| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | 전자적 기능이 연계된 기계적 손목시계 시계줄 | KR1020160110123 | 2016-08-29 | KR1020170043441A | 2017-04-21 | 마르땡장-끌로드; 보른장-자끄; 꼬뉘띠에리; 에겐장-끌로드; 플뢰리엠마뉘엘; 빌르맹미셸 |
| 손목시계는제 1 음향경보신호를생성하도록배치된제 1 기계적기능을실행하는기계적디바이스 (20), 및시계줄 (4) 에수용되고제 2 음향경보신호및/또는기계적진동을생성하도록배치되는전자적디바이스 (56) 를포함하고, 전자적디바이스 (56) 는, 제 1 기계적기능을실행하는기계적디바이스 (20) 가제 1 음향경보신호를생성하는순간에제 2 음향경보신호를생성하도록배치된다. | ||||||
| 122 | 기계적 타임피스 무브먼트용 피드백 시스템을 구비하는 기계적 타임피스 무브먼트 | KR1020160100242 | 2016-08-05 | KR1020170019322A | 2017-02-21 | 빈클러파스칼; 디도메니코잔니; 코뉘띠에리; 헬페르장-뤽 |
| 기계적타임피스무브먼트 (1) 는적어도하나의배럴 (11), 상기배럴에의해일 단부에서구동되는기어휠 세트 (12), 스프링밸런스형태의공진기를갖는국부발진기 (13) 의탈진기메커니즘, 및상기타임피스무브먼트를위한피드백시스템 (2) 을포함한다. 상기탈진기메커니즘은상기기어휠 세트 (12) 의다른단부에서구동된다. 상기피드백시스템 (2) 은, 2 개의발진기들의주파수를비교하기위한주파수비교기 (22) 와조합된적어도하나의정밀기준발진기 (21), 및상기주파수비교기에서의비교결과에기초하여상기공진기를감속또는가속하도록상기국부발진기의상기공진기를조절하기위한메커니즘 (23) 을포함한다. | ||||||
| 123 | 시계용 공진자 | KR1020090060996 | 2009-07-06 | KR1020100004896A | 2010-01-13 | 헤슬러,티에리; 트럼피,카스파르; 헬페르,쟝-루; 코너스,티에리 |
| PURPOSE: A resonator for a watch is provided to connect high frequency resonator to low frequency resonator by controlling the escapement. CONSTITUTION: A resonator for a watch comprises a first resonator(2) and a second resonator(3). The first resonator comprises a first inertial body(4) connected to a first spring(5). The second resonator comprises a second inertial body(6) connected to a second spring(7). The first resonator and the second resonator are interlinked. A third spring(8) is arranged between the first inertial body and the second inertial body. The first inertial body is formed by means of a first balance. The second inertial body is formed by means of a second balance. | ||||||
| 124 | 영구자석을가진두개의로터를포함하는전기기계변환기 | KR1019970038116 | 1997-08-11 | KR100452527B1 | 2005-01-13 | 이브스구에린 |
| The transducer comprises a stator (2) formed of two stator parts (16,26) and three cores (18,19,20). These link three respective magnetic poles (28,29,30) with the second stator part serving to form the magnetic paths of the stator. The coils (22-24) supply the transducer to rotate two rotors (4,6). A coil (23) is connected to a detection device (72) sensing the rotation of one or the other of the rotors (4,6), and in particular sensing the zero-crossing of the induced voltage in the coil (23). This serves as a trigger to control the application of supply current to the two other coils in order to drive the rotors. Rotation may be rapid or continuous, and may be in either direction. | ||||||
| 125 | 스윙하는 장식판이 구비된 전기 시계 | KR2019960038164 | 1996-11-02 | KR2019970006861U | 1997-02-21 | 김병기 |
| 본고안은시계의문자판에스윙하는장식판이구비된전기시계에관한것이며, 전력에의해작동되는시계가동부가앞판(7)과뒤판(9) 사이의기판(3) 이면에설치되어시간을가리키는전기시계(1)에있어서, 상기기판(3)의이면에진자운동가능하게설치되고, 상단에지지점(17)이형성되어있는추(13); 상기추(13)의지지점(17)에대해좌우스윙가능하게설치되고, 기판에형성된원호상의관통홈(25)에삽입되어기판(3) 표면으로돌출되는받침점(23)이양단에형성되어있는균형바(19); 상기기판(3) 표면으로돌출된균형바(19)의양 받침점(23)에지지되어상기균형바(19)와함께스윙되는, 장식적인모양이인쇄되어있는장식판(27); 을포함하는것을특징으로하는스윙하는장식판이구비된전기시계가제공되고, 이로써기판의표면(문자판)에서장식판이스윙(시소운동)을하게되므로, 시계관찰자가장식판의생동감있는스윙운동에즐거움과흥미를느낄수 있다는효과가있다. | ||||||
| 126 | 전자기구동회로 | KR1019880002279 | 1988-03-05 | KR100048832B1 | 1992-02-11 | 아오끼히로시 |
| 127 | 전자기구동회로 | KR1019880002279 | 1988-03-05 | KR1019910002794B1 | 1991-05-04 | 아오끼히로시 |
| 내용 없음. | ||||||
| 128 | 전자기구동회로 | KR1019880002279 | 1988-03-05 | KR1019890015092A | 1989-10-28 | 아오끼히로시 |
| 내용 없음. | ||||||
| 129 | Method for manufacturing at least two mechanical parts | US17095115 | 2020-11-11 | US11662690B2 | 2023-05-30 | Sylvain Huot-Marchand |
| A method for manufacturing at least two mechanical parts to be arranged in a timepiece mechanism including magnetised functional areas having antagonistic polarities, the parts being arranged in a timepiece mechanism to cooperate with each other in relative displacement, the method including a step of constructing a blank of each of the two parts including at least one functional area from which the parts are able to cooperate with each other and a step of obtaining each of the parts including a sub-step of transforming said at least one functional area of the blank of each of these parts into a magnetised functional area from which emanates a magnetic field, at least one feature of which is configured so that this magnetic field participates in achieving a separation of the magnetised functional areas of the two parts when they are in a stop position in the mechanism. | ||||||
| 130 | INERTIA MOBILE COMPONENT FOR HOROLOGICAL RESONATOR WITH MAGNETIC INTERACTION DEVICE INSENSITIVE TO THE EXTERNAL MAGNETIC FIELD | US16896613 | 2020-06-09 | US20200409311A1 | 2020-12-31 | Gianni DI DOMENICO; Jérôme FAVRE; Olivier MATTHEY; Dominique LECHOT; Baptiste HINAUX; Laurent NAGY; Jean-Claude MARTIN |
