| 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 | 用于透明钟表构件的机械和/或光学功能化的方法 | CN201280049239.7 | 2012-10-02 | CN103857513A | 2014-06-11 | C·波费特; P·盖施特 |
| 本发明涉及用于透明钟表构件(1)的制造以及机械和/或光学功能化的方法,其中:基体(16)由聚甲基丙烯酸甲酯形成,所述基体包括底表面(3)和机械和/或光学功能化的中间表面(7);所述基体由层覆盖,通过将第二透明可聚合材料(6)注射到位于模具(9)和所述基体(16)或中间体(6A)之间的腔体(14)中来形成所述层,所述中间体由在前的模具(9)的接触表面(10)的互补中间表面(7A)限定,后一个模具(9)是所述构件(1)的顶表面(2)的阴模;所述第二材料(6)聚合;通过使所述模具变形将所述构件(1)从所述柔性模具(9)中移出。 | ||||||
| 2 | 具有树脂制成的轴承部的时钟以及轮系装置 | CN02825500.3 | 2002-12-20 | CN1606717A | 2005-04-13 | 远藤守信; 内山哲夫; 山口晃生; 近藤康雄; 青山宽; 重城幸一郎; 竹田和俊; 竹中雅人; 铃木重男; 所毅 |
| 本发明涉及具有树脂形成的轴承部的时钟。另外,本发明还涉及具有树脂形成的轴承部的轮系装置。并且,本发明形成的时钟设有齿轮和支承齿轮的支承部件,由填料树脂形成支承部件。或者,构成的轮系装置设有齿轮和支承齿轮的支承部件,由填料树脂形成支承部件。 | ||||||
| 3 | 石英模拟式计时器机件 | CN88102186 | 1988-04-20 | CN1030485A | 1989-01-18 | 赫博特·斯奇瓦特兹 |
| 三指针石英模拟式计时器用的机件,具有能量电池向计时电路供电,以使拉维特(Lavet)型步进马达周期性步进。马达的转子通过一或多个由齿轮、小齿轮和轴杆组成的中间轮组件驱动附着在秒针轴杆上的秒轮组件。由非磁性材料制成的第一中间轮轴杆被枢轴式地安装,其轴心穿过转子和定子之间的环形间隙。本发明提供了若干种枢轴式安装第一中间轮组件的替代方法。该装置可以采用小直径的秒轮和大的能量电池,为机件提供长的运转时间。 | ||||||
| 4 | 用于钟表机构的支枢装置 | CN201480016909.4 | 2014-02-13 | CN105051623B | 2017-12-19 | M·斯特兰策尔; T·黑塞勒; J-L·黑尔费尔 |
| 一种用于钟表机构的支枢装置(45),包括用于将心轴(47)径向保持在机板(2)中的第一回转引导件(46)和用于轴向限制所述心轴(47)的端部的第二前引导件(49),并且包括作用在至少所述第一回转引导件(46)和/或所述第二前引导件(49)上的至少一个弹性震动吸收件(48)。所述至少一个弹性震动吸收件(48)由可微机械加工的材料或硅或石英或钻石或红宝石或刚玉以与除了所述第一回转引导件(46)和所述第二前引导件(49)之外的至少一个结构元件(451)成一体件的方式制成。 | ||||||
| 5 | 用于时计心轴的枢转装置 | CN200880013675.2 | 2008-04-24 | CN101669075B | 2012-02-29 | T·科尼斯; J-L·黑尔费尔 |
| 本发明涉及用于轴(11)的枢转装置,该枢转装置包括两个枢轴(12,12’;32)和两个用于接纳所述两个枢轴的支承座,每个枢轴限定轴的一个端部。两个枢轴中的每一个都包括基本圆柱形部分(19,19’;39)和凸状圆形部分(13,13’;33),凸状圆形部分形成基本圆柱形部分的延伸部并在端部方向上尺寸减小。每个支承座都包括弹性地保持就位的枢转结构(25;35),该枢转结构包括基本圆柱形通道,其中一个枢轴的基本圆柱形部分(19,19’;39)延伸穿过所述基本圆柱形通道。该枢转结构还包括枢轴的端部抵靠在上面的支承面。该枢转装置的特征在于,每个支承座的支承面由开口(16,16’;36;46)的倾斜内壁形成,所述开口包括梯形或者倒三角形廓形部分(16,16’;38;46),其中一个枢轴的凸状圆形部分(13,13’;33)用于抵靠在所述倾斜内壁上,以便轴(11)沿轴向保持在两个支承座的开口的倾斜壁之间。 | ||||||
| 6 | 具有树脂制成的轴承部的时钟以及轮系装置 | CN02825500.3 | 2002-12-20 | CN100378605C | 2008-04-02 | 远藤守信; 内山哲夫; 山口晃生; 近藤康雄; 青山宽; 重城幸一郎; 竹田和俊; 竹中雅人; 铃木重男; 所毅 |
| 本发明涉及具有树脂形成的轴承部的时钟。另外,本发明还涉及具有树脂形成的轴承部的轮系装置。并且,本发明形成的时钟设有齿轮和支承齿轮的支承部件,由填料树脂形成支承部件。或者,构成的轮系装置设有齿轮和支承齿轮的支承部件,由填料树脂形成支承部件。 | ||||||
| 7 | 用于透明钟表构件的机械和/或光学功能化的方法 | CN201280049239.7 | 2012-10-02 | CN103857513B | 2016-09-14 | C·波费特; P·盖施特 |
| 本发明涉及用于透明钟表构件(1)的制造以及机械和/或光学功能化的方法,其中:基体(16)由聚甲基丙烯酸甲酯形成,所述基体包括底表面(3)和机械和/或光学功能化的中间表面(7);所述基体由层覆盖,通过将第二透明可聚合材料(6)注射到位于模具(9)和所述基体(16)或中间体(6A)之间的腔体(14)中来形成所述层,所述中间体由在前的模具(9)的接触表面(10)的互补中间表面(7A)限定,后一个模具(9)是所述构件(1)的顶表面(2)的阴模;所述第二材料(6)聚合;通过使所述模具变形将所述构件(1)从所述柔性模具(9)中移出。 | ||||||
| 8 | 用于钟表机构的支枢装置 | CN201480016909.4 | 2014-02-13 | CN105051623A | 2015-11-11 | M·斯特兰策尔; T·黑塞勒; J-L·黑尔费尔 |
| 一种用于钟表机构的支枢装置(45),包括用于将心轴(47)径向保持在机板(2)中的第一回转引导件(46)和用于轴向限制所述心轴(47)的端部的第二前引导件(49),并且包括作用在至少所述第一回转引导件(46)和/或所述第二前引导件(49)上的至少一个弹性震动吸收件(48)。所述至少一个弹性震动吸收件(48)由可微机械加工的材料或硅或石英或钻石或红宝石或刚玉以与除了所述第一回转引导件(46)和所述第二前引导件(49)之外的至少一个结构元件(451)成一体件的方式制成。 | ||||||
