This application claims priority from European Patent Application No. 15172336.8 filed Jun. 16, 2015, the entire disclosure of which is incorporated herein by reference.
The invention relates to a part with an improved welding surface and, more specifically, such a part whose surface can be adapted for improved welding.
It is known from WO Publication 2015/185423 how to form a timepiece component from a part comprising a silicon-based or ceramic-based material which is welded by electromagnetic radiation directly onto another part, such as, for example, a metal or a metal alloy.
In the context of this development, it transpired that it was important for the gap between the parts not to exceed 0.5 micrometer, otherwise they could not be welded together.
It is an object of the present invention to overcome all of part of aforecited drawbacks by proposing a timepiece component comprising a new part with at least one contact surface that allows for geometric adaptation to ensure the assembly thereof by welding to another member.
To this end, the invention relates to a timepiece component comprising a one-piece part welded on a member provided with a substantially horizontal surface and a substantially vertical surface, characterized in that the one-piece part includes elastic means of attachment to said substantially vertical surface and in that the one-piece part further includes securing means arranged to be welded on said substantially horizontal surface enabling the attachment of the elastic means to be decoupled from the securing means to ensure the welding of the timepiece component.
Advantageously according to the invention, the timepiece component includes a one-piece part comprising elastic attachment means enabling centring relative to a member, which are separate from securing means, which are intended to be welded on the member and adapt to the geometry of the member to decrease the gap below 0.5 micrometer and, incidentally, ensure the welding of the timepiece component.
In accordance with other advantageous variants of the invention:
Moreover, the invention relates to a timepiece, characterized in that it includes at least one timepiece component according to any of the preceding variants.
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 invention relates to a timepiece component formed with the aid of a part whose material has no usable plastic range i.e. a very limited plastic range, and another part comprising the same type of material or a different type of material.
This component was devised for applications in the field of horology and is rendered necessary by the increasing part played by fragile, brittle materials, such as silicon-based or ceramic-based materials. It is possible, for example, to envisage forming a case, a dial, a flange, a crystal, a bezel, a push-button, a crown, a case back, a hand, a bracelet or strap, a balance spring, a balance wheel, a pallets, a bridge or bar, an oscillating weight or even a wheel, such as an escape wheel, entirely or partially from fragile or brittle materials.
Preferably, the silicon-based material used to make the compensated balance spring may be single crystal silicon, regardless of its crystal orientation, doped single crystal silicon, regardless of its crystal orientation, amorphous silicon, porous silicon, polycrystalline silicon, silicon nitride, silicon carbide, quartz, regardless of its crystal orientation, or silicon oxide. Of course, other materials may be envisaged, such as glass, ceramics, cermets, metals or metal alloys. Further, the first silicon-based part may also optionally include at least one partial coating of silicon oxide, silicon nitride, silicon carbide or an allotrope of carbon, depending upon the intended applications of the timepiece component.
As explained above, the other part may include the same type of material or another type of material. Therefore, preferably, the other part is metal-based and may include an iron alloy, a copper alloy, nickel or an alloy thereof, 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.
For the sake of simplicity, the explanation below will concern an assembly between a balance spring and a balance staff.
A compensating balance spring 15 is shown more clearly in
A staff 27 is illustrated more clearly in
As illustrated in
However, within the context of developing the teaching of WO Publication 2015/185423, it very soon became clear that the gap between the parts must not exceed 0.5 micrometer, otherwise they cannot be welded together.
According to the embodiments of the invention described below, the timepiece component includes one part comprising attachment means, enabling centring relative to a member, which are separated from securing means, intended to be welded on the member which, advantageously according to the invention, adapt to the geometry of the member to decrease said gap below 0.5 micrometer and, incidentally, ensure the welding of the timepiece component.
Advantageously according to the invention, the one-piece part 35, 45, 55, 65, 75 includes elastic means 30, 40, 50, 60, 70 of attachment to said substantially vertical surface forming a shaft 21 and securing means 36, 46, 56, 66, 76 arranged to be welded on said substantially horizontal surface forming a shoulder 23. It is thus understood that the one-piece part forming a balance spring 35, 45, 55, 65, 75 enables the decoupling between, on the one hand, the attachment of the elastic means 30, 40, 50, 60, 70 enabling centring on shaft 21 and, on the other hand, the securing means 36, 46, 56, 66, 76 which are used to ensure the welding of the timepiece component between the lower area 32, 42, 52, 62, 72 of the securing means 36, 46, 56, 66, 76 and shoulder 23 of staff 27.
Further, the one-piece balance spring part 35, 45, 55, 65, 75 includes a strip 37, 47, 57, 67, 77 extending in a closed curve 33, 43, 53, 63, 73, the space delimited by the closed curve 33, 43, 53, 63, 73 forming a collet for receiving the member formed by staff 27.
