- G04B17/005: .{气动驱动运动的调节机构(由气动产生的摆动入G04F5/12)}
- G04B17/02: .由重力作用的摆动器,例如,在一个平面内摆动的摆{(被设定为所需长度的摆入G04B18/003;摆的温度补偿入G04B17/225;一般轴承,例如:刀刃入G04B31/00;内配合摆的时钟入G04B45/043;模仿摆来驱动的时钟机构入G04B45/0046,G04B45/0053;装饰摆入G04B45/0061;由摆来促动的入G04C13/065;用摆测量力的入G01V7/12)}
- G04B17/04: .由弹簧力作用的摆动器
- G04B17/20: .稳定频率机构的补偿
- G04B17/30: .转动调速器,例如,离心调速器,扇形调速器(用于敲打报时机构的入21/06){电驱动的入G04C3/0335}
- G04B17/32: .组件或结构零件,例如,内桩,外桩{金属箍或钢锥}
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Improvement in balance-pendulums for clocks | US108390D | US108390A | 1870-10-18 | ||
| 82 | 내충격성 고정 수단을 구비한 전자 석영 공진기 모듈 | KR1020130083748 | 2013-07-16 | KR101534393B1 | 2015-07-06 | 클로펜스타인프랑수와 |
| 전자모듈 (1) 은, 공진기의전기접속을위해적어도하나의외부표면위에전기접촉패드 (15) 를구비하는공진기케이스 (5) 내에한정되는석영또는 MEMS 공진기 (3) 를포함한다. 공진기케이스 (5) 를재치하기위해인쇄회로기판 (6) 이또한제공되고, 인쇄회로기판은공진기케이스의전기접속패드 (15) 에의접속을위한전기접속단자 (18) 를포함한다. 공진기케이스 (5) 는, 적어도하나의기계적충격감쇠요소 (7) 를통해전자모듈 (1) 의케이스구조체 (6, 9) 내에고정유지된다. 감쇠요소 (7) 는, 인쇄회로기판 (6) 을가로질러공진기케이스 (5) 의전기접속을위한금속와이어 (17) 를포함하는, 엘라스토머요소일수 있다. | ||||||
| 83 | 타임피스 메카니즘 카세트 | KR1020140031459 | 2014-03-18 | KR1020140114780A | 2014-09-29 | 스트랜첼마르크; 헤슬러띠에리; 헬페르장-뤽 |
| A timepiece mechanism cassette (1) includes at least one bearing surface (101) for positioning the cassette in a movement (100), a plate (2), and a bar (3). At least one among the plate and the bar is rigid. Functional components (10) are arranged between or on the plates. At least two components are movable with regard to each other. At least one function component (10) is pivotally movable and pivoted between the plate and the bar and forms an inseparable single piece component (20) with the plate (2) and/or with the bar (3). | ||||||
| 84 | Module électronique à résonateur à quartz muni de moyens de fixation antichoc | EP13172323.1 | 2013-06-17 | EP2687920B1 | 2018-10-10 | Klopfenstein, François |
| 85 | Guidage flexible horloger | EP14176919.0 | 2014-07-14 | EP2975470B1 | 2017-05-10 | Stranczl, Marc |
| 86 | OSCILLATEUR A DIAPASON POUR MOUVEMENT HORLOGER MECANIQUE | EP12762633.1 | 2012-09-27 | EP2761378B1 | 2017-01-04 | VARDI, Ilan |
| 87 | Régulation d'un résonateur d'horlogerie par action sur la longueur active d'un spiral | EP14155431.1 | 2014-02-17 | EP2908187A1 | 2015-08-19 | Hessler, Thierry; Sarchi, Davide; Stranczl, Marc |
Procédé d'entretien et de régulation d'un résonateur (1) d'horlogerie autour de sa fréquence propre (ω0). Un dispositif régulateur (2) agit sur ledit résonateur (1) avec un mouvement périodique qui impose une modulation périodique au moins de la fréquence de résonance dudit résonateur (1), en imposant au moins une modulation de la longueur active d'un ressort que comporte ledit mécanisme résonateur (1), avec une fréquence de régulation (ωR) qui est comprise entre 0.9 fois et 1.1 fois la valeur d'un multiple entier de ladite fréquence propre (ω0), ledit entier étant supérieur ou égal à 2.
