| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 221 | UNIVERSAL ELECTRONIC DEVICE MODULE CONFIGURATION | PCT/EP2006/063302 | 2006-06-16 | WO2006134171A2 | 2006-12-21 | 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. |
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| 222 | 時刻修正システム、時刻修正指示装置、指針式時計、および時刻修正方法 | PCT/JP2004/000043 | 2004-01-07 | WO2005003867A1 | 2005-01-13 | 赤羽 秀弘; 高橋 理 |
日時修正システム1は、時刻表示用の指針16を有する時計10と、修正指示装置とを備える。修正指示装置は、基準時刻データを計時する計時手段と、指針16が指示する指示時刻データが入力される時刻入力手段と、計時手段で計時されている基準時刻データおよび入力された指示時刻データを比較する比較手段と、この比較手段に基づく修正指示信号を時計に対して出力可能な通信手段とを備える。時計10は、修正指示信号を受信可能な外部信号検出回路43と、指針16の駆動を制御する駆動制御手段41と、受信した修正指示信号に基づいて指針16の指示を基準時刻データに合わせる時刻修正制御回路44とを備える。 |
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| 223 | ELECTRONIC TIMEPIECE, METHOD OF CONTROLLING ELECTRONIC TIMEPIECE, ADJUSTING SYSTEM OF ELECTRONIC TIMEPIECE AND ADJUSTING METHOD OF ELECTRONIC TIMEPIECE | PCT/JP2000/006354 | 2000-09-18 | WO01022175A1 | 2001-03-29 | |
| An electronic timepiece into which data can be written easily even after it is encased as a completed product. When an external operating member is in a predetermined operating state, the operating mode of an analog electronic timepiece having a motor coil is made a data receiving mode. Subsequently, the analog electronic timepiece generates a synchronization signal synchronized with an external synchronization signal. When the operating mode detected by a detection circuit is a data receiving mode, the analog electronic timepiece generates a reception data based on a data voltage signal induced in the motor coil by an external data signal inputted externally and the synchronization signal and outputs the reception data. | ||||||
| 224 | CROWN SWITCHING MECHANISM | PCT/US2000/015435 | 2000-06-02 | WO00075734A1 | 2000-12-14 | |
| A switching mechanism is provided for a multimode electronic timepiece having a casing, a device for indicating a time-of-day and an integrated circuit operable in a plurality of modes. The switching mechanism includes a setting stem (16) mounted for rotational movement and positionable in a plurality of axial setting positions. The setting stem (16) includes at least one tooth (26). The switching mechanism also includes a switch arm (20) having a first end, a second end and an intermediate portion. The intermediate portion engages the tooth of the setting stem. The switching mechanism further includes a first and a second electrical contact. When the setting stem (16) is in at least one of the axial setting positions and while the timepiece is operating in at least two of the modes, the intermediate portion cooperates with the tooth (26) to intermittently form, in response to a rotation of the setting stem (20) an electrical connection between the second end and, when the setting stem (20) is rotating in a first direction, the first electrical contact to produce an internittent first electrical pulse. Alternatively, when the setting stem (20) is rotating in a second direction, an electrical connection is intermittently formed between the second end and the second electrical contact to produce an intermittent second electrical pulse. | ||||||
| 225 | SENSOR CLOCK, DATA INPUT SYSTEM OF SENSOR CLOCK, DATA INPUT METHOD OF SENSOR CLOCK AND COMPUTER-READABLE RECORDING MEDIUM IN WHICH PROGRAM FOR MAKING COMPUTER EXECUTE THE METHOD IS RECORDED | PCT/JP2000/002550 | 2000-04-19 | WO00063750A1 | 2000-10-26 | |
| Calibration such as temperature compensation, etc. for each sensor clock can be practiced easily, physical values obtained by various types of sensors can be measured with high precision, time setting and calendar setting for realizing the primary clock function of the sensor clock can be practiced easily and setting errors can be reduced. In a sensor clock with a pressure sensor (1), a calibration control means which is synchronized with an outer environment setting control means which sets and controls the outer environment corresponding to the physical values measured by the pressure sensor (1), and which controls writing of the detected value of the pressure sensor (1) into a memory unit (3) is provided. | ||||||
| 226 | 以影像辨識校準手錶之方法 | TW104130205 | 2015-09-11 | TWI569116B | 2017-02-01 | 魏智賢; WEI, CHIH-HSIEN; 賴冠仲; LAI, GUAN-JHONG |
| 227 | 具互動功能的時鐘裝置 | TW108208239 | 2019-06-27 | TWM584445U | 2019-10-01 | 劉芃均; LIU, PENG-JYUN; 張瑞姍; CHANG, JUI-SHAN |
