序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
101 | BALANCE SPRING MADE OF MICROMACHINABLE MATERIAL WITH ISOCHRONISM CORRECTION | US15084787 | 2016-03-30 | US20160306324A1 | 2016-10-20 | Davide SARCHI; Sylvain MARECHAL; Polychronis Nakis KARAPATIS |
A timepiece balance spring made of micromachinable material including a plurality of stages, each forming a spiral wound spring, parallel to each other and all attached to a common axial collet or to the same balance staff, each stage including, at its respective outer end, its own attachment to a balance spring stud which are independent of those of the other stages, the attachment including a position adjustment with respect to a balance spring stud which are also independent of those of the other stages, the attachment and the position adjustment together forming built-in isochronism correction mechanism for the balance spring, and the position adjustment including a plurality of discrete position adjustment positions including housings each arranged to retain a stud. | ||||||
102 | NATURAL ESCAPEMENT | US15028599 | 2014-12-09 | US20160266546A1 | 2016-09-15 | Gianni DI DOMENICO; Jerome FAVRE |
An escapement mechanism including a stop member between a resonator and two escape wheel sets each subjected to a torque, and each including a magnetized or ferromagnetic track over a period. The stop member includes at least one magnetized or ferromagnetic pole shoe, transversely movable with respect to travel of a surface of the track. The pole shoe or the track creates a magnetic field between the pole shoe and the surface, and the pole shoe is confronted by a magnetic field barrier on the track just before each transverse motion of the stop member actuated by the period action of the resonator. The escape wheel sets are each arranged to cooperate alternately with the stop member, and are connected to each other by a direct kinematic connection. | ||||||
103 | Flexible escapement mechanism having a balance with no roller | US14388641 | 2013-03-27 | US09304493B2 | 2016-04-05 | Marc Stranczl; Thierry Hessler; Andres Cabezas Jurin; Davide Sarchi |
A timepiece escapement mechanism, including a balance having no roller and an escape wheel, between which impulses are transmitted by a flexible, single-piece mechanism, connected by at least one flexible strip to a fixed structure or to the wheel. Oscillation is maintained by a balance spring ending in a balance spring stud which is mobile during operation, and which is guided by a flexible guide member with flexible strips, and whose center of rotation is coaxial to the balance, the balance spring stud receiving a pin which is mobile in a cam path of the wheel. During the oscillations, the balance spring stud is moved relative to its locking position under action of force exerted by the balance spring, and the pin maintains and regulates the oscillation. | ||||||
104 | PALLET LEVER FOR A TIMEPIECE ESCAPEMENT MECHANISM | US14759056 | 2014-03-06 | US20150355599A1 | 2015-12-10 | Marc STRANCZL; Thierry HESSLER; Jean-Luc HELFER |
An intermittent blocking mechanism for at least one escape wheel, that intermittent blocking mechanism cooperating with at least one regulating member or a balance which is actuated with an alternate motion under action of an elastic return mechanism, the intermittent blocking mechanism being pivoted in at least one bottom plate, and forming an inseparable single-piece component with the bottom plate. The intermittent blocking mechanism includes at least one pallet lever in a single-piece with the plate to which it is connected by the elastic return mechanism. | ||||||
105 | Flexible escape mechanism with no pallet lever | US14384261 | 2013-03-27 | US09207640B2 | 2015-12-08 | Marc Stranczl; Thierry Hessler; Andres Cabezas Jurin; Davide Sarchi |
An escape mechanism including a flexible single-piece mechanism for transmission of impulses between an impulse pin of a balance, and teeth of an escape wheel. Each tooth includes a lever with a pin that can be actuated by a lifting piece, a low level of the wheel carrying the pins on a same level as stop members of a plate, and a high level carrying the lifting pieces. The impulse pin pivots a lever opposite thereto, either to cause the pin to cooperate in abutment with the second stop member, or to move the lifting piece thereof opposite the first stop member and to cause the pin to bypass the second stop member, allowing the wheel to rotate to a next tooth. | ||||||
106 | Oscillating mechanism with an elastic pivot and mobile element for transmitting energy | US13810937 | 2011-07-04 | US09201398B2 | 2015-12-01 | Pierre Cusin; Christian Charbon; Marco Verardo |
