| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Snap switch having means for moving a second contact towards a first contact prior to engagement thereof | US39920564 | 1964-09-25 | US3261935A | 1966-07-19 | ROGERS DONALD J |
| 62 | Motive and clock mechanism | US39171129 | 1929-09-11 | US1959787A | 1934-05-22 | HOUGH ROBERT H |
| 63 | A MECHANICAL CLOCK | EP16766338.4 | 2016-07-29 | EP3341800B1 | 2023-08-16 | ROOK, David Alan; HARTLEY, Richard |
| 64 | TEMPERATURE RESPONSIVE SELF WINDING TIMEPIECES | EP02721280 | 2002-03-07 | EP1381920A4 | 2009-12-02 | PHILLIPS STEVEN |
| 65 | Support and winding-up device for automatic wrist watches | EP04013420.7 | 2004-06-08 | EP1489470A2 | 2004-12-22 | Colarieti, Sandro |
A device (1) for supporting and winding-up automatic wrist watches (4) comprises a base (2) including a plurality of rotary supporting elements (3), each provided with latching means for housing a wrist watch therein, the supporting elements being rotatively driven by a geared-motor unit (8). |
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| 66 | Convertisseur d'une tension alternative en un courant continu et circuit d'oscillateur comportant ce convertisseur | EP81810349.1 | 1981-08-27 | EP0050583A1 | 1982-04-28 | Leuthold, Oskar |
Convertisseur (300) d'une tension alternative (SP) en un courant continu (i3), caractérisé en ce qu'il comprend un premier convertisseur élémentaire (21) fournissant in réponse à la tension alternative (SP) un courant continu pulsé (i1) dont la valeur moyenne (i1) est une fonction fortement croissante de l'amplitude A de la tension alternative (SP), et un second convertisseur élémentaire (22) fournissant en réponse au courant i1 un courant i3 dont la valeur est une fonction fortement décroissante de Application à la régulation de l'amplitude du signal d'oscillation d'un oscillateur. |
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| 67 | SYMPATHETIC TIMEPIECE ASSEMBLY | US18005526 | 2020-07-30 | US20230315020A1 | 2023-10-05 | Daniel MATTEAZZI; Alain ZAUGG |
| A method for reference time setting of the displays (4; 5) of a sympathetic watch (200) by a sympathetic clock (100) forming a sympathetic assembly (1000) with the watch (200) which includes a coupling mechanism (706) between its display and finishing gear trains, and a hammer (701) movable between a coiled position where it is retained by a pawl, and an active position where it rests on an hour heart cam (702) carried by an hour wheel (708) of said watch (200), to constrain it in rotation to its smallest radius. | ||||||
| 68 | SYMPATHETIC TIMEPIECE ASSEMBLY | US18006632 | 2020-07-30 | US20230305496A1 | 2023-09-28 | Jérôme MACÉ; Alain ZAUGG |
| Method for relative time setting of a sympathetic watch (200) by a sympathetic clock (100) with which the watch (200) forms a sympathetic assembly (1000), the watch (200) including at least one hour display (4) and one minute display (5), a reference position of which will be defined, and the time-setting is executed, only at request by action of a user on a control means (300) included in the clock (100) or the watch (200), or automatically periodically controlled by the clock (100), and, to perform the relative time setting, the clock (100) drives said displays (4; 5) of the watch backwards, in the counter-clockwise direction, with a sufficiently long stroke to ensure that the displays (4; 5) pass through the reference position, before a return in the clockwise direction to the instantaneous time, and method for winding the watch by this relative time setting. | ||||||
| 69 | SYMPATHETIC TIMEPIECE ASSEMBLY | US18016784 | 2020-07-30 | US20230288876A1 | 2023-09-14 | Daniel MATTEAZZI; Alain ZAUGG; Jerome MACE |
| A method for acquiring data on a sympathetic clock (100) for setting the time of a sympathetic watch (200) at request. The sympathetic watch forms with the clock (100) a sympathetic assembly (1000). The watch includes an hour display (4) and a minute display (5), a reference position of which will be defined at a reference time, and the clock (100) performs the time setting of the watch (200), either when the watch (200) is placed on the clock (100), or alternatively at a predetermined time on the clock (100), or at request by action of a user on a control means (300) included in the clock (100) or the watch (200), or upon control of a horological movement (900) included in the clock (100). | ||||||
