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 | 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)。 | ||||||
| 22 | 模拟电子表 | CN201310384412.5 | 2013-08-29 | CN103676613B | 2016-08-10 | 广川润一; 久田茂树; 常叶辉久 |
| 本发明提供一种模拟电子表,具备:步进马达;传递步进马达的旋转的轮系机构;与由轮系机构传递的旋转相对应地进行旋转移动的指针;进行步进马达的动作控制的驱动控制部;当在使指针向一个移动目标位置旋转移动的动作控制的中途获得使该指针向其他移动目标位置旋转移动的动作命令时,中断动作控制,将控制内容变更为与动作命令对应的动作控制的控制内容变更部;当由控制内容变更部变更了控制内容的动作控制结束时,判断步进马达是否进行了倒转驱动动作的旋转方向判断部;以及当判断为进行了倒转驱动动作时,进行用于去除来自步进马达的旋转输入次数与指针的位置之间的偏移的预定的位置调整动作的指针位置调整部。 | ||||||
| 23 | 由合成的碳同素异形体基材料制成并具有多个功能层级的单件式空心微机械部件 | CN201480061374.2 | 2014-10-06 | CN105705458A | 2016-06-22 | P·杜博瓦; S·梅尔扎格赫; C·沙邦 |
| 本发明涉及一种用于制造由合成的碳同素异形体基材料(215,315,415)制成的单件式微机械部件(221,321,421,523,525)的方法,其特征在于,包括下述步骤:(a)形成基底(201,301,401),该基底在至少三个层级(N1,N2,N3,NX)上包括待制造的所述微机械部件的凹腔(203,303,403);(b)用所述合成的碳同素异形体基材料层覆盖基底(201,301,401)的所述凹腔(203,303,403),该材料层的厚度(e1)小于所述腔的所述至少三个层级(N1,N2,N3,NX)中每一个的深度;和(c)移走所述基底(201,301,401),以释放在所述凹腔中形成的单件式微机械部件(221,321,421,523,525)。 | ||||||
| 24 | 一种指针式马达齿轮箱 | CN201510796806.0 | 2015-11-18 | CN105242514A | 2016-01-13 | 蒋兴平; 曹荣林 |
| 本发明公开了一种指针式马达齿轮箱,主要解决了现有机心齿轮传动结构通用性差、装配精度要求高、无法独立驱动等问题。指针式马达齿轮箱包括齿轮箱外壳体和设置在齿轮箱外壳体内三组相互独立的传动系统:时针传动系统、分针转动系统和秒针传动系统;时针传动系统包括第三马达、第七齿轮、第八齿轮、第九齿轮、第三指针轴;分针传动系统包括第二马达、第四齿轮、第五齿轮、第六齿轮、第二指针轴;秒针转动系统包括第一马达、第一齿轮、第二齿轮、第三齿轮、第一指针轴;指针式马达齿轮箱还包括用于接入传感器的预留窗口,预留窗口接入传感器后用于检测第二齿轮、第八齿轮和第五齿轮和位置。本发明结构紧凑、设计合理,有效地克服了现有技术的缺陷。 | ||||||
| 25 | 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。 | ||||||
| 26 | 在钟表机芯中的具有减小的接触或者无接触的力传动装置 | CN201180037624.5 | 2011-05-11 | CN103097968B | 2015-05-06 | T·黑塞勒; M·维勒明; J-L·黑尔费尔; F·盖斯萨斯; T·科尼斯 |
| 本发明涉及一种用于制造在钟表机芯中的具有受控的或减小的接触或者无接触的传动装置的方法。该方法包括制造或改变所述钟表机芯的至少一对相对构件,所述构件中的其中一个驱动另一个或与另一个接合,其中,制造或改变所述至少一对相对构件是通过在其表面上或在其体部内在相对表面上施加处理实现的,所述处理赋予所述构件静电荷和/或磁荷,所述静电荷和/或磁荷具有相同的极性和/或磁性,使得当所述相对构件移动而更靠近彼此时,它们倾向于相互排斥。所述处理在于:在所述接合表面和/或所述相对的接合表面上形成或沉积至少一层薄层。本发明还涉及一种钟表机构,该钟表机构包括至少一对相对构件,该相对构件中的一个驱动另一个或与另一个接合,通过实施该方法来制造或改变所述对构件。 | ||||||
| 27 | 表 | CN201110363747.X | 2011-11-16 | CN102566396B | 2014-10-29 | 尼尔斯·博德; 安东尼·德哈斯; 蒂诺·博比 |
| 本发明涉及一种表、特别是一种手表,具有表盘1,在该表盘上布置有至少两个具有彼此错位布置的中心的圆形刻度盘,其中第一刻度盘能由第一指针经过和第二刻度盘能由第二指针经过,第一指针和第二指针分别能围绕相对于所属的刻度盘置于中央的指针轴旋转,和其中刻度盘部分地彼此重叠。在由第一圆形刻度盘包围的区域中,在表盘1中设计有穿孔8,通过该穿孔能看到表的位于表盘的平面的后方的区域。第二刻度盘的经过穿孔8延伸的圆形部段50布置在单独的刻度盘支座13上,该刻度盘支座能在遮盖穿孔8的显示位置和不遮盖穿孔8的显示位置之间,围绕相对于第二指针的指针轴共轴的旋转轴旋转。 | ||||||
| 28 | 钟表机构的联接杆和联接装置 | CN201310367549.X | 2013-08-21 | CN103698995A | 2014-04-02 | 皮埃尔·维拉雷 |
| 本发明涉及一种钟表机构的联接杆和联接装置。本发明提供了一种杆(6),其包括用于第一轮(1)的旋转引导的至少第一元件(61)、被设计为与第一轮的至少大致圆柱形的部分(10c)配合的至少一个摩擦元件(62),以及至少一个弹性元件(63),其被设计为使至少一个摩擦元件弹性地回到与第一轮的所述部分配合,尤其是与第一轮的所述部分接触的状态。 | ||||||
| 29 | 模拟电子表 | CN201310384412.5 | 2013-08-29 | CN103676613A | 2014-03-26 | 广川润一; 久田茂树; 常叶辉久 |
| 本发明提供一种模拟电子表,具备:步进马达;传递步进马达的旋转的轮系机构;与由轮系机构传递的旋转相对应地进行旋转移动的指针;进行步进马达的动作控制的驱动控制部;当在使指针向一个移动目标位置旋转移动的动作控制的中途获得使该指针向其他移动目标位置旋转移动的动作命令时,中断动作控制,将控制内容变更为与动作命令对应的动作控制的控制内容变更部;当由控制内容变更部变更了控制内容的动作控制结束时,判断步进马达是否进行了倒转驱动动作的旋转方向判断部;以及当判断为进行了倒转驱动动作时,进行用于去除来自步进马达的旋转输入次数与指针的位置之间的偏移的预定的位置调整动作的指针位置调整部。 | ||||||
| 30 | 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)。 | ||||||
| 31 | 表 | CN201110363747.X | 2011-11-16 | CN102566396A | 2012-07-11 | 尼尔斯·博德; 安东尼·德哈斯; 蒂诺·博比 |
| 本发明涉及一种表、特别是一种手表,具有表盘1,在该表盘上布置有至少两个具有彼此错位布置的中心的圆形刻度盘,其中第一刻度盘能由第一指针经过和第二刻度盘能由第二指针经过,第一指针和第二指针分别能围绕相对于所属的刻度盘置于中央的指针轴旋转,和其中刻度盘部分地彼此重叠。在由第一圆形刻度盘包围的区域中,在表盘1中设计有穿孔8,通过该穿孔能看到表的位于表盘的平面的后方的区域。第二刻度盘的经过穿孔8延伸的圆形部段50布置在单独的刻度盘支座13上,该刻度盘支座能在遮盖穿孔8的显示位置和不遮盖穿孔8的显示位置之间,围绕相对于第二指针的指针轴共轴的旋转轴旋转。 | ||||||
