序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
41 | 調速共振器のための脱進機システム | JP2014077514 | 2014-04-04 | JP5830562B2 | 2015-12-09 | ステファーヌ・ブージン; ダヴィデ・サルチ; ナキス・カラパティス; ファビオ・シャーシャ |
42 | ローラーがないバランスを備えた可撓性エスケープ機構 | JP2015502336 | 2013-03-27 | JP2015511716A | 2015-04-20 | シュトランツル,マルク; エスレ,ティエリ; カベサス・フリン,アンドレス; サルチ,ダヴィデ |
ローラーがないバランス(300)及びエスケープ車(400)を有する計時器用エスケープ機構(120)であって、これらのバランス(300)及びエスケープ車(400)の間で、少なくとも1つの可撓性ストリップ(700)によって固定構造体(800)又はエスケープ車(400)に接続される可撓性単一片機構(500)によって、衝撃が伝達される。動作中に可動であり可撓性ガイドメンバー(123)によってガイドされるバランスばねスタッド(122)において端を有するバランスばね(121)によって発振が維持され、可撓性ガイドメンバー(123)は可撓性ストリップ(124)を備え、バランスばね(121)の回転中心(125)はバランス(300)に共軸であり、バランスばねスタッド(122)は、エスケープ車(126)のカムパス路(128)内を可動であるピン(127)を受ける。発振時に、バランスばねスタッド(122)は、バランスばね(121)が与える力の作用の下でそのロック位置に対して動き、ピン(127)が発振を維持し規制する。【選択図】図1 | ||||||
43 | 可動フレームを備えた可撓性エスケープ機構 | JP2015502334 | 2013-03-27 | JP2015511714A | 2015-04-20 | シュトランツル,マルク; エスレ,ティエリ; カベサス・フリン,アンドレス; サルチ,ダヴィデ |
少なくとも1つのバランス(300)及び少なくとも1つのエスケープ車(400)を有する計時器ムーブメント(900)又は計時器(1000)用のエスケープ機構(100)である。このバランス(300)とこのエスケープ車(400)の間の衝撃の伝達が、エスケープ車(400)又はバランス(300)とそれぞれ連係する少なくとも1つのフィーラスピンドル(600)を有する単一片の可撓性機構(500)によって達成され、この単一片の可撓性機構(500)は、少なくとも1つの可撓性ブレード(700)によって計時器(1000)の固定構造体(800)、又はエスケープ車(400)に接続される。【選択図】図11 | ||||||
44 | Of the time piece modular movement | JP2010544708 | 2009-01-30 | JP5377517B2 | 2013-12-25 | マルティネ,ダニエル; オルニィ,フランク−シャレ−スィリ; フレデリック ジラルディ,ジョニィ |
The movement (1) has base and finishing modules (2, 15) provided with a barrel (4) and center wheel, respectively. The barrel and the wheel are rotatably mounted on frames of the respective modules, and kinematically connected with each other. Screws are associated to the frames for fixing the modules. Orifices (30) are formed concentric to the barrel and permit relative positioning of the modules in different angular positions with reference to a rotation axis of the barrel. | ||||||
45 | Escapement system for the watch | JP2013515896 | 2011-06-22 | JP2013529779A | 2013-07-22 | シャルボン,クリスチャン; ウィンクラー,イヴ; ヴェラルド,マルコ |
本発明は脱進機システム(1)に関する。 このシステムは、円板(5)に取り付けたピンと協働することを意図したフォークに付けたアンクル(7)と、少なくとも1つのがんぎ車(23)と協働するために、爪(21)を受けることを意図したアームを備える柄部とを備える。 脱進機システムの一部分は、少なくとも部分的に非晶質な金属合金からできている。
【選択図】 図1 |
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46 | Of the time piece modular movement | JP2010544708 | 2009-01-30 | JP2011511283A | 2011-04-07 | オルニィ,フランク−シャレ−スィリ; フレデリック ジラルディ,ジョニィ; マルティネ,ダニエル |
The movement (1) has base and finishing modules (2, 15) provided with a barrel (4) and center wheel, respectively. The barrel and the wheel are rotatably mounted on frames of the respective modules, and kinematically connected with each other. Screws are associated to the frames for fixing the modules. Orifices (30) are formed concentric to the barrel and permit relative positioning of the modules in different angular positions with reference to a rotation axis of the barrel. | ||||||
47 | JPS519347B1 - | JP2191172 | 1972-03-02 | JPS519347B1 | 1976-03-26 | STUBBMANN A |
48 | High quality factor resonator for mechanical watches | US15715728 | 2017-09-26 | US10152025B2 | 2018-12-11 | Pascal Winkler; Gianni Di Domenico; Jean-Luc Helfer |
Movement including an escapement mechanism and a resonator including an inertial element subjected to the action of a flexible gimbal and cooperating with an escape wheel set pivoting about a main axis, which includes driving means cooperating in a continuous transmission of motion with complementary means of the inertial element in every angular position of the latter, the flexible gimbal tending to return these complementary means towards the main axis, and including elastic return means about axes orthogonal to the main axis and restricting the mobility of the inertial element in two rotational degrees of freedom, about a fixed position of the centre of inertia of the inertial element with respect to a plate. | ||||||
49 | Oscillator for timepiece movement | US15536063 | 2015-12-18 | US10133240B2 | 2018-11-20 | Marc André Jeanneret; Salvatore Stefano Stifani |
