子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | Clock work movement for a wristwatch | US12651059 | 2009-12-31 | US08498180B2 | 2013-07-30 | Jean-Francois Ruchonnet |
| Clockwork movement for a wristwatch, comprising a kinematic chain including at least one belt (20, 21) for transmitting the movements and/or couples between at least two pulleys. The pulleys are held on the bottom plate or the bridges by ball bearings (151, 161, 171, 181). The movement is rewound by means of linear oscillating mass (14) charging four barrels (15, 16, 17, 18) through a couple distributor (40). The barrels are non-parallel to one another. The back cover is covered by inclined glasses (110, 120, 130) allowing the barrels, the linear oscillating mass and at least certain pulleys to be seen. The regulating organ (51) is removable. | ||||||
| 22 | MODULAR MECHANICAL TIMEPIECE UNIT WITH FUNCTIONAL MODULES | US13711125 | 2012-12-11 | US20130148481A1 | 2013-06-13 | Laurent KAELIN; Jean-Bernard Peters |
| Mechanical modular unit (100) with mechanical timepiece functional modules (1) each derived from a sub-assembly (1A) carrying components for a particular timepiece function of transforming a movement between input (3) and output (4) wheel sets.Said sub-assembly (1A) comprises adjustment components which are irreversibly secured after said timepiece function has been adjusted and function checked on the test bench, and said pre-adjusted module (1), derived from the transformation of said sub-assembly (1A) by the irreversible securing of said adjustment components thereof, includes at least one bearing surface (5) and a locating means (6) for the recognition and positioning of said module (1) relative to another element of said mechanical modular unit (100) or relative to a plate, by the abutment of said bearing surface (5) on a complementary bearing surface comprised in said other element or said plate. | ||||||
| 23 | MODULAR TIMEPIECE MOVEMENT WITH FUNCTIONAL MODULES | US13710737 | 2012-12-11 | US20130148479A1 | 2013-06-13 | Jean-Bernard PETERS; Laurent Kaelin; Ivan Villar; Raphael Balmer |
| Mechanical timepiece movement (100) in the form of a modular unit. It includes at least one mechanical modular unit (1) for performing a particular timepiece function, which is irreversibly pre-adjusted by the irreversible securing of adjustment and/or assembling components (9) comprised in said functional module (1) after said particular horological function has been adjusted and function checked on the test bench, and in that said at least one pre-adjusted functional module (1) is irreversibly secured to a plate (10) comprised in said movement (100) or comprised in another pre-adjusted functional module (1) of said movement (100), or is irreversibly secured to another pre-adjusted functional module (1) comprised in said movement (100). | ||||||
| 24 | CLOCK WORK MOVEMENT FOR A WRISTWATCH | US12651059 | 2009-12-31 | US20100195449A1 | 2010-08-05 | Jean-François RUCHONNET |
| Clockwork movement for a wristwatch, comprising a kinematic chain including at least one belt (20, 21) for transmitting the movements and/or couples between at least two pulleys. The pulleys are held on the bottom plate or the bridges by ball bearings (151, 161, 171, 181). The movement is rewound by means of linear oscillating mass (14) charging four barrels (15, 16, 17, 18) through a couple distributor (40). The barrels are non-parallel to one another. The back cover is covered by inclined glasses (110, 120, 130) allowing the barrels, the linear oscillating mass and at least certain pulleys to be seen. The regulating organ (51) is removable. | ||||||
| 25 | Clockwork movement for a wristwatch | US11030676 | 2005-01-06 | US07697376B2 | 2010-04-13 | Jean-Francois Ruchonnet |
| Clockwork movement for a wristwatch, comprising a kinematic chain including at least one belt (20, 21) for transmitting the movements and/or couples between at least two pulleys. The pulleys are held on the bottom plate or the bridges by ball bearings (151, 161, 171, 181). The movement is rewound by means of linear oscillating mass (14) charging four barrels (15, 16, 17, 18) through a couple distributor (40). The barrels are non-parallel to one another. The back cover is covered by inclined glasses (110, 120, 130) allowing the barrels, the linear oscillating mass and at least certain pulleys to be seen. The regulating organ (51) is removable. | ||||||
| 26 | Clockwork movement for a wristwatch | US11030676 | 2005-01-06 | US20050122844A1 | 2005-06-09 | Jean-Francois Ruchonnet |
| Clockwork movement for a wristwatch, comprising a kinematic chain including at least one belt (20, 21) for transmitting the movements and/or couples between at least two pulleys. The pulleys are held on the bottom plate or the bridges by ball bearings (151, 161, 171, 181). The movement is rewound by means of linear oscillating mass (14) charging four barrels (15, 16, 17, 18) through a couple distributor (40). The barrels are non-parallel to one another. The back cover is covered by inclined glasses (110, 120, 130) allowing the barrels, the linear oscillating mass and at least certain pulleys to be seen. The regulating organ (51) is removable. | ||||||
| 27 | Timepiece movement comprising a jumping type indicator | US3712048D | 1971-01-07 | US3712048A | 1973-01-23 | BACHMANN P |
| A timepiece movement including a star gear for driving a jumping indicator of the type used on digital indicator timepieces. The star gear is driven by a cam which moves the star gear one step for each cam rotation. The cam is continuously biased to rotate by an auxiliary spring, and a lever under the control of the main timepiece releases the cam for a single rotation at time intervals commensurate with the digital display to be made by the member connected to the star gear.
