子分类:
- G04B5/002: .{用时钟机构的非主要用于上条的零件的移动}
- G04B5/005: .{用手表带,外壳或外壳零件之间的相对运动}
- G04B5/007: .{通过驱动功能元件上条的时钟机构,例如,永动机的(也参见F03G7/10)}
- G04B5/02: .由表的运动引起的自动上条{轴承,摆动锤的悬挂入G04B5/18;把摆动运动转换为单一方向旋转运动的机构入G04B11/00}
- G04B5/20: .由其他物体的运动,例如,打开手提袋、打开盒子、打开门;由风力上发条
- G04B5/22: .依靠温度,气压或其它类似的影响或变化{用电热或电动气动驱动装置的入G04C1/003;用上述方式驱动时钟机构的入G04C3/18}
- G04B5/24: .防止上条过紧的保护装置(装在或连结于条盒上的入G04B 1/20;与钥匙或其它类似件连结的入G04B 3/06;与外壳零部件连结的入G04B 3/10;{移动重锤的支承入G04B5/18;保护装置入G04B9/02;机械时钟机构的电子驱动装置入G04C1/10}
| 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 | 具有单向驱动机构的上条装置 | CN201510751631.1 | 2015-11-06 | CN105589320A | 2016-05-18 | E·格勒 |
| 本发明涉及上条装置(1),其包括安装成围绕中央心轴在上条轮(5)上以共轴方式自由旋转的太阳小齿轮(2)。该装置还包括用于与太阳小齿轮(2)的齿圈啮合的带齿行星轮(3,3’)。行星轮安装成围绕固定在上条轮上的相应偏置心轴(7,7’)以游隙(4)自由旋转。该装置还包括固定地安装在上条轮上的框架(6)的一个或两个钩部。在太阳小齿轮的第一旋转方向上,行星轮处于与钩部接触以便驱动上条轮的锁定位置。在与第一旋转方向相反的第二旋转方向上,行星轮脱开联接,使得太阳小齿轮的旋转不会驱动上条轮。 | ||||||
| 2 | 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)。 | ||||||
| 3 | 用于具有自动上条机构的表的上条装置 | CN201480020397.9 | 2014-03-20 | CN105103058A | 2015-11-25 | M·维勒明; J-J·博恩; F·克洛普芬斯滕; P·拉格特 |
| 一种自动表上条装置(300)包括至少一个电驱动装置或一个蓄电器以及至少一个用于表的支托(301),该支托(301)包括用来以靠接方式接纳表的后盖的支承面(302)。所述装置(300)包括用于产生磁场和/或静电场的产生装置(310),该产生装置配置在所述支承面(302)下方的固定位置处,并且在大致环形的发射区域(303)的至少一个环形扇区(304)上产生方向正交于所述支承面(302)并且强度和/或方向能随时间变化的至少一个磁场和/或静电场。一种表(200)包括带有振荡摆锤(1)和/或与所述振荡摆锤(1)同轴的顺磁性导电圆盘(20)的自动上条机构(10),振荡摆锤(1)包括第一铁磁性内部部分和由重金属制成的第二外周部分。 | ||||||
| 4 | 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)。 | ||||||
| 5 | 一种射频遥控的摇表器 | CN201510972100.5 | 2015-12-22 | CN106909048A | 2017-06-30 | 不公告发明人 |
| 本发明公开了一种射频遥控的摇表器,包括摇表器壳体(1),其特征在于:所述壳体(1)顶部设有太阳能板(2),该太阳能板(2)的输出端与壳体(1)内储电池(3)的输入端连接,储电池(3)的输出端连接遥控接收模块(4),所述遥控接收模块(4)包含有继电器系统和配套的遥控发射器,所述遥控模块(4)的输出端连接电机(5),该电机旋转轴(5a)套装有转盘(6)该转盘(6)安装有表盒(7);本发明设计简单、巧妙,用太阳能进行供电既环保又节能,用遥控技术控制电机开、关更方便了使用者装表、取表,本发明人性化特征明显,既方便了使用又保证了产品使用不受停电等因素的影响,非常适合推广,普及。 | ||||||
| 6 | 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。 | ||||||
| 7 | 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)。 | ||||||
| 8 | 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。 | ||||||
| 9 | 用于为表上发条的装置,尤其是为自动上发条的表上发条的装置 | CN201110022420.6 | 2011-01-11 | CN102135753A | 2011-07-27 | A·莫罗尼; M·莫罗尼; F·塞络罗 |
| 一种用于为表上发条的装置,尤其是为自动上发条的表上发条的装置,包括支承结构(2),该支承结构(2)设有用于容纳所要上发条的表的座(3)。该座(3)连接到通过马达(5)运行的传动装置(4)并相对于一体地连接到支承结构(2)的轴线(41)倾斜。该座(3)可绕一体地连接到支承结构的轴线(41)以大致圆锥方式摆动。 | ||||||
| 10 | HOROLOGY PAWL SYSTEM | US15894133 | 2018-02-12 | US20180231934A1 | 2018-08-16 | Eric Guffond; Thierry Miserez |
| A pawl system (1) for a wheel (2) of a drivetrain for winding a horology barrel (3), including (i) a pawl (10) having at least one tooth (1a) intended to collaborate with a toothset (2a) of the wheel (2); and (ii) an element (6) for activating and deactivating the pawl, which is arranged so that, when it is in a first configuration, the at least one tooth (1a) of the pawl collaborates with the toothset (2a) directly or indirectly, notably under the effect of a return force returning the at least one tooth (1a) of the pawl against the toothset (2a), and, when the activation and deactivation element is in a second configuration, the at least one tooth (1a) of the pawl does not collaborate with the toothset (2a) or a return force returning the at least one tooth (1a) of the pawl against the toothset (2a) is reduced. | ||||||