An oscillating mechanism for a timepiece movement, including a first rigid element and a second rigid element, each one fixed on a different element of the movement and at least one of which is mobile relative to the other and pivots about an axis. The mechanism is monobloc and flexible with a variable geometry, and includes a first elastic restoring mechanism producing an elastic connection between the first rigid element and an intermediate rigid element, and a second elastic restoring mechanism producing an elastic connection between the intermediate element and the second rigid element, which all are coplanar according to one plane and configured to be deformed according to the plane. | ||||||
107 | Oscillators synchronised by an intermittent escapement | US13610024 | 2012-09-11 | US09128464B2 | 2015-09-08 | Davide Sarchi; Nakis Karapatis; Thierry Hessler; Jean-Luc Helfer |
A timepiece including a first resonator oscillating at a first frequency and connected by a main gear train to a main energy source via a main escapement, a second resonator oscillating at a second frequency which is lower than the first frequency and cooperating with the main escapement in order to synchronize maintenance of the first resonator to the second frequency. | ||||||
108 | Timepiece mechanism cassette | US14218052 | 2014-03-18 | US09122245B2 | 2015-09-01 | Marc Stranczl; Thierry Hessler; Jean-Luc Helfer |
A timepiece mechanism cassette including at least one bearing surface for positioning the cassette in a movement, a plate and a bar, at least one of which is rigid, and functional components arranged between or on the plate and the bar. At least two of the functional components are movable relative to each other. The plate and bar form an inseparable single piece component with at least one of the functional components and with at least one elastically deformable connecting element. The plate and bar are movable between a proximate position where they are separated by a minimum distance and a distal position where they are separated by a maximum distance. The plate and bar include a snap fit connection for holding them in the proximate position. | ||||||
109 | FLEXIBLE ESCAPEMENT MECHANISM WITH MOVABLE FRAME | US14389012 | 2013-03-27 | US20150063082A1 | 2015-03-05 | Marc Stranczl; Thierry Hessler; Andres Cabezas Jurin; Davide Sarchi |
An escapement mechanism for a timepiece movement or timepiece including at least one balance and at least one escape wheel. A transmission of impulses between the balance and the escape wheel is achieved by a single-piece flexible mechanism including at least one feeler spindle cooperating with the escape wheel or, respectively, with the balance, and the single-piece, flexible mechanism is connected by at least one flexible blade to a fixed structure of the timepiece, or respectively to the escape wheel. | ||||||
110 | TIMEPIECE MECHANISM CASSETTE | US14218052 | 2014-03-18 | US20140286141A1 | 2014-09-25 | Marc STRANCZL; Thierry Hessler; Jean-Luc Helfer |
Timepiece mechanism cassette including at least one bearing surface for positioning the cassette in a movement, a plate and a bar, at least one of which is rigid, between or on which there are arranged functional components at least two of which are movable relative to each other.The plate and bar form an inseparable single piece component with such a functional member, with at least one elastically deformable connecting element, and are movable between a proximate position where they are separated by a minimum distance (EMIN) and a distal position where they are separated by a maximum distance (EMAX). They include snap fit means and complementary snap fit means for holding them in the proximate position. | ||||||
111 | OSCILLATING MECHANISM WITH AN ELASTIC PIVOT AND MOBILE ELEMENT FOR TRANSMITTING ENERGY | US13810937 | 2011-07-04 | US20130176829A1 | 2013-07-11 | Pierre Cusin; Christian Charbon; Marco Verardo |
An oscillating mechanism for a timepiece movement, including a first rigid element and a second rigid element, each one fixed on a different element of the movement and at least one of which is mobile relative to the other and pivots about an axis. The mechanism is monobloc and flexible with a variable geometry, and includes a first elastic restoring mechanism producing an elastic connection between the first rigid element and an intermediate rigid element, and a second elastic restoring mechanism producing an elastic connection between the intermediate element and the second rigid element, which all are coplanar according to one plane and configured to be deformed according to the plane. | ||||||
112 | ESCAPEMENT SYSTEM FOR A TIMEPIECE | US13703837 | 2011-06-22 | US20130148480A1 | 2013-06-13 | Christian Charbon; Yves Winkler; Marco Verardo |
