferably, the polymer used is polyoxymethylene (POM) for its particular shock damping properties, low sensitivity to magnetic fields and very good tribological properties. During development it was thus discovered that the hertz pressure exerted by the ruby impulse pin on the polyoxymethylene horns was limited to 54 Mpa, i.e. an 85% reduction in mechanical stresses compared to standard steel horns.
Fork 17 is preferably over-moulded onto lever 9 at dart 15 and includes two horns 16 and 18 intended to enter into contact with impulse pin 7 of large roller 8 in order, after the rotation of pin 7, to pivot pallets 3 about staff 14 in a to-and-fro motion.
Advantageously according to the invention, separating the materials of pallets fork 17 from that of lever 9, optimises the properties of pallets 3 between the desired sensitivity to magnetic fields and/or the desired inertia of lever 9 on the one hand, and on the other hand the low wear and low friction coefficient of pallets fork 17 in association with impulse pin 7.
Preferably, the over-mould of pallets fork 17 traps lever 9 so as to ensure that it does not become detached. Thus, as seen in
Of course, lever 9, pallet stones 10, 12 or staff 14 may be different. Thus, by way of example, according to a first alternative, pallet stones 10, 12 may be integral with lever 9 if one does not wish to be able to change pallet stones 10, 12. For the same purpose, according to a second alternative, pallet stones 10, 12 may be over-moulded in an identical or similar manner with respect to pallets fork 17. i.e. with a polymer such as, for example, polyoxymethylene.
The method 31 of fabricating pallets 3 will now be explained with reference to
Step 33 may be achieved by numerous techniques, such as for example a LIGA process, stamping or bar turning. This step 33 allows lever 9, arms 11, 13 and dart 15 to be fabricated in a single piece. As seen in
Of course, in the case of the first alternative cited above, step 33 is also for forming an integral pallet stone 10, 12 on each arm 11, 13.
Finally, as explained above, step 33 also preferably forms notches 25, 26 which will be filled with the future over-mould(s).
Method 31 continues with the second step 35 for over-moulding a second material on the first end, i.e. near dart 15, to form pallets fork 17 and, possibly, on said second end in order to form pallet stones 10, 12. Preferably, to guarantee optimum structural quality, the mould 27 used for over-moulding is achieved by a LIGA process, i.e. photolithography followed by galvanoplasty.
Mould 27 includes stop members 28 and 29 for locking arms 13, 11 and lever 9 respectively. Only cavity 30 of mould 27 is intended to be filled. Of course, several over-moulds could be made in the same mould 27, i.e. mould 27 could include several cavities 30 and several pallets levers could be placed in the mould and/or other parts of lever 9 could be over-moulded, for example to make the second alternative embodiment.
As explained above, the second material is preferably a polymer. Consequently, step 35 preferably consists in over-moulding the lever of the pallets by injecting polymer into cavity 30 of mould 27 in order to form the body of pallets fork 17 with, in particular, horns 16 and 18 and, possibly, according to the second alternative embodiment, to form pallet stones 10, 12 on arms 11, 13.
The third step 37 of method 31 is for mounting pallet stones 10, 12 in holes 23, 24 and staff 14 in hole 22 so that pallets 3 can be rotatably mounted. At the end of these last two steps, pallets 3 are finished and can be mounted in a timepiece as an element in a Swiss lever escapement system 1.
Of course, in the case of the first and second alternative embodiment, step 37 must be considered to be limited to mounting staff 14 in hole 22 so that pallets 3 can be rotatably mounted.
Consequently, pallets 3 are of the composite type, i.e. formed from two distinct materials. Thus, as shown in
Of course, this invention is not limited to the illustrated example but is capable of various variants and alterations that will appear to those skilled in the art.
In particular the shapes of pallets 3 and/or roller 5 may be different. Pallets 3 may also include, for example, at least a third arm for carrying at least a third pallet stone for the application of the invention to a coaxial escapement system.
It is also possible to imagine adapting the shape of pallets fork 17 and more specifically that of horns 16 and 18 to fit another type of roller or another type of material of impulse pin 7 to prevent wear and sticking during successive contacts.
Finally, the different first and second materials may also be a difference in external coating, although the core of the materials is the same. By way of example, lever 9 could also be formed of polymer coated silicon without departing from the fact that the first material of lever 9 is different from the second material of fork 17.
Number | Date | Country | Kind |
---|---|---|---|
11177438.6 | Aug 2011 | EP | regional |