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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241 | ELECTRONIC DEVICE, EXTERNAL ADJUSTING DEVICE FOR ELECTRONIC DEVICE AND METHOD OF ADJUSTING ELECTRONIC DEVICE | EP00912982.6 | 2000-03-30 | EP1089145A1 | 2001-04-04 | Kawaguchi, Takashi; Fujisawa, Teruhiko |
When a frequency measurement unit measures the frequency of a temperature-sensing oscillation test signal and the frequency of a driving-pulse signal transmitted from an electronic apparatus via an coil electromagnetically coupled with a motor coil, a temperature-compensation data generation unit creates temperature-compensation data based on the frequency of the temperature-sensing oscillation test signal and the frequency of the driving-pulse signal. This temperature-compensation data is transmitted to an analog electronic timepiece via the coil. That is, a state of the analog electronic timepiece is measured in a non-contact manner and the temperature-compensation data obtained based on the measurement result is transmitted, whereby the analog electronic timepiece is adjusted in a state of being incorporated in an external casing. |
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242 | CLOCK WITH A MAINSPRING WOUND STATE INDICATOR | EP98961459.9 | 1998-12-22 | EP0962839A1 | 1999-12-08 | JUJO, Koichiro, Seiko Instruments Inc.; TAKIZAWA, Katsuyoshi, Seiko Instruments Inc.; SHIBUYA, Norio, Seiko Instruments Inc. |
To reduce a number of parts constituting a spring winding state display device and downsize a movement. A first sun wheel is installed with a first sun wheel gear 152 and a first sun wheel arbor 154. A second sun wheel 160 is provide with a second sun wheel gear 162 and a second sun wheel pinion 164. The second sun wheel gear 162 is in mesh with an intermediate ratchet wheel 140. A planetary reduction wheel gear 170 is in mesh with a barrel gear 126. A first planetary wheel 172 and a second planetary wheel 174 are rotatably arranged to a planetary reduction wheel gear 170 with centers of rotation thereof disposed at portions different from a center of rotation of the planetary reduction wheel gear 170. The first planetary wheel 172 rotates while revolving around the second sun wheel pinion 164. The second planetary wheel 174 rotates while revolving around the first sun wheel gear 152. A sun wheel finger 180 is attached to a third axle portion 154c such that it can slip. |
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243 | Procédé d'initialisation du calendrier perpétuel d'un chronographe analogique à quartz et chronographe à quartz pour sa mise en oeuvre | EP92100726.6 | 1992-01-17 | EP0502292A1 | 1992-09-09 | Corlet, John |
Cette montre comporte un boitier, une tige de mise à l'heure (1) et deux poussoirs de chronographe P1,P2, un cadran muni d'une graduation des heures (1) et minutes et une aiguille (4) de chronographe au centre ainsi que des affichages chronographe excentrés pour les minutes (5,6) et les heures (7,8) présentant chacune une graduation et une aiguille. Elle comporte encore au moins un moteur pour l'entrainement de ces aiguilles et un circuit électronique, muni d'un processeur, piloté par une base de temps à quartz et un affichage du quantième (9,10). Ce procédé se distingue en ce qu'on commande l'initialisation du calendrier perpétuel, numéro des années à l'intérieur d'un cycle de quatre ans, numéro du mois dans l'année, et indication du quantième à l'aide de la tige de mise à l'heure (11) et des deux poussoirs P1,P2 de chronographe et qu'on visualise chacun des paramètres à initialiser successivement à l'aide de l'aiguille (4) et de la graduation (1) correspondante. |
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244 | Electronic timepiece | EP90306040.8 | 1990-06-05 | EP0402069A3 | 1991-11-21 | Miyazawa, Osamu |
An electronic timepiece has a stepping motor for driving a time display hand in response to an electronic signal generated by a crystal oscillator (100). A stem (27) of the timepiece is arranged to co-operate with circuitry (105) for driving the stepping motor such that the stepping motor is stopped when the stem is pulled out to a first position (b), and such that the stepping motor is advanced with a shorter cycle than usual when the stem is pulled out to a second position (c). |
