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 |
|---|---|---|---|---|---|---|
| 1 | 具有差速机构的万年历机构 | CN201510658583.1 | 2015-10-12 | CN105511248B | 2017-12-22 | E·格勒 |
| 本发明涉及用于钟表(1000)的万年历机构(100),该钟表包括钟表机芯(200),该钟表机芯在日期改变时控制用于致动所述万年历机构(100)的万年杆(2)的致动机构的每日释放,所述万年历机构(100)包括每日倒计数机构(300)、差速机构(500)和日历机构(700),所述每日倒计数机构自身包括月末调节机构(600),所述日历机构设置成确定当前月份的持续天数并在每次当前月份改变时由所述每日倒计数机构(300)更新,所述差速机构(500)每天在日期改变时基于从所述每日倒计数机构获取的月份的当前日期和从所述日历机构获取的当前月份的持续天数来控制包括在所述月末调节机构中的附加调节凸轮(20)的运动。 | ||||||
| 2 | 一种钟摆秋千 | CN201610464065.0 | 2016-06-23 | CN106054576A | 2016-10-26 | 王哲 |
| 本发明公开了一种钟摆秋千,包括指针运动机构、一对半圆弧形支架、底架、轴和秋千,其中,所述底架水平固定在地面上;两个所述半圆弧形支架相互平行地竖立在所述底架上;所述轴水平,其两端分别轴接在两个所述半圆弧形支架的中心点;所述秋千连接所述轴,所述秋千摆动带动所述轴往复转动;所述指针运动机构接受所述轴的驱动而带动指针转动。本发明同时具备秋千和时钟的功能。 | ||||||
| 3 | 具有差速机构的万年历机构 | CN201510658583.1 | 2015-10-12 | CN105511248A | 2016-04-20 | E·格勒 |
| 本发明涉及用于钟表(1000)的万年历机构(100),该钟表包括钟表机芯(200),该钟表机芯在日期改变时控制用于致动所述万年历机构(100)的万年杆(2)的致动机构的每日释放,所述万年历机构(100)包括每日倒计数机构(300)、差速机构(500)和日历机构(700),所述每日倒计数机构自身包括月末调节机构(600),所述日历机构设置成确定当前月份的持续天数并在每次当前月份改变时由所述每日倒计数机构(300)更新,所述差速机构(500)每天在日期改变时基于从所述每日倒计数机构获取的月份的当前日期和从所述日历机构获取的当前月份的持续天数来控制包括在所述月末调节机构中的附加调节凸轮(20)的运动。 | ||||||
| 4 | 具有功能模块的模块化钟表机芯 | CN201210540077.9 | 2012-12-13 | CN103163769B | 2016-12-21 | J-B·彼德斯; L·凯林; I·维拉; R·巴尔默 |
| 本发明涉及一种模块化单元形式的机械钟表机芯(100)。所述机芯(100)包括用于执行特定钟表功能的至少一个机械功能模块(1),当已经在测试台上对所述特定钟表功能进行调整和功能检查之后,通过不可逆地固定包含在所述功能模块(1)中的调整和/或装配部件(9)来不可逆地预调整所述功能模块(1);并且,至少一个预调整功能模块(1)被不可逆地固定到包含在所述机芯100)中或者包含在所述机芯(100)的另一个预调整功能模块(1)中的机板(10)上,或者被不可逆地固定到包含在所述机芯(100)中的另一个预调整功能模块(1)。 | ||||||
| 5 | 用于钟表件的发条盒系统 | CN201480057029.1 | 2014-11-04 | CN105637429A | 2016-06-01 | 大卫·康多 |
| 本发明涉及一种用于钟表件的发条盒系统(1),包括:支承轴(9);发条盒(2、4),包括由发条盒底部(4)闭合的滚筒(2),发条盒放置有原动发条,原动发条的外端与滚筒(2)连接;发条盒轴(11),具有位于发条盒(2、4)中并且围绕支承轴(9)的套筒形状,所述原动发条的内端与发条盒轴(11)连接。根据本发明,发条盒系统(1)还包括旋转传动轴(12),该旋转传动轴被设置为将所述滚筒(2)的旋转运动传输到钟表机芯的元件上,旋转传动轴(12)具有围绕支承轴向(9)并且被发条盒轴(11)围绕的套筒形状,旋转传动轴向(9)与滚筒(2)旋转联结。 | ||||||
| 6 | 具有功能模块的模块化钟表机芯 | CN201210540077.9 | 2012-12-13 | CN103163769A | 2013-06-19 | J-B·彼德斯; L·凯林; I·维拉; R·巴尔默 |
| 本发明涉及一种模块化单元形式的机械钟表机芯(100)。所述机芯(100)包括用于执行特定钟表功能的至少一个机械功能模块(1),当已经在测试台上对所述特定钟表功能进行调整和功能检查之后,通过不可逆地固定包含在所述功能模块(1)中的调整和/或装配部件(9)来不可逆地预调整所述功能模块(1);并且,至少一个预调整功能模块(1)被不可逆地固定到包含在所述机芯(100)中或者包含在所述机芯(100)的另一个预调整功能模块(1)中的机板(10)上,或者被不可逆地固定到包含在所述机芯(100)中的另一个预调整功能模块(1)。 | ||||||
| 7 | 用于钟表的能量储备指示器 | CN201510427568.6 | 2015-07-20 | CN105301941A | 2016-02-03 | I·维拉 |
| 一种钟表能量储备指示器(1),用于多个蓄能器(2)的能量储备指示的显示,各蓄能器(2)均包括一个与包括在该能量储备指示器(1)中的差速机构(6)的一个差速输入(4)配合的指示器(3),其中,该差速机构(6)的一个输出(66)与用于多个蓄能器(2)的总能量储备的显示的机构(7)配合,并且所述输入(4)中的至少两个是同轴的。 | ||||||
| 8 | 具有功能模块的模块化机械钟表单元 | CN201210541530.8 | 2012-12-13 | CN103163772B | 2015-07-15 | L·凯林; J-B·彼德斯 |
| 本发明涉及一种具有机械钟表功能模块(1)的机械模块化单元(100),每个模块(1)源于子组件(1A),其承载用于在输入轮副(3)和输出轮副(4)之间转换运动的特定钟表功能的部件。所述子组件(1A)包括调整部件,在测试台上对所述钟表功能进行调整和功能检查之后,所述调整部件被不可逆地固定。源于通过所述调整部件的不可逆固定而实现的所述子组件(1A)的转换的预调整模块(1)包括至少一个承载面(5)和定位部件(6),以用于识别所述模块(1)和相对于所述机械模块化单元(100)的其他元件或者相对于机板来定位所述模块(1),所述定位通过所述承载面(5)抵靠包含在所述其他元件或所述机板中的互补承载面而实现。 | ||||||