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| 88 | Correcteur d'isochronisme pour échappement horloger et échappement muni d'un tel correcteur | EP09168113.0 | 2009-08-18 | EP2290476B1 | 2014-04-23 | Henein, Simon; Schwab, Philippe |
| 89 | ORGANE RÉGLANT POUR MONTRE BRACELET, ET PIÈCE D'HORLOGERIE COMPORTANT UN TEL ORGANE RÉGLANT | EP10773314.9 | 2010-11-02 | EP2497095A1 | 2012-09-12 | PICHON, Bertrand |
| Magnetic setting member for a wristwatch movement, comprising: a balance (1); permanent magnets (2, 10) for bringing said balance into at least one rest position; and an escapement (5, 6) for transmitting pulses to the balance in order to move the balance (1) away from the rest position; at least one of said permanent magnets being formed from a non-sintered crystalline material, for example based on platinum and cobalt. | ||||||
| 90 | Tourbillon pour mouvement de montre et mouvement le comprenant | EP08001704.9 | 2004-09-22 | EP1918790B1 | 2010-09-01 | Preziuso, Antoine |
| 91 | Mouvement de montre muni de plusieurs balanciers | EP04022608.6 | 2004-09-22 | EP1640821B1 | 2009-04-22 | Preziuso, Antoine |
| 92 | 타임피스 메카니즘 카세트 | KR1020140031460 | 2014-03-18 | KR1020140114781A | 2014-09-29 | 스트랜첼마르크; 헤슬러띠에리; 헬페르장-뤽 |
| A timepiece mechanism cassette (1) includes at least one bearing surface (101) for positioning of the cassette in a movement (100), and a plate (2) and a bar (3), at least one of which is rigid. Functional components (10) are arranged between the plate and the bar or in the plate and the bar. At least two of the functional components can be moved with respect to each other. The plate (2) and the bar (3) form the functional members (10) and a single-piece component (20) that cannot be separated from at least one elastically deformable connection element (16). The plate and the bar can be moved between a close position where the plate and the bar are separated by a minimum distance (EMIN) and a far position where the plate and the bar are separated by a maximum distance (EMAX). The plate and the bar include a snap insertion fitting means (22) and a complementary snap insertion fitting means (32) so as to maintain the plate and the bar at the close position. | ||||||
| 93 | 내충격성 고정 수단을 구비한 전자 석영 공진기 모듈 | KR1020130083748 | 2013-07-16 | KR1020140010347A | 2014-01-24 | 클로펜스타인프랑수와 |
| An electronic module (1) comprises a quartz or MEMS resonator (3) defined in at least one external surface of a resonator case (5) having an electric contact pad (15) so that the resonator can be electrically connected. A printed circuit board (6) is also provided to carry the resonator case (5), and the printed circuit board comprises an electric connection terminal (18) for connecting the resonator case to the electric contact pad (15). The resonator case (5) is fixed in case structures (6, 9) of the electronic module (1) through at least one mechanical impact damping element (7). The mechanical impact damping element (7) may be an elastomer element including a metal wire (17) for the electric connection of the resonator case (5) while crossing the printed circuit board (6). | ||||||
| 94 | 회전 진자수단을 구비한 시계모듈 | KR1020080078021 | 2008-08-08 | KR100917237B1 | 2009-09-16 | 심홍길 |
| A clock module having a rotating pendulum unit is provided to remove time difference until a battery is run out by preparing batteries of a movement and a pendulum respectively, and to offer improved impact buffering property. A clock module having a rotating pendulum unit(10) includes a case(110) and a cover(150). A rear side of the case is opened. The front of the cover is opened. A part of a side and a part of the rear side are opened, and combined on the case. A movement mounting part(112) and a pendulum battery mounting part(113) are formed on the top of the case. The movement mounting part and the pendulum battery mounting part are divided by a partition(111) formed to a vertical direction. A removable hole(115) is formed on the front surface of the movement mounting part. The removable hole is combined with a clock hand combining part of a movement(200). A battery(202) of the movement is mounted on the rear side of the movement. | ||||||
| 95 | MECANISME D'HORLOGERIE A REGLAGE D'INERTIE DE BALANCIER | EP16172843.1 | 2016-06-03 | EP3252546A1 | 2017-12-06 | Paratte, Lionel; Corson, Donald William; Léchot, Dominique |
Balancier (10) comportant un anneau (2) distinct de sa serge (12), fixé élastiquement à un flasque (1) par rapport auquel toute rotation de cet anneau (2) sous l'action d'un couple externe modifie la position de masselottes (4) portées élastiquement par le flasque (1), chacune indexable parmi différentes positions angulaires stables correspondant à des inerties différentes du balancier (10). Mouvement (300) comportant ce balancier (10), un organe de manoeuvre (20) mobile entre des positions embrayée et débrayée qui comporte un moyen d'arrêt (160) pour immobiliser la serge (12) en position embrayée, et un moyen de commande (80) pour faire tourner l'anneau (2) pour modifier la position des masselottes (4) dans la position embrayée. Montre (1000) comportant ce mouvement (300), une couronne (110) commandant ce moyen de commande (80), une bague d'embrayage (102) tournante commandant l'embrayage/débrayage de l'organe de manoeuvre (20) sous interaction sans contact avec un outil de réglage (200) externe.
