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 | 游丝外桩保持件 | CN201510963875.6 | 2015-12-21 | CN105717778A | 2016-06-29 | J·克里斯坦; L·凯林; I·维拉; T·科尼斯 |
本发明涉及一种用于保持或支承钟表游丝的组件,该组件包括游丝外桩和外桩保持件,其中所述外桩保持件包括:-基部,该基部包括沿着纵向轴线延伸的上表面和下表面;其特征在于,基部包括由所述上表面和所述下表面中的一者突出的具有不恒定形状的突耳,所述组件还包括保持板,该保持板包括由可变形的臂分隔的第一开口和第二开口,其中外桩接合在第二开口中。 | ||||||
2 | 计时器 | CN201180014845.0 | 2011-03-21 | CN102859451A | 2013-01-02 | A·苏尼尔 |
本发明涉及一种计时器,该计时器包括:移动件(10),该移动件具有摆轮/游丝组件(12),该摆轮/游丝组件(12)具有一个系统,该系统用于调整所述游丝的有效长度,该移动件(10)是可旋转的;控制构件(14),用户从该计时器的外部可接近该控制构件(14);传动轮(22),该传动轮(22)可旋转地安装于框架上的所述移动件(10)的边缘上,该传动轮(22)运动学地连接至或可连接至该控制构件(14),并且此外运动学地连接至所述调整系统;和显示部件(30),该显示部件(30)运动学地连接至该传动轮(22)并且驱动显示构件,该显示构件用于显示应用于该游丝的有效长度的调整值。所述计时器特征在于该显示部件(30)由多个可移动部件形成,该多个可移动部件安装于第一独立模块上,该显示部件(30)装配至所述框架。 | ||||||
3 | 调节钟表子组件的振荡频率的方法 | CN201180065399.6 | 2011-11-17 | CN103314333B | 2015-07-15 | M·韦拉尔多; P·巴图洛 |
本发明涉及一种将没有快慢针组件的钟表调速组件的振荡频率调节到预先确定的振荡频率的方法,该钟表调速组件包括摆轮和游丝组件,该方法的特征在于:-从有公差的产品中随机选取一具体游丝组件;-测量所述游丝组件的返回力矩;-从有公差的产品中随机选取一具体摆轮;-根据所述所测量到的所选取游丝的返回力矩,计算所述具体摆轮为获得所述预先确定的振荡频率所需要的理论惯性(IT);-测量所述具体摆轮的实际惯性(IR);-通过直接作用在所述具体摆轮上,将所述具体摆轮的惯性校正到所述所计算出的理论惯性(IT),以便获得包括所述具体摆轮和所述具体游丝组件的所述调速组件的所述预先确定的振荡频率。 | ||||||
4 | 计时器 | CN201180014845.0 | 2011-03-21 | CN102859451B | 2014-08-13 | A·苏尼尔 |
本发明涉及一种计时器,该计时器包括:移动件(10),该移动件具有摆轮/游丝组件(12),该摆轮/游丝组件(12)具有一个系统,该系统用于调整所述游丝的有效长度,该移动件(10)是可旋转的;控制构件(14),用户从该计时器的外部可接近该控制构件(14);传动轮(22),该传动轮(22)可旋转地安装于框架上的所述移动件(10)的边缘上,该传动轮(22)运动学地连接至或可连接至该控制构件(14),并且此外运动学地连接至所述调整系统;和显示部件(30),该显示部件(30)运动学地连接至该传动轮(22)并且驱动显示构件,该显示构件用于显示应用于该游丝的有效长度的调整值。所述计时器特征在于该显示部件(30)由多个可移动部件形成,该多个可移动部件安装于第一独立模块上,该显示部件(30)装配至所述框架。 | ||||||
5 | 调节钟表子组件的振荡频率的方法 | CN201180065399.6 | 2011-11-17 | CN103314333A | 2013-09-18 | M·韦拉尔多; P·巴图洛 |
本发明涉及一种将没有快慢针组件的钟表调速组件的振荡频率调节到预先确定的振荡频率的方法,该钟表调速组件包括摆轮和游丝组件,该方法的特征在于:从有公差的产品中随机选取一具体游丝组件;测量所述游丝组件的返回力矩;从有公差的产品中随机选取一具体摆轮;根据所述所测量到的所选取游丝的返回力矩,计算所述具体摆轮为获得所述预先确定的振荡频率所需要的理论惯性(IT);测量所述具体摆轮的实际惯性(IR);通过直接作用在所述具体摆轮上,将所述具体摆轮的惯性校正到所述所计算出的理论惯性(IT),以便获得包括所述具体摆轮和所述具体游丝组件的所述调速组件的所述预先确定的振荡频率。 | ||||||
6 | バランスばねスタッドホルダー | JP2015248245 | 2015-12-21 | JP6147323B2 | 2017-06-14 | ジュリアン・クリスタン; ローラン・ケリン; イヴァン・ヴィラール; ティエリー・コーヌス |
7 | DEVICE AND METHOD FOR ADJUSTING THE RATE OF A WATCH | US15957949 | 2018-04-20 | US20180341226A1 | 2018-11-29 | Jerome FAVRE; Michel WILLEMIN; Jean-Jacques BORN; Dominique LECHOT; Gianni DI DOMENICO |
A method for adjusting the rate of a watch with an oscillator arranged to generate oscillation at a nominal frequency N0, with a servo-system including a master oscillator arranged to generate excitation oscillation at an excitation frequency NE, which is approximately equal to, or equal to the nominal frequency N0, or to an integer multiple of this nominal frequency N0, the watch is subjected to excitation oscillation or to a modulated motion, generated by the master oscillator, during a transition phase after which the oscillator of the watch is stabilised at excitation frequency NE, and there is incorporated in the servo-system a winder for mechanical or automatic watches, arranged to move a support on which such a watch is fixed. | ||||||