|
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| 28 | Pendulum driving device | US45050254 | 1954-08-17 | US2830554A | 1958-04-15 | BERGMAN SVEN G |
| 29 | Intermittently-operated actuating mechanism | US52643821 | 1921-12-31 | US1487434A | 1924-03-18 | BOLD FREDERICK W |
| 30 | Clockwork for speed-indicators. | US1907408564 | 1907-12-30 | US1069234A | 1913-08-05 | MARTIN MAX |
| 31 | NON-MAGNETIC PRECIOUS ALLOY FOR HOROLOGICAL APPLICATIONS | US15729711 | 2017-10-11 | US20180112292A1 | 2018-04-26 | Denis VINCENT; Christian Charbon |
| A precious alloy for horological applications contains by mass, in parts per thousand of the total, 540 to 630 parts of gold, 150 to 220 parts of palladium, 100 to 265 parts of silver, more than 150 to 265 parts of copper, from 0.0 to 0.2 parts of iridium, 0.0 to 4.0 parts of zinc, and the remainder containing iron and/or nickel and/or cobalt. The proportion by mass of the total content of gold, palladium, silver, copper, iridium and zinc is greater than 999.900 parts, the proportion by mass of the remainder is less than 0.100 parts. The density of the alloy includes between 13.5 and 14.5 g/cm3. The proportion by mass of cobalt is less than 0.005 parts, that of iron is less than 0.005 parts, and that of nickel is less than 0.0005 parts. The total of copper and zinc includes between 150 and 270 parts. | ||||||
| 32 | Modular mechanical timepiece movement with functional modules | US14333138 | 2014-07-16 | US09557713B2 | 2017-01-31 | Jean-Bernard Peters; Laurent Kaelin; Ivan Villar; Raphael Balmer |
| A timepiece sub-assembly includes, irreversibly fixed to a main plate and each irreversibly pre-adjusted by the irreversible securing of adjustment and/or assembly components, after the particular timepiece function thereof has been adjusted and function checked on the test bench, functional modules including a gear train module, a display module, and a time-setting module. Other mechanical sub-assemblies, each irreversibly fixed to the preceding lower order mechanical sub-assembly, include various modules including motor module, frame-mounted self-winding device module, escapement holder regulating module, motion work train, date module, and self-winding module. A mechanical movement including at least one mechanical sub-assembly of this type and a watch including a mechanical movement of this type are also disclosed. A method of assembling mechanical sub-assemblies of this type by the irreversible securing of mechanical sub-assemblies and irreversibly pre-adjusted modules is also disclosed. | ||||||
| 33 | Power reserve indicator for a timepiece | US14797383 | 2015-07-13 | US09519270B2 | 2016-12-13 | Ivan Villar |
| Timepiece power reserve indicator for the display of the power reserve indication of a plurality of energy accumulators each including one indicator cooperating with one accumulator input of a differential mechanism comprised in the power reserve indicator, and wherein one output of the differential mechanism cooperates with a mechanism for the display of the total power reserve of the plurality of energy accumulators, and at least two of the inputs are coaxial. | ||||||
| 34 | Perpetual calendar with a differential mechanism | US14867278 | 2015-09-28 | US09448534B2 | 2016-09-20 | Eric Goeller |
| A perpetual calendar for a watch including a movement controlling the daily release, at the moment that the date changes, of a mechanism actuating a perpetual lever of this perpetual calendar is disclosed. The perpetual calendar includes a calendar mechanism, a daily countdown mechanism including a month-end adjustment mechanism, and a differential mechanism. The calendar mechanism is arranged to determine the duration of the current month and is updated at each current month change by the daily countdown mechanism. The differential mechanism is arranged to control, each day at the moment that the date changes, the motion of an additional adjustment cam comprised in the month-end adjustment mechanism, based on the current day of the month taken from the daily countdown mechanism, and also based on the current month duration taken from the calendar mechanism. | ||||||
| 35 | PERPETUAL CALENDAR WITH A DIFFERENTIAL MECHANISM | US14867278 | 2015-09-28 | US20160103421A1 | 2016-04-14 | Eric GOELLER |
| Perpetual calendar for a watch including a movement controlling the daily release, at the moment that the date changes, of a mechanism actuating a perpetual lever of this perpetual calendar, which perpetual calendar includes a daily countdown mechanism itself including a month-end adjustment mechanism, and a differential mechanism and a calendar mechanism arranged to determine the duration of the current month and updated at each current month change by this daily countdown mechanism, and this differential mechanism controlling, each day at the moment that the date changes, the motion of an additional adjustment cam comprised in this month-end adjustment mechanism, based on the current day of the month taken from this daily countdown mechanism, and also based on the current month duration taken from the calendar mechanism. | ||||||