| This creative system discloses a clock device with interactive functions, which includes: a device body, which is an animal shape, and a side with an accommodation space and an opening for housing a smart phone; an application, which is equipped with a smart device Mobile phones, applications transmit connection signals through smart phones; sensor modules are set in the device body to receive connection signals; display modules are set on the face of the device body to display time or interactive messages; A control module is disposed in the device body and is electrically connected to other modules; and a power module is disposed in the device body to supply power; wherein, when the control module does not receive a connection signal, the control module controls The display module displays time information, and when receiving a connection signal, controls the display module to display interactive information. | ||||||
| 228 | PROCEDE DE RÉGLAGE D'UNE MONTRE A QUARTZ | EP17161866.3 | 2017-03-20 | EP3379346B1 | 2022-08-03 | Lagorgette, Pascal; Balmer, Raphaël; Peters, Jean-Bernard |
| 229 | COURONNE-POUSSOIR POUR PIÈCE D'HORLOGERIE | EP20209679.8 | 2020-11-25 | EP4006647A1 | 2022-06-01 | AVRIL, Hervé; DANGUZOV, Daniel |
La présente invention se rapporte à une couronne-poussoir (3) munie d'un ressort (10) disposé au sein d'une cage (11) solidaire en rotation du mouvement de la tête (4) de la couronne-poussoir (3), le ressort (10) étant agencé au sein de la cage (11) de manière à être entraîné en rotation avec la cage. La base (13c) de la cage de ressort est munie d'alvéoles (18) coopérant avec des protubérances (17) ménagées dans une rondelle (14) disposée sur l'assise (6a) du tube (6) de la couronne-poussoir, la rotation de la couronne-poussoir étant alors accompagnée d'un clic lors du passage des protubérances (17) dans les alvéoles (18), ce qui permet à l'utilisateur de s'assurer qu'il y a bien actionné les fonctions souhaitées.
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| 230 | PROCÉDÉ DE RÉGLAGE DE LA FRÉQUENCE DE MARCHE D'UNE MONTRE ÉLECTRONIQUE | EP17202602.3 | 2017-11-20 | EP3379347B1 | 2020-01-01 | KLOPFENSTEIN, François |
| 231 | DEVICES FOR QUANTIFYING THE PASSAGE OF TIME | EP12850621.9 | 2012-11-19 | EP2780766A1 | 2014-09-24 | JONES, John, David |
| Devices, systems, and methods for presenting date and time information are described. In some embodiments, a date and/or a time value is presented as a base-36 number. In some embodiments, an integral portion of the base-36 number represents a date value, and a fractional portion of the base-36 number represents a time value. Each base-36 digit may be represented by one of the numerals 0-9 and the letters A-Z. Both digital and analog clocks displaying date and/or time information in which a day is broken into thirty-six increments are disclosed. | ||||||
| 232 | Time counting assembly with a display for world time zones | EP07106084.2 | 2007-04-12 | EP1845424A3 | 2010-09-08 | Lin, Wen-Chun |
A time counting assembly with a display for world time zones comprised of a power source (1), a second counter (2), a minute counter (3), an hour counter (4), and a time zone display (5) for displaying a correct time over a faceplate (53). The user stirs the time zone adjustable ring (52) with the hand to align a first landmark of a local time zone with a fixed point and then calibrates the time counting assembly in accordance with the local time, and then stirs the time zone adjustable ring (52) with the hand to align a second landmark of another locating time zone with the fixed point such that the inner gear ring (522) moves the planetary idle gear set and the planetary base wheel to shift engagement of the engaging hooks (56) in the ratchet holes (523), and the front hour wheel (41) is rotated on the planetary base wheel with a planetary movement along the minute wheel set (32) to cause rotation of a meshed hour wheel (42) so as to turn a hour hand (43) to the time in accordance with the time zone corresponding to the second landmark. The direct time zone adjustment design greatly reduces the thickness of the assembly so that the time counting assembly is usable in a watch or low-profile timer while maintaining world time zone display and adjustable functions, and providing a modularized design function for ultra-thin time recording device.