| 9 | 具有功能模块的模块化机械钟表机芯 | CN201410374857.X | 2012-12-13 | CN104122782A | 2014-10-29 | J-B·彼德斯; L·凯林; I·维拉; R·巴尔默 |
| 本发明涉及钟表子组件。所述子组件包括功能模块,所述功能模块不可逆地固定到主机板(10),并且当已经在测试台上对其特定钟表功能进行调整和功能检查之后,所述功能模块通过调整和/或装配部件的不可逆固定被不可逆地预调整,所述功能模块为:齿轮系模块(13),显示模块(14)和时间设定模块(15)。其它机械子组件均不可逆地固定到先前较低层级的机械子组件上,并且包括各种模块:马达模块(11),安装在框架上的自上条设备模块(20),擒纵机构保持器调节模块(16),走针轮系,日期模块(30),自上条模块(18)。本发明还涉及包括至少一个上述类型的机械子组件的机械机芯(100),包括上述类型的机械机芯的手表(1000)。 | ||||||
| 10 | 具有功能模块的模块化机械钟表单元 | CN201210541530.8 | 2012-12-13 | CN103163772A | 2013-06-19 | L·凯林; J-B·彼德斯 |
| 本发明涉及一种具有机械钟表功能模块(1)的机械模块化单元(100),每个模块(1)源于子组件(1A),其承载用于在输入轮副(3)和输出轮副(4)之间转换运动的特定钟表功能的部件。所述子组件(1A)包括调整部件,在测试台上对所述钟表功能进行调整和功能检查之后,所述调整部件被不可逆地固定。源于通过所述调整部件的不可逆固定而实现的所述子组件(1A)的转换的预调整模块(1)包括至少一个承载面(5)和定位部件(6),以用于识别所述模块(1)和相对于所述机械模块化单元(100)的其他元件或者相对于机板来定位所述模块(1),所述定位通过所述承载面(5)抵靠包含在所述其他元件或所述机板中的互补承载面而实现。 | ||||||
| 11 | Horology device for displaying time or time-derived information | US14825269 | 2015-08-13 | US09367039B2 | 2016-06-14 | 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. | ||||||
| 12 | Modular mechanical timepiece unit with functional modules | US13711125 | 2012-12-11 | US09274504B2 | 2016-03-01 | Laurent Kaelin; Jean-Bernard Peters |
| A functional timepiece module is integratable in a mechanical modular unit, and the functional module is derived from a sub-assembly carrying components for a particular timepiece function of transferring a movement between input and output wheel sets. The sub-assembly includes adjustment components which are irremovably secured after this timepiece function has been adjusted and function checked on a test bench. This pre-adjusted module, derived from transformation of the sub-assembly by the irreversible securing of the adjustment components thereof, includes at least one bearing surface and a locating mechanism for recognition and positioning of this module relative to another element of the mechanical modular unit or relative to a plate, by abutment of the bearing surface on a complementary bearing surface comprised in this other element or in the plate. | ||||||
| 13 | MODULAR MECHANICAL TIMEPIECE MOVEMENT WITH FUNCTIONAL MODULES | US14333138 | 2014-07-16 | US20140328145A1 | 2014-11-06 | Jean-Bernard PETERS; Laurent Kaelin; Ivan Villar; Raphael Balmer |
| The 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: 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; motor module frame-mounted self-winding device module escapement holder regulating module motion work train date module self-winding module. Mechanical movement including at least one mechanical sub-assembly of this type.Watch including a mechanical movement of this type.Method of assembling mechanical sub-assemblies of this type by the irreversible securing of mechanical sub-assemblies and irreversibly pre-adjusted modules. | ||||||