According to a first embodiment illustrated in
Advantageously according to the first embodiment, it can be seen in
Further, the securing means are also formed by said strip 37 whose closed curve 33 offers elastic deformation portions 36, each lower surface 32 of elastic deformation portions 36 is only intended to come into contact with said substantially horizontal surface forming a shoulder 23 in order to adapt to its geometry so as to ensure the welding thereof.
It is thus understood that lower face 32 is capable of deforming to compensate for any unevenness of the shoulder 23, i.e. lower face 32 can follow the geometry of shoulder 23 with more degrees of freedom, in order to reduce the gap to a value less than or equal to 0.5 micrometer.
Thus, after the one-piece balance spring part 35 is fitted onto diameter portion 22 of staff 27, laser welding is ensured since elastic deformation portions of the securing means 36 can decrease the gap with member 27 to a value less than or equal to 0.5 micrometer.
Advantageously according to a second embodiment of the invention, it can be seen in
Further, the securing means 46 are formed by branches integral with strip 47 extending inside the space delimited by closed curve 43 and offering elastic deformation portions, each lower surface 42 of the securing means 46 is only intended to come into contact with said substantially horizontal surface forming shoulder 23 in order to adapt to its geometry so as to ensure the welding thereof.
It is thus understood that lower face 42 is capable of deforming to compensate for any unevenness of the shoulder 23, i.e. lower face 42 can follow the geometry of shoulder 23 with more degrees of freedom, in order to reduce the gap to a value less than or equal to 0.5 micrometer.
Thus, after the one-piece balance spring part 45 is fitted onto diameter portion 22 of staff 27, laser welding is ensured since elastic deformation portions of the securing means 46 can decrease the gap with member 27 to a value less than or equal to 0.5 micrometer.
Advantageously according to a third embodiment of the invention, it can be seen in
Further, the securing means 56 are formed by branches integral with strip 57 extending outside the space delimited by closed curve 53 and offering elastic deformation portions, each lower surface 52 of the securing means 56 is only intended to come into contact with said substantially horizontal surface forming shoulder 23 in order to adapt to its geometry so as to ensure the welding thereof.
It is thus understood that lower face 52 is capable of deforming to compensate for any unevenness of the shoulder 23, i.e. lower face 52 can follow the geometry of shoulder 23 with more degrees of freedom, in order to reduce the gap to a value less than or equal to 0.5 micrometer.
Thus, after the one-piece balance spring part 55 is fitted onto diameter portion 22 of staff 27, laser welding is ensured since elastic deformation portions of the securing means 56 can decrease the gap with member 27 to a value less than or equal to 0.5 micrometer.
According to a variant of the embodiment of
Advantageously according to a fourth embodiment, it can be seen in
Further, the securing means 66 are formed by strip 67, whose closed curve 63 substantially forms a ring and offers elastic deformation portions that only come into contact with said substantially horizontal surface forming shoulder 23 in order to adapt to its geometry so as to ensure the welding thereof.
It is thus understood that lower face 62 is capable of compensating for any unevenness of the shoulder 23, i.e. lower face 62 can follow the geometry of shoulder 23 with more degrees of freedom, in order to reduce the gap to a value less than or equal to 0.5 micrometer.
Thus, after the one-piece balance spring part 65 is fitted onto diameter portion 22 of staff 27, laser welding is ensured since the geometry of the one-piece part 65 can decrease the gap with member 27 to a value less than or equal to 0.5 micrometer.
Advantageously according to a fifth embodiment of the invention, it can be seen in
Further, the securing means 76 are formed by branches integral with strip 77 extending outside the space delimited by closed curve 73 and offering elastic deformation portions, each lower surface 72 of which is only intended to come into contact with said substantially horizontal surface forming shoulder 23 in order to adapt to its geometry so as to ensure the welding thereof.
It is thus understood that lower face 72 is capable of deforming to compensate for any unevenness of the shoulder 23, i.e. lower face 72 can follow the geometry of shoulder 23 with more degrees of freedom, in order to reduce the gap to a value less than or equal to 0.5 micrometer.
Thus, after the one-piece balance spring part 75 is fitted onto diameter portion 22 of staff 27, laser welding is ensured since elastic deformation portions of the securing means 76 can decrease the gap with member 27 to a value less than or equal to 0.5 micrometer.
Of course, the present invention is not limited to the illustrated example but is capable of various variants and modifications which will appear to those skilled in the art. In particular, the timepiece component is not limited to the embodiments set out in the present specification. Indeed, depending on the desired applications, it could be of different geometry to obtain different surfaces.
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