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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21 | Pneumatic clock mechanism. | US1911664807 | 1911-12-09 | US1098494A | 1914-06-02 | HAHL AUGUSTUS L |
22 | Pneumatic clock. | US1911600524 | 1911-01-03 | US999779A | 1911-08-08 | HAHL AUGUSTUS L |
23 | Pneumatic clock. | US1902123156 | 1902-09-12 | US736958A | 1903-08-25 | GIROD ERNEST |
24 | Pneumatic clock | US567983D | US567983A | 1896-09-22 | ||
25 | TEMPERATURE DRIVEN DRIVE SYSTEM | EP14729432.6 | 2014-03-17 | EP2972596B1 | 2018-01-31 | JACCARD, Alain; VOUILLAMOZ, Lucien; RUFFIEUX, Yves; RENAUD, Dominique; ROHNER, Johann |
A drive system for energizing a device that includes a bellows actuated drive. The bellows actuated drive provides linear forward and backward movement by fluid expansion and contraction of a fluid within a reservoir according to a temperature differential while the reservoir is in fluid contact with the bellows. In one variant, two bellows are configured in a V shaped conformation. Various devices are driven using the drive system of the current invention and include a timepiece, a medical device, an implantable medical device, a cardiac rhythm management device, a hearing aid, a medical micro-injector, a sensor, and a biometric transmitter. | ||||||
26 | Montre-bracelet | EP13005609.6 | 2010-09-15 | EP2706417B1 | 2016-09-07 | Minello, Maurizio; Berthier, Yves |
27 | TEMPERATURE DRIVEN WINDING SYSTEM | EP14729432.6 | 2014-03-17 | EP2972596A2 | 2016-01-20 | JACCARD, Alain; VOUILLAMOZ, Lucien; RUFFIEUX, Yves; RENAUD, Dominique; ROHNER, Johann |
A drive system for energizing a device that includes a bellows actuated drive. The bellows actuated drive provides linear forward and backward movement by fluid expansion and contraction of a fluid within a reservoir according to a temperature differential while the reservoir is in fluid contact with the bellows. In one variant, two bellows are configured in a V shaped conformation. Various devices are driven using the drive system of the current invention and include a timepiece, a medical device, an implantable medical device, a cardiac rhythm management device, a hearing aid, a medical micro-injector, a sensor, and a biometric transmitter. | ||||||
28 | VORRICHTUNG ZUM ANZEIGEN EINER ZEIT UND VERFAHREN ZUR STEUERUNG EINER SOLCHEN VORRICHTUNG | EP14771757.3 | 2014-09-17 | EP3047338B1 | 2018-07-11 | HESS, Durs |
29 | TEMPERATURE DRIVEN DRIVE SYSTEM | EP14729432.6 | 2014-03-17 | EP2972596B8 | 2018-04-11 | JACCARD, Alain; VOUILLAMOZ, Lucien; RUFFIEUX, Yves; RENAUD, Dominique; ROHNER, Johann |
A drive system for energizing a device that includes a bellows actuated drive. The bellows actuated drive provides linear forward and backward movement by fluid expansion and contraction of a fluid within a reservoir according to a temperature differential while the reservoir is in fluid contact with the bellows. In one variant, two bellows are configured in a V shaped conformation. Various devices are driven using the drive system of the current invention and include a timepiece, a medical device, an implantable medical device, a cardiac rhythm management device, a hearing aid, a medical micro-injector, a sensor, and a biometric transmitter. | ||||||
30 | VORRICHTUNG ZUM ANZEIGEN EINER ZEIT UND VERFAHREN ZUR STEUERUNG EINER SOLCHEN VORRICHTUNG | EP14771757.3 | 2014-09-17 | EP3047338A2 | 2016-07-27 | HESS, Durs |