An escapement system that includes an anchor fitted with a fork configured to cooperate with a pin mounted on a disc and a shaft including arms configured to receive pallets to cooperate with at least one escape wheel. A part of the escapement system is made from an at least partially amorphous metal alloy. | ||||||
113 | Timepiece comprising a chronograph and a watch | US12711399 | 2010-02-24 | US08328413B2 | 2012-12-11 | Dominique Lechot; Alain Zaugg |
The timepiece includes a chronograph whose hands are driven by a first gear train (4), which in turn drives a first resonator (5) and a watch whose hands are driven by a second gear train (8) independent of the first gear train, wherein the second gear train in turn drives a second resonator (9). The first (4) and second (8) gear trains are driven from a single energy source (10). | ||||||
114 | MODULAR HOROLOGICAL MOVEMENT | US12865528 | 2009-01-30 | US20110038233A1 | 2011-02-17 | Daniel Martinez; Franck-Charles-Cyril Orny; Johnny Frederic Girardin |
The present invention relates to a timepiece movement allowing the arrangement of the various displays to be varied. The movement according to the invention comprises a first module provided both with a first frame and with at least one first wheel assembly mounted rotatably on the first frame, a second module provided both with a second frame and with at least one second wheel assembly mounted rotatably on the second frame, which first and second wheel assemblies are connected kinematically together, positioning means, and, connected to the first and second frames, means for fixing the modules to each other. The positioning means are positioned concentrically with the axis of rotation of either the first or second wheel assembly and are arranged so as to allow relative positioning of the two modules in a plurality of angular positions with reference to the axis of rotation of the wheel assembly with which the positioning means are concentric. According to the invention, either the first or second module is a going-train module (80) comprising a going train and an escape wheel (86), and one of the different wheel assemblies of the going train or the escape wheel (86) may form either the first or said second wheel assembly, while the other of said first and second modules is an escapement-supporting module (87) comprising a lever (89) which may form the other of said two wheel assemblies. | ||||||
115 | TIMEPIECE COMPRISING A CHRONOGRAPH AND A WATCH | US12711399 | 2010-02-24 | US20100214879A1 | 2010-08-26 | Dominique Lechot; Alain Zaugg |
The timepiece includes a chronograph whose hands are driven by a first gear train (4), which in turn drives a first resonator (5) and a watch whose hands are driven by a second gear train (8) independent of the first gear train, wherein the second gear train in turn drives a second resonator (9). The first (4) and second (8) gear trains are driven from a single energy source (10). | ||||||
116 | Clock or watch movement | US582139 | 1975-05-30 | US3991556A | 1976-11-16 | Jean Renaud |
A clock or watch movement has a spindle assembly which includes an escape wheel, a pinion and a common spindle. The escape wheel is driven by a balance wheel and a driven wheel of the movement meshes with the pinion. The ends of the spindle are journalled in bearings which are adapted to permit relative movement of the spindle assembly radially of the axis of rotation of the driven wheel of the movement. A biasing spring urges the spindle assembly in the direction towards said axis. | ||||||
117 | Digital timepiece | US3559395D | 1967-12-19 | US3559395A | 1971-02-02 | KIKUCHI TADAHIRO |
A TIMEKEEPER WITH DIGITAL RECORDING OR TIME INDICATION IN WHICH "JUMPING" TIME INDICATION IS CARRIED OUT AS TO HOURS, TENS-OF-MINUTES, AND MINUTES BY COMPACT AND SIMPLIFIED MECHANISM COMPRISING TWO COMPLETE BARRELS WITH ARBORS EACH DRIVING A RESPECTIVE GOING GEAR TRAIN WITH RESPECTIVE ESCAPEMENTS AND THE ESCAPEMENT OF ONE OF THE GEAR TRAINS BEING UNDER CONTROL OF THE OTHER GEAR TRAIN. COMMON WINDING AND TIME SETTING MECHANISM WINDS THE MAINSPRINGS OF BOTH BARRELS WITH ARBORS. THE INDICATING
IS OPERATIVELY ASSOCIATED WITH ONE OF THE ESCAPEMENTS AND HAS "JUMPING" DISKS FOR INDICATING TIME IN HOURS, TENS-OFMINUTES, AND MINUTES VISUALLY. |
||||||
118 | Intermittent drive mechanism | US29748163 | 1963-06-27 | US3211012A | 1965-10-12 | YOSHIO MURAI |
119 | Vibration-resistant escapements | US75506958 | 1958-08-14 | US3053041A | 1962-09-11 | DE GRYSE GENTIEL M; OTIS JAMES W; WEBER JOHN A |
120 | Escapement mechanism | US52034055 | 1955-07-06 | US2924102A | 1960-02-09 | GERMAINE DROUHOT |