| 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 | 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。 | ||||||
| 2 | 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。 | ||||||
| 3 | 用于钟表机芯的反向装置 | CN201080035442.X | 2010-06-16 | CN102483606B | 2015-01-07 | 辉文·陈; 卢多维克·佩雷 |
| 本发明涉及用于钟表机芯的反向装置,它包括在相反旋转方向被驱动的第一和第二齿轮(51、52),与运动学地连接到钟表机芯的枢轴构件(40)的输出带齿构件(67)同轴。所述轮通过单向传输构件(56、57)连接到所述输出构件,适用于仅在同一预定义旋转方向将旋转传输到该输出构件,并且阻止输出构件在该预定义方向上的旋转向一个或另一个轮传输。每个单向传输构件(56、57)包括两个正相对的不对称形状的齿(58、59),以这样的方式被连接到输出构件(67):关于其旋转受限,而可以在径向方向上于第一和第二端点位置之间移动。每个轮(51、52)包括带有中央沉孔(5)的盘(2),该中央沉孔为相应的单向传输构件(56、57)限定了一个壳体,其外围包括n个外围尖端(53、54),用于与相应的单向传输构件的齿(58、59)在预定义的旋转方向配合,每个尖端由圆孔(8)和所述外围的交集确定,n大于或者等于1。 | ||||||
| 4 | 用于钟表机芯的反向装置 | CN201080035442.X | 2010-06-16 | CN102483606A | 2012-05-30 | 辉文·陈; 卢多维克·佩雷 |
| 本发明涉及用于钟表机芯的反向装置,它包括在相反旋转方向被驱动的第一和第二齿轮(51、52),与运动学地连接到钟表机芯的枢轴构件(40)的输出带齿构件(67)同轴。所述轮通过单向传输构件(56、57)连接到所述输出构件,适用于仅在同一预定义旋转方向将旋转传输到该输出构件,并且阻止输出构件在该预定义方向上的旋转向一个或另一个轮传输。每个单向传输构件(56、57)包括两个正相对的不对称形状的齿(58、59),以这样的方式被连接到输出构件(67):关于其旋转受限,而可以在径向方向上于第一和第二端点位置之间移动。每个轮(51、52)包括带有中央沉孔(5)的盘(2),该中央沉孔为相应的单向传输构件(56、57)限定了一个壳体,其外围包括n个外围尖端(53、54),用于与相应的单向传输构件的齿(58、59)在预定义的旋转方向配合,每个尖端由圆孔(8)和所述外围的交集确定,n大于或者等于1。 | ||||||
| 5 | DISPOSITIF INVERSEUR POUR MOUVEMENT HORLOGER | EP10747436.3 | 2010-06-16 | EP2443523A2 | 2012-04-25 | TRAN, Huy Van; PEREZ, Ludovic |
| The present invention relates to an inverter device for a clock movement comprising first and second gears (51, 52), intended for being driven in opposing, coaxial directions of rotation and a toothed output member (67), intended for being kinematically connected to a pivoting member (40) of the clock movement. The gears are connected to the output member by unidirectional transmission members (56, 57), arranged such as to transmit a rotation to the output member in a single predefined direction of rotation and to prevent a rotation of the output member from being transmitted, in said predefined direction of rotation, to one or both of the gears. Each unidirectional transmission member (56, 57) comprises two teeth (58, 59), diametrically opposed and asymmetrically shaped, and is connected to the output member (67) such as to be rotatably secured thereto while being suitable for moving between first and second end positions in a radial direction. Each gear (51, 52) comprises a panel (2) provided with a central countersink (5) defining a housing for the corresponding unidirectional transmission member (56, 57), the periphery thereof having n peripheral tips (53, 54), intended for engaging with the teeth (58, 59) of the corresponding unidirectional transmission member in the predefined direction of rotation, each being defined by the intersection of a circular hole (8) with the periphery, where n is no lower than one. | ||||||
| 6 | MULTIFUNCTIONAL CASE | US14004785 | 2012-03-22 | US20140003200A1 | 2014-01-02 | Fabien Lamarche |
| The invention relates to a multifunctional case that is suitable for winding an automatic or manual watch having one or more displays, the case includes a box having a removable support designed to hold the watch; a winding mechanism intended to wind the watch when the latter is arranged on the removable support; the multifunctional case also having an adjusting mechanism suitable for adjusting said one or more displays. This solution has in particular the advantage over the prior art of keeping the watch on time when it is arranged in the case. | ||||||
| 7 | INVERTER DEVICE FOR A CLOCK MOVEMENT | US13391149 | 2010-06-16 | US20120176870A1 | 2012-07-12 | Huy Van Tran; Ludovic Perez |