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245 | Electronic timepiece | EP89303777.0 | 1989-04-17 | EP0338748A3 | 1991-09-11 | Hayakawa, Motomu; Miyazawa, Osamu; Takahashi, Osamu |
An electronic timepiece comprises an oscillator circuit (1) for generating an oscillating signal having a predetermined frequency, and a frequency divider circuit (2) responsive to the oscillating signal for supplying an output for intermittently driving a movable actuator (6). Storage means (7) are provided for storing kinetic energy of the actuator, together with means (10) for controlling release of the stored energy for smoothly driving a time keeping hand (9). Setting means (11) stop the time keeping hand during correction of the time displayed by the timepiece. The frequency divider circuit is arranged such that at least a portion thereof is held during time correction in the state prevailing immediately prior to time correction. This may be achieved by employing state holding means (3; 77; 75) for holding the at least a portion of the frequency divider circuit in said state during time correction. Alternatively, the frequency divider circuit may be arranged such that the at least a portion thereof is set in said state during time correction. |
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246 | Timepiece | EP90306598.5 | 1990-06-18 | EP0404469A2 | 1990-12-27 | Suzuki, Hiroshi; Aoki, Shigeru; Maruyama, Akihiko; Koike, Nobuhiro |
A timepiece comprising at least one step motor (3, 13) which drives a respective display (103-5, 107-8) by way of a respective gear train (5-12, 24, 28, 15-18); and adjustment means (19, 25, 106) for adjusting the or each display (103-5, 107-8) characterised in that the adjustment means (25,106) comprises an electrical control circuit (124) for controlling the operation of the respective display (107-8), the control circuit (124) being provided with a plurality of conductor members (201, 202); and a switch member (118) which has contact portions (118a, 118b) engageable with respective conductor members (201, 202) so as to complete at least one circuit of the control circuit (124) and thereby control operation of the latter. |
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247 | Timepiece | EP90306597.7 | 1990-06-18 | EP0404468A2 | 1990-12-27 | Suzuki, Hiroshi; Aoki, Shigeru; Maruyama Akihiko; Koike, Nobuhiro |
A timepiece comprising externally operable means (19,25) settable in a plurality of positions; clutch wheel means (23,27) mounted for movement along the externally operable means (19,25) into and out of an operative position; and adjustment means (21), operable by movement of the externally operable means (19,25), for effecting said movement of the clutch wheel means (23,27) characterised in that the externally operable means (19,25) comprise a plurality of externally operable members (19,25) each of which has a respective clutch wheel (23,27) mounted thereon for movement into and out of a said operative position, the adjustment means comprising a common adjustment member (21) for all the clutch wheels (23,27), the common adjustment member (21) having portions (21a,21b) which are arranged to effect movement of each clutch wheel (23,27) into and/or out of its operative position. |
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248 | Funkuhr | EP85113560.8 | 1985-10-25 | EP0180155A2 | 1986-05-07 | Allgaier, Jürgen; Ganter, Wolfgang |
Eine Funkuhr, bestehend aus einem Funkempfänger (1) und einer Zeitanzeigeeinrichtung, soll dafür ausgelegt werden, ohne konstruktiven Mehraufwand seitens der Zeitanzeigeeinrichtung eindeutig erkennen zu lassen, ob Empfangsverhältnisse vorliegen, die zu einer Korrektur einer etwa unzutreffenden Zeitanzeige führen können. Dafür wird zu Betriebsbeginn die Fortschaltung eines Zeigers, z.B. des Sekundenzeigers (18), aus der demodulierten, die dekodierte Zeitinformation enthaltenden Impulsfolge (6) abgeleitet und erst auf die Folge intern gewonnener, zeithaltender Impulse (25) umgeschaltet, wenn eine Entschlüsselungsschaltung (7) eine vollständige Zeitinformation dekodieren konnte. Nach Inbetriebnahme der Funkuhr ist also aus einem vom Sekundenrhythmus abweichenden Weiterschalten des Indikator-Zeigers (8 bzw. 18) ohne weiteres erkennbar, daß unzureichende Funkempfangsverhältnisse vorliegen; die dann - z.B. durch Veränderung der örtlichen Orientierung der Funkuhr - verbessert werden können, bis sich eine sekundliche Fortschaltung des Indikator-Zeigers (8, 18) einstellt. |
