Class / Patent application number | Description | Number of patent applications / Date published |
368127000 |
Balance wheel type
| 127 |
368126000 |
Magnetic type | 5 |
20120269043 | REGULATING MEMBER FOR A WRISTWATCH, AND TIMEPIECE COMPRISING SUCH A REGULATING MEMBER - Regulating member for a wristwatch movement, including:
| 10-25-2012 |
20130155819 | TIMEPIECE MOVEMENT WITH LOW MAGNETIC SENSITIVITY - The invention relates to a timepiece movement ( | 06-20-2013 |
20130279302 | MAGNETIC RESONATOR FOR A MECHANICAL TIMEPIECE - A magnetic resonator, for a timepiece, is disclosed which comprises an oscillator of the tuning-fork type having first and second branches in the form of a U of which at least a first branch supports a first permanent magnet defining a first magnetic field, an escape wheel, designed to be arranged in engagement with a watchwork gear train in order to allow it to be driven by a power source of the timepiece and, situated within range of said first permanent magnet in order to undergo the influence of the first magnetic field. In particular, provision is made for the escape wheel to be free and support at least two permanent magnets, preferably at least four, arranged so that the vibrations of the first branch of the tuning fork, on the one hand, control the rotation speed of the escape wheel and, on the other hand, are sustained periodically by the magnetic interaction between the first permanent magnet of the tuning fork and the permanent magnets of the escape wheel in order to define a free escapement. | 10-24-2013 |
20140247703 | Tuning-Fork Resonator for Mechanical Clock Movement - A tuning-fork mechanical resonator for a mechanical clock movement with free escapement includes an oscillator of the tuning fork type, of which at least one first prong is intended to oscillate about a first axis and bears at least one first pin associated with at least one first fork tooth of a pallet assembly to cause this assembly to pivot between first and second angular positions and alternately lock and release an escapement wheel. The resonator comprises a conversion member secured to the first pin and designed to on the one hand, convert the oscillations of the first prong of the oscillator into rotational movements of the pallet assembly by transmitting first impulses thereto, and on the other hand, transmit mechanical energy from the pallet assembly to the first prong of the oscillator in the form of impulses. | 09-04-2014 |
20160070235 | REGULATING SYSTEM FOR A MECHANICAL WATCH - Regulating members for a mechanical timepiece, specifically a system based on magnetic interaction between a resonator, in a form of a tuning fork for example, and an escape wheel, as a magnetic escapement. In the system plural areas of magnetic interaction between the resonator and the escape wheel are arranged such that torques produced at the escape wheel by the interactions compensate each other if the escape wheel is not synchronized at the frequency of the resonator. This results in negligible torque in the escape wheel when the escape wheel rotates slowly in a direction of an arrow or opposite direction. This allows the timepiece to start with a low mainspring torque and without any start procedure or device and provides better resistance of the timepiece against a loss of synchronization in event of a shock. | 03-10-2016 |
368134000 |
Pendulum type | 1 |
20110273968 | Two-Phase Detached Escapement Mechanism for Oscillators and Related Systems - An enhanced escapement mechanism provides improved isolation of energy and torque for an oscillation system, e.g. a pendulum. In an exemplary embodiment, during a first phase, a pendulum releases an impulse arm that is decoupled from a main wheel, which falls and impulses the pendulum, such as at or near the middle of the pendulum swing. In a second phase, the impulse arm continues to fall, becoming totally detached from the pendulum, wherein the falling impulse arm releases the main wheel, which restores the impulse arm to its initial position. The main wheel continues to rotate until it is no longer in contact with the impulse arm, and is captured, such that the process may be repeated. While the enhanced escapement mechanism typically provides an impulse to an oscillation system during each period, alternate embodiments provide an impulse for each of a plurality of periods, e.g. once every ten periods. | 11-10-2011 |