8 | Method of adjusting the oscillation frequency of a timepiece sub-assembly | US13885061 | 2011-11-17 | US09235192B2 | 2016-01-12 | Marco Verardo; Philippe Barthoulot |
A method of adjusting oscillation frequency of a timepiece regulating assembly with no index assembly, to a predetermined oscillation frequency, including: randomly taking a particular balance spring assembly from a production of toleranced products; measuring return torque of the balance spring assembly; randomly taking a balance from a production of toleranced products; calculating theoretical inertia of the particular balance required to achieve the predetermined oscillation frequency, according to the measured return torque of the balance spring; measuring real inertia of the particular balance; and by direct action on the particular balance, correcting the inertia of the particular balance to the calculated theoretical inertia value to obtain the predetermined oscillation frequency for the regulating assembly formed by the particular balance, and by the particular balance spring assembly. | ||||||
9 | Clock setting and regulating mechanism | US72720347 | 1947-02-07 | US2645077A | 1953-07-14 | PETER OLSON |
10 | Clock regulator | US37818441 | 1941-02-10 | US2248631A | 1941-07-08 | BEN JOHNSON |
11 | Microregulator for clocks | US68828933 | 1933-09-06 | US1961958A | 1934-06-05 | JOHN BULLOCH |
12 | Regulator for clock movements | US31670228 | 1928-11-02 | US1785267A | 1930-12-16 | LARGE WILLIAM J; SIMPSON JOHN O |
13 | Regulator for clocks. | US1910580665 | 1910-09-06 | US975793A | 1910-11-15 | PORTER WILSON E |
14 | Watch | US27281D | 1860-02-28 | US27281A | 1860-02-28 | |
15 | Procédé d'appairage et d'ajustement d'un sous-ensemble d'horlogerie | EP10191646.8 | 2010-11-18 | EP2455825A1 | 2012-05-23 | Verardo, Marco; Barthoulot, Philippe |
Procédé d'appairage et d'ajustement d'un sous-ensemble d'horlogerie Procédé d'appairage et d'ajustement d'un sous-ensemble mobile en pivotement autour d'un axe de pivotement, comportant un premier composant et un deuxième composant, ledit premier composant comportant des moyens de rappel agencés pour exercer un couple de rappel élastique, autour dudit axe de pivotement, sur ledit deuxième composant. Il consiste à: De préférence, ledit premier composant est un spiral comportant des moyens de rappel agencés pour exercer un couple de rappel élastique, autour dudit axe de pivotement, sur un balancier, constituant ledit deuxième composant. |
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16 | BLOC PALIER MUNI D'UN COUSSINET ET D'UNE RAQUETTE | EP04797253.4 | 2004-11-18 | EP1695154A1 | 2006-08-30 | CLEUSIX, Willy; PERUCCHI, Norbert |
The invention concerns a bearing unit (2) comprising the damping bearing (3) as well as the regulator parts (4) manufactured independently of the bridge (1). It is fixed thereon by being forced into a through hole (11) provided in a recess (10) of the bridge. | ||||||
17 | Balance spring stud-holder | US14964970 | 2015-12-10 | US09785118B2 | 2017-10-10 | Julien Christan; Laurent Kaelin; Ivan Villar; Thierry Conus |
