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序号 专利名 申请号 申请日 公开(公告)号 公开(公告)日 发明人
101 DEC0005791 1952-05-08 DE961519C 1957-04-04 CERVINKA BOHDAN
102 FR1117091D 1955-01-07 FR1117091A 1956-05-16
103 Montre à remontage automatique par masse oscillante. CH273138D 1948-08-20 CH273138A 1951-01-31 OMEGA LOUIS BRANDT FRERE S A
104 Montre à remontage automatique par masse oscillante. CH254851D 1946-04-30 CH254851A 1948-05-31 A FABRIQUES D HORLOGERIE THOMM
105 Mécanisme de remontage automatique à masselotte oscillante pour mouvement de montre à remontoir. CH254578D 1946-06-14 CH254578A 1948-05-15 CO E HOMBERGER-RAUSCHENBACH CI
106 Montre à remontage automatique. CH254002D 1946-06-08 CH254002A 1948-04-15 SCHILD S A A
107 Mouvement de montre à remontage automatique par masse oscillante. CH247269D 1945-01-22 CH247269A 1947-02-28 LOUIS STRAUB
108 Improvements in winding devices for clocks, watches and other clockwork movements GB878228 1928-03-22 GB310160A 1929-04-25
310,160. Stringer, H. L. March 22, 1928. Winding - apparatus for clockwork includes a weight which is oscillated by vibrations to which the clockwork is subjected and which drives the winding arbor through cord and pulley mechanism constituting a unidirectional drive. The winding arbor b of the going-barrel is geared to the driving spindle e in the reduction ratio of 64 :1 by wheels d, f and intermediate spindle c. The driving weight g is held between two parallel plates h, pivoted at k to the fixed casing and supporting four pins n<1> - - n'. The weight is supported by springs m attached to pins m<1> on the plates h and to the top of the casing. A cord p<1> fixed to pin n<3> passes clockwise, Fig. 1, round pulley o<1> fixed on spindle e and is connected through spring q<1> to pin n<1>. A second cord p<2> passes from pin n<2> clockwise round a second pulley o<2> fixed to spindle e and to spring q<2> and pin n<4>. The arrangement is such that as the weight sinks cord p<1> rotates spindle e anti-clockwise and cord p<2> is ineffective; on the up-stroke of the weight the cord p<2> becomes effective and drives spindle e, also anticlockwise. This gives a unidirectional drive for the arbor b. In a modification, the gearing c - - f is replaced by a worm and worm-wheel, the shaft e being in a plane parallel to the plates h. A handwinding key may be added. A single cord p<1> or p<2> may be used as in Specification 193,997, and the springs q<1>, q<2> may be blade springs. Over-winding, preventing. With the construction shown in Figs. 1 and 2, the spindles c and e are mounted between triangular plates r pivoting about the spindle b, Fig. 3. Thus when the spindle e drives, there is a tendency for pinion d to roll clockwise round the spur-wheel d. This is resisted by a spring s until the mainspring is fully wound and its resistance causes spring s to stretch. The plate r then pulls a rod t to the left so that its large end just fits a hole in the weight g and prevents the latter oscillating. Alternatively, to prevent overwinding a lever may be moved by the expanding mainspring to lock the weight against vibration or to disengage a clutch between the weight and the arbor b.
109 WATCH OR TIMEPIECE PCT/NL2020/050428 2020-06-29 WO2021002745A1 2021-01-07 WEEKE, Sybren Lennard; LUSTIG, Maarten Pieter

Watch or timepiece (1) comprising a wheel (2) and a mass (3) that drives the wheel (2), the mass (3) being subjectable to environmental forces for bringing it into the status of a moving mass (3), wherein the mass (3) is part of a system comprising a frame (4) and at least a first elastic beam (6) suspending the mass (2) from the frame (3).

110 DEVICE FOR AUTOMATICALLY WINDING A WATCH PCT/IB2006000773 2006-03-20 WO2006106401A2 2006-10-12 DUBOIS DIT-BONCLAUDE JEAN-DANI; BILLET PASCAL ALEXIS JEAN
The invention concerns a pendular device comprising an assembly with the main inventive function of automatically winding a watch characterized in that the winding of the barrel (15) occurs during both the ascending and descending phases of the oscillating weight (1). The originality of said device lies in the fact, which optimizes the volume of the watch case, that the winding clicks (27, 28) driving a pawl winding wheel (5) and secured to a weight arm (4) itself driven by the oscillation of the oscillating weight (1) guided by a slide (2), located on a train wheel bridge (8), which secures horizontally and vertically the oscillating weight (1) during its oscillations. Through ascending and descending, the oscillating weight (1) drives the weight arm (4) which bears the winding clicks (27, 28). The latter mesh with the pawl winding wheel, drive it, thereby causing a train of reducing wheels (11) to be rotated whereby the winding of the barrel (15) is performed.
111 Système de démarrage et d'arrêt d'une fonction et montre comportant un tel système. CH3402020 2020-03-20 CH717249A1 2021-09-30 ROMAIN MOYSE; KÉVIN BAS
La présente invention concerne un système de démarrage et d'arrêt d'une fonction d'une pièce d'horlogerie, comprenant une masse, montée mobile sur un bâti, entre une première et une deuxième positions extrêmes, définies respectivement par une première et une deuxième butées, ladite masse se déplaçant, sous l'effet de la gravité, en contraignant un ressort entre la première et la deuxième position extrêmes, et en détendant ledit ressort entre la deuxième et la première position extrêmes.
112 Dispositif de remontage automatique d'une montre. CH6202005 2005-04-05 CH700031B1 2010-06-15 DIT-BONCLAUDE JEAN-DANIEL DUBOIS; BILIET PASCAL ALEXIS JEAN
La fonction principale et innovatrice de l’ensemble du dispositif pendulaire de remontage automatique d’une montre consiste dans l’armage du barillet lors des deux phases ascendante et descendante de la masse oscillante. L’originalité de ce dispositif, qui optimise le volume de la boîte de la montre, est assurée par des cliquets de remontage (27, 28) entraînant une roue à cliquet et solidaires d’un bras de masse, lui-même entraîné par l’oscillation de la masse oscillante guidée par un rail situé sur un pont de rouage, qui assure horizontalement et verticalement la masse oscillante lors de ses oscillations. En remontant et en descendant, la masse oscillante entraîne le bras de masse qui porte les cliquets d’armage (27, 28). Ces derniers engrènent avec la roue à cliquet et lors de l’oscillation de la masse oscillante, entraînent celle-ci, ce qui a pour effet de mettre en rotation un train de rouages réducteurs à travers lequel s’opère le remontage du barillet.
113 Automatic mechanical winding device for drive spring of mechanical clockