The invention relates to a method of manufacturing of a watch component, comprising the steps consisting in: (10) forming a blank (200E1), particularly by injection, including at least one base surface (210) and at least one projecting portion (220) projecting from the base surface (210), (20) forming at least one coating layer (250) covering at least a part of the base surface (210) and/or over at least a part of the projecting portion (220), (30) removing by laser ablation at least a part of said at least one coating layer (250). (40) texturing by laser processing at least a part of the base surface (210) and/or at least a part of the projecting portion (220), and/or at least a part of the at least one coating layer (250).

Facilitate operations to release a bezel from a rotation prevented state and to rotate the bezel and avoid erroneously releasing the rotation prevented state. A timepiece includes a restrictor having engaging teeth and being movable between a restricted position and a release position by engaging/disengaging the engaging teeth with teeth of the bezel. The timepiece also has a holding mechanism holding the restrictor between a held state, i.e., restricted position and a non-held state. i.e., the release position. The holding mechanism includes two push-buttons and a release mechanism including a spring bar and engaging hole. The release mechanism switches the restrictor to the non-held state irrespective of a continuance of applying the pressing operation forces after the pressing operation forces are applied simultaneously to the two push-buttons.

Facilitate operations to release a bezel from a rotation prevented state and to rotate the bezel and avoid erroneously releasing the rotation prevented state. A timepiece includes a restrictor having engaging teeth and being movable between a restricted position and a release position by engaging/disengaging the engaging teeth with teeth of the bezel. The timepiece also has a holding mechanism holding the restrictor between a held state, i.e., restricted position and a non-held state. i.e., the release position. The holding mechanism includes two push-buttons and a release mechanism including a spring bar and engaging hole. The release mechanism switches the restrictor to the non-held state irrespective of a continuance of applying the pressing operation forces after the pressing operation forces are applied simultaneously to the two push-buttons.

A method of decorating an element. This method includes the steps of: taking the element (1, 11, 21, 31), the element including anchoring (7) for improving the securing of the decoration (5) to the element; making a mask (4) of the desired thickness of the decorations (5), and having at least one opening (4); placing the at least one opening in the mask (4) against the place to be decorated so as to form at least one mold (4, 6, 6, 6, 100); filling the at least one mold with an at least partially amorphous material via hot forming; and removing the mask (4).

A method of decorating an element. This method includes the steps of: taking the element (1, 11, 21, 31), the element including anchoring (7) for improving the securing of the decoration (5) to the element; making a mask (4) of the desired thickness of the decorations (5), and having at least one opening (4); placing the at least one opening in the mask (4) against the place to be decorated so as to form at least one mold (4, 6, 6, 6, 100); filling the at least one mold with an at least partially amorphous material via hot forming; and removing the mask (4).

A method of decorating an element. This method includes the following steps: taking the element (1, 11, 21, 31), the element including anchoring for improving the securing of the decoration (5) to the element; making a mask (4) of the desired thickness of the decorations (5), and having at least one opening (4); placing the at least one opening in the mask (4) against the place to be decorated so as to form at least one mould (4, 6, 6, 6,100); filling the at least one mould with an at least partially amorphous material via hot forming; and removing the mask (4).

A method of decorating an element. This method includes the following steps: taking the element (1, 11, 21, 31), the element including anchoring for improving the securing of the decoration (5) to the element; making a mask (4) of the desired thickness of the decorations (5), and having at least one opening (4); placing the at least one opening in the mask (4) against the place to be decorated so as to form at least one mould (4, 6, 6, 6,100); filling the at least one mould with an at least partially amorphous material via hot forming; and removing the mask (4).

A method for the three-dimensional decoration of a substrate (11) to produce an external part (10) including the steps of: depositing at least one enamel carrier layer (12) on a decorative area of an external surface (110) of a ceramic substrate (11), the decorative area being intended to receive a decorative element (13); firing the substrate (11) comprising the carrier layer (12) so as to melt the latter; depositing a ceramic and/or metal decorative element (13) in solid form on the carrier layer (12); and sealing the decorative element (13) to the substrate (11) by firing to form an external part (10).

A control system for a rotating element of a timepiece including a control element for actuating the rotating element and a transmission device between the control element and the rotating element. In the control system a gearing device includes a hybrid gearing device including a first element, which is movable around a first rotation axis and including a drive runner made from elastomeric material, and a second element, which is movable around a second rotation axis and including a rolling tooth system. The drive runner cooperates with the rolling tooth system by friction.

A holding and indexing device for integration in a setting device of timepieces, including a fixedly-attached bushing, an axially-displaceable and rotatable shaft mounted within the bushing, a transmission element attached to the shaft end directed into the interior of the timepiece and allowing the drive of a timepiece part in the interior, and a resilient element exerting a preload force in the axial direction of the shaft. The device additionally includes an indexing ring attached to the shaft in an axially-sliding manner and having an indexing toothing. The transmission element, on a side face directed towards the ring, includes a side toothing engaged with the indexing toothing due to the force of the resilient element. In at least one direction of rotation of the shaft, applying force onto the indexing ring causes disengagement of the indexing and side toothings, thus allowing a position indexing of the timepiece part.