The invention concerns an oscillator for a timepiece movement, comprising a staff rigidly connected to a balance carrying first and second bipolar magnets spaced apart from the staff and capable, depending on the angular position of the balance, of being positioned alternately within range of a magnetic field produced by a fixed bipolar magnet, the latter being located on the trajectory of the first and second bipolar magnets and being arranged in such a way that, when one of the bipolar magnets approaches the fixed bipolar magnet, identical polarities are located opposite each other in order to produce a repulsive force. The oscillator further comprises a pallet assembly and an escape wheel for establishing a kinematic connection between a source of energy of the timepiece movement and the balance staff, and arranged in such a way that the balance is capable of having a sustained periodic oscillating movement of an amplitude greater than 90 degrees. | ||||||
50 | OSCILLATOR FOR TIMEPIECE MOVEMENT | US15536063 | 2015-12-18 | US20180004164A1 | 2018-01-04 | Marc André JEANNERET; Salvatore Stefano STIFANI |
The invention concerns an oscillator for a timepiece movement, comprising a staff rigidly connected to a balance carrying first and second bipolar magnets spaced apart from the staff and capable, depending on the angular position of the balance, of being positioned alternately within range of a magnetic field produced by a fixed bipolar magnet, the latter being located on the trajectory of the first and second bipolar magnets and being arranged in such a way that, when one of the bipolar magnets approaches the fixed bipolar magnet, identical polarities are located opposite each other in order to produce a repulsive force. The oscillator further comprises a pallet assembly and an escape wheel for establishing a kinematic connection between a source of energy of the timepiece movement and the balance staff, and arranged in such a way that the balance is capable of having a sustained periodic oscillating movement of an amplitude greater than 90 degrees. | ||||||
51 | OSCILLATOR WITH ROTATING DETENT | US15228684 | 2016-08-04 | US20170090422A1 | 2017-03-30 | Pierre CUSIN; Romain LE MOAL |
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. | ||||||
52 | Timepiece movement and timepiece including such a movement | US15024182 | 2014-09-08 | US09588492B2 | 2017-03-07 | Dylan Roth; Stephen Forsey |
A clockwork movement includes a mechanical energy source, a first regulating part and a first escapement, which are connected by a first gear-train to the energy source, and a second regulating part and a second escapement, which are connected by a second gear-train to the energy source. The first gear-train, the first escapement (4) and the first regulating part (2) define a first assembly. The second gear-train, the second escapement and the second regulating part (10) define a second assembly. At least one differential gear is arranged to provide a kinematic connection between the first assembly and the energy source and between the second assembly and the energy source. | ||||||
53 | DEVICE INTENDED TO CONTROL THE ANGULAR SPEED OF A TRAIN IN A TIMEPIECE MOVEMENT AND INCLUDING A MAGNETIC ESCAPEMENT | US15109066 | 2014-12-22 | US20160357155A1 | 2016-12-08 | Gianni DI DOMENICO; Pascal WINKLER |
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. | ||||||
54 | Timepiece Movement and Timepiece Including Such a Movement | US15024182 | 2014-09-08 | US20160231708A1 | 2016-08-11 | Dylan Roth; Stephen Forsey |
A clockwork movement includes a mechanical energy source, a first regulating part and a first escapement, which are connected by a first gear-train to the energy source, and a second regulating part and a second escapement, which are connected by a second gear-train to the energy source. The first gear-train, the first escapement (4) and the first regulating part (2) define a first assembly. The second gear-train, the second escapement and the second regulating part (10) define a second assembly. At least one differential gear is arranged to provide a kinematic connection between the first assembly and the energy source and between the second assembly and the energy source. | ||||||
55 | Timepiece mechanism cassette | US14218026 | 2014-03-18 | US09195218B2 | 2015-11-24 | Marc Stranczl; Thierry Hessler; Jean-Luc Helfer |