| 32 | 时钟 | CN99802397.3 | 1999-11-29 | CN1182446C | 2004-12-29 | 原辰男 |
| 位于转矩传递路线中,在带有秒针的第四轮8上设置龆轮8a和齿轮8b。因此,如果使齿轮8b与第五第一中间轮9啮合,那么可使从第四轮8的旋转中心到与第五第1中间轮9的啮合部分的直径尺寸加大,即便在第四轮8上产生偏心,在转动中心侧产生的偏心影响小,可减少秒针指示的偏差。而且,由于使第四轮8与发条1a不重叠地配置,所以只是那部分可使发条1a宽度加大,既不使时钟整体变厚,也能加大发条1a固有转矩,可延长时钟的持续时间。 | ||||||
| 33 | One-piece, hollow micromechanical part with several functional levels formed of a synthetic carbon allotrope based material | US15030710 | 2014-10-06 | US10106400B2 | 2018-10-23 | Philippe Dubois; Sebastiano Merzaghi; Christian Charbon |
| A method for fabrication of a micromechanical part made of a one-piece synthetic carbon allotrope based material, the method including: forming a substrate with a negative cavity of the micromechanical part to be fabricated; coating the negative cavity of the substrate with a layer of the synthetic carbon allotrope based material in a smaller thickness than the depth of the negative cavity; and removing the substrate to release the one-piece micromechanical part formed in the negative cavity. | ||||||
| 34 | TIMEPIECE WITH DIGITAL TIME DISPLAY | US15942125 | 2018-03-30 | US20180284697A1 | 2018-10-04 | Michael VON ALLMEN; Gudrun Kerstin LESSKE |
| A wristwatch with a gear train for rotatably advancing in cyclic steps a minute-units disk, a switching device for advancing a minute-tens disk and an hour ring which is advanced during one revolution of the minute-tens disk. The movement comprises a first and a second transmission chain connected to a release mechanism; the first transmission chain controls the second such that the second transmission chain transmits every minute a rotational movement force to a minute-units wheel. The release mechanism comprises a control disk, two release levers, each having a first and a second lever arm, and a release wheel. After each minute, a first lever arm falls from the control disk edge into a recess of the control disk and a second lever arm releases the release wheel, such that the second transmission chain rotates freely, allowing the minute-units disk to rotate one digit further. | ||||||
| 35 | Analog electronic timepiece | US13962882 | 2013-08-08 | US09310773B2 | 2016-04-12 | Jyunichi Hirokawa; Shigeki Hisada; Teruhisa Tokiwa |
| An analog electronic timepiece includes a stepping motor, a gear train mechanism having gears, a pointer, a drive control unit, a control content changing unit, and a pointer position adjustment unit. If an operational command to rotate the pointer to a different moving target position is obtained while an operational control for rotating the pointer to a certain moving target position is in progress, the control content changing unit terminates the control and changes a control content to an operational control according to the command. If the reverse rotation driving operation is being performed, the pointer position adjustment unit performs an adjustment operation for removing shifting between a predicted position of the pointer and an actual position of the pointer which occurs because of rotational input from the stepping motor not being transmitted to the pointer due to gaps relating to the mesh of the gears. | ||||||