| 70 | Solar electric winder for a self-winding watch | US14109209 | 2013-12-17 | US08870447B2 | 2014-10-28 | Jean-Jacques Born; Beat Gilomen |
| The electric solar watch winder includes a rotating support, a motor arranged to drive the rotating support, an accumulator arranged to power the motor, a solar cell arranged to charge the accumulator, an internal clock, an electronic means of controlling the motor, a light sensor connected to the electronic means, and a user control interface for the electronic means. The electronic means is arranged to be controlled by the user to be selectively placed in one or other of a plurality of operating modes, the plurality of operating modes including a first mode in which the rotating support is only driven when the winding mechanism is illuminated and a second mode in which a rotating support drive program is started at a pre-selected time using the control interface. | ||||||
| 71 | TIMING DEVICE WITH POWER WINDER | US12501920 | 2009-07-13 | US20090274013A1 | 2009-11-05 | Tai-Her YANG |
| A timing device utilizes hybrid power to drive a movement of the timing device, the hybrid power supply functioning as an auxiliary unit to deliver power to an electro-magnetically driving unit through an automatic control unit manipulated by a mechanical energy storage status detection unit to produce mechanical energy in time to prevent the movement from stopping; a main spring barrel or a potential difference weight of the kinetic energy storage unit being driven to further drive a wheel chain of the timing device and automatically suspend driving upon the completion of winding the wheel train. | ||||||
| 72 | Watch winder cabinet and watch winder apparatus | US10857219 | 2004-05-28 | US20050265129A1 | 2005-12-01 | Charles Agnoff |
| A cabinet supporting a plurality of watch winders includes an enclosure having a horizontal top wall with an opening, a rear wall, a front wall, a divider wall separating the enclosure into a rear support chamber and a front storage area. A watch winder support having a top wall and a generally upright watch winder panel having a raised position projecting above the enclosure through the top wall opening from the chamber, and a lowered position within the chamber with the upper surfaces of the enclosure and support top walls being in a plane, thereby preventing access to the watch winders and hiding the watch winders and any supported watches from view. A drive mechanism with a reversible electric motor is used to move the support between its raised and lowered positions. | ||||||
| 73 | Time indicator assembly | US10819791 | 2004-04-07 | US20050226101A1 | 2005-10-13 | David Haas; Robert Holt |
| A time indicator assembly including a front part and a back part is disclosed that can easily pass through a printer. The time indicator assembly includes a base substrate forming at least part of the back part having a first surface and a second surface extending between edges. A migrating ink is applied over a portion of the first surface of the base substrate, and a release sheet overlies the migrating ink to prevent migration of the migrating ink toward the front part. In one embodiment, an adhesive is applied over the release sheet and onto the base substrate adjacent at least two of the base substrate edges. The adhesive joins a cover substrate forming at least part of the front part to the base substrate over at least a portion of the release sheet and along the at least two of the base substrate edges. Upon removal of the release sheet, the migrating ink migrates through the adhesive to form an image in the cover substrate. In another embodiment a lift strip is formed in at least one of the front part and back part for easily separating the front part and back part to expose and remove the release sheet. | ||||||
| 74 | Support and winding-up device for automatic wrist watches | US10864055 | 2004-06-08 | US20050169111A1 | 2005-08-04 | Sandro Colarieti |
| A device for supporting and winding-up automatic wrist watches comprises a base including a plurality of rotary supporting elements, each provided with latching means for housing a wrist watch therein, the supporting elements being rotatively driven by a geared-motor unit. | ||||||
| 75 | Timing device | US10749685 | 2003-12-31 | US20050141348A1 | 2005-06-30 | Steven Adamy |
| A timing device for visually determining the passage of a preselected period of time including a redox indicator and a metal salt wherein the indicator undergoes an observable change in color which is related to the desired preselected period of time. | ||||||