| 11 | DEVICE FOR WINDING A TIMEPIECE MOVEMENT | US15667718 | 2017-08-03 | US20180046141A1 | 2018-02-15 | Sergio de Almeida Graça; Vannina Linck |
| A component of a winding device, in particular an automatic winding device, of a timepiece movement, wherein it is made of austenitic stainless steel and wherein it comprises at least one friction surface hardened by carbon or nitrogen type atoms introduced into the austenitic stainless steel over a predetermined depth. | ||||||
| 12 | Winding device for self-winding automatic watch | US14768610 | 2014-03-20 | US09836027B2 | 2017-12-05 | Michel Willemin; Jean-Jacques Born; Francois Klopfenstein; Patrick Ragot |
| A device for winding automatic watches, including an electrical energy source and a receptacle support including a surface configured to receive in abutment a back cover of a watch, the device configured to generate a magnetic and/or electrostatic field or eddy currents, in a fixed position underneath the bearing surface and generate, on a substantially annular angular sector, a magnetic and or electrostatic field that varies as a function of time and whose direction is orthogonal to the bearing surface, or generating eddy currents that vary as a function of time. The device can be provided for a watch including an automatic winding mechanism with an oscillating weight including a first ferromagnetic inner part and a second heavy metal peripheral part, and possibly with a paramagnetic conductive disc coaxial to the oscillating weight. | ||||||
| 13 | 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. | ||||||
| 14 | 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). | ||||||
| 15 | Interlockable watchwinder | US11385080 | 2006-03-21 | US20070223319A1 | 2007-09-27 | Paul Hill |
| A watchwinder adapted for home use or in a retail store environment includes a horizontal dovetail groove or channel on the top, bottom and side surfaces of the watchwinder housing which cooperates with a removable interlocking bar or rail of mating dovetail shape to selectively and detachably interconnect adjacent watchwinders arranged in a vertical or side-by-side relation. The grooves preferably extend across the horizontal dimension of the watchwinder to a point short of the front of the housing for concealment purposes, and are made relatively wide in relation to the dimensions of the housing to improve rigidity of an interlocked grouping of watchwinders and to simplify assembly. Preferably, the channels are of equal size and shape and spaced equidistantly apart. An array of interlocked watchwinders can be built up to varying size and shape, and one or more of the watchwinders can be selectively removed from anywhere within the array without disturbing the others. | ||||||
| 16 | Mechanism for maintaining selfwinding watches wound | US53937655 | 1955-10-10 | US2926519A | 1960-03-01 | FRED SETTERBERG |
| 17 | Self winding watch | US47047330 | 1930-07-24 | US1914015A | 1933-06-13 | LEON HATOT |
| 18 | 기능모듈들을 가진 모듈식 시계 무브먼트 | KR1020120142177 | 2012-12-07 | KR101435724B1 | 2014-09-01 | 페터스,장-베르나르드; 카에린,로렌트; 빌라,이반; 발머,라파엘 |
| 모듈 유닛 형태를 가지는 기계식 시계 무브먼트(100).