| 36 | 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. | ||||||
| 37 | 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. | ||||||
| 38 | TIMEPIECE | US13297187 | 2011-11-15 | US20120127837A1 | 2012-05-24 | Nils BODE; Anthonie de Haas; Tino Bobe |
| A timepiece, particularly wristwatch, having a dial on which are arranged at least two circular scales having centers which are offset relative to one another. A first hand can sweep over the first scale and a second hand can sweep over the second scale, each hand being rotatable around a hand axis centric to the associated scale, and wherein the scales partially overlap. There is formed in the dial in the area surrounded by the first circular scale an aperture through which an area of the timepiece located behind the plane of the dial is visible. The circle segment of the second scale extending across the aperture is arranged on a separate scale carrier which is pivotable around a pivot axis coaxial to the hand axis of the second hand between a display position covering the aperture into a non-display position not covering the aperture. | ||||||
| 39 | Timepiece | US09600577 | 2000-07-19 | US06367966B1 | 2002-04-09 | Tatsuo Hara |
| A fourth wheel 8 disposed in a torque transmission path and to which a second hand is mounted includes a pinion 8a and a gear 8b. Therefore, when the gear 8b engages a fifth-wheel first intermediate wheel 9, the diametrical dimension from a center of rotation of the fourth wheel 8 to a portion where it engages the fifth-wheel first intermediate wheel 9 can be made large, so that, even when the fourth wheel 8 is decentered, the amount by which the second hand gets shifted can be made small by making the effects of the decentering at the center-of-rotation side small. In addition, since the fourth wheel 8 is disposed so as not to overlap a mainspring 1a, the width of the mainspring 1a can be made correspondingly small. Thus, the length of time a timepiece continues operating can be increased by increasing the torque of the mainspring 1a without increasing the thickness of the entire timepiece. | ||||||
| 40 | Clock movement power transmission union | US594551 | 1996-01-31 | US5673239A | 1997-09-30 | Chen-Sheng Wong; Jung-Che Hsieh; Shen-Yuan Chien; Shern Lin |
| An improved clock movement power transmission union is disclosed for saving space and providing flexibility of design options. It comprises: (a) a casing having main input and main output holes, wherein the main input and main output holes are disposed such that their fictitious axes intersect at a specific angle; (b) a main input shaft and a main output shaft received by the main input hole and the main output hole for rotating about their individual fictitious axes, respectively, so as to drive the hour, minute, and second hands independently. The main input shaft comprises a plurality of input shafts all rotatable about a common fictitious axis, and the main output shaft comprises an equal number of input shafts engageable with corresponding input shafts via a group of drive gear-driven gear combinations, respectively. With this design, the plurality of output shafts can receive rotational powers from the input shafts, respectively and independently of each other. | ||||||
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