A mechanism for a timepiece, comprising a an oscillating regulator mechanism, a rotary energy distribution toothed wheel, a blocking mechanism controlled by the regulator mechanism to alternatively hold and release the energy distribution wheel, and a monostable elastic member linked to the regulator mechanism and bearing on the teeth of the energy distribution wheel. The teeth of the energy distribution wheel are adapted to elastically deform the monostable elastic member by cam effect during rotation of the wheel, and the monostable elastic member is adapted to elastically return to its rest position, thus releasing mechanical energy to the regulator mechanism.

Escapement device, comprising: a first escapement mobile element, a second escapement mobile element, an inertial element, arranged to present oscillations comprising a first vibration and a second vibration, a blocking mobile element comprising: a first blocking surface portion, a second blocking surface portion, an impulse receiver, arranged to receive a first impulse during a first vibration, and to receive a second impulse during a second vibration, an impulse transmitter, characterized in that the first blocking surface portion is arranged so that a first force, exerted by the first escapement mobile element, passes in the vicinity of the fourth axis of rotation, and in that the second blocking surface portion is arranged so that a second force, exerted by the second escapement mobile element, passes in the vicinity of the fourth axis of rotation.

Escapement device, comprising: a first escapement mobile element, a second escapement mobile element, an inertial element, arranged to present oscillations comprising a first vibration and a second vibration, a blocking mobile element comprising: a first blocking surface portion, a second blocking surface portion, an impulse receiver, arranged to receive a first impulse during a first vibration, and to receive a second impulse during a second vibration, an impulse transmitter, characterized in that the first blocking surface portion is arranged so that a first force, exerted by the first escapement mobile element, passes in the vicinity of the fourth axis of rotation, and in that the second blocking surface portion is arranged so that a second force, exerted by the second escapement mobile element, passes in the vicinity of the fourth axis of rotation.

Escapement device, comprising: first escapement mobile element comprising a plurality of first blocking surfaces and a first drive toothing forming a first main drive toothing, a second escapement mobile element comprising a plurality of second blocking surfaces and a second drive toothing forming a second main drive toothing, an inertial element, a blocking mobile element, comprising: blocking surface portions, arranged to come into contact with the first escapement mobile element and with the second escapement mobile element, an impulse receiver, an impulse transmitter, characterized in that: the second main drive toothing and the first main drive toothing are engaged together and cooperate with the blocking mobile element in the same plane.

Escapement device, comprising: first escapement mobile element comprising a plurality of first blocking surfaces and a first drive toothing forming a first main drive toothing, a second escapement mobile element comprising a plurality of second blocking surfaces and a second drive toothing forming a second main drive toothing, an inertial element, a blocking mobile element, comprising: blocking surface portions, arranged to come into contact with the first escapement mobile element and with the second escapement mobile element, an impulse receiver, an impulse transmitter, characterized in that: the second main drive toothing and the first main drive toothing are engaged together and cooperate with the blocking mobile element in the same plane.

There is provided a device for regulating the operation of a horological movement, including a magnetic escapement, which includes a resonator and a magnetic escapement mobile turning about an axis. The mobile includes at least one magnetic track with a plurality of magnets having an angular dimension that is greater than their radial dimension. The resonator includes at least one magnetic element for coupling to the magnetic track. The coupling element extends radially relative to the axis of rotation, and has a contour with a portion oriented substantially angularly when the resonator is in the rest position. When the mobile is driven in rotation, each magnet penetrates beneath the coupling element and gradually accumulates some potential magnetic energy. The magnet then exits from beneath the coupling element through the portion and the coupling element receives a pulse located around its rest position.

There is provided a device for regulating the operation of a horological movement, including a magnetic escapement, which includes a resonator and a magnetic escapement mobile turning about an axis. The mobile includes at least one magnetic track with a plurality of magnets having an angular dimension that is greater than their radial dimension. The resonator includes at least one magnetic element for coupling to the magnetic track. The coupling element extends radially relative to the axis of rotation, and has a contour with a portion oriented substantially angularly when the resonator is in the rest position. When the mobile is driven in rotation, each magnet penetrates beneath the coupling element and gradually accumulates some potential magnetic energy. The magnet then exits from beneath the coupling element through the portion and the coupling element receives a pulse located around its rest position.

A watch including a movement including itself an isochronous timepiece oscillator mechanism including a fixed support bearing a crosspiece carrying N primary resonators each including a weight carried by a rotating flexible bearing fixed to this crosspiece. Each primary resonator has a center of mass which, at rest, is on the virtual pivot axis of its rotating flexible bearing and is arranged to oscillate in rotation about this virtual pivot axis. The primary resonators are arranged in rotational symmetry of order N about a main axis parallel to the virtual pivot axes, and oscillating motions of any two primary resonators are phase shifted by the value of the central angle formed by their respective virtual pivot axes with the main axis.

The invention relates to an oscillator comprising a pivoting staff connected to a mechanical energy source, an inertia-elasticity resonator formed in one piece, which is mounted on the pivoting staff, a detent escapement comprising a single-piece detent fixed to the pivoting staff, which comprises at least one flexible blade and a stop member arranged to elastically lock the pivoting staff in relation to a concentric escapement toothing, wherein the release element is arranged to elastically unlock the stop member in relation to the concentric escapement toothing, by the movement of the member forming the inertia, so that the pivoting staff counts each oscillation of the resonator while transmitting to it the energy able to maintain it.

A timepiece pallet fork for a mechanical oscillator including an arbor allowing the timepiece pallet fork to oscillate about a pivot axis, first and second pallets configured to alternatively engage with an escapement wheel when the timepiece pallet fork oscillates, the first pallet being displaceable with respect to the arbor by absorption of energy, the first pallet being displaceable from a first upstream waiting position to a first downstream stopping end position which is offset compared to the first upstream waiting position, and a first arm having an intermediate section including an elastic bend, one end of the arm being fixed with respect to the arbor to form a first fixed end, the intermediate section of the first arm being located between the first fixed end and the first pallet and returning the first pallet towards the first upstream waiting position by the intermediate section being elastically deformable from a first configuration into a second configuration.