序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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1 | 一种用于重锤式机械钟机芯的自动拉锤装置 | CN200820022521.7 | 2008-05-14 | CN201233509Y | 2009-05-06 | 陈吉刚; 孙健友 |
本实用新型公开了一种用于重锤式机械钟机芯的自动拉锤装置,其特征在于它具有减速电机(1)、螺杆(2),螺杆(2)上设有两端不到头的螺旋导槽,电机离合器(3)上的导柱(11)探至螺旋导槽内,电机甲板(4)连接机芯甲板(21),探出机芯甲板(21)的头轮轴(20)上套机芯离合器弹簧(8)、机芯离合器(7),电机离合器(3)与机芯离合器(7)的端头具有相对应的棘齿结构,头轮轴(20)上的拉锤轮(22)上设有棘轮(24),头轮(23)上设有棘爪(25),棘轮(24)和棘爪(25)啮合,减速电机(1)通过导线与控制器(9)连接,控制器(9)通过导线与行程开关(10)相连,本实用新型结构简单,成本低廉,使用效果好。 | ||||||
2 | 自动上弦机械钟表机芯 | CN200820021246.7 | 2008-04-20 | CN201196726Y | 2009-02-18 | 王传武; 孙艺夫 |
本实用新型提供了一种自动上弦机械钟表机芯,由指针轴、重锤轴和重锤构成的机械钟表机芯和减速电机及减速电机与电源之间的整流电源、定时开关构成,重锤轴与减速减电机的电机轴之间用离合器相连;离合器由固定安装在轴上的B部分和电机轴上的D部分构成,B、D对应两端设拨爪,离合器上的D部分内设螺杆,D部分上设导向销,导向销位于螺杆的螺纹内;螺杆为多头螺杆;螺杆采用三头螺杆,导向销对应采用3个;离合器的D部分上设导向簧;电机轴、螺杆内设键。本实用新型通过定时开关及离合器装置,自动设置使重锤上升的时间,届时将电流输送到减速电机上,传送到重锤轴上,从而使重锤上升,达到自动上弦的目的,省时省力,走时准确。本实用新型适用于带重锤的机械机芯。 | ||||||
3 | 発電装置、時計用ムーブメントおよび時計 | JP2015534108 | 2014-08-01 | JPWO2015029697A1 | 2017-03-02 | 芳樹 濱谷; 正洋 中嶋; 隆 新輪; 未英 小西; 徹 尾崎 |
発電効率に優れた発電装置、発電装置を備えた時計用ムーブメントおよび時計を提供する。外部変動により位置変動する変動部61Aと、変動部61Aの変動動力が蓄積される蓄積部20Aと、蓄積部20Aに蓄積された動力により、振幅と周波数とが調整された振動エネルギーを発生する振動エネルギー発生部40Aと、振動エネルギー発生部40Aで発生した振動エネルギーを電力に変換する発電部70と、を有する発電装置5である。発電装置5は、時計に設けられており、変動部61Aは回転錘61であり、蓄積部20Aは香箱車20であり、振動エネルギー発生部40Aは脱進調速機40である。発電部70は、第1電極71と第2電極とエレクトレット膜とを備えている。 | ||||||
4 | JPS49112667A - | JP1330573 | 1973-02-01 | JPS49112667A | 1974-10-26 | |
5 | JPH0115835B2 - | JP22928583 | 1983-12-05 | JPH0115835B2 | 1989-03-20 | WATANABE KATSUHITO; ABE SHUZO |
6 | Solar cell clock | JP22928583 | 1983-12-05 | JPS60120276A | 1985-06-27 | WATANABE ISATO; ABE SHIYUUZOU |
PURPOSE:To operate a clock semi-permanently by dispensing with a secondary battery, by accumulating the electromotive force of a solar cell as physical energy. CONSTITUTION:The electromotive force of a solar cell 1 is supplied to a clock circuit 3 through a diode 2 and, when sufficient electromotive force is obtained from the cell 1 during the daytime, the circuit 3 is driven by said electromotive force. The electromotive force of the cell 1 is also supplied to a motor 4 and an energy accumulating mechanism 5 is operated by the rotation of said motor 4. In this case, a wt. or a wind-up mechanism is used as the accumulating mechanism 5 and the weight is wound up by the rotation of the motor 4. When electromotive force is not obtained from the cell 1 in the night and the rotation of the motor 4 is stopped, the weight is gradually fallen and a power generator 6 is operated by its position energy to generate electromotive force. The electromotive force from the apparatus 6 is supplied to the circuit 3 through a diode 7 and the operation thereof is maintained. Therefore, a secondary battery is dispensed with. | ||||||
7 | JPS4811068B1 - | JP4274469 | 1969-05-31 | JPS4811068B1 | 1973-04-10 | |
8 | Aufzugsvorrichtung für ein mechanisches Uhrwerk, insbesondere einer mechanischen Turmuhr | EP02450044.9 | 2002-03-05 | EP1239348A1 | 2002-09-11 | Meinhardt, Klaus |
Die Erfindung betrifft eine nachrüstbare Aufzugsvorrichtung (1) für ein mechanisches Uhrwerk, insbesondere einer Turmuhr, mit einer über ein Antriebsrad (2) für das Uhrwerk geführten endlosen Kette (3), deren Antriebstrum (4) eine Schlinge zum Einhängen eines Gewichtes (5) bildet und mit einer über ein Kettenrad (6) in eine Kettenschlinge eingreifenden Antriebsvorrichtung (7). Um vorteilhafte Konstruktionsverhältnisse zu schaffen, ist das Gewicht (5) über das angetriebene Kettenrad (6) in das Antriebstrum (4) der Kette (3) eingehängt und mit der Antriebsvorrichtung (7) entlang des Antriebstrums (4) verfahrbar. |
