METHOD FOR MANUFACTURING A TIMEPIECE COMPONENT

Abstract

A method for manufacturing a timepiece component including successive steps of: providing a timepiece component (1); breaking the timepiece component (1) into a plurality of pieces (10); depositing the pieces (10) on a support (2) and creating a desired pattern to be reassembled, the pattern having interstices (1) between the various pieces (10) of the timepiece component (1); transferring the support (2) into a mould adapted by hot forming and placing a preform (3) on the pieces (10) of the timepiece component; heating the whole to a temperature higher than the vitreous transition temperature of the preform (3) and applying a force on the preform to fill the interstices (11) and obtain a reassembled timepiece component (1); cooling the whole below the vitreous transition temperature of the preform (3) to form the reassembled timepiece component (1); recovering the reassembled timepiece component (1) and machining it to the required dimensions.

Claims

1. A method for manufacturing a timepiece component comprising the successive steps of: providing a timepiece component; breaking the timepiece component into a plurality of pieces or using the pieces of an already broken timepiece component; depositing the pieces on a support and creating a desired pattern to be reassembled, the pattern having interstices between the various pieces of the timepiece component; transferring the support into a mould adapted by hot forming and placing a preform on the pieces of the timepiece component; heating the whole to a temperature higher than the vitreous transition temperature of the preform and applying a force on the preform to fill the interstices and obtain a reassembled timepiece component; cooling the whole below the vitreous transition temperature of the preform to form the reassembled timepiece component; and recovering the reassembled timepiece component and machining it to the required dimensions.

2. The manufacturing method according to claim 1, wherein the preform is made of an amorphous metal or a partially amorphous metal.

3. The manufacturing method according to claim 2, wherein the amorphous or partially amorphous metal is a platinum alloy, a palladium alloy, a zirconium alloy, a gold or silver alloy.

4. The manufacturing method according to claim 1, wherein the material forming the timepiece component is selected from materials having a melting temperature higher than the Tg of the amorphous metals, including metals, ceramics, glass, sapphire, diamond, mother-of-pearl, silicon, precious and semi-precious stones.

5. The manufacturing method according to claim 1, wherein the reassembled timepiece component is subjected to one at least of the following finishing operations: sanding, brushing, sunray brushing, satin finishing, polishing or laser matte finishing.

6. The manufacturing method according to claim 1, wherein the timepiece component is selected from: a bezel, a back, a bridge, a plate, an oscillating mass or also an item of jewellery.

7. A timepiece component obtained by implementing a manufacturing method according to claim 1.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0029] Other features and advantages of the present invention will become more apparent upon reading the following detailed description of one implementation of the method according to the invention, this example being given for purely illustrative and non-limiting purposes only in connection with the appended drawing wherein:

[0030] FIGS. 1(a)-1(f) show the various steps of the manufacturing method;

[0031] FIG. 2 is a top view of a watch dial obtained by implementing the manufacturing method according to the invention.

DETAILED DESCRIPTION OF AN EMBODIMENT OF THE INVENTION

[0032] In accordance with the invention, firstly a timepiece component is provided for step a) shown in FIG. 1(a). In the example illustrated in the figures, this timepiece component is a watch dial 1. Of course, this example is given for purely illustrative and non-limiting purposes, the manufactured timepiece component capable of being of any type such as a bezel, a back, a bridge, a plate, an oscillating mass or also an item of jewellery. The only restriction to which this timepiece component is subject is that it must be made of a material the mechanical properties of which are not modified in the range of temperatures involved by the method of the invention. In other words, the timepiece component must not deform, soften, or even melt during the decoration operations in accordance with the invention.

[0033] Once provided with a watch dial 1, the latter is broken into a plurality of pieces 10 during the following step b) shown in FIG. 1(b). This operation may be performed totally randomly to subsequently obtain unique patterns, or in a controlled way to obtain predetermined patterns.

[0034] According to one variant of the invention, pieces already broken such as waste or scraps may be used instead of the previously broken timepiece component.

[0035] The material used for the dial 1 may be a metal material such as steel, brass, aluminium or titanium but it may also be a so-called brittle material. Brittle material means a material that has no exploitable plastic deformation such as for example quartz, ruby, sapphire, glass, silicon, diamond, graphite, carbon or a ceramic such as silicon nitride and silicon carbide or a cermet-type composite. It is then understood that a part made from such a material is very brittle and may be broken easily.

[0036] The material forming the timepiece component 1 is selected from materials having a melting temperature higher than the Tg of the amorphous metal used subsequently in the method.

[0037] During step c) shown in FIG. 1(c), the pieces 10 of the dial 1 should be transferred on a support 2, such as a stake or a base, to create a desired pattern to be reassembled, the pattern having interstices 11 between the various pieces. The pieces 10 of the dial are dimensioned and positioned in relation to one another so that at least one interstice 11 appears. The interstices 11 are used so that another material can be inserted therein, the latter being used to act as a connecting and decoration element between the pieces of the dial 1.

[0038] Once the pieces 10 have been placed on the support 2, the latter is transferred into a mould adapted by hot forming and a metal preform 3 is placed on the dial pieces (step d) shown in FIG. 1(d).

[0039] According to the invention, the material used for the preform 3 and acting as a connecting element between the pieces 10 of the dial, is an amorphous or partially amorphous metal material.

[0040] It will be understood by partially amorphous material that the material is capable of solidifying at least partially during amorphous phase, that is to say that it is subjected to a temperature rise above its melting temperature enabling it to locally lose all crystalline structure, said rise being followed by cooling to a temperature lower than its vitreous transition temperature enabling it to become at least partially amorphous. This material may then be a metal alloy.

[0041] According to one variant of the invention, the preform 3 is manufactured by compacting a mixture of powders (already amorphous metal powder for example) by using, for example, pressing or hot extrusion between the vitreous transition temperature Tg and the crystallisation temperature Tx.

[0042] During the following step e) shown in FIG. 1(e), the mould comprising the base 2, the dial pieces 10 and the preform 3 is heated to a temperature higher than the vitreous transition temperature of the preform 3 then a force F is applied on the preform 3 via a piston 4 to fill the interstices 11 and obtain a reassembled dial 1 shown in FIG. 1(f). This heating step consists in heating the whole to a temperature between the vitreous transition temperature Tg and the crystallisation temperature Tx of the preform. At this temperature, the amorphous metals have a viscosity that reduces significantly, the reduction of the viscosity being dependent on the temperature.

[0043] Once the preform 3 has reached the desired viscosity, the latter is pressed in such a way as to fill the interstices 11 between the dial 1 pieces as can be seen in FIG. 2. Obviously, the pressure exerted on the preform 3 depends on the metal or on the alloy used and on its vitreous transition temperature Tg.

[0044] Once the expansion of the preform 3 in the interstices 11 is achieved and the dial pieces 10 are linked to one another in their definitive position with the preform 3 filling the interstices 11, a cooling step is carried out. This cooling step is performed to set the preform 3 and form a reassembled dial 1 having an increased tenacity and a unique decorative pattern.

[0045] During the last step the reassembled dial 1 is subjected to one at least of the following finishing operations: sanding, brushing, satin finishing or polishing. The reassembled dial 1 may also be cut to the desired final dimensions or reworked at the rear face to adjust the thickness of the latter.

[0046] It goes without saying that the present invention is not limited to the embodiments that have just been described, and that miscellaneous modifications and simple variants may be envisaged by the person skilled in the art without departing from the scope of the invention as defined by the appended claims.