101 |
Автоматический часовой выключатель с автоматическим заводом часового механизма |
SU79064 |
1924-09-22 |
SU1637A1 |
1926-09-30 |
ZOLOTARYAN M S |
|
102 |
Dispositif de contact électrique dans les horloges dont le remontage est effectué automatiquement, au moyen d'un moteur électrique rotatif. |
CH101210D |
1922-08-15 |
CH101210A |
1923-09-17 |
ULYSSE GUYE FRITZ |
|
103 |
Urządzenie do naciągania sprężyny zegarka |
PL42302617 |
2017-09-30 |
PL423026A1 |
2019-04-08 |
HUBERT JAKUB |
Urządzenie do naciągania sprężyny zegarka, przedstawione na rysunku, zawiera silnik, korzystnie elektryczny, korzystnie zasilany bateryjnie uruchamiany poprzez zamkniecie obwodu elektrycznego, popychacze zamykające i otwierające obwód elektryczny, współpracujące z elementem przenoszącym stan naciągu mechanizmu wskaźnika naciągu sprężyny. W jednym z wariantów realizacji wynalazku element przenoszący stan naciągu jest zaopatrzony w zębatkę, korzystnie współpracującą z zębatką przemieszczającą popychacze. |
104 |
Dispositif de remontage par la couronne pour pièce d'horlogerie. |
CH4632014 |
2014-03-26 |
CH709423A2 |
2015-09-30 |
GRANDJEAN LUC-ALAIN; HIRSCHI ANTOINE; PARATTE BASTIEN; PERRET-GENTIL MAXENCE |
L’invention est relative à un dispositif de remontage (1) par la couronne d’une pièce d’horlogerie, ledit dispositif comprenant: un corps (10) présentant au moins deux logements (110, 112) à l’intérieur desquels sont respectivement agencés un moteur (11) une batterie (12) rechargeable, et un circuit électronique de commande (16), des moyens d’entraînement (14) de la couronne disposés à l’une des extrémités du corps (10) du dispositif (1) et reliés audit moteur (11), destinés à entraîner la couronne de ladite montre en rotation. Selon l’invention, le dispositif (1) comprend un ressort (15) placé entre ladite batterie (12) ledit moteur (11) pour permettre audit moteur (11) de coulisser dans son logement (110) avec lesdits moyens d’entraînement (14), ledit moteur (11) étant configuré pour coulisser entre au moins deux positions dont: une position de repos dans laquelle ledit moteur (11) n’est pas alimenté, et une position de fonctionnement dans laquelle ledit moteur (11) est alimenté de manière à enclencher la rotation desdits moyens d’entrainement (14) lorsque lesdits moyens d’entraînement (14) sont engagés et pressés sur la couronne de ladite montre. |
105 |
Voltage detecting means and method for controlling such a device |
DE60037005 |
2000-11-21 |
DE60037005T2 |
2008-08-21 |
NAKAMIYA SHINJI |
|
106 |
Voltage detecting means and method for controlling such a device |
DE60037005 |
2000-11-21 |
DE60037005D1 |
2007-12-20 |
NAKAMIYA SHINJI |
|
107 |
Retrofit device for automatic winding and chime night-silencing of endless chain drive clocks |
GB0328817 |
2003-12-11 |
GB2409054A |
2005-06-15 |
YOUNGS ROBERT ALAN |
A device for automatically winding weight driven endless chain clocks comprising a winding sprocket 11 whose tooth pitch can be adapted to suit a range of chain sizes directly driven by a directionally controlled electric motor/gearbox assembly 14, a control means 33 [Fig 1] to initiate a winding cycle at defined times, a means to detect when the clock is fully wound using a suitably positioned weight position switch 2 activated by the weight switch actuator 18 [Fig 1], a means to either enable or disable the clock chiming by controlling and detecting the existence or absence of slack in chain 12 via a slack chain slipper 16, slack chain arm 10, tension spring 7, and slack chain switch 6, which also are used to control the winding process. |
108 |
Power source for a clock |
GB0009262 |
2000-04-15 |
GB2349240B |
2003-01-22 |
PARKER ANTHONY R; OVERTON ADRIAN PAUL |
|
109 |
Power source for a clock |
GB0009262 |
2000-04-15 |
GB2349240A |
2000-10-25 |
PARKER ANTHONY R; OVERTON ADRIAN PAUL |
