序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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101 | ECHAPPEMENT MAGNETIQUE HORLOGER ET DISPOSITIF REGULATEUR DE LA MARCHE D'UN MOUVEMENT HORLOGER | PCT/EP2015/070237 | 2015-09-04 | WO2016037938A1 | 2016-03-17 | DI DOMENICO, Gianni |
L'échappement magnétique horloger (12), respectivement le dispositif régulateur comportant un tel échappement comprennent un premier réseau circulaire (3) formé de N1 lignes magnétiques (4) et un deuxième réseau circulaire (9) formé de N2 lignes magnétiques (10), le nombre N2 étant différent du nombre N1. Les premier et deuxième réseaux sont superposés de manière à définir un motif combiné (14) présentant un effet Moiré magnétique. Le motif combiné est couplé magnétiquement à au moins un aimant d'un résonateur pour cadencer la marche d'un mouvement horloger mécanique. La première structure magnétique est portée par une roue d'échappement et peut tourner relativement à la deuxième structure magnétique fixe avec une fréquence angulaire F1. Le motif combiné tourne avec une fréquence angulaire F2 supérieure et égale à la fréquence angulaire F1 multipliée par le nombre N1 et divisée par le nombre ΔΝ égal à ce nombre N1 moins le nombre N2, soit F2=F1·N1/ΔΝ. |
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102 | DEVICE INTENDED TO CONTROL THE ANGULAR SPEED OF A TRAIN IN A TIMEPIECE MOVEMENT AND INCLUDING A MAGNETIC ESCAPEMENT | PCT/EP2014079036 | 2014-12-22 | WO2015097172A3 | 2016-01-07 | DI DOMENICO GIANNI; WINKLER PASCAL |
The invention relates to a device for controlling the operation of a timepiece movement, which includes a magnetic escapement. Said device includes a resonator (90) and a magnetic escapement train (82) rotating about an axis (20). Said train includes at least one magnetic track (86) comprising a plurality of magnets (102) having an angular size greater than the radial size thereof. The resonator includes at least one magnetic element for coupling with the magnetic track. Said coupling element (92, 94) is radially extended relative to the rotational axis and has a contour comprising one portion that is substantially angularly oriented when the resonator is in the resting position thereof. When the escapement train is rotated, each magnet penetrates under the coupling element and gradually accumulates a certain magnetic potential energy. Then, said magnet comes out from under the coupling element via the abovementioned portion, and said coupling element receives a pulse located around the resting position of said coupling element. | ||||||
103 | MAGNETIC OR ELECTROSTATIC RESONATOR | PCT/EP2014076991 | 2014-12-09 | WO2015096976A4 | 2015-10-15 | STRANCZL MARC; DI DOMENICO GIANNI; WINKLER PASCAL |
The invention relates to a timepiece resonator (6) comprising a train (7), swingably arranged about an axis (A), and a driver (8), subjected to a torque within a timepiece movement (10). Said resonator is a magnetic or electrostatic annular resonator (6), the train (7) of which is periodically excited by the movement of the driver (8). Said driver (8) is arranged such as to exert contactless force on the train (7). Said train (7) comprises a first amount of first pole shoes (76) magnetized or electrically charged according to a first step, and the driver (8) comprises a second amount of second pole shoes (86) that are magnetized or electrically charged according to a second step, different from the first step, and arranged such as to engage, via attraction or repulsion, with the first pole shoes (76) such that the train (7) and the driver (8) constitute together a speed reduction or multiplication mechanism. | ||||||
104 | REGULATOR SYSTEM FOR MECHANICAL WATCH | PCT/EP2014065736 | 2014-07-22 | WO2015018636A3 | 2015-07-16 | MIGNOT JEAN-PIERRE; BORN JEAN-JACQUES; DINGER RUDOLF |