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| 233 | PENDULUM CLOCK AND METHOD FOR THE MODIFICATION OF A PENDULUM CLOCK | EP99905362.2 | 1999-02-12 | EP1036350B1 | 2009-04-08 | SPAANDER, Melgert; HOENCAMP, Menno, Bart |
| Method for modernizing a pendulum clock, by which the original character of the clock is maintained. For that purpose a control unit is added, together with a reference clock, a pneumatically driven cylinder and arresting means for arresting the pendulum. The pendulum clock is adjusted such that it runs slightly fast. Periodically, for example every hour, the pendulum is arrested up to the moment that the pendulum clock is in time with the reference clock. While the pendulum is arrested, the pendulum clock is wound up by the cylinder. | ||||||
| 234 | Apparatus and method for adjusting time in a terminal with built-in analog watch | EP03026969.0 | 2003-11-25 | EP1424612A3 | 2007-11-07 | Park, Jae-Sun |
There is provided an apparatus for adjusting the time of analog watch in a terminal having the analog watch, which comprises an analog watch unit and a control unit. The analog watch unit includes an oscillation circuit for generating a standard signal with a predetermined frequency; a division circuit for dividing the standard signal by a predetermined division ratio according to a control signal and generating a divided signal; a driving circuit for generating a driving signal according to the divided signal; and a driving unit driven by the driving signal, for moving the elements of the analog watch. The control unit provides the control signal to the division circuit of the analog watch when a predetermined time adjustment manipulation is inputted. The hands of the analog watch move faster than a general time indication according to an input state of a time adjustment key.
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| 235 | Time counting assembly with a display for world time zones | EP07106084.2 | 2007-04-12 | EP1845424A2 | 2007-10-17 | Lin, Wen-Chun |
A time counting assembly with a display for world time zones comprised of a power source (1), a second counter (2), a minute counter (3), an hour counter (4), and a time zone display (5) for displaying a correct time over a faceplate (53). The user stirs the time zone adjustable ring (52) with the hand to align a first landmark of a local time zone with a fixed point and then calibrates the time counting assembly in accordance with the local time, and then stirs the time zone adjustable ring (52) with the hand to align a second landmark of another locating time zone with the fixed point such that the inner gear ring (522) moves the planetary idle gear set and the planetary base wheel to shift engagement of the engaging hooks (56) in the ratchet holes (523), and the front hour wheel (41) is rotated on the planetary base wheel with a planetary movement along the minute wheel set (32) to cause rotation of a meshed hour wheel (42) so as to turn a hour hand (43) to the time in accordance with the time zone corresponding to the second landmark. The direct time zone adjustment design greatly reduces the thickness of the assembly so that the time counting assembly is usable in a watch or low-profile timer while maintaining world time zone display and adjustable functions, and providing a modularized design function for ultra-thin time recording device.