| An inverter device for timepiece movements is disclosed which includes first and second toothed wheels intended to be driven in opposite rotation directions and coaxial with an output toothed member intended to be kinematically connected to a pivoting member of the timepiece movement. The wheels are connected to the output member by unidirectional transmission members adapted to transmit to the output member rotation in only the same one predefined rotation direction and to prevent the transmission of rotation of the output member in this predefined rotation direction to one or the other of the wheels. Each unidirectional transmission member includes two diametrically opposite teeth of asymmetrical shape and is connected to the output member in such a manner as to be constrained to rotate with it whilst being able to be moved between first and second extreme positions in a radial direction. Each wheel includes a plate provided with a central counterbore defining a housing for the corresponding unidirectional transmission member and the periphery of which includes n peripheral tips intended to cooperate with the teeth of the corresponding unidirectional transmission member in the predefined rotation direction, and each of which is defined by the intersection of a circular hole with the periphery, n being equal to or greater than one. | ||||||
| 8 | Free-wheel mechanism | US3623582D | 1970-01-12 | US3623582A | 1971-11-30 | GIGER URS; JAKOB-SCHILD EDWIN FERNAND |
| A freewheel mechanism with a pair of coaxial wheels and yielding wedging members cooperating with indentations of the wheels and interlocking the latter for rotary motion when the driving wheel moves in one direction, while allowing the driving wheel to rotate alone freely in the reverse direction. The wedging members are themselves rigid and form part of a single punched piece inserted between the wheels on their common arbor and comprising a hub portion and resilient radial arms, each of which connects a wedging member to the hub portion. Each radial arm has built-in torque and is merely subjected to a pull when the wedging member carried thereby transmits a torque from the driving wheel to the driven wheel.
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| 9 | Timepiece with automatic and manual winding mechanism | US3997848 | 1948-07-21 | US2620620A | 1952-12-09 | FRIEDRICH MEYER |
| 10 | Watch or clock movement with manual and automatic winding mechanism | US9787949 | 1949-06-08 | US2603941A | 1952-07-22 | HEINRICH STAMM |
| 11 | Self-winding mechanism for watches | US15293718 | 2016-10-14 | US09927771B2 | 2018-03-27 | 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. | ||||||
| 12 | Multifunctional case | US14004785 | 2012-03-22 | US09292000B2 | 2016-03-22 | Fabien Lamarche |
| A multifunctional case is configured for winding an automatic or manual watch having one or more displays, the case includes a box having a removable support designed to hold the watch; a winding mechanism intended to wind the watch when the latter is arranged on the removable support; the multifunctional case also having an adjusting mechanism configured for adjusting said one or more displays of the watch. This solution has in particular the advantage over the prior art of keeping the watch on time when it is arranged in the case. | ||||||
| 13 | Dial setting mechanism | US53510755 | 1955-09-19 | US2892304A | 1959-06-30 | EAVES JAMES C |
| 14 | Watch with both a selfwinding and a manually winding mechanism | US39013453 | 1953-11-04 | US2707371A | 1955-05-03 | HANS KOCHER |
| 15 | Power transmission mechanism | US41769241 | 1941-11-03 | US2296788A | 1942-09-22 | GRAHAM HORSTMANN BEVAN |
| 539,798. Clocks. HORSTMANN, B. G., and HORSTMANN GEAR CO., Ltd. March 19, 1940, No. 5103. [Class 139] [Also in Groups XXIX and XXXVII] Power transmission mechanism for valves and electric switches comprises two sources of power transmitting unidirectional drive through transmission trains to a driven member, an antioverrun device being incorporated in at least one of the transmission trains for preventing the driven member from overrunning its drive. As shown, applied to a time-control device adapted to operate valves or switches, a driven member 18 may be driven either by the pinion 8 of a syncronous motor or by a clockwork motor having a going barrel 3. The pinion 8 gears with a disc 7 carrying a ring 