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249 | Pièce d'horlogerie électronique comportant un dispositif de mise à l'heure | EP85111025.4 | 1985-09-02 | EP0175961A1 | 1986-04-02 | Besson, René; Meister, Pierre-André; Rudin, Jürg |
La montre comprend au moins une aiguille des minutes, une aiguille des heures et une tige-couronne qui peut prendre une position axiale tirée, dite de correction. La correction minute par minute ou par fuseau horaire entier s'opère dans la même position tirée de la tige-couronne par le choix de la vitesse de rotation à laquelle on entraine la couronne. La correction du fuseau horaire prend toujours comme référence le temps réel qui court à partir de l'activation en position tirée de la couronne et des moyens (10, 11) sont mis en oeuvre pour annuler toutes corrections des minutes pas par pas qui auraient précédé la correction du fuseau horaire. |
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250 | VERFAHREN UND COMPUTERPROGRAMMPRODUKT ZUM STELLEN EINER UHR | EP17154574.2 | 2017-02-03 | EP3220213B1 | 2020-07-29 | BIEGERT, Marco; FUNK, Andreas |
251 | VERFAHREN UND COMPUTERPROGRAMMPRODUKT ZUM STELLEN EINER UHR | EP18196926.2 | 2017-02-03 | EP3451082A1 | 2019-03-06 | BIEGERT, Marco; FUNK, Andreas |
Verfahren zum Stellen einer Uhr mit den folgenden Schritten: |
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252 | PROCÉDÉ DE RÉGLAGE DE LA FRÉQUENCE DE MARCHE D'UNE MONTRE ÉLECTRONIQUE | EP17202602.3 | 2017-11-20 | EP3379347A1 | 2018-09-26 | KLOPFENSTEIN, François |
L'invention concerne un procédé de réglage de la fréquence de marche d'une montre électronique (10) par l'intermédiaire d'une application informatique installée sur un appareil électronique portable (12), le procédé de réglage comprenant les étapes suivantes, réalisées par l'application informatique : |
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253 | DISPOSITIF DE REGLAGE POUR MONTRE | EP14815300.0 | 2014-12-12 | EP3084530A2 | 2016-10-26 | LAGORGETTE, Pascal; BALMER, Raphaël |
The present invention relates to an adjustment device (10) for a watch arranged such as to be clamped onto the glass of a watch (100) and comprising a plurality of display means (106). The device is arranged such as to allow the user to view said display means (106) of said watch during the adjustment thereof. | ||||||
254 | Dispositif de réglage pour montre | EP13199118.4 | 2013-12-20 | EP2887158A1 | 2015-06-24 | Lagorgette, Pascal; Balmer, Raphaël |
La présente invention concerne un dispositif de réglage (10) pour montre agencé pour être plaqué sur la glace d'une montre (100) comportant plusieurs moyens d'affichage (106). Le dispositif est agencé pour permettre la visualisation par l'utilisateur desdits moyens d'affichage (106) de ladite montre pendant leur réglage. |
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255 | Dispositif pour montre électromécanique permettant de déterminer le moment et le sens dans lequel une indication temporelle doit être corrigée | EP10154411.2 | 2010-02-23 | EP2360538A1 | 2011-08-24 | Salzmann, Christian; Kaelin, Laurent |
Dispositif pour montre électromécanique (1) permettant à un circuit électronique de commande du mouvement de la montre (1) de déterminer le moment et le sens dans lequel une indication d'une grandeur temporelle doit être corrigée, ce dispositif comprenant une roue (68) entraînée par le mouvement de la montre (1) et qui porte des moyens d'actionnement (70, 72) de premier et second moyens de détection (46a, 46b) connectés au circuit électronique de commande, le circuit électronique de commande déduisant du moment et de l'ordre dans lequel les premier et second moyens de détection (46a, 46b) sont actionnés par les moyens d'actionnement de la roue (68) entraînée par le mouvement de la montre (1) le sens dans lequel la roue (68) est entraînée par le mouvement et le moment où la grandeur temporelle doit être incrémentée, respectivement décrémentée. |
