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 | 一种陀飞轮倾斜于表盘面的传动机构 | CN201410051474.9 | 2014-02-14 | CN104849996A | 2015-08-19 | 张芳 |
本发明公开一种陀飞轮倾斜于表盘面的传动机构,包括设置在上夹板和下夹板之间的条盒;下夹板上安装有二轮部件并固定有小夹板;小夹板上形成有斜面槽,斜面槽上固定有中夹板,中夹板上安装有传动轮系、秒齿轴和秒轮片;条盒到秒齿轮的传动链为五级传动,二轮部件和三轮部件中包含有一对相适配的锥齿轮,锥齿轮设置在主传动的第二级,由条盒并联传出中心齿轮,进而带动时分轮显示时间。有益效果是:由于锥齿轮设置在主传动链上速率较低的第二级中,有效减小锥齿轮对机芯传动平稳性的影响,也降低了锥齿轮加工、装配的敏感性;机构中的传动孔都是直孔,保证传动孔的位置度和垂直度,工艺性好、装配方便,有效保证机芯获得更优走时精度的陀飞轮机构。 | ||||||
2 | 手表机芯 | CN200880004391.7 | 2008-02-05 | CN101606108A | 2009-12-16 | R·格罗伊贝尔; S·福西 |
本发明涉及一种手表机芯,该机芯包括框架(10、11、20、22、24),所述框架由第一和第二平行平表面限制并且限定了参考平面(A、B),第二平面(B)沿着机芯设置,用于与佩戴者手腕相邻放置,并且该机芯包括:至少一个摆轮(30),在固定在所述框架(10、11、20)中的轴承中枢转;至少一个擒纵机构(26、28),提供对摆轮(30)的支承;能源(12);时钟走时完成机构(14),将能源连接至擒纵机构(26、28)和走针机构(42)。根据本发明,摆轮(30)围绕相对于参考平面(A、B)倾斜并且与参考平面(A、B)相交的轴线(YY)摆动,所述轴线(Y)与第一平面(A)的交点(PA)比所述轴线(Y)与第二平面(B)的交点(PB)更靠近机芯的中心。 | ||||||
3 | 一种陀飞轮倾斜于表盘面的传动机构 | CN201410051474.9 | 2014-02-14 | CN104849996B | 2017-03-15 | 张芳 |
本发明公开一种陀飞轮倾斜于表盘面的传动机构,包括设置在上夹板和下夹板之间的条盒;下夹板上安装有二轮部件并固定有小夹板;小夹板上形成有斜面槽,斜面槽上固定有中夹板,中夹板上安装有传动轮系、秒齿轴和秒轮片;条盒到秒齿轮的传动链为五级传动,二轮部件和三轮部件中包含有一对相适配的锥齿轮,锥齿轮设置在主传动的第二级,由条盒并联传出中心齿轮,进而带动时分轮显示时间。有益效果是:由于锥齿轮设置在主传动链上速率较低的第二级中,有效减小锥齿轮对机芯传动平稳性的影响,也降低了锥齿轮加工、装配的敏感性;机构中的传动孔都是直孔,保证传动孔的位置度和垂直度,工艺性好、装配方便,有效保证机芯获得更优走时精度的陀飞轮机构。 | ||||||
4 | 手表机芯 | CN200880004391.7 | 2008-02-05 | CN101606108B | 2011-06-22 | R·格罗伊贝尔; S·福西 |
本发明涉及一种手表机芯,该机芯包括框架(10、11、20、22、24),所述框架由第一和第二平行平表面限制并且限定了参考平面(A、B),第二平面(B)沿着机芯设置,用于与佩戴者手腕相邻放置,并且该机芯包括:至少一个摆轮(30),在固定在所述框架(10、11、20)中的轴承中枢转;至少一个擒纵机构(26、28),提供对摆轮(30)的支承;能源(12);时钟走时完成机构(14),将能源连接至擒纵机构(26、28)和走针机构(42)。根据本发明,摆轮(30)围绕相对于参考平面(A、B)倾斜并且与参考平面(A、B)相交的轴线(YY)摆动,所述轴线(Y)与第一平面(A)的交点(PA)比所述轴线(Y)与第二平面(B)的交点(PB)更靠近机芯的中心。 | ||||||
5 | Watch movement | US12724937 | 1937-02-23 | US2192169A | 1940-03-05 | ARDE BULOVA |
6 | Bracelet-watch. | US1913765807 | 1913-05-06 | US1142554A | 1915-06-08 | DITESHEIM ISIDORE |
7 | TIMEPIECE ASSEMBLY | US15609003 | 2017-05-30 | US20180004163A1 | 2018-01-04 | Adam Heckelman |
The present invention relates to a timepiece, such as a watch, having a case, movement having an axis located within the case, gears connected to the movement, and one or more hands which may be driven by one or more gears. The gears are rotatably connected to a gear plane and are driven by the movement driving an axis extending through the gear plane. The gear plane has several connection points, such as perforations, indentations and/or protrusions, for the connection with the gears and with the hands. The gears drive the hands of the timepiece, which also include gears. The gears on the gear plane may be placed in one or more configurations to drive the hands. | ||||||
8 | Watch movement | US12526413 | 2008-02-05 | US07946755B2 | 2011-05-24 | Robert Greubel; Stephen Forsey |
A watch movement, includes a frame (10, 11, 20, 22, 24), defined by a first and a second parallel plane surface and defining reference planes (A, B), the second plane (B) being located alongside the movement for placing adjacent to the wrist of the wearer, at least one balance wheel (30), pivoting in bearings fixed in the frame, at least one escape mechanism (26, 28) providing support for the balance wheel, an energy source (12), clockwork finishing movements (14), connecting the energy source to the escape mechanism and motion work (42).The balance wheel turns about an axis (YY), inclined in relation to the reference planes and intersecting the same, the point of intersection (PA) of the axis (Y) with the first plane (A) being closer to the center of the movement than the point of intersection (PB) of the axis (Y) with the second plane (B). | ||||||