| 36 | HOROLOGY DEVICE FOR DISPLAYING TIME OR TIME-DERIVED INFORMATION | US14825269 | 2015-08-13 | US20160048107A1 | 2016-02-18 | William Carreno; Yacine Belkhanfar |
| A device (100) for displaying time information, including: (i) a first mobile (3) including a first toothset (31) and a first disk (32) bearing numerals (33) which are intended to indicate the units of the time information, (ii) a second mobile (4) including a second toothset (41) and a second disk (42) bearing numerals (43) intended to indicate the tenths of the time information, and (iii) a mechanism (90) for driving the first and second mobiles, the mechanism: including (i) a control mobile (1): including a third toothset (1a) arranged so as to collaborate by obstacle, with the first, toothset, a fourth toothset (1b) arranged so as to collaborate by obstacle, with the second, toothset, a drive wheel (2) including a fifth toothset (2c) designed to collaborate by obstacle, with the third and fourth toothsets. | ||||||
| 37 | POWER RESERVE INDICATOR FOR A TIMEPIECE | US14797383 | 2015-07-13 | US20160018787A1 | 2016-01-21 | Ivan VILLAR |
| Timepiece power reserve indicator for the display of the power reserve indication of a plurality of energy accumulators each including one indicator cooperating with one accumulator input of a differential mechanism comprised in the power reserve indicator, and wherein one output of the differential mechanism cooperates with a mechanism for the display of the total power reserve of the plurality of energy accumulators, and at least two of the inputs are coaxial. | ||||||
| 38 | Modular mechanical timepiece unit with functional modules | US14634260 | 2015-02-27 | US09081369B1 | 2015-07-14 | Laurent Kaelin; Jean-Bernard Peters |
| A method for assembling a mechanical modular unit includes storing in a controller a list of assembly parts of the unit. The method includes irreversibly transforming a sub-assembly of each functional module into a ready to use functional module, after adjustment and function checking of a particular timepiece function have been performed on a test bench. The method includes storing in a storage place components required for the assembly list. The method includes programming a manipulator controlled by the controller to look, in a pre-defined sequence peculiar to each assembly list, for each component or module to be assembled. The method includes programming a shape recognition part to operate the manipulator to pick up each functional module according to a locating part included therein, to arrange the module in an assembly position. The method includes each time, irreversibly assembling precisely arranged elements of the mechanical modular unit to each other. | ||||||
| 39 | MODULAR MECHANICAL TIMEPIECE UNIT WITH FUNCTIONAL MODULES | US14634260 | 2015-02-27 | US20150177699A1 | 2015-06-25 | Laurent Kaelin; Jean-Bernard Peters |
| A method for assembling a mechanical modular unit includes storing in a controller a list of assembly parts of the unit. The method includes irreversibly transforming a sub-assembly of each functional module into a ready to use functional module, after adjustment and function checking of a particular timepiece function have been performed on a test bench. The method includes storing in a storage place components required for the assembly list. The method includes programming a manipulator controlled by the controller to look, in a pre-defined sequence peculiar to each assembly list, for each component or module to be assembled. The method includes programming a shape recognition part to operate the manipulator to pick up each functional module according to a locating part included therein, to arrange the module in an assembly position. The method includes each time, irreversibly assembling precisely arranged elements of the mechanical modular unit to each other. | ||||||
| 40 | Clock work movement for a wristwatch | US13927894 | 2013-06-26 | US08976629B2 | 2015-03-10 | Jean-Francois Ruchonnet |
| Clockwork movement for a wristwatch, comprising a kinematic chain including at least one belt (20, 21) for transmitting the movements and/or couples between at least two pulleys. The pulleys are held on the bottom plate or the bridges by ball bearings (151, 161, 171, 181). The movement is rewound by means of linear oscillating mass (14) charging four barrels (15, 16, 17, 18) through a couple distributor (40). The barrels are non-parallel to one another. The back cover is covered by inclined glasses (110, 120, 130) allowing the barrels, the linear oscillating mass and at least certain pulleys to be seen. The regulating organ (51) is removable. | ||||||
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