The present invention relates to regulator organs for a mechanical timepiece, specifically a system based on the magnetic interaction between a resonator, for example in the form of a tuning fork, and an escapement wheel. The system is characterised in that there are several magnetic interaction zones (25) and (26) between the resonator (14) and the escapement wheel (9) that are arranged such that the torques produced at the escapement wheel by those interactions compensate each other if the escapement wheel is not synchronised with the frequency of the resonator. This results in a negligible torque on the escapement wheel when the latter rotates slowly in the direction of the arrow (24) or in the opposite direction. This makes it possible to start the timepiece at a low torque of the barrel spring and without a launch procedure or device and allows better resistance of the timepiece to withstand a loss of synchronisation in case of impact. | ||||||
105 | PIVOTING TRAIN ARBOR OF A TIMEPIECE | PCT/EP2014055267 | 2014-03-17 | WO2014154510A3 | 2014-12-31 | ZAUGG ALAIN; SARCHI DAVIDE; KARAPATIS NAKIS |
The invention relates to a one-piece arbor (1) of a pivoting train (10) of a timepiece, said one-piece arbor (1) consisting of one or more aligned portions (2). Said one-piece arbor (1) is magnetically inhomogeneous. | ||||||
106 | ELECTROMECHANICAL ESCAPEMENT DEVICE AND TIMEPIECE PART UTILIZING SAID DEVICE | PCT/CH2007000346 | 2007-07-18 | WO2008011738A3 | 2008-04-10 | TU XUAN MAI; SCHWAB MICHEL |
The electromechanical escapement device (9) is associated with an electronic circuit (10) having a quartz oscillator (104) and calculation means (105) suitable for calculatig the difference between the period of the quartz oscillator and the period of a mechanical oscillator (119) and releasing an escape wheel (112), normally controlled by said mechanical oscillator, when the difference between said periods is greater than a threshold value. | ||||||
107 | VERFAHREN UND SYSTEM ZUR ERMITTLUNG DER IM ALLTAGSBETRIEB VON STRASSENFAHRZEUGEN TATSÄCHLICH ENTSTEHENDEN KRAFTSTOFFVERBRÄUCHE, ENERGIEEINSÄTZE UND EMISSIONEN | PCT/EP2017/062600 | 2017-05-24 | WO2017202947A2 | 2017-11-30 | FELDMANN, Michael |
Die Erfindung betrifft ein Verfahren und ein System zur Ermittlung der im Alltagsbetrieb von Straßenfahrzeugen tatsächlich entstehenden Kraftstoffverbräuche, Energieeinsätze und Emissionen. |
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108 | REGULATOR DEVICE FOR THE OPERATION OF A MECHANICAL TIMEPIECE MOVEMENT | PCT/EP2015070238 | 2015-09-04 | WO2016037939A3 | 2016-06-30 | WINKLER PASCAL; DI DOMENICO GIANNI; BORN JEAN-JACQUES |
The regulator device (2) for the operation of a mechanical timepiece movement comprises: - a chassis (4); - a resonator fixed to said chassis and comprising a first annular magnetic structure (8) having a first number N1 of magnets, arranged regularly in a circle, and an elastic structure (20,21,22); - a second annular magnetic structure (14) having a second number N2 of magnets and defining a central axis (16) around which said structure turns, N2 being different from N1. The resonator is arranged such that a resonance mode in which the first magnetic structure undergoes a curvilinear movement, preferably substantially circular, around the central axis can be excited by the rotation of the second magnetic structure. The two magnetic structures define a cycloidal magnetic gearing such that the regulator device incorporates a frequency reducer between the resonance frequency and the frequency of rotation of the second magnetic structure rigidly attached to an escapement wheel. | ||||||
109 | SECURE OPTIMIZED ESCAPEMENT | PCT/EP2014076958 | 2014-12-09 | WO2015096975A4 | 2016-06-23 | STRANCZL MARC; DI DOMENICO GIANNI; WINKLER PASCAL |