9 | Chronograph watch | US55178 | 1987-05-28 | US4748603A | 1988-05-31 | Claude Ray; Michiel Groothuis |
The watch comprises a conventional timepiece movement driving the hours-hands, the minutes-hands and the seconds-hands, to which is added a chronograph module the frame of which, having the shape of a bell, covers the movement of the timepiece. The chronograph is autonomous, i.e. its indicators are not driven by the basis movement but by electric motors situated around the central movement, fed by a battery and piloted by a quartz oscillator, the frequency divisions being effected by an integrated circuit. The printed circuit associated with this whole comprises an annular plate surrounding the timepiece movement. An intermediary plate ensures the connection between the timepiece movement and the chronograph module. The transformation of a conventional timepiece movement into a chronograph watch is thus very easy, the chronograph module being able to be applied to very different timepiece movements, only the intermediary plate having to be different. | ||||||
10 | Watchcase | US23114638 | 1938-09-22 | US2226138A | 1940-12-24 | EUGEN PRESTINARI |
11 | Wrist watch | US20480D | USRE20480E | 1937-08-24 | ||
12 | TIMEPIECE AND CONTROL METHOD OF TIMEPIECE | US15784307 | 2017-10-16 | US20180107165A1 | 2018-04-19 | Kazuo KATO |
A timepiece, in which an indicating hand is driven by a motor and high speed processing is required for driving a load other than the indicating hand, includes a main control circuit that instructs drive timing of the motor so as to drive the load, and that is operated by an operation frequency serving as a first frequency, and a motor control unit that generates a drive pulse for driving the motor, and that is operated by an operation frequency serving as a second frequency which is lower than the first frequency. | ||||||
13 | Detachable Clock and Gear Assembly Structure | US12729228 | 2010-03-22 | US20110228644A1 | 2011-09-22 | Ming Hui CHANG |
The present invention relates to an improved detachable clock and watch gear assembly structure, which divides the gear assembly into detachable and independent first and second devices; the first device comprises: main and pinion gear representing hour, minute and second hands, spiral spring wheel for storing energy and spiral spring for ringing; the second device comprises: time-controlled precision escapement wheel, pallet, balance spring and balance wheel; of which, the first device can clamp securely the main and pinion gears as well as spiral spring by using upper/lower plywood along with the fixed leg, so can the second device clamp securely the escapement wheel, pallet, balance spring and balance wheel in the same way; an fixed arm is extended from the upper/lower plywood at one side of the first device to clamp the second device and fix it by bolt for meshing and interlocking purpose; with this design, the first device can be checked or replaced in common repair or replacement process, helping to avoid error disassembly of the precision second device and difficult alignment or otherwise malfunction for easier and quicker assembly purpose. | ||||||
14 | Base module for timepiece, in particular wristwatch | US12293154 | 2007-02-03 | US07946757B2 | 2011-05-24 | Mathias Buttet; Enrico Barbasini; Michel Navas |
The invention concerns a base module comprising a barrel device, a display device, and a power reserve indicator, all the components of the module being placed vertically relative to the flanks of the case, and the adjusting member being arranged visibly and directly accessible on the flank of the case. | ||||||