| 76 | Event and relationship timepiece | US10656030 | 2003-09-05 | US20050052954A1 | 2005-03-10 | Martin Riedi; Christian Valderrama |
| A timepiece structured to record and display the elapsed time from at least one specific event to the current time including a processor having a chronographic application structured to record the elapsed time on a continuous basis. The processor also includes a restrictive designation application structured to restrict resetting of the timepiece, or the chronographic application associated therewith, by a user thereof, with a different event. A memory capability is included for storing one or more original input times of associated events, wherein the timepiece and/or the chronographic application can be reset only by entry through a restrictive access to the memory capability, such as may be accomplished by the an authorized processing facility, rather than the user or owner of the timepiece. The elapsed time of a selected specific event is thereby “permanently” and continuously recorded for display by restricting the ability to reset or stop the timepiece. | ||||||
| 77 | Device for implanting a microphone and a pressure compensating member in a telephone watch | US09793963 | 2001-02-28 | US06865278B2 | 2005-03-08 | Dominique Dubugnon; Jean-Pierre Mignot; Paul Dinnissen |
| The device for implanting a microphone (1) and at least one pressure compensating member (2) in a telephone watch consists in placing the microphone and the compensating member close together. A membrane (5) covers the microphone (1) and a disc (6) forms the compensating member (2). The membrane (5) and the disc (6) open at least partially into a single chamber (7) opening onto the outside via an opening (8) in the form of a slot. A liquid (arrow A) can be injected through this slot to rid the chamber, the membrane and the disc of foreign bodies which could accumulate therein. | ||||||
| 78 | Composite framing member construction for windows and doors | US469333 | 1995-06-06 | US5579618A | 1996-12-03 | Harry M. Riegelman |
| A unitary composite frame member of two or more structural elements. A first and a second of the elements each contributes strength to the member. The second element, a plastic, encloses the first element on essentially all surfaces along the length of the first element, and is molded to itself through openings in the first element. The first element is discontinuous in that it is two walls attached lengthwise, and a third wall parallel to them and separate from them. In one embodiment, the third wall and one of the two walls intersect laterally. | ||||||
| 79 | Pulses generating system | US26705672 | 1972-06-28 | US3802180A | 1974-04-09 | BOUDRY J |
| Briefly stated, the system in accordance with an object of the present invention, is related to a system for generating finite pulses from signals derived from a selected stage of a frequency divider receiving high frequency signals from a master oscillator, said pulses providing a drive control for an electric stepping motor of an electronic watch. The pulses generating system comprises two logical storage means, e.g two toggles in a master-slave arrangement, synchronised by sync. signals derived from a medium order divider stage and controlled by signals derived from lower order divider stage imposing the repetition frequency to said generated control pulses. The system embodiment, to which an operation control system means may be added, is realizable according to microelectronic integrated circuit techniques.
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| 80 | Drive arrangement for timekeeping system | US3609957D | 1969-03-27 | US3609957A | 1971-10-05 | EMERSON FRANK W; GOSLING LINCOLN J |
| AN IMPROVED DRIVE ARRANGEMENT FOR A TIMEKEEPING SYSTEM. THE DRIVE ARRANGEMENT INCLUDES AN ELECTROSTATIC MOTOR INCLUDING A ROTOR HAVING A DIELECTRIC CIRCUMFERENTIAL SURFACE AND A PAIR OF ELECTRODES OPERATIVELY ASSOCIATED WITH THE ROTOR FOR DRIVING THE VOTOR IN RESPONSE TO D-C POTENTIAL APPLIED ACROSS SAID ELECTRODES. A NUCLEAR BATTERY IS CONNECTED TO SAID ELECTRODES FOR APPLYING A D-C POTENTIAL ACROSS SAID ELECTRODES TO DRIVE SAID ROTOR. THE TORQUE GENERATED BY THE ROTOR IS UTILIZED TO DRIVE A CONVENTIONAL MECHANICAL TIME INDICATING MEANS.
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