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256 | UNIVERSAL ELECTRONIC DEVICE MODULE CONFIGURATION | EP06763768.6 | 2006-06-16 | EP1891488A2 | 2008-02-27 | PLANCON, Michel G. |
A wearable electronic device comprising a movement assembly for two differing display assemblies, wherein the improvement comprises a controller with changeable functionality, operatively coupled to the actuation mechanism, for controlling the actuation of the actuation mechanism; wherein the functionality of the controller for operating the first display assembly is different from the functionality for operating the second display assembly; whereby the display functionality of the wearable electronic device is changeable based on the display assembly operatively coupled to the one or more gears in the module and whereby the module and subassembly can be used to provide differing display functionality based on the display assembly coupled thereto. | ||||||
257 | ELECTRIC TIMEPIECE | EP03743595.5 | 2003-03-04 | EP1482282B1 | 2008-01-16 | FUKUDA, Masami; IGARASHI, Kiyotaka; KOMINE, Shinichi; IWAKURA, Ryoji; MOROKAWA, Shigeru |
An electric timepiece is characterized by comprising a transmission circuit (6) for generating transmission signals, transmission electrodes (1, 2) for outputting an output signal generated by the transmission circuit (6), a signal modulating member (3) disposed close to the transmission electrodes (1, 2) contactlessly and consisting of a rotor for modulating the transmission signals, a reception electrode (4) disposed close to the signal modulating member (3) contactlessly and adapted for receiving transmission signals modulated by the signal modulating member (3), a reception circuit (7) for amplifying the reception signal received by the reception electrode (4), and a detection circuit (8) for detecting mechanical positional information on the signal modulating member (3) on the basis of the reception signal amplified by the reception circuit (7). | ||||||
258 | PORTABLE INFORMATION DEVICE | EP03778852 | 2003-12-12 | EP1480090A4 | 2007-09-12 | MARUYAMA AKIHIKO; OKUHARA KENICHI |
A portable information device for ensuring a sufficient visibility of time even when the enclosure is closed and giving a high-grade feeling, the device comprising an analog-quartz clock (50) provided on the outer-side surface on the display side (1a) of the enclosure (1) of the portable phone (100), that is on the surface (1c) exposed to the outside when the enclosure (1) is closed, time given by the analog-quartz clock (50) being synchronized with time indicated on the display of the portable phone (100). | ||||||
259 | Time-measurement device and method of controlling the same | EP99309937.3 | 1999-12-10 | EP1014227B1 | 2006-03-15 | Kojima, Hiroyuki, c/o Seiko Epson Corporation; Okeya, Makoto, c/o Seiko Epson Corporation; Yabe, Hiroshi, c/o Seiko Epson Corporation; Shimura, Noriaki, c/o Seiko Epson Corporation; Kitahara, Joji, c/o Seiko Epson Corporation |
260 | TIME CORRECTION SYSTEM, TIME CORRECTION DESIGNATING UNIT, POINTER TYPE CLOCK, AND METHOD FOR CORRECTING TIME | EP04700511.1 | 2004-01-07 | EP1553469A1 | 2005-07-13 | AKAHANE, Hidehiro, c/o SEIKO EPSON CORPORATION; TAKAHASHI, Osamu, c/o SEIKO EPSON CORPORATION |
A date/time correction system 1 has a timepiece 10 with pointers 16 for displaying the time, and a correction instruction device. The correction instruction device has timing means for timing reference time data, time input means whereby pointed time data indicated by the pointers 16 is inputted, comparison means for comparing the reference time data timed by the timing means and the inputted pointed time data, and communication means capable of outputting a correction instruction signal based on the results of this comparison to the timepiece. The timepiece 10 has an external signal detection circuit 43 capable of receiving the correction instruction signal, drive control means 41 for controlling the driving of the pointers 16, and a time correction control circuit 44 for matching the readings of the pointers 16 with the reference time data on the basis of the received correction instruction signal. |