| 9 | 钟表用润滑轴承 | CN201210540837.6 | 2012-12-14 | CN103163773A | 2013-06-19 | L.凯林; J.莫林 |
| 公开了钟表用润滑轴承(1)。其包括用注入外保持架(3)的回转空腔(4)中的塑性材料制成的内芯(5)。其还包括包含在所述空腔(4)内的内保持架(2),并且所述内芯(5)被注入所述内保持架(2)和所述外保持架(3)之间。所述内芯(5)能够相对于所述外保持架(3)以操作间隙移动且不能从所述外保持架(3)移开,并且能够相对于所述内保持架(2)以操作间隙移动且不能从所述内保持架(2)移开。 | ||||||
| 10 | 用于时计心轴的枢转装置 | CN200880013675.2 | 2008-04-24 | CN101669075A | 2010-03-10 | T·科尼斯; J-L·黑尔费尔 |
| 本发明涉及用于轴(11)的枢转装置,该枢转装置包括两个枢轴(12,12’;32)和两个用于接纳所述两个枢轴的支承座,每个枢轴限定轴的一个端部。两个枢轴中的每一个都包括基本圆柱形部分(19,19’;39)和凸状圆形部分(13,13’;33),凸状圆形部分形成基本圆柱形部分的延伸部并在端部方向上尺寸减小。每个支承座都包括弹性地保持就位的枢转结构(25;35),该枢转结构包括基本圆柱形通道,其中一个枢轴的基本圆柱形部分(19,19’;39)延伸穿过所述基本圆柱形通道。该枢转结构还包括枢轴的端部抵靠在上面的支承面。该枢转装置的特征在于,每个支承座的支承面由开口(16,16’;36;46)的倾斜内壁形成,所述开口包括梯形或者倒三角形廓形部分(16,16’;38;46),其中一个枢轴的凸状圆形部分(13,13’;33)用于抵靠在所述倾斜内壁上,以便轴(11)沿轴向保持在两个支承座的开口的倾斜壁之间。 | ||||||
| 11 | Bimaterial anti-shock system for timepieces | US15102104 | 2014-12-05 | US10012955B2 | 2018-07-03 | Jean-Jacques Born; Jean-Claude Martin |
| A shock absorber bearing for an arbor of a timepiece wheel. The arbor includes a pivot-shank, the bearing includes a support including a housing arranged to receive a suspended pivot mechanism, and the pivot mechanism is arranged to absorb, at least in part, any shocks experienced by the timepiece wheel. | ||||||
| 12 | Timepiece, having bearing portion formed of resin and wheel train | US10499688 | 2002-12-20 | US07170827B2 | 2007-01-30 | Morinobu Endo; Tetsuo Uchiyama; Akio Yamaguchi; Yasuo Kondo; Hiroshi Aoyama; Koichiro Jujo; Kazutoshi Takeda; Masato Takenaka; Shigeo Suzuki; Takeshi Tokoro |
| The invention relates to a timepiece which has a resin bearing section. Moreover, the invention relates to a wheel train apparatus which has a resin bearing section. The invention is constituted by the timepiece provided with a gear wheel and supporting members which support the gear wheel, the supporting members being formed from a filler containing resin. Alternatively the invention is constituted by the wheel train apparatus provided with a gear wheel and supporting members which support the gear wheel, the supporting members being formed from a filler containing resin. | ||||||
| 13 | Quartz analog movement with lavet stepping motor and large energy cell | US69782 | 1987-07-06 | US4744066A | 1988-05-10 | Herbert Schwartz |
