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 | 摆陀及装配有摆陀的自动上链式钟表和钟表机芯 | CN201280037747.3 | 2012-07-12 | CN103890665B | 2017-07-25 | C·卡萨皮; L·德绍蒙 |
| 一种摆陀,其能够被固定到在钟表机芯外部上枢转的壳架(1),所述摆陀包括与所述钟表机芯的发条盒的棘轮运动学地连接的齿部。这种摆陀包括环形框架(4)或形状为环形区段的框架、以及中心部分,所述框架能够被固定到所述壳架(1),所述中心部分(7)主要或完全位于由所述框架(4)限定的表面区域的一半中。 | ||||||
| 2 | 具有改进的动力储存的手表 | CN201410638497.X | 2014-11-06 | CN104635466A | 2015-05-20 | C·德科斯特尔德 |
| 本发明提供一种机械钟表机芯(1),包括至少一个能量存储装置(2),该能量存储装置(2)在输入端通过由至少一个上条机构(4)驱动的棘轮(3)供能,在输出端为运转轮系(5)提供动力。该机芯包括第一能量吸收装置(6),该第一能量吸收装置(6)通过至少一个第一弹性连接件(7)连接至该运转轮系(5)的至少一个轮副,该第一能量吸收装置(6)与驱动该棘轮(3)的至少一个驱动轮副(8)配合,该轮副(8)与该棘轮(3)啮合,以通过再次注入一部分由该能量吸收装置(6)吸收的能量来为该能量存储装置(2)供能,驱动该棘轮(3)的所述驱动轮副(8)可以在至少一个分离机构(9)的作用下分离,该分离机构(9)在该上条机构(4)工作期间起作用。 | ||||||
| 3 | 用于轮副的单向旋转驱动的换向机构 | CN200710091100.X | 2007-04-09 | CN101051213A | 2007-10-10 | J-L·黑尔费尔; T·科尼斯 |
| 本发明公开了一种换向机构,包括安装成在心轴(6)上自由旋转的驱动轮(5)以及与运动链系的第一轮副(1)啮合的从动轮(7),该驱动轮由摆动的驱动小齿轮(3)驱动,该从动轮包括凹槽(11)以用于容纳联接装置(10),该联接装置包括至少一个弯曲的锁定臂(12),该锁定臂的一端(14)具有在驱动轮(5)上的枢转点(14a,14b),该锁定臂的另一端(16)具有靠接点(16a),该靠接点经由与所述臂(12)成一体的弹簧(20)的作用紧靠从动轮(7)的凹槽(11)的内壁(2)。该枢转点(14b)优选地沿凸轮(21)移动。本发明应用于通过摆锤自动上条。 | ||||||
| 4 | 小型仪表中的加速传动装置 | CN98123398.8 | 1998-11-19 | CN1174294C | 2004-11-03 | L·克林 |
| 一种带动小型仪表的动力发生器(1),并且它由振荡摆(2)经齿轮系带动,该齿轮系包括多个齿轮和小齿轮(18,4,6和19),它们排列成齿轮链(3)。该齿轮链包含至少可与一个齿轮(18)脱开的滑动小齿轮(4),从而当振荡摆(2)上的加速度超过所述仪表正常使用时的加速度时,可以断开齿轮链(3)。 | ||||||
| 5 | 具有改进的动力储存的手表 | CN201410638497.X | 2014-11-06 | CN104635466B | 2017-04-12 | C·德科斯特尔德 |
| 本发明提供一种机械钟表机芯(1),包括至少一个能量存储装置(2),该能量存储装置(2)在输入端通过由至少一个上条机构(4)驱动的棘轮(3)供能,在输出端为运转轮系(5)提供动力。该机芯包括第一能量吸收装置(6),该第一能量吸收装置(6)通过至少一个第一弹性连接件(7)连接至该运转轮系(5)的至少一个轮副,该第一能量吸收装置(6)与驱动该棘轮(3)的至少一个驱动轮副(8)配合,该轮副(8)与该棘轮(3)啮合,以通过再次注入一部分由该能量吸收装置(6)吸收的能量来为该能量存储装置(2)供能,驱动该棘轮(3)的所述驱动轮副(8)可以在至少一个分离机构(9)的作用下分离,该分离机构(9)在该上条机构(4)工作期间起作用。 | ||||||
| 6 | 用于轮副的单向旋转驱动的换向机构 | CN200710091100.X | 2007-04-09 | CN101051213B | 2010-04-14 | J-L·黑尔费尔; T·科尼斯 |
| 本发明公开了一种换向机构,包括安装成在心轴(6)上自由旋转的驱动轮(5)以及与运动链系的第一轮副(1)啮合的从动轮(7),该驱动轮由摆动的驱动小齿轮(3)驱动,该从动轮包括凹槽(11)以用于容纳联接装置(10),该联接装置包括至少一个弯曲的锁定臂(12),该锁定臂的一端(14)具有在驱动轮(5)上的枢转点(14a,14b),该锁定臂的另一端(16)具有靠接点(16a),该靠接点经由与所述臂(12)成一体的弹簧(20)的作用紧靠从动轮(7)的凹槽(11)的内壁(2)。该枢转点(14b)优选地沿凸轮(21)移动。本发明应用于通过摆锤自动上条。 | ||||||
| 7 | 小型仪表中的加速传动装置 | CN98123398.8 | 1998-11-19 | CN1229201A | 1999-09-22 | L·克林 |
| 一种带动小型仪表的动力发生器(1),并且它由振荡摆(2)经齿轮系带动,该齿轮系包括多个齿轮和小齿轮(18,4,6和19),它们排列成齿轮链(3)。该齿轮链包含至少可与一个齿轮与小齿轮(18)脱开的滑动齿轮与小齿轮(4),从而当振荡摆(2)上的加速度超过所述仪表正常使用时的加速度时,可以断开齿轮链(3)。 | ||||||
| 8 | 太阳能摇表器 | CN201510972106.2 | 2015-12-22 | CN106909050A | 2017-06-30 | 不公告发明人 |
| 本发明公开了一种太阳能摇表器,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)的输出端通过导线与壳体(1)内太阳能充电系统(3)的输入端连接,所述太阳能充电系统(3)的输出端连接储电池(4),储电池(4)的输出端连接电机(5),该电机(5)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,更保证了产品使用不受停电等因素的影响,非常适合量产,普及。 | ||||||
| 9 | 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。 | ||||||
| 10 | 用于时钟的换向器 | CN201510020937.X | 2015-01-15 | CN104777739A | 2015-07-15 | S·考尼贝; M·毕罗特; J·基尔霍夫 |
