A method for the fine adjustment of the rate of a mechanical oscillator with an oscillating inertial mass, equipped, in a first step, with an actuator made of material suitable for irreversible local micro-expansion under the action of laser fires, to impart to an inertia-block a radial travel during suitable laser fires on a writing zone of the actuator, in a second step, the initial rate of the oscillator is set and measured, in a third step, the direction and the value of the deviation required to achieve a predetermined rate range, and of the travel to be imparted to inertia-blocks are calculated, in a fourth step, a writing zone is subjected to femtosecond laser fires to create expansion lines by local molecular expansion to radially deform the actuator, in a fifth step the rate is measured and the third step and fourth step are repeated if required.

A method for the fine adjustment of the rate of a mechanical oscillator with an oscillating inertial mass, equipped, in a first step, with an actuator made of material suitable for irreversible local micro-expansion under the action of laser fires, to impart to an inertia-block a radial travel during suitable laser fires on a writing zone of the actuator, in a second step, the initial rate of the oscillator is set and measured, in a third step, the direction and the value of the deviation required to achieve a predetermined rate range, and of the travel to be imparted to inertia-blocks are calculated, in a fourth step, a writing zone is subjected to femtosecond laser fires to create expansion lines by local molecular expansion to radially deform the actuator, in a fifth step the rate is measured and the third step and fourth step are repeated if required.

A display mechanism (100) allowing display change with a single display mobile (150) so as to indicate a first piece of information with a first counter (110) and second piece of information with a second counter (120). This change is performed by the permutation of a clutch organ (130) displacing between a first position (131) and a second position (132) when the clutch organ (130) is controlled by a control organ (140).

A display mechanism (100) allowing display change with a single display mobile (150) so as to indicate a first piece of information with a first counter (110) and second piece of information with a second counter (120). This change is performed by the permutation of a clutch organ (130) displacing between a first position (131) and a second position (132) when the clutch organ (130) is controlled by a control organ (140).

In manufacturing of a first electroformed component and a second electroformed component having portions fitted to each other into close contact, after the first electroformed component is formed, the first electroformed component is used as a portion of an electroforming mold to form the second electroformed component. Using the first electroformed component as a portion of the electroforming mold to form the second electroformed component, the shape of the first electroformed component is transferred to the second electroformed component. As a result, multiple types of components differing in shape may be accurately manufactured concurrently in a series of manufacturing steps.

A flexible guide assembly for a horological movement, in particular for a display device of the horological movement, the assembly including two flexible guides arranged in series in a substantially head-to-tail manner, the first flexible guide including a support and a first movable element that is capable of moving relative to the support, as well as a first elongate, flexible body connecting the support to the first movable element, such that the first movable element can move by bending the first elongate, flexible body in a circular motion, the second flexible guide including a second movable element capable of moving relative to the first movable element and to the support of the first flexible guide, a second elongate, flexible body connecting the second movable element to the first movable element.

A flexible guide assembly for a horological movement, in particular for a display device of the horological movement, the assembly including two flexible guides arranged in series in a substantially head-to-tail manner, the first flexible guide including a support and a first movable element that is capable of moving relative to the support, as well as a first elongate, flexible body connecting the support to the first movable element, such that the first movable element can move by bending the first elongate, flexible body in a circular motion, the second flexible guide including a second movable element capable of moving relative to the first movable element and to the support of the first flexible guide, a second elongate, flexible body connecting the second movable element to the first movable element.

A timepiece shaft (1), especially a balance shaft (1), comprising a first functional portion (2a; 2b) including at least one part (221a, 221b) of a pivot-shank (22a; 22b) and/or at least one part (211a, 211b) of a pivot (21a, 21b), the first functional portion being made of ceramic and a first outer diameter (D1) of the first functional portion being less than 0.5 mm, or less than 0.4 mm, or less than 0.2 mm, or less than 0.1 mm

A natural escapement for horological movement carrying out a succession of operating cycles each including a first and second alternation of a balance that comprises a balance wheel on an arbor of which is adjusted a balance plate. A first escape wheel set having a first toothing is driven by a wheel set of the train of the horological movement, driving in turn a second escape wheel set having a second toothing. The first and second wheel sets form a kinematic chain arranged to cooperate with an anchor to pivot about an anchor-staff, the balance plate carrying a second impulse pallet-stone through which the balance plate receives a direct and tangential driving impulse from the first escape wheel set during the first alternation, and a first impulse pallet-stone through which this balance plate receives a direct and tangential driving impulse from the second escape wheel set during the second alternation.

A natural escapement for horological movement carrying out a succession of operating cycles each including a first and second alternation of a balance that comprises a balance wheel on an arbor of which is adjusted a balance plate. A first escape wheel set having a first toothing is driven by a wheel set of the train of the horological movement, driving in turn a second escape wheel set having a second toothing. The first and second wheel sets form a kinematic chain arranged to cooperate with an anchor to pivot about an anchor-staff, the balance plate carrying a second impulse pallet-stone through which the balance plate receives a direct and tangential driving impulse from the first escape wheel set during the first alternation, and a first impulse pallet-stone through which this balance plate receives a direct and tangential driving impulse from the second escape wheel set during the second alternation.