| A movement for a three hand quartz analog timepiece has an energy cell supplying power to a timekeeping circuit which periodically steps the rotor of a Lavet type stepping motor. The stepping motor rotor drives a "seconds" wheel assembly attached to the "seconds" hand spindle through one or more intermediate wheel assemblies of gear, pinion, and spindle. A first intermediate wheel spindle of non-magnetic material is journaled such that its axis extends through the circumferential gap carrying magnetic flux between the rotor and the stator of the stepping motor. Several alternative means of journaling the first intermediate wheel assembly within the active flux gap of the stepping motor are shown and described, as well as movements having two intermediate wheel assemblies. The arrangement allows a small diameter "seconds" wheel and a relatively large energy cell, which provides a long running time for the movement. | ||||||
| 14 | Gear or wheel suspension system for clockwork mechanism | US37322153 | 1953-08-10 | US2725715A | 1955-12-06 | TAILER PETER L |
| 15 | Pivot for timepiece mechanism | US14764080 | 2014-02-13 | US09684283B2 | 2017-06-20 | Marc Stranczl; Thierry Hessler; Jean-Luc Helfer |
| A pivot for a timepiece mechanism, including a first rotational guide member for radially holding an arbor in a plate, and a second front guide member for axially limiting an end of the arbor, and including at least one resilient shock absorber acting on at least the first rotational guide member and/or the second front guide member. The resilient shock absorber is made in a one-piece manner in a micromachinable material or in silicon or quartz or diamond with a structural element other than the first rotational guide member and the second front guide member. | ||||||
| 16 | BIMATERIAL ANTI-SHOCK SYSTEM FOR TIMEPIECES | US15102104 | 2014-12-05 | US20160306326A1 | 2016-10-20 | Jean-Jacques BORN; Jean-Claude MARTIN |
| A shock absorber bearing for an arbor of a timepiece wheel. The arbor includes a pivot-shank, the bearing includes a support including a housing arranged to receive a suspended pivot mechanism, and the pivot mechanism is arranged to absorb, at least in part, any shocks experienced by the timepiece wheel. | ||||||
| 17 | Method for mechanical and/or optical functionalization of a transparent timepiece component | US14349526 | 2012-10-02 | US09321226B2 | 2016-04-26 | Christian Poffet; Philipp Gaechter |
| A method for mechanical and/or optical functionalization of a transparent timepiece component, including: forming a body of methyl polymethacrylate, including a bottom surface and a mechanical and/or optically functionalized intermediate surface; coating the body with a layer made by injecting a second transparent polymerizable material into a cavity between a mold and the body or an intermediate body delimited by a complementary intermediate surface of a contact surface of a preceding mold, the last mold being the negative of the top surface of the component; polymerizing the second material therein; removing the component from the flexible mold by deformation of the mold. Hardness can be improved by UV irradiation of a component. | ||||||