| 本发明涉及用于时钟的换向器,包括一个包含第一接收齿圈(21)并且与第一传动齿圈(8)一体化的第一输入移动部件(6);一个包含第二接收齿圈(22)并且与第二传动齿圈(10)一体化的第二输入移动部件(12);至少一个与所述第一传动齿圈(8)协作以能够在单一方向转动的第一卫星齿轮(5,5',5");至少一个与所述第二传动齿圈(10)协作以能够在单一方向转动的第二卫星齿轮(11,11',11"),该卫星齿轮(11,11',11")相对于第一卫星齿轮(5,5',5")能够自由转动;一个搭载第二卫星齿轮(11,11',11")的卫星齿轮搭载件(3);和一个与卫星齿轮搭载件(3)一体化的输出移动部件(1);其中所述第一卫星齿轮(5,5',5";11,11',11")由卫星齿轮搭载件(3)搭载。本发明还涉及包括这样的换向器的自动上发条手表。 | ||||||
| 11 | 在钟表机芯外部上枢转的摆陀和装配有所述摆陀的钟表机芯以及包括所述摆陀的钟表 | CN201280037747.3 | 2012-07-12 | CN103890665A | 2014-06-25 | C·卡萨皮; L·德绍蒙 |
| 一种摆陀,其能够被固定到在钟表机芯外部上枢转的壳架(1),所述摆陀包括与所述钟表机芯的发条盒的棘轮运动学地连接的齿部。这种摆陀包括环形框架(4)或形状为环形区段的框架、以及中心部分,所述框架能够被固定到所述壳架(1),所述中心部分(7)主要或完全位于由所述框架(4)限定的表面区域的一半中。 | ||||||
| 12 | Automatic claw winding mechanism | JP2006011914 | 2006-01-20 | JP2006201177A | 2006-08-03 | MOJON JEAN-FRANCOIS; PERUCCHI NORBERTO |
| <P>PROBLEM TO BE SOLVED: To provide an automatic claw winding mechanism for a wristwatch. <P>SOLUTION: This automatic claw winding mechanism comprises a rotor 1 that is attached to a rotor wheel 2 and rocks about the axis of a rotor pivot 3, a claw wheel 4 that is pivoted about the axis of a claw wheel shaft 7 and transmits the rocking movement of the rotor with the rotor wheel, at least one pawls 5a and 5b attached eccentrically, with respect to the axis of the claw wheel shaft, and an automatic wheel 11 cooperating with the claw. The rocking movement of the rotor wheel is converted into one-way rotation movement of the automatic wheel, and the rotation movement is transmitted to a ratchet wheel 13 through a conversion gear train 12. The rotor 1 and the gear train from the rotor 1, having the rotor wheel 2 to the claw wheel having the claw are disposed in an independent rotor bridge 9, and any other means of the mechanism is disposed in the independent rotor bridge 9. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 13 | Mechanical automatically winding watch movement | JP14171090 | 1990-06-01 | JPH0329884A | 1991-02-07 | PIEERU MATEISU |
| PURPOSE: To obtain a watch movement which can be wound up over a running period of about eight days by turning a spring drum and a winding weight about the central shaft of the watch movement. CONSTITUTION: The drum 16 of a spring is set, in the center of a watch movement, in a winding-weight comprising a coaxial semicircular sector 3. The weight oscillates under the gravity and the acceleration of displacement of the watch movement to wind up a spring 15 in the drum 16. The allowable size of the drum 16 in that arrangement allows arrangement of the spring 15 having a very large number of turns therein. This arrangement of the spring 15 can drive the movement for about eight days at a sufficient and constant torque until the number of turns goes substantially to zero. COPYRIGHT: (C)1991,JPO | ||||||
| 14 | SELF-WINDING MECHANISM FOR WATCHES | US15293718 | 2016-10-14 | US20170115628A1 | 2017-04-27 | Sylvain MARECHAL; Jerome FAVRE |