The invention relates to a device (1) for indicating a time, said device having at least one container (2), at least one reservoir (4), at least one pump (3) connected to the container (2). The pump (3) enables a liquid to be pumped from a reservoir (4) into the inside of the container (2). Said device (1) also has a controller (6) for setting a liquid level (25) in the interior of the container (2) in accordance with time information. The container (2) has a plurality of lateral outlet openings (21), said outlet openings (21) being arranged at different heights of the container (2). The liquid level (25) is set within a height band (26), said height band (26) corresponding to a height section of the container (2). The height band (26) extends from a minimum height (27) as far as a maximum height (28). The minimum height (27) is located at a minimum distance (29) above the first outlet opening (21), and the maximum height (28) is located below a second outlet opening (21) or below a total height of the container (2). | ||||||
31 | ENERGY STORAGE AND RELEASE DEVICE USING ELASTIC RESERVOIRS, AND METHODS AND TIMEPIECES RELATED THERETO | EP14786528.1 | 2014-08-26 | EP3039492A2 | 2016-07-06 | ROHNER, Johann |
An energy storage and release system and/or time piece device includes two elastic bellows in fluid communication with one another and filled with a single fluid or different fluids (whether liquids alone or in combination with a gas) thus allowing mechanical power transmission. The energy which loads the system comes from an external winding system (which can be performed either manually or automatically). The winding or loading force is transmitted by a mechanism attached to one or the other fluid reservoirs. As the system is loaded, the fluid contained therein expands and contracts the fluid reservoirs. The fluid reservoirs are elastic and so, once a reservoir is filled or contracted, then when the energy input from the mentioned manual or automatic winding is removed, the system will elastically seek to return to an unstressed or relaxed state, and thus release energy that is stored. This results in the linear movement of one or other of the reservoirs which can be used as a linear motion mechanism of significant utility adaptable for a variety of fields, from medical to time keeping. In one embodiment, at least two immiscible fluids defining a meniscus juxtaposed to an indicia may be used, which then allows the system to indicate its energy state. The device may be used as an alternative stored energy source for a wristwatch, replacing the traditional main spring. | ||||||
32 | MONTRE-BRACELET | EP13005609.6 | 2010-09-15 | EP2706417A1 | 2014-03-12 | Minello, Maurizio; Berthier, Yves |
La montre comportantun boîtier (1); un mouvement (8,9,10) logé dans ledit boîtier; une glace (6) par-dessus le boîtier: une pompe à fluide (5) entraînée par ledit mouvement afin de pomper un fluide; caractérisée par: au moins un canal (60), agencé de manière à ce que le fluide mis en mouvement par ladite pompe (5) atteigne ledit canal, de manière à remplir ledit canal (60) afin d'afficher des indications. |
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33 | LIQUID FILLED BELLOWS ACTIVATED SWITCH AND VOLTAGE SOURCE MADE THEREFROM, TIMEPIECES AND METHODS RELATED THERETO | EP14793304.8 | 2014-10-03 | EP3053178B1 | 2017-11-29 | ROHNER, Johann |
The device 10 includes a liquid filled bellows activated battery composed of two non Miscible fluids 14, 15 flowing through a channel 13 containing two electrodes 16, 17 of different metals. One of the fluids 14 is an electrolyte while the second 15 one is electrically non conducting. At rest the two electrodes 16, 17 are in the non conductive fluid 15. When the electrical device is actuated, manually or by an external force, the fluids surrounding the electrodes 16, 17 are replaced by the electrolyte 14 thus generating an electrical voltage between the two electrodes. The electrical current can be used to temporarily generate light or supply energy to another device. When the actuation mechanism is released, the electrodes 16, 17 are surrounded by the non conductive fluids 15 again and the electrical current is stopped. | ||||||
34 | ENERGY STORAGE AND RELEASE DEVICE USING ELASTIC RESERVOIRS, AND METHODS AND TIMEPIECES RELATED THERETO | EP14786528.1 | 2014-08-26 | EP3039492B1 | 2017-09-13 | ROHNER, Johann |