| 14 | Setting apparatus for recording instrument | US51788865 | 1965-12-27 | US3365723A | 1968-01-23 | HORST SPORMANN |
| 15 | Time delay cord cutter | US75894358 | 1958-09-04 | US3001285A | 1961-09-26 | CAIRELLI CARMEN P |
| 16 | Devices driven by a shaft at a variable speed and adapted to supply impulses uniformly spaced in time | US67451257 | 1957-07-26 | US2838945A | 1958-06-17 | JOHANN ARNI |
| 17 | Power clock | US67805346 | 1946-06-20 | US2521923A | 1950-09-12 | JOSEPH LATO |
| 18 | Instantaneous driving mechanism for timepiece movement | US14034533 | 2013-09-23 | US08750080B2 | 2014-06-10 | Huy Van Tran; Ludovic Perez |
| An instantaneous driving mechanism for a timepiece movement is disclosed. The driving mechanism may include a mobile comprising a first wheel driven by a driving member of the timepiece movement and configured to drive rotation of a first cam of the mobile. The driving mechanism may also include a lever mounted pivotally on at least one frame element of the timepiece movement, the lever being configured to cooperate with the mobile in order to be moved and to cooperate with a counter of the timepiece movement to increment the counter by instantaneous pulses. The first cam may be coaxial with the first wheel and have a periphery of varying radius. In addition, the first cam may be configured to cooperate with a nose carried by a first arm of the lever and to move the first arm progressively away from the center of the mobile. | ||||||
| 19 | INSTANTANEOUS DRIVING MECHANISM FOR TIMEPIECE MOVEMENT | US14034533 | 2013-09-23 | US20140022874A1 | 2014-01-23 | Huy Van Tran; Ludovic Perez |
| An instantaneous driving mechanism for a timepiece movement is disclosed. The driving mechanism may include a mobile comprising a first wheel driven by a driving member of the timepiece movement and configured to drive rotation of a first cam of the mobile. The driving mechanism may also include a lever mounted pivotally on at least one frame element of the timepiece movement, the lever being configured to cooperate with the mobile in order to be moved and to cooperate with a counter of the timepiece movement to increment the counter by instantaneous pulses. The first cam may be coaxial with the first wheel and have a periphery of varying radius. In addition, the first cam may be configured to cooperate with a nose carried by a first arm of the lever and to move the first arm progressively away from the center of the mobile. | ||||||
| 20 | CLOCK WORK MOVEMENT FOR A WRISTWATCH | US13927894 | 2013-06-26 | US20130329534A1 | 2013-12-12 | 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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