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| 96 | Mécanisme oscillant à pivot élastique et mobile de transmission d'énergie | EP15153532.5 | 2011-07-04 | EP2894520A2 | 2015-07-15 | Cusin, Pierre; Charbon, Christian; Verardo, Marco |
L'invention se rapporte à un bloc (1) échappement - oscillateur pour un mouvement (1000) d'horlogerie réalisé dans deux parties d'un SOI, une première partie comportant une ancre (1') agencée pour coopérer avec une roue d'échappement, et des premiers moyens de rappel élastique (11') constituant un pivot virtuel élastique (P1', P2') à ladite ancre, la première partie comportant en outre un oscillateur mécanique (1) agencé pour coopérer avec ladite ancre (1'), et des deuxième moyens de rappel élastique (11) constituant un pivot virtuel élastique (D, P1, P2) audit oscillateur (1), la seconde partie comportant des ancrages (2', 2) desdits premiers et deuxième moyens de rappel élastique (11', 11) ainsi qu'un alésage de centrage agencé pour recevoir une roue d'échappement
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| 97 | RESONATEUR A DIAPASON POUR MOUVEMENT HORLOGER MECANIQUE | EP12762633.1 | 2012-09-27 | EP2761378A1 | 2014-08-06 | VARDI, Ilan |
| The invention relates to a mechanical resonator having a tuning fork for a clock movement having a lever escapement, comprising a tuning-fork oscillator (1), at least one first arm (3) of which is to be oscillated on either side of a first axis and has at least one first pin combined with at least one first fork tooth of an anchor (10, 100) so as to pivot the latter between first and second angular positions, and alternately lock and release an escape wheel (24). The resonator comprises a conversion member (6, 7, 8, 15, 16) which is secured to the first pin and which is arranged to: convert the oscillations of the first arm (3) of the oscillator (1) into rotational movements of the anchor (10, 100) by transmitting first pulses to the latter; and transmit mechanical energy from the anchor (10, 100) to the first arm (3) of the oscillator (1) in the form of pulses such that the first tooth has an amplitude of movement that is either axial or substantially in the direction of the first axis during the pivoting of the anchor, said amplitude of movement being greater than the amplitude of movement of the first pin substantially in the direction of the first axis. | ||||||
| 98 | MECANISME OSCILLANT A PIVOT ELASTIQUE ET MOBILE DE TRANSMISSION D'ENERGIE | EP11733619.8 | 2011-07-04 | EP2596406A1 | 2013-05-29 | CUSIN, Pierre; CHARBON, Christian; VERARDO, Marco |
| Oscillating mechanism (1) for a clock movement (1000), comprising a first rigid element (200) and a second rigid element (600), each one designed to be fixed to a different element of said movement (1000) and of which one is able to move with respect to the other and pivots about an axis (D). Said oscillating mechanism (1), which is a one-piece, flexible, variable-geometry mechanism, comprises first elastic return means (300) providing an elastic connection between said first rigid element (200) and an intermediate rigid element (400), and comprises at least second elastic return means (500) producing an elastic connection between said intermediate rigid element (400) and said second rigid element (600), and said first rigid element (200), said first elastic return means (300), said intermediate rigid element (400), said second elastic return means (500), and said second rigid element (600) are coplanar on a plane (P) and designed to deform on said plane (P). | ||||||
| 99 | Oscillateur mecanique | EP08101699.0 | 2008-02-18 | EP2090941B1 | 2011-10-19 | Genequand, Pierre-Marcel |
| 100 | Correcteur d'isochronisme pour échappement horloger et échappement muni d'un tel correcteur | EP09168113.0 | 2009-08-18 | EP2290476A1 | 2011-03-02 | Henein, Simon; Schwab, Philippe |
La présente invention concerne un correcteur d'isochronisme d'oscillateur mécanique comportant : |
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