| Horological resonator (100) including an inertia mobile component (1) oscillating about an axis of oscillation (D1) and including at least one magnetic area (10), the total resultant magnetic moment of all of the magnetic areas (10), included in the inertia mobile component (1), is aligned in the direction of the axis of oscillation (D1), this inertia mobile component (1) bearing at least one balancing magnet (6), the direction of the magnetic moment thereof crosses the axis of oscillation (D1) to obtain magnetic balancing of the inertia mobile component (1). | ||||||
| 131 | INERTIA MOBILE COMPONENT FOR HOROLOGICAL RESONATOR WITH MAGNETIC INTERACTION DEVICE INSENSITIVE TO THE EXTERNAL MAGNETIC FIELD | US16896579 | 2020-06-09 | US20200409310A1 | 2020-12-31 | Gianni DI DOMENICO; Jérôme FAVRE; Olivier MATTHEY; Dominique LECHOT; Baptiste HINAUX; Laurent NAGY; Jean-Claude MARTIN |
| Inertia mobile component (1) for a horological resonator (100), oscillating about an axis of oscillation (D1), and including at least one magnetic area (10), the total resultant magnetic moment of all of the magnetic areas (10), included in the inertia mobile component (1), is aligned in the direction of the axis of oscillation (D1), this inertia mobile component (1) bearing at least one magnetic compensating element (4), the magnetisation component thereof in a direction perpendicular to the axis of oscillation (D1) can be adjusted in order to obtain a total resultant magnetic moment that is aligned in the direction of the axis of oscillation (D1). | ||||||
| 132 | ADJUSTMENT MEMBER FOR WATCHES | US16596924 | 2019-10-09 | US20200150592A1 | 2020-05-14 | Marc STRANCZL; Polychronis Nakis KARAPATIS |
| An adjustment member for a watch including a fixed structure extending substantially perpendicularly to an axial direction, the adjustment member including a regulating member with a balance arranged to pivot about a balance axis, this balance is pivoted by magnetic pivots in a carriage, arranged to pivot about a carriage axis, and comprised in a device for annulling variations in rate in the vertical positions, formed by a tourbillon or a carrousel, comprised in the adjustment member, and the carriage carrying magnets defining the balance axis which is perpendicular or oblique to the carriage axis. | ||||||
| 133 | Timepiece movement comprising a device for equalising a motor torque | US15686463 | 2017-08-25 | US10474109B2 | 2019-11-12 | Benoit Legeret; Davide Sarchi |
| Timepiece movement including a mechanism, a spring barrel for driving the mechanism, and an equalization device connected to the spring barrel. The spring barrel includes a drum and a motor spring to exert a driving torque which is variable as a function of the degree of winding-up of the motor spring. The equalization device is driven by the spring barrel and exerts an auxiliary torque which varies as a function of the degree of winding-up of the motor spring to counter variations in the motor torque. The equalization device includes a first and second magnetic elements being displaced from each other by exerting a magnetic force which varies as a function of the relative position of the first and second magnetic elements and produces the auxiliary torque. | ||||||
| 134 | Hybrid timepiece oscillator | US15616241 | 2017-06-07 | US10234822B2 | 2019-03-19 | Benoit Legeret; Deirdre Lenoir; Davide Sarchi |
| A timepiece oscillator includes a sprung balance assembly including a balance with a rim, which is returned by a balance spring and pivoted with respect to a structure, on a first side by a torsion wire, fixed by an anchoring element to the structure, and on a second side, opposite to the first side, by a contactless magnetic pivot. The balance includes a first pole embedded with the balance and the torsion wire, this first pole having a symmetry with respect to the axis of the sprung balance assembly, and cooperating with a second pole included in the structure, for the magnetic suspension of the first pole, and to exert on the distal end of the torsion wire, opposite to this anchoring element, a magnetic force for tensioning the torsion wire. | ||||||
| 135 | Safety regulation for a timepiece escapement | US15373003 | 2016-12-08 | US10228659B2 | 2019-03-12 | Sebastian Alagon Carrillo; Benoit Legeret; Davide Sarchi |
