An impact striking mechanism (1), in particular for a horological movement (3), the mechanism (1) including at least one resonant element (5) enabling a sound to be emitted when it is struck, and a hammer (8) capable of moving between a rest position (9) and a strike position (11) in which it strikes the resonant element (5) in order to cause it to vibrate, characterised in that it comprises a system for actuating the hammer (8) including a movable impactor (16, 17, 18) configured to move from a release position (19) to an impact position (21), in which it at least partially transmits the momentum thereof to the hammer (8) to move it from the rest position (9) thereof to the strike position (11) thereof in order to cause the resonant element (5) to vibrate.

An impact striking mechanism (1), in particular for a horological movement (3), the mechanism (1) including at least one resonant element (5) enabling a sound to be emitted when it is struck, and a hammer (8) capable of moving between a rest position (9) and a strike position (11) in which it strikes the resonant element (5) in order to cause it to vibrate, characterised in that it comprises a system for actuating the hammer (8) including a movable impactor (16, 17, 18) configured to move from a release position (19) to an impact position (21), in which it at least partially transmits the momentum thereof to the hammer (8) to move it from the rest position (9) thereof to the strike position (11) thereof in order to cause the resonant element (5) to vibrate.

A micromechanical mechanism (1), in particular for an horological movement (3), the mechanism including a micromechanical device including a mobile element (8) needing to be moved mechanically to trigger its operation. Included is a system for actuating the device, the actuation system including a mobile striker (16, 17, 18) configured to go from a release position (19) to a percussion position (21) in which it transmits to the mobile element (8) a momentum necessary for the release of the device, the actuation system further including a magnet (15) configured to attract the mobile striker (16, 17, 18) in a percussion position (21). Also a horological movement (3) including such a mechanism (1).

A micromechanical mechanism (1), in particular for an horological movement (3), the mechanism including a micromechanical device including a mobile element (8) needing to be moved mechanically to trigger its operation. Included is a system for actuating the device, the actuation system including a mobile striker (16, 17, 18) configured to go from a release position (19) to a percussion position (21) in which it transmits to the mobile element (8) a momentum necessary for the release of the device, the actuation system further including a magnet (15) configured to attract the mobile striker (16, 17, 18) in a percussion position (21). Also a horological movement (3) including such a mechanism (1).

An arrangement for the holding and vibration transmission of an acoustic radiating membrane (10) in a striking or musical watch (1) case (2). The case includes at least one crystal (3) mounted on a middle (4) and a back (5) mounted on a side opposite the middle. The acoustic radiating membrane is held in a portion of the watch case, such as the middle by at least one connection part (12) disposed between a peripheral rim of the membrane or an edge element (11) of the membrane and the middle by acting for the holding of the membrane in a direction parallel to the plane of the watch. The connection part may be a screw screwed into a threaded opening (14) of the middle and coming into contact with the edge element of the membrane.

An arrangement for the holding and vibration transmission of an acoustic radiating membrane (10) in a striking or musical watch (1) case (2). The case includes at least one crystal (3) mounted on a middle (4) and a back (5) mounted on a side opposite the middle. The acoustic radiating membrane is held in a portion of the watch case, such as the middle by at least one connection part (12) disposed between a peripheral rim of the membrane or an edge element (11) of the membrane and the middle by acting for the holding of the membrane in a direction parallel to the plane of the watch. The connection part may be a screw screwed into a threaded opening (14) of the middle and coming into contact with the edge element of the membrane.

Disclosed is a method for manufacturing a horological component according to which a silicon-based piece having the desired shape of the horological component is produced and the piece is subjected to a thermal oxidation and deoxidation treatment to remove a predetermined thickness of silicon in order to increase the mechanical strength of the piece. This method is characterized in that the thermal oxidation and deoxidation treatment is carried out in several steps, each step including a thermal oxidation phase followed by a deoxidation phase.

Disclosed is a method of making a timepiece spring from monocrystalline material including the following steps: drawing the spring; identifying one or more zones of weakness of the spring in which or in at least one of which the spring will break in the event of excessive deformation; manufacturing the spring from a wafer of monocrystalline material extending in a determined plane, while orienting the spring in the wafer such that the direction of the macroscopic stresses in the or each zone of weakness when the spring is deformed is substantially parallel to a plane of cleavage of the material intersecting the determined plane. Also disclosed is a timepiece spring obtained by such a method.

A timepiece striking mechanism including a mechanism for controlling a hammer arranged to strike a resonant component in an impact position, and movable within a working zone between a recoil and rest position and this impact position, this mechanism includes a device for limiting recoil of the hammer after impact, formed either by eddy current braking means arranged to brake the hammer when it enters a back zone, connected and contiguous to the working zone and opposite the impact position, and/or by mechanical friction and/or elastic return means integral with the hammer or an anchor-piece integral with the hammer, and arranged for friction and/or abutting engagement with a moving braking component or a surface of a fixed part of the striking mechanism.

A timepiece striking mechanism including a mechanism for controlling a hammer arranged to strike a resonant component in an impact position, and movable within a working zone between a recoil and rest position and this impact position, this mechanism includes a device for limiting recoil of the hammer after impact, formed either by eddy current braking means arranged to brake the hammer when it enters a back zone, connected and contiguous to the working zone and opposite the impact position, and/or by mechanical friction and/or elastic return means integral with the hammer or an anchor-piece integral with the hammer, and arranged for friction and/or abutting engagement with a moving braking component or a surface of a fixed part of the striking mechanism.