상기 무브먼트는, 특정 시계기능을 수행하기 위한 적어도 한 개의 기계식 기능모듈(1)을 포함하고, 상기 기능모듈은 특정 시계기능이 조정되고 시험대에서 기능이 시험된 후에 상기 기능모듈(1)내에 포함된 부품(9)들을 조립 및/또는 조정기능을 원상태로 돌아갈 수 없게 고정하여 원상태로 돌아갈 수 없게 미리 조정되며, 상기 기능모듈(1)은 상기 무브먼트(100)내에 포함되거나 미리 조정된 상기 무브먼트(100)의 또 다른 기능모듈(1)내에 포함된 플레이트(10)에 원상태로 돌아갈 수 없게 고정되거나 상기 무브먼트(100)내에 포함되고 미리 조정된 또 다른 기능모듈(1)에 원상태로 돌아갈 수 없게 고정되는 것을 특징으로 한다. |
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| 19 | 기능식 모듈이 구비된 기계식 모듈 시계 | KR1020120144033 | 2012-12-12 | KR101435725B1 | 2014-09-01 | 캐린,로렌트; 피터스,진-베르나르드 |
| 기계식 모듈 유닛(100) 내에 통합될 수 있는 기능식 시계 모듈(1)은 하나 이상의 입력 휠 세트(3)와 하나 이상의 출력 휠 세트(4) 사이에서 움직임을 변환시키는 특정 시계 기능을 수행하기 위해 필요한 구성요소를 갖는 강성의 브리지(2)를 포함한 서브-조립체(1A)로부터 형성된다. 상기 서브-조립체(1A)는 자율식이고 상기 특정 시계 기능을 수행하기 위해 필요한 모든 구성요소를 포함하며 이에 따라 입력 휠 세트(3)가 모듈(1)의 외부에 있는 수단에 의해 구동되고, 추가로, 상기 서브-조립체(1A)는 상기 특정 시계 기능의 조절 및 기능 체크가 개개의 서브-조립체(1A) 상의 테스트 벤치 상에서 수행된 이후에 비가역적으로 고정되는 조절 및/또는 조립 구성요소(9)를 포함하고, 상기 모듈(1)은 상기 조절 및/또는 조립 구성요소(9)의 비가역적 고정에 의해 상기 서브-조립체(1A)의 변환으로부터 기인된 사전-조절된 모듈이며, 상기 요소 또는 플레이트 내에 포함된 상보적인 지지 표면 상에서 제1 지지 표면(5)의 접합에 의해 기계식 모듈 유닛(100)의 또 다른 요소에 대해 또는 플레이트에 대해 모듈(1)을 배치하고 식별하기 위한 제1 지지 표면(5) � �� 위치결정 수단(6)을 포함한다.
|
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| 20 | SYSTEM FOR WINDING A TIMEPIECE | US15894136 | 2018-02-12 | US20180231935A1 | 2018-08-16 | Bruno Marolda |
| System (10) including (i) a pawl device (110) for a first wheel (6) of a first part (301) of a drivetrain (300) for winding a mainspring (7); (ii) a clutch device (120) for engaging a second part (302) of a drivetrain (300) for winding the mainsprin (7) with the first part (301) of the drivetrain (300) for winding the mainspring (7); and (iii) a coupling device (130) for coupling the pawl device and the clutch device, particularly a device (130) for coupling the states of operation of the pawl device and of the clutch device. | ||||||
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