The invention relates to an escapement mechanism (1) comprising a stop (3) that comprises a first actuator (31), engaging with a resonator (2), and a second actuator (32), engaging with an escapement train (4) subjected to a drive torque lower than a nominal torque. Said first actuator (31) comprises a magnetized or electrically charged pole shoe (310). Said resonator (2) comprises a magnetized or electrically charged track (21), and the pole shoe (310) or/and the track (21) create, within a pole gap (210) between the pole shoe (310) and the track (21), a magnetic or electrostatic field having a strength suitable for relatively driving the stop (3) and the resonator (2) when the torque is lower than the nominal torque. Moreover, the stop (3) or/and the resonator (2) comprise stopping means (211; 311) which restrict the relative range of movement between the actuator (31) and the resonator (2) when the torque is greater than the nominal torque. | ||||||
110 | NATURAL ESCAPEMENT | PCT/EP2014077039 | 2014-12-09 | WO2015096979A3 | 2015-11-26 | DI DOMENICO GIANNI; FAVRE JÉRÔME |
The invention relates to an escapement mechanism (10) comprising a stop (30) between a resonator (20) and two escapement trains (40A; 40B), each subjected to a torque. Each escapement train (40A; 40B) comprises a track (50) that is magnetized or ferromagnetic for a period (PD). Said stop (30) comprises at least one magnetized or ferromagnetic pole shoe (3) that is transversely movable relative to the movement of one surface (4) of the track (50). The pole shoe (3) or the track (50) creates a magnetic field between the pole shoe (3) and the surface (4), and the pole shoe (3) is placed opposite a magnetic field barrier (46) on the track (50) just before each transverse movement of the stop (30), periodically controlled by the resonator (20). The escapement trains (40A; 40B) are each arranged such as to alternately engage with the stop (30) and are linked to one another by a direct kinematic link. | ||||||
111 | TIMEPIECE SYNCHRONIZATION MECHANISM | PCT/EP2014076936 | 2014-12-08 | WO2015096974A3 | 2015-09-24 | WINKLER PASCAL; HELFER JEAN-LUC |
The invention relates to a mechanism (1) for synchronizing the rotational speed of a wheel train (2) subjected to a torque in a timepiece movement (10). Said mechanism (1) comprises an annular resonator (6) comprising a ring (7) placed around an axis (A). Said ring (7) is capable of periodically changing shape, which is induced by moving a driver (8) which is part of said mechanism (1). Said driver (8) is directly or indirectly driven by said torque. | ||||||
112 | MAGNETIC OR ELECTROSTATIC RESONATOR | PCT/EP2014076991 | 2014-12-09 | WO2015096976A3 | 2015-09-03 | STRANCZL MARC; DI DOMENICO GIANNI; WINKLER PASCAL |
The invention relates to a timepiece resonator (6) comprising a train (7), swingably arranged about an axis (A), and a driver (8), subjected to a torque within a timepiece movement (10). Said resonator is a magnetic or electrostatic annular resonator (6), the train (7) of which is periodically excited by the movement of the driver (8). Said driver (8) is arranged such as to exert contactless force on the train (7). Said train (7) comprises a first amount of first pole shoes (76) magnetized or electrically charged according to a first step, and the driver (8) comprises a second amount of second pole shoes (86) that are magnetized or electrically charged according to a second step, different from the first step, and arranged such as to engage, via attraction or repulsion, with the first pole shoes (76) such that the train (7) and the driver (8) constitute together a speed reduction or multiplication mechanism. | ||||||
113 | ESCAPEMENT MECHANISM HAVING A CONTACTLESS TIMEPIECE CYLINDER | PCT/EP2014076930 | 2014-12-08 | WO2015096973A3 | 2015-09-03 | STRANCZL MARC; WINKLER PASCAL; DI DOMENICO GIANNI; HELFER JEAN-LUC |