| Mechanism for regulating energy to achieve the function of a timepiece mechanism including a functional mobile component, controlling a dissipation of energy through eddy currents in the event of racing by this mobile component, including a magnetically permeable or magnetized rotor kinematically connected to this mobile component, and a magnetized or respectively magnetically permeable stator, facing this rotor in an annular area where these eddy currents develop, this rotor and this stator are external to each other, this rotor and/or this stator including an alternation of raised areas where it can move into superposition with the other in an interaction generating eddy currents, and hollow areas in which it cannot move into superposition with the other.Escapement mechanism including such a regulating mechanism, limiting the effect of accelerations on an escape wheel. | ||||||
| 136 | Mechanical timepiece movement with a lever escapement | US15373514 | 2016-12-09 | US10222746B2 | 2019-03-05 | Davide Sarchi; Benoit Legeret; Benoit Junod; Polychronis Nakis Karapatis |
| The mechanical timepiece movement includes an escapement having a pallet-lever arranged to move alternately into abutment with two banking elements in locking periods. The pallet-lever carries at least a first permanent magnet and the timepiece movement further includes a first element and a second element of high magnetic permeability and a second magnet and a third magnet respectively integral with first and second elements of high magnetic permeability and each arranged on an opposite side to a first magnet relative to the respective elements of high magnetic permeability. This magnetic system generates, in a first part of a first half vibration of any vibration of the pallet-lever, an overall force of magnetic attraction, defining a magnetic draw additional to the mechanical draw generated by the escape wheel, and, in a second part of this first half vibration, an overall force of magnetic repulsion. | ||||||
| 137 | Out of shaft magnetic angle sensing system | US15001519 | 2016-01-20 | US10175062B2 | 2019-01-08 | Udo Ausserlechner |
| In a magnet assembly, and an angle detection system embodying such a magnet assembly, for detecting a rotational angle of a rotating shaft, first and second magnet portions are mounted on the shaft, and have geometrical shapes and respective magnetizations with various symmetry features. | ||||||
| 138 | 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. | ||||||
| 139 | Optimised timepiece movement | US15672478 | 2017-08-09 | US10114340B2 | 2018-10-30 | Gianni Di Domenico; Jerome Favre; Dominique Lechot; Baptiste Hinaux; Olivier Matthey; Jean-Jacques Born |
| Timepiece movement including a flexible strip resonator cooperating with a magnetic escapement mechanism, wherein an escape wheel set includes tangential magnetized areas repelling first magnetized areas of an inertial element of the resonator, this movement includes isochronism correction means combining the first magnetized areas and compensating magnets on the escape wheel set, each arranged in proximity to a tangential magnetized area and producing a leakage field in a different direction from that of the field of the tangential magnetized area, the leakage field intensity being low compared to that of the field of the second tangential magnetized area, and this leakage field interacting with one of the first magnetized areas to produce a low variation in the operation of the resonator mechanism. | ||||||
| 140 | Magnetic escape wheel set for timepieces | US15410244 | 2017-01-19 | US10095187B2 | 2018-10-09 | Gianni Di Domenico; Dominique Lechot; Jerome Favre; Benoit Legeret; Davide Sarchi |
| Watch with a timepiece movement, a resonator mechanism, including a magnetic escapement mechanism including an escape wheel set including a magnetized track, with a succession of areas according to a scrolling period in which its magnetic features are repeated, each area including an increasing magnetic field ramp followed by a magnetic field barrier with an increasing field and of higher field gradient that that of the ramp, the track includes a continuous, closed magnetic layer over the entire periphery of the escape wheel set, of constant thickness and variable width, whose geometry defines these magnetic field ramps and barriers, this escape wheel set cooperating with a sprung balance via a pivoting magnetic stop member comprising a pole piece arranged to cooperate alternately with an internal track and an external track of the magnetic layer. | ||||||
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