11, the cylindrical inner periphery of the latter engaging three toggles 12 pivoted to a plate 13 and thus driving a plate 14 fast on the shaft 15. A disc 16 fast on the shaft 15 transmits the drive to a disc 19 fast on the member 18 by means of a pin 17 working with slight clearance in a slot 20. When the clockwork motor is driving, the drive from the going barrel 3 is transmitted directly to the disc 19 by a toggle 22 which is pivoted to the disc 19 and engages the inner cylindrical periphery of a ring 21 secured to the casing 3. To prevent overrunning of the member 18 whatever source is driving, a toggle member 24 is provided. This is pivoted at 23 to the disc 19 and has a circular end snugly engaging a portion 26 of a slot 25 in the discs 16. When the member 18 tends to overrun the end of the toggle 24 jams against the inner periphery of the ring 21. This jamming is caused by the pivoting of the toggle about the slot part 26 and is permitted by the relative movement between the discs 16, 19, allowed by the pin and slot connection 17, 20. The final gear 6 of an escapement train may mesh with teeth 5 on the barrel 3. | ||||||
| 16 | Wrist watch and other watch | US66737323 | 1923-10-08 | US1576120A | 1926-03-09 | JOHN HARWOOD |
| 17 | 時計ムーブメントの巻上げ装置 | JP2017147492 | 2017-07-31 | JP2018066721A | 2018-04-26 | ド アルメイダ グラシア, セルジオ; リンク, ヴァニーナ |
| 【課題】時計ムーブメントの巻上げ装置、とりわけ自動巻上げ装置の改善された解決策を提供する。 【解決手段】摩擦に曝されるインターフェースを介して協働する2つの金属部品を含む時計ムーブメントの巻上げ装置、とりわけ自動巻上げ装置に関し、炭素または窒素タイプ原子をオーステナイト系ステンレス鋼内に所定の深さまで導入することで硬化された少なくとも1つの摩擦面を含む、少なくとも1つのオーステナイト系ステンレス鋼部品を含む。 【選択図】図2 |
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| 18 | 腕時計用自動巻機構 | JP2016208367 | 2016-10-25 | JP2017083442A | 2017-05-18 | MARECHAL SYLVAIN; JEROME FAVRE |
| 【課題】手動巻の機械式腕時計を自動巻の機械式腕時計に変換する方法を提供する。【解決手段】腕時計1をケース10又はケース10のすぐ近くの外部部品に取着して、付加自動巻機構を受容するように配設し、付加自動巻機構を、腕時計1と同時にユーザが着用するように配設し、付加自動巻機構は、巻機構40に備えるレシーバホイールセット41と、非接触で協働するように配設するトランスミッタホイールセット110を備え、非接触での協働を、トランスミッタホイールセット110とレシーバホイールセット41との間の空隙にある界の作用下で遠隔相互作用することによって行い、界の強度及び最大空隙距離を、エネルギ蓄積器を再充填するために、ユーザがトランスミッタホイールセット110に付与するトルク又は力を、レシーバホイールセット41に伝達するように規定し、付加自動巻機構をケース10に対して取外可能且つ携帯可能とする。【選択図】図1 | ||||||
| 19 | Mécanisme de remontage automatique bidirectionnel pour mouvement d'horlogerie. | EP13000982.2 | 2013-02-27 | EP2634650A3 | 2017-10-25 | Chervet, Bernard; Genna, Giacomo; Tarquin, Victor |
Mécanisme de remontage automatique bidirectionnel pour mouvement d'horlogerie comprenant une masse oscillante (2), un mobile (15) à roue à dents de loup (14) pour entraîner un rochet de remontage (25) du mouvement et deux cliquets (12a, 12b) coopérant avec la denture de la roue à dents de loup (14) pour faire alternativement avancer ledit mobile (15) sous l'effet des oscillations de la masse oscillante (2), ledit mobile (15) comprenant un dispositif de débrayage pour découpler la roue à dents de loup (14) du rochet de remontage (25) lors d'un remontage manuel du mouvement, afin de protéger la roue à dents de loup (14) et les cliquets (12a, 12b) des risques d'usure.
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| 20 | Mécanisme de remontage automatique bidirectionnel pour mouvement d'horlogerie. | EP13000982.2 | 2013-02-27 | EP2634650A2 | 2013-09-04 | Chervet, Bernard; Genna, Giacomo; Tarquin, Victor |
Mécanisme de remontage automatique bidirectionnel pour mouvement d'horlogerie comprenant une masse oscillante (2), un mobile (15) à roue à dents de loup (14) pour entraîner un rochet de remontage (25) du mouvement et deux cliquets (12a, 12b) coopérant avec la denture de la roue à dents de loup (14) pour faire alternativement avancer ledit mobile (15) sous l'effet des oscillations de la masse oscillante (2), ledit mobile (15) comprenant un dispositif de débrayage pour découpler la roue à dents de loup (14) du rochet de remontage (25) lors d'un remontage manuel du mouvement, afin de protéger la roue à dents de loup (14) et les cliquets (12a, 12b) des risques d'usure.
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