A timepiece mechanism cassette includes 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. At least one functional component is pivotally movable and pivoted between the plate and the bar, and forms an inseparable single piece component with the plate and/or with the bar. | ||||||
56 | FLEXIBLE ESCAPEMENT MECHANISM HAVING A BALANCE WITH NO ROLLER | US14388641 | 2013-03-27 | US20150043313A1 | 2015-02-12 | 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. | ||||||
57 | Escapement system for a sprung balance resonator | US14220223 | 2014-03-20 | US08926167B2 | 2015-01-06 | Stephane Beugin; Davide Sarchi; Nakis Karapatis; Fabio Sciascia |
The invention relates to a timepiece including a resonator cooperating with an escapement system. According to the invention, the escapement system includes a moving escape wheel arranged coaxially to the balance and driven by the gear train of the timepiece, a first fixed wheel having a first toothing and a second fixed wheel having a second toothing, the first and second fixed wheels being arranged coaxially to the moving escape wheel and a device for securing the outer end of the balance spring including a part hinged relative to the moving escape wheel and arranged to ensure a radial movement of the outer end between the first and second toothings to maintain the resonator and to transmit the motion thereof to the timepiece gear train. | ||||||
58 | ESCAPEMENT SYSTEM FOR A SPRUNG BALANCE RESONATOR | US14220223 | 2014-03-20 | US20140307530A1 | 2014-10-16 | Stephane BEUGIN; Davide SARCHI; Nakis KARAPATIS; Fabio SCIASCIA |
The invention relates to a timepiece including a resonator cooperating with an escapement system. According to the invention, the escapement system includes a moving escape wheel arranged coaxially to the balance and driven by the gear train of the timepiece, a first fixed wheel having a first toothing and a second fixed wheel having a second toothing, the first and second fixed wheels being arranged coaxially to the moving escape wheel and a device for securing the outer end of the balance spring including a part hinged relative to the moving escape wheel and arranged to ensure a radial movement of the outer end between the first and second toothings to maintain the resonator and to transmit the motion thereof to the timepiece gear train. | ||||||
59 | OSCILLATORS SYNCHRONISED BY AN INTERMITTENT ESCAPEMENT | US13610024 | 2012-09-11 | US20130070569A1 | 2013-03-21 | Davide SARCHI; Nakis KARAPATIS; Thierry HESSLER; Jean-Luc HELFER |
The invention relates to a timepiece (1) comprising a first resonator (R1) oscillating at a first frequency (f1) and connected by a main gear train (T2) to a main energy source (B2) via a main escapement (D2). According to the invention, the timepiece comprises a second resonator (R2) oscillating at a second frequency (f2) which is lower than the first frequency and cooperating with the main escapement (D2) in order to synchronise maintenance of the first resonator (R1) to said second frequency (f2).The invention concerns the field of coupled oscillators. | ||||||
60 | MODULAR TIMEPIECE MOVEMENT | US12863481 | 2009-01-30 | US20100290321A1 | 2010-11-18 | Daniel Martinez; Franck-Charles-Cyril Orny; Johnny Frederic Girardin |
A timepiece movement for varying the arrangement of the different displays includes a first module provided with a first frame and at least a first mobile rotatingly mounted on the first frame, a second module provided with a second frame and at least a second mobile rotatingly mounted on the second frame, the first and second mobiles being kinematically connected to each other, elements for positioning and elements for attaching the modules to each other and associated with the first and second frames. The positioning elements are placed concentrically relative to the rotation axis of one of the first and second mobiles, and are arranged for allowing the relative positioning of the two modules in several angular positions relative to the rotation axis of the mobile to which the positioning elements are concentric. One of the first and second modules is a base module including a platen and a barrel, the barrel defining the first and the second mobile. |