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| 236 | DISPLAY DEVICE WITH AT LEAST TWO INDICATING HANDS AND METHOD FOR CALIBRATING/SETTING THE SAME | EP05825280.0 | 2005-12-20 | EP1828856A2 | 2007-09-05 | ZACHMANN, Helmut |
| A method of setting/calibrating at least two display hands in an electronic device, wherein the method comprises the steps of initiating an actuation sequence of the setting/calibration mechanism; causing the first of the at least two display hands to rotate at least in one of a clockwise and counterclockwise direction and in a manner that is independent of the actuation sequence; initiating a hand selection sequence via a selection mode to select the second of the at least two display hands to be set/calibrated; and while preventing the first of the at least two display hands from rotating, causing the second of the at least two display hands to rotate in at least one of a clockwise and counterclockwise direction and in a manner independent of the hand selection sequence; wherein the second of the at least two display hands would be next for setting/calibrating. | ||||||
| 237 | SENSOR CLOCK, DATA INPUT SYSTEM OF SENSOR CLOCK, DATA INPUT METHOD OF SENSOR CLOCK AND COMPUTER-READABLE RECORDING MEDIUM IN WHICH PROGRAM FOR MAKING COMPUTER EXECUTE THE METHOD IS RECORDED | EP00917365 | 2000-04-19 | EP1174778A4 | 2005-06-29 | MASAKI HIROYUKI; NAKAMURA CHIAKI |
| Calibration such as temperature compensation, etc. for each sensor clock can be practiced easily, physical values obtained by various types of sensors can be measured with high precision, time setting and calendar setting for realizing the primary clock function of the sensor clock can be practiced easily and setting errors can be reduced. In a sensor clock with a pressure sensor (1), a calibration control means which is synchronized with an outer environment setting control means which sets and controls the outer environment corresponding to the physical values measured by the pressure sensor (1), and which controls writing of the detected value of the pressure sensor (1) into a memory unit (3) is provided. | ||||||
| 238 | ELECTRONIC TIMEPIECE, METHOD OF CONTROLLING ELECTRONIC TIMEPIECE, ADJUSTING SYSTEM OF ELECTRONIC TIMEPIECE AND ADJUSTING METHOD OF ELECTRONIC TIMEPIECE | EP00961056 | 2000-09-18 | EP1143309A4 | 2005-03-16 | FUJISAWA TERUHIKO; KAWAGUCHI TAKASHI; MIYAHARA FUMIAKI |
| An electronic timepiece into which data can be written easily even after it is encased as a completed product. When an external operating member is in a predetermined operating state, the operating mode of an analog electronic timepiece having a motor coil is made a data receiving mode. Subsequently, the analog electronic timepiece generates a synchronization signal synchronized with an external synchronization signal. When the operating mode detected by a detection circuit is a data receiving mode, the analog electronic timepiece generates a reception data based on a data voltage signal induced in the motor coil by an external data signal inputted externally and the synchronization signal and outputs the reception data. | ||||||
| 239 | POSITION DETECTOR, ENCODER BOARD, POSITION DETECTING METHOD, TIMER AND ELECTRONIC DEVICE | EP97922167.8 | 1997-05-23 | EP0841538B1 | 2003-02-19 | AKAHANE, Hidehiro, Seiko Epson Corporation; SHIMURA, Noriaki, Seiko Epson Corporation |
| A small size high precision position detector for automatically detecting a hand position which is necessary for adding a function such as automatic time setting of a timer. An identification pattern (20) where identification marks are provided discretely is made of a hard magnetic thin film. The surface of the center wheel (17) moved interlockingly with the minute hand (12) serves as an encoder face. The existence of the identification marks are sampled by a magnetic sensor (21b) at a plurality of sampling points. The detection signals of the magnetic sensor at the respective sampling points are sorted into three types of data, "1" meaning that the identification mark exists, "0" meaning that the identification mark does not exist and "*" meaning that the identification mark is indefinite. The sampling codes which are obtained by the data of a plurality of the sampling points are compared with a reference identification code to determine the position. Further, by arranging the identification patterns regularly in relation to the sampling points, the errors of the indefinite data can be corrected. | ||||||
| 240 | SENSOR CLOCK, DATA INPUT SYSTEM OF SENSOR CLOCK, DATA INPUT METHOD OF SENSOR CLOCK AND COMPUTER-READABLE RECORDING MEDIUM IN WHICH PROGRAM FOR MAKING COMPUTER EXECUTE THE METHOD IS RECORDED | EP00917365.9 | 2000-04-19 | EP1174778A1 | 2002-01-23 | MASAKI, Hiroyuki, Seiko Instruments Inc.; NAKAMURA, Chiaki, Seiko Instruments Inc. |
To make calibration of temperature compensation etc. of individual sensor timepieces straightforward, to carry out measurements of physical quantities by each type of sensor in a highly precise manner, to make setting of a time and date for implementing the original timepiece function of the sensor timepiece easy, and to reduce the number of erroneous settings. A sensor timepiece equipped with a pressure sensor 1 comprises calibration control means for controlling writing of detection values of the pressure sensor 1 to a storage unit 3 in synchronism with external environmental setting control means for controlling an external environment corresponding to physical quantities measured by the pressure sensor 1. |
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