| Watch comprising a case containing an energy accumulator recharged by a winding mechanism, this watch is arranged to receive, attached to the case or in immediate proximity thereto, an additional self-winding mechanism arranged to be worn by a user at the same time as the watch and comprising a transmitter wheel set arranged for contactless cooperation with a receiver wheel set comprised in the winding mechanism, by remote interaction under the action of a field in the air-gap between the transmitter wheel set and the receiver wheel set, the intensity of the field and the maximum air-gap distance being defined to transmit to the receiver wheel set, to recharge the energy accumulator, a torque or a force imparted by a user to the transmitter wheel set, and the additional self-winding mechanism is removable and portable with respect to the case. | ||||||
| 15 | Winding device with unidirectional drive arrangement | US14929708 | 2015-11-02 | US09400487B2 | 2016-07-26 | Eric Goeller |
| The winding device includes a solar pinion mounted for free rotation in a coaxial manner about a central arbor on a winding wheel. The device also includes toothed planetary wheels for meshing with a toothing of the solar pinion. The planetary wheels are mounted for free rotation with play about a respective offset arbor fixed to the winding wheel. The device also includes one or two hooks of a frame fixedly mounted on the winding wheel. In a first direction of rotation of the solar pinion, a planetary wheel is in a locking position in contact with a hook in order to drive the winding wheel. In a second direction of rotation opposite to the first direction of rotation, the planetary wheel is uncoupled so that the rotation of the solar pinion does not drive the winding wheel. | ||||||
| 16 | Reverser for timepiece | US14594276 | 2015-01-12 | US09158283B2 | 2015-10-13 | Sylvain Cornibé; Michel Belot; Jérôme Kirchhof |
| A reverser for a timepiece including a first input moving part having a first receiving toothing and integral with a first transmission toothing, a second input moving part having a second receiving toothing and integral with a second transmission toothing, a first satellite cooperating with the first transmission toothing configured to rotate in a single direction, a second satellite cooperating with the second transmission toothing configured to rotate in a single direction, the satellite being freely rotatable relative to the first satellite, a satellite carrier carrying the second satellite and an output moving part integral with the satellite carrier in which the first satellite is carried by the satellite carrier. | ||||||
| 17 | REVERSER FOR TIMEPIECE | US14594276 | 2015-01-12 | US20150198925A1 | 2015-07-16 | Sylvain CORNIBÉ; Michel BELOT; Jérôme KIRCHHOF |
| A reverser for a timepiece including a first input moving part having a first receiving toothing and integral with a first transmission toothing, a second input moving part having a second receiving toothing and integral with a second transmission toothing, a first satellite cooperating with the first transmission toothing configured to rotate in a single direction, a second satellite cooperating with the second transmission toothing configured to rotate in a single direction, the satellite being freely rotatable relative to the first satellite, a satellite carrier carrying the second satellite and an output moving part integral with the satellite carrier in which the first satellite is carried by the satellite carrier. | ||||||