| 18 | PIVOT FOR TIMEPIECE MECHANISM | US14764080 | 2014-02-13 | US20160041526A1 | 2016-02-11 | Marc STRANCZL; Thierry HESSLER; Jean-Luc HELFER |
| A pivot for a timepiece mechanism, including a first rotational guide member for radially holding an arbor in a plate, and a second front guide member for axially limiting an end of the arbor, and including at least one resilient shock absorber acting on at least the first rotational guide member and/or the second front guide member. The resilient shock absorber is made in a one-piece manner in a micromachinable material or in silicon or quartz or diamond with a structural element other than the first rotational guide member and the second front guide member. | ||||||
| 19 | SMOOTH TIMEPIECE BEARING | US13710831 | 2012-12-11 | US20130155823A1 | 2013-06-20 | Laurent Kaelin; Julien Moulin |
| Smooth timepiece bearing (1).It includes a core (5) of plastic material injected into a cavity of revolution (4) of an outer cage (3).It also includes an inner cage (2) contained within said cavity (4) and said core (5) is injected between said inner cage (2) and said outer cage (3).Said core (5) can move with an operating clearance relative to said outer cage (3) and cannot be removed from said outer cage (3) and can move with an operating clearance relative to said inner cage (2), and cannot be removed from said inner cage (2). | ||||||
| 20 | DEVICE FOR PIVOTING AN ARBOUR IN A TIME PIECE | US12596947 | 2008-04-24 | US20110164478A1 | 2011-07-07 | Thierry Conus; Jean-Luc Helfer |
| The device for pivoting an arbour (11) in a timepiece, includes two pivots (12, 12′; 32) each forming one end of the arbour and two bearings for receiving the two pivots. Each of the pivots includes an approximately cylindrical portion (19, 19′; 39) and a convex rounded portion (13. 13′; 33) that extends the approximately cylindrical portion and gradually decreases in the direction of the end. Each of the bearings includes a pivoting structure (25; 35) held in place elastically, which includes an approximately cylindrical passage traversed by said approximately cylindrical portion (19, 19′; 39) of one of the pivots. The pivoting structure also includes a bearing surface against which the end of said pivot will abut. The pivoting device is characterized in that the pivoting structure of each of the bearings includes an aperture (16, 16′; 36; 46) that has a portion of inverted triangular or trapezoidal profile (16, 16′; 38; 46), and in that the convex rounded portion (13, 13′; 33) of one of the two pivots is for abutting against said inclined inner wall so that the arbour (11) is held axially between the inclined walls of the apertures of the two bearings. | ||||||
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