The invention relates to an escapement mechanism (1) comprising an escapement wheel (3), subjected to a pivoting torque, and a resonator (4) which is rigidly connected to a pivotably mounted adjustment train (5). The escapement wheel (3) comprises a plurality of actuators (6) that are uniformly distributed on the periphery of said wheel, each arranged such as to engage directly with at least one first track (7) of the adjustment train (5). Each actuator (6) comprises a first surface (61) that is magnetized or electrically charged, or ferromagnetic or electrostatic conductive, and arranged such as to engage with the first track (7) that is magnetized or electrically charged, or ferromagnetic or electrostatic conductive, such as to repel or attract each first surface (61) of the actuator (6). And each actuator (6) comprises a mechanical abutment (9) arranged such as to engage, in a travel-restricting abutment, with at least one first complementary abutment surface (10), which is part the adjustment train (5), such as to constitute a self-contained escapement mechanism therewith. | ||||||
114 | PIVOTING TRAIN ARBOR OF A TIMEPIECE | PCT/EP2014055267 | 2014-03-17 | WO2014154510A9 | 2015-03-05 | ZAUGG ALAIN; SARCHI DAVIDE; KARAPATIS NAKIS |
The invention relates to a one-piece arbor (1) of a pivoting train (10) of a timepiece, said one-piece arbor (1) consisting of one or more aligned portions (2). Said one-piece arbor (1) is magnetically inhomogeneous. | ||||||
115 | PIVOTING TRAIN ARBOR OF A TIMEPIECE | PCT/EP2014055267 | 2014-03-17 | WO2014154510A4 | 2015-01-29 | ZAUGG ALAIN; SARCHI DAVIDE; KARAPATIS NAKIS |
The invention relates to a one-piece arbor (1) of a pivoting train (10) of a timepiece, said one-piece arbor (1) consisting of one or more aligned portions (2). Said one-piece arbor (1) is magnetically inhomogeneous. | ||||||
116 | RESONATEUR COUPLE POUR SYSTEME REGLANT | PCT/EP2007/053276 | 2007-04-03 | WO2007115985A1 | 2007-10-18 | HESSLER, Thierry; TRÜMPY, Kaspar |
Le résonateur couplé comporte un premier résonateur à basse fréquence, tel qu'un spiral (1) et un deuxième résonateur à plus haute fréquence, tel qu'un diapason (2), les deux résonateurs (1, 2) comportant des moyens de couplage mécanique permanents. Application au système réglant d'une pièce d'horlogerie. |
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117 | INCORPORATION OF MARKINGS IN OPTICAL MEDIA | PCT/US0335390 | 2003-11-05 | WO2004042704A3 | 2004-08-12 | CONROY JEFFREY L; AFZAL ROBERT S; BERUBE ALLISON; LAWANDY NABIL M; LEWIS DANA; PIZZUTI THOMAS; SMUK ANDREI |
Optical media (10) having markings that are non-interfering, or substantially non-interfering with readout of data from the optical media are disclosed. The optical media having at least one layer (101) comprising a formulation comprised of at least one set of photosensitive color forming material, and protective coating (102) to enhance color forming coating. The makings are formed by coating the photosensitive color to an optical medial, and then cured by a first light. A second light, having a substantially separate band of wavelengths from the first light, is used to image the markings into the coating. The coating is robust to many external influences, such as ambinent environmental conditions, and physical wear. | ||||||
118 | 진동 발생 장치 및 전자기기 | KR1020230044037 | 2023-04-04 | KR102617742B1 | 2023-12-27 | |
119 | 전자적 기능이 연계된 기계적 손목시계 시계줄 | KR1020190046221 | 2019-04-19 | KR1020190044600A | 2019-04-30 | |
120 | 무접촉식 실린더 이스케이프먼트 | KR1020160166769 | 2016-12-08 | KR1020170069159A | 2017-06-20 | 스트랜첼마르크 |
자기실린더이스케이프먼트 (1) 는, 제 1 디스크 (30) 의주변에서액츄에이터들 (6) 을포함하는이스케이프휠 (3) 과상호협력하는조절휠 세트 (5) 를포함하고, 액츄에이터각각은제 1 임펄스부분 (61) 과제 2 정지부분 (62) 을포함하고, 제 1 임펄스부분과제 2 정지부분은선회축들에평행한자기장들을발생시키거나안내하며, 그리고제 1 디스크 (30) 를통하여, 조절휠 세트 (5) 와일체의제 2 비자화된연성강자성디스크 (7) 와인력작동하도록배열되며, 메카니즘 (1) 은제 1 디스크 (30) 바로아래에상기제 1 디스크와접촉하지않는전도성강자성플레이트 (8) 를포함하고, 플레이트 (8) 는가변에어갭 (E) 으로상기제 2 디스크 (7) 의주변 (70) 을무접촉방식으로둘러싸는절취부 (80) 를포함하며, 상기플레이트는액츄에이터 (6), 제 1 디스크 (30), 제 2 디스크 (7), 및구조물 (34) 을포함하는자기회로를폐쇄하고, 상기구조물 (34) 에서이스케이프휠 (3) 이선회하고그리고상기구조물 (34) 은플레이트 (8) 를지지한다. |