A power source for a turret clock, tower clock or similar mechanical clock includes an electric motor 20, the output shaft of which is connected by, for example, a chain 28 and sprocket 26, 30 drive to a winding drum 10 of the clock. Electronic control means 22 for the motor are also provided. The control means senses the torque of the motor shaft 24. When a minimum value of torque is detected the control means permits current to be supplied to the motor so that power can be transmitted to the driving drum 10. When adequate power has been supplied, further rotation of the winding drum is resisted by a ratchet mechanism. Consequently the load on the motor shaft increases beyond a predetermined maximum torque and the control means discontinues the current supply until the minimum value of torque is detected again. Preferably the motor is a direct current motor, and the control means measures the speed of rotation of the motor shaft as well as the torque. In an alternative embodiment a shaft of the clock replaces the winding drum 10 and is connected to the motor using a split collet. |
110 |
Power source for a clock |
GB0009262 |
2000-04-15 |
GB0009262D0 |
2000-05-31 |
|
|
111 |
ELECTRONIC TIMEPIECE POWERED BY A GENERATOR DRIVEN BY A MECHANICAL POWER SOURCE |
HK99101846 |
1999-04-27 |
HK1017093A1 |
1999-11-12 |
FARINE PIERRE-ANDRE; BORN JEAN-JACQUES; CHABLOZ FRANCIS |
|
112 |
Electronic timepiece supplied by a generator driven by a mechanical power source |
SG1998000699 |
1998-04-06 |
SG67492A1 |
1999-09-21 |
FARINE PIERRE-ANDRE; BORN JEAN-JACQUES; CHABLOZ FRANCIS |
|
113 |
Retrofittable device for the automatic operation of mechanical movements |
DE29618222 |
1996-10-21 |
DE29618222U1 |
1997-02-20 |
|
|
114 |
Winder with battery or solar-powered drive |
DE29508442 |
1995-05-20 |
DE29508442U1 |
1996-01-25 |
|
|
115 |
electro-mechanical watch |
FR8014074 |
1980-06-25 |
FR2460500A1 |
1981-01-23 |
PARATTE DANIEL; BOLTZ JEAN |
The wheel work (15) of the movement is situated on a face of the plate (1) whereas all the other elements of the watch, with the exception of a bar (11) supporting one of the bearings of the rotor (5) of the motor, are situated on the other face (9) of the said plate. All of these superimposed elements are constituted by the stator (13-14) of the motor, a bridge (8) and the thin, flexible substrate (16) of the electronic module. |
116 |
|
BR7806885 |
1978-10-19 |
BR7806885A |
1979-05-15 |
HAUB M; SUDLER R |
|
117 |
Four hundred day electric chiming clock - has battery discharge controlled by switching transistor blocking motor supply |
FR7436387 |
1974-10-31 |
FR2289948A1 |
1976-05-28 |
|
The four hundred day clock is driven by a battery (2), with a miniature electric motor (1) used for winding-up the cylinder of the clock movement, the discharge of the battery being controlled by a switching transistor, supplied by the battery. The transistor blocks the current provided by the battery for the electric motor, when the battery voltage falls below a given value. Preferably the clock has a decorative balance mechanism (5), which carries a magnetic element (7) cooperating with a coil (8), for maintaining the balance oscillations, the coil (8) being connected in series with a periodic switch (9) across the battery. |
118 |
WORM DRIVE FOR ELECTRICALLY WOUND CLOCK |
GB3687673 |
1973-08-02 |
GB1436006A |
1976-05-19 |
|
1436006 Toothed gearing BUNKER RAMO CORP 2 Aug 1973 [29 Sept 1972] 36876/73 Heading F2Q [Also in Division G3] A worm drive mechanism for an electrically wound clock comprises a worm in the form of a helical wire spring 14 secured coaxially to a motor shaft 12 and having a portion of the spring extending as a cantilever beyond the end of the shaft 12, and a worm wheel 22 in engagement with the cantilevered portion of the spring. The pitch of the unstressed spring matches that of the worm gear. |
119 |
traction screw |
DE2340659 |
1973-08-10 |
DE2340659A1 |
1974-04-11 |
METZINGER LEONARD LOUIS |
|
120 |
Movement with an electrically powered drive motor |
DE1902098 |
1969-01-16 |
DE1902098B2 |
1972-06-08 |
|
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