15 | WATCH MOVEMENT | US12526413 | 2008-02-05 | US20100097899A1 | 2010-04-22 | Robert Greubel; Stephen Forsey |
A watch movement, includes a frame (10, 11, 20, 22, 24), defined by a first and a second parallel plane surface and defining reference planes (A, B), the second plane (B) being located alongside the movement for placing adjacent to the wrist of the wearer, at least one balance wheel (30), pivoting in bearings fixed in the frame, at least one escape mechanism (26, 28) providing support for the balance wheel, an energy source (12), clockwork finishing movements (14), connecting the energy source to the escape mechanism and motion work (42).The balance wheel turns about an axis (YY), inclined in relation to the reference planes and intersecting the same, the point of intersection (PA) of the axis (Y) with the first plane (A) being closer to the centre of the movement than the point of intersection (PB) of the axis (Y) with the second plane (B). | ||||||
16 | BASE MODULE FOR TIMEPIECE, IN PARTICULAR WRISTWATCH | US12293154 | 2007-02-03 | US20090103399A1 | 2009-04-23 | Mathias Buttet; Enrico Barbasini; Michel Navas |
The invention concerns a base module comprising a barrel device, a display device, and a power reserve indicator, all the components of the module being placed vertically relative to the flanks of the case, and the adjusting member being arranged visibly and directly accessible on the flank of the case. | ||||||
17 | Rotation and tourbillon with mechanical watches possible revolution are both | JP2011544767 | 2009-10-21 | JP5479492B2 | 2014-04-23 | ウェイフェン ツァオ; ガングリー マ |
18 | Watch Movement | JP2009548685 | 2008-02-05 | JP5048082B2 | 2012-10-17 | グリュベル,ロベール; フォーシー,ステファン |
19 | Rotation and tourbillon with mechanical watches possible revolution are both | JP2011544767 | 2009-10-21 | JP2012514742A | 2012-06-28 | ウェイフェン ツァオ; ガングリー マ |
A mechanical watch comprising a rotational and revolutionary flying tourbillon includes a winding up system(110) connected with an original moving system(120) and a display system(130) in sequence. A hand setting system(140) is connected with the display system(130). The display system(130) is in sequence connected with a driving wheel system(150), a ball bearing(160), a planetary wheel system(170), a driving wheel system(180) and a rotational escapement speed adjustment mechanism(210) bidirectionally. Main plywood is fixed with a lower gasket of the ball bearing(160) through a bolt. A turntable is fixed with an upper gasket of the ball bearing(160) through another bolt. The ball bearing(160) is formed in the cylindrical roller structure, so that the bearing(160) can drive the relatively greater load in low speed. The bearing(160) is structured in a wholly detached pattern, so that the bearing(160) is easy to maintain. The hand setting system(140) meets the core structure requirements of the rotational and revolutionary flying tourbillon. | ||||||
20 | Watch Movement | JP2009548685 | 2008-02-05 | JP2010518387A | 2010-05-27 | グリュベル,ロベール; フォーシー,ステファン |
本発明は、平行な第一の平面と第二の平面とによって定められる枠(10、11、20、22、24)を有し、該第一の平面と第二の平面とは第一及び第二の参照面(A、B)を定め、該第二の参照面(B)は、ムーブメントの、着用者の手首に近い方に来るように設計された側にあり、前記枠(10、11、20)に固定された複数の軸受に支持されて枢軸回転する少なくとも1つの天輪(30)、該天輪(30)を支持する少なくとも1つの脱進機機構(26、28)、動力源(12)、及び該動力源を前記脱進機(26、28)と日の裏装置(42)とに接続する調速輪列(14)の車組立体を有する腕時計のムーブメントに関する。 本発明によると、前記天輪(30)が、前記2つの参照面(A、B)に対して傾斜して該参照面と交差している回転軸(YY)を中心として振動し、該回転軸(YY)と前記第一の参照面(A)との交点(PA)は、該回転軸(YY)と前記第二の参照面(B)との交点(PB)よりもムーブメントの中心に近い。
【選択図】 図1 |