A dead-beat escapement break away assembly which consists of, a pallet engagement collet with at least one magnet attached thereto and a pallet alignment feature attached thereto; a pendulum crutch attachment mechanically coupled to the pallet engagement collet; a pallet which is adapted to be magnetically coupled to the pallet engagement collet so as to mechanically engage the pendulum crutch attachment to the pallet, thereby enabling the pallet to break away from the pallet engagement collet when sufficient force is applied to the pallet to overcome the magnetic force of the magnet.

A dead-beat escapement break away assembly which consists of, a pallet engagement collet with at least one magnet attached thereto and a pallet alignment feature attached thereto; a pendulum crutch attachment mechanically coupled to the pallet engagement collet; a pallet which is adapted to be magnetically coupled to the pallet engagement collet so as to mechanically engage the pendulum crutch attachment to the pallet, thereby enabling the pallet to break away from the pallet engagement collet when sufficient force is applied to the pallet to overcome the magnetic force of the magnet.

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 regulator device (200) for a watch movement has (a) an inertial element (11) of a resonator (10) of inertia I, pivoted about a first axis (A1) and inscribed within a cylinder of diameter D centered on the first axis; (b) an escapement mobile (30) of inertia I3, pivoted about a second axis (A3) and inscribed within a cylinder of diameter D3 centered on the second axis; and (c) a blocking member having (i) a first blocking lever mobile (20a) of inertia I2a, pivoted about a third axis (A2a) and inscribed within a cylinder of diameter D2a centered on the third axis; and (ii) a second blocking lever mobile (20b) of inertia I2b, pivoted about a fourth axis (A2b), inscribed within a cylinder of diameter D2b centered on the fourth axis, the axes (A3, A2a, A2b) contained within a cylinder centered on the first axis (A1) and of diameter D′<D.

The timepiece includes a tourbillon including a carriage that bears a sprung balance and a magnetic escapement device, the latter including an escape wheel set, formed of an annular magnetic structure, and a magnetic element coupled with the magnetic structure and having an oscillating movement that is synchronous with the oscillation of the mechanical resonator. The mechanical escapement is arranged so as to have alternately energy accumulation phases, from a conversion of mechanical energy supplied by the barrel into magnetic potential energy in the magnetic escapement, and transfer phases of energy accumulated in the magnetic escapement to the magnetic resonator. During the energy transfer phases, the magnetic element is subjected to a magnetic force such that the magnetic escapement then converts into mechanical energy magnetic potential energy accumulated in the preceding energy accumulation phase to be able to maintain the oscillation of the mechanical resonator.

The mechanical timepiece regulator of the invention comprises a flexure bearing oscillator and a double detent escapement, the oscillator comprising a balance wheel (1) connected to an elastic suspension (2a, 2b) arranged to guide and apply a restoring force to the balance wheel (1) in a plane of oscillation. The escapement comprises an escape wheel (3) and an anchor (4) integrated into the balance wheel (1) and having two arms (5, 6) arranged to receive alternately the impulses of the escape wheel (3). The escapement furthermore comprises two detents (7, 8) alternately locking the escape wheel (3) between two impulses and interacting with the arms (5, 6) of the anchor to release the escape wheel (3) before each impulse, without direct interaction between the anchor and the escape wheel.

A dead-beat escapement break away assembly which consists of, a pallet engagement collet with at least one magnet attached thereto and a pallet alignment feature attached thereto; a pendulum crutch attachment mechanically coupled to the pallet engagement collet; a pallet which is adapted to be magnetically coupled to the pallet engagement collet so as to mechanically engage the pendulum crutch attachment to the pallet, thereby enabling the pallet to break away from the pallet engagement collet when sufficient force is applied to the pallet to overcome the magnetic force of the magnet.

A dead-beat escapement break away assembly which consists of, a pallet engagement collet with at least one magnet attached thereto and a pallet alignment feature attached thereto; a pendulum crutch attachment mechanically coupled to the pallet engagement collet; a pallet which is adapted to be magnetically coupled to the pallet engagement collet so as to mechanically engage the pendulum crutch attachment to the pallet, thereby enabling the pallet to break away from the pallet engagement collet when sufficient force is applied to the pallet to overcome the magnetic force of the magnet.

Method for creating a flexible, multistable element (5): a silicon component (S) is etched with a beam (P) connecting two ends (E1, E2) of a rigid mass (MU) having a cross-section more than ten times that of said beam (P), SiO.sub.2 is grown at 1100° C. for a duration adjusted to obtain, on said beam (P), a first ratio (RA) of more than 1 between the section of a first peripheral layer (CP1) of SiO.sub.2, and that of a first silicon core (A1), and, on said mass (MU), a second ratio (RB) between the section of a second peripheral layer (CP2) of SiO.sub.2 and that of a second silicon core (A2), which is less than a hundredth of said first ratio (RA); cooling to ambient temperature is performed, to deform said beam (P) by buckling when said mass (MU) cools and contracts more than said beam (P).

A timepiece regulating mechanism including primary resonators each with an inertial weight suspended by flexible strips to a fixed structure with respect to which this weight pivots, and mechanical device of synchronizing the primary resonators which include, between the inertial weights, an articulated connection which, under normal conditions, allows pivoting of the inertial weights in opposite directions of rotation and with close rotation angles, and during a shock, prevents pivoting thereof in the same direction of rotation, the mechanism including an oscillator with a frictional rest escapement mechanism arranged to cooperate alternately with the primary resonators, on pallet stones of the inertial weights.