The present invention concerns an assembly for holding or supporting a timepiece balance spring including a balance spring stud and a stud-holder, wherein said stud-holder includes: a base comprising an upper face and a lower face extending along a longitudinal axis; characterized in that the base includes a lug of non-constant shape protruding from one of the faces, said assembly further comprising a holding plate including a first opening and a second opening separated by a deformable arm, with the stud engaging in the second opening. | ||||||
18 | BALANCE SPRING STUD-HOLDER | US14964970 | 2015-12-10 | US20160179059A1 | 2016-06-23 | Julien CHRISTAN; Laurent KAELIN; Ivan VILLAR; Thierry CONUS |
The present invention concerns an assembly for holding or supporting a timepiece balance spring including a balance spring stud and a stud-holder, wherein said stud-holder includes: a base comprising an upper face and a lower face extending along a longitudinal axis; characterized in that the base includes a lug of non-constant shape protruding from one of the faces, said assembly further comprising a holding plate including a first opening and a second opening separated by a deformable arm, with the stud engaging in the second opening. | ||||||
19 | METHOD OF ADJUSTING THE OSCILLATION FREQUENCY OF A TIMEPIECE SUB-ASSEMBLY | US13885061 | 2011-11-17 | US20130308430A1 | 2013-11-21 | Marco Verardo; Philippe Barthoulot |
Method of adjusting the oscillation frequency of a timepiece regulating assembly with no index assembly, formed of a balance and balance spring assembly, to a predetermined oscillation frequency: a particular balance spring assembly is randomly taken from a production of toleranced products; the return torque of said balance spring assembly is measured; a balance is randomly taken from a production of toleranced products; a calculation is made of the theoretical inertia (IT) of said particular balance required to achieve said predetermined oscillation frequency, according to said measured return torque of said balance spring; the real inertia (IR) of said particular balance is measured; by direct action on said particular balance, the inertia of said particular balance is corrected to said calculated theoretical inertia value (IT) in order to obtain said predetermined oscillation frequency for said regulating assembly formed by said particular balance, and by said particular balance spring assembly. | ||||||
20 | Compensation adjustment device for mechanical timepiece | US12905437 | 2010-10-15 | US08322915B2 | 2012-12-04 | Chit Yin Wong |
A compensation adjustment mechanism for a mechanical timepiece is provided including a gear set and a crown. A first gear at the input end of the gear set is connected to the crown, a second gear at the output end of the gear set is connected to a regulator pin on a balance spring, and a chapter ring is connected to the gear set and capable of rotating together with the crown. Adjustment of the regulator pin is performed by rotating the crown and is visible on the chapter ring. The scale on the chapter ring is predetermined according to the characteristics of the balance spring. |