| 18 | WATCH WITH IMPROVED POWER RESERVE | US14514574 | 2014-10-15 | US20150124572A1 | 2015-05-07 | Cedric DECOSTERD |
| Mechanical timepiece movement, including at least one energy storage means fed at the input by a ratchet driven by one winding mechanism and at the output powering a going train.The movement includes first energy take-up means connected to at least one wheel set of this going train by at least a first elastic connection, this first energy take-up means cooperating with at least one wheel set driving this ratchet, in mesh with this ratchet for powering this energy storage means by reinjecting part of the energy taken up by this energy take-up means, this wheel set driving this ratchet being uncouplable under the action of at least one uncoupling mechanism active during the operation of this winding mechanism. | ||||||
| 19 | GOING TRAIN FOR A TIMEPIECE | US13450506 | 2012-04-19 | US20120269044A1 | 2012-10-25 | Kéwin BAS; Cyrille CHATEL |
| The going train for a timepiece has a mechanical movement having a frame (0), a barrel (1) and an escapement pinion (5) which are connected by the going train. This going train has a stepping-up epicyclic train having a first planet gear (6) with a constant rotational speed during normal operation of the movement, a second planet gear (7) kinematically connected to the escapement pinion (5), at least one satellite gear (9) each meshing with the first planet gear (6) and the second planet gear (7), and a satellite carrier (8) kinematically connected to the barrel (1) and carrying the satellite gear(s) (9). | ||||||
| 20 | Setting and winding mechanism | US10257074 | 2003-02-21 | US06711099B1 | 2004-03-23 | Elmar Mock; Elio Mariotto |
| A mechanism for setting and winding of a clockwork, with a winding button spindle, rotatable around its arbor and displaceable in the axial direction, and with a first gear arranged at a distance from the winding button spindle, rotatable around its arbor and displaceable in the direction of its arbor. The rotational movement of this first gear is operatively connected to the rotational movement of the winding button spindle via at least one additional gear. The axial displaceability of the first gear is operatively connected to the axial displaceability of the winding spindle via a first connection device, so that the first gear can be engaged in the axial direction with additional clockwork parts by axial displacement of the winding spindle. An additional connection device produces an operative connection between the winding spindle and a second gear, so that the second gear, as a result of axial displacement of the winding spindle, is pivoted around an arbor of a third gear operatively connected to the second gear. | ||||||
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