35 | LIQUID FILLED BELLOWS ACTIVATED SWITCH AND VOLTAGE SOURCE MADE THEREFROM, TIMEPIECES AND METHODS RELATED THERETO | EP14793304.8 | 2014-10-03 | EP3053178A1 | 2016-08-10 | ROHNER, Johann |
The device 10 includes a liquid filled bellows activated battery composed of two non Miscible fluids 14, 15 flowing through a channel 13 containing two electrodes 16, 17 of different metals. One of the fluids 14 is an electrolyte while the second 15 one is electrically non conducting. At rest the two electrodes 16, 17 are in the non conductive fluid 15. When the electrical device is actuated, manually or by an external force, the fluids surrounding the electrodes 16, 17 are replaced by the electrolyte 14 thus generating an electrical voltage between the two electrodes. The electrical current can be used to temporarily generate light or supply energy to another device. When the actuation mechanism is released, the electrodes 16, 17 are surrounded by the non conductive fluids 15 again and the electrical current is stopped. | ||||||
36 | MONTRE-BRACELET | EP10752595.8 | 2010-09-15 | EP2478419B1 | 2013-12-04 | MINELLO, Maurizio; BERTHIER, Yves |
37 | MONTRE-BRACELET | EP10752595.8 | 2010-09-15 | EP2478419A2 | 2012-07-25 | MINELLO, Maurizio; BERTHIER, Yves |
The invention relates to a wristwatch comprising: a housing (1), a movement (8, 9, 10) provided in said housing, a watch glass (6) on top of the housing, a fluid pump (5) driven by said movement for pumping a fluid, and at least one channel (60) extending through said glass (6) and arranged such that the fluid driven by said pump (5) reaches said channel in order to sequentially color various portions of said glass for displaying time indications. | ||||||
38 | SYSTEM AND METHOD OF FORCE DISPLACEMENT INSENSITIVE TO TEMPERATURE CHANGES | US15541491 | 2016-01-07 | US20180267469A1 | 2018-09-20 | Lucien VOUILLAMOZ |
A dual bellows system and method that includes a main bellows which interacts with a thermally compensating bellows, whereby interaction of the main bellows with the thermally compensating bellows results in a transfer of force and/or displacement that is insensitive to temperature changes. | ||||||
39 | Liquid filled bellows activated switch and voltage source made therefrom, timepieces and methods related thereto | US15025896 | 2014-10-03 | US09978548B2 | 2018-05-22 | Johann Rohner |
The device 10 includes a liquid filled bellows activated battery composed of two non miscible fluids 14, 15 flowing through a channel 13 containing two electrodes 16, 17 of different metals. One of the fluids 14 is an electrolyte while the second 15 one is electrically non conducting. At rest the two electrodes 16, 17 are in the non conductive fluid 15. When the electrical device is actuated, manually or by an external force, the fluids surrounding the electrodes 16, 17 are replaced by the electrolyte 14 thus generating an electrical voltage between the two electrodes. The electrical current can be used to temporarily generate light or supply energy to another device. When the actuation mechanism is released, the electrodes 16, 17 are surrounded by the non conductive fluids 15 again and the electrical current is stopped. | ||||||
40 | SYSTEMS AND METHODS FOR ABSORPTION/EXPANSION/CONTRACTION/MOVEMENT OF A LIQUID IN A TRANSPARENT CAVITY | US15301441 | 2015-04-07 | US20170146956A1 | 2017-05-25 | Lucien VOUILLAMOZ; Yves RUFFIEUX |
A thermal compensation system is provided for a liquid-filled inflexible chamber of a device. The chamber has at least one exposed, at least partially transparent surface allowing an outside observer to observe at least one liquid and comprises a mechanism accommodating thermal expansion and/or contraction of the liquids. The mechanism is disposed so as to be substantially invisible to the observer. |