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9 | PENDULUM CLOCK AND METHOD FOR THE MODIFICATION OF A PENDULUM CLOCK | EP99905362.2 | 1999-02-12 | EP1036350A1 | 2000-09-20 | SPAANDER, Melgert; HOENCAMP, Menno, Bart |
Method for modernizing a pendulum clock, by which the original character of the clock is maintained. For that purpose a control unit is added, together with a reference clock, a pneumatically driven cylinder and arresting means for arresting the pendulum. The pendulum clock is adjusted such that it runs slightly fast. Periodically, for example every hour, the pendulum is arrested up to the moment that the pendulum clock is in time with the reference clock. While the pendulum is arrested, the pendulum clock is wound up by the cylinder. | ||||||
10 | PENDULUM CLOCK AND METHOD FOR THE MODIFICATION OF A PENDULUM CLOCK | PCT/NL1999/000073 | 1999-02-12 | WO99042909A1 | 1999-08-26 | |
Method for modernizing a pendulum clock, by which the original character of the clock is maintained. For that purpose a control unit is added, together with a reference clock, a pneumatically driven cylinder and arresting means for arresting the pendulum. The pendulum clock is adjusted such that it runs slightly fast. Periodically, for example every hour, the pendulum is arrested up to the moment that the pendulum clock is in time with the reference clock. While the pendulum is arrested, the pendulum clock is wound up by the cylinder. | ||||||
11 | PENDULUM CLOCK AND METHOD FOR THE MODIFICATION OF A PENDULUM CLOCK | EP99905362.2 | 1999-02-12 | EP1036350B1 | 2009-04-08 | SPAANDER, Melgert; HOENCAMP, Menno, Bart |
Method for modernizing a pendulum clock, by which the original character of the clock is maintained. For that purpose a control unit is added, together with a reference clock, a pneumatically driven cylinder and arresting means for arresting the pendulum. The pendulum clock is adjusted such that it runs slightly fast. Periodically, for example every hour, the pendulum is arrested up to the moment that the pendulum clock is in time with the reference clock. While the pendulum is arrested, the pendulum clock is wound up by the cylinder. | ||||||
12 | Hybrid power timing device | EP07251796.4 | 2007-04-30 | EP1988434A1 | 2008-11-05 | Yang, Tai-Her |
A timing device of hybrid power that drives a movement of and functions as an auxiliary unit having a power supply to deliver power in time to an electro-magnetically driving unit through an automatic control unit manipulated by a mechanical kinetics storage status detection unit to produce mechanical kinetics; and a main spring barrel or a potential difference weight of the kinetics storage unit being driven to further drive a wheel chain of the timing device and automatically suspend driving upon the completion of winding the wheel train. |
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13 | Winding mechanism | US22744627 | 1927-10-20 | US1815729A | 1931-07-21 | ARMSTRONG JOSEPH V; RIBBECK JOHN F |
14 | Electric self-winding device | US22218927 | 1927-09-26 | US1800486A | 1931-04-14 | USHICHIRO TOKUMI |
15 | Electric self-winding master time clock | US66313323 | 1923-09-17 | US1705025A | 1929-03-12 | AUGUST MEYER EMIL |
16 | Automatic control winding mechanism for clocks | US73117524 | 1924-08-09 | US1565705A | 1925-12-15 | MONROE BONER JOHN |
17 | Self-winding clock | US46968121 | 1921-05-14 | US1449982A | 1923-03-27 | |
18 | Clock rewinding device | US1194928D | US1194928A | 1916-08-15 | ||
19 | Self-winding clock. | US1914815495 | 1914-01-30 | US1104345A | 1914-07-21 | CASTEL MAURICE |
20 | Clock. | US1911652134 | 1911-09-30 | US1060591A | 1913-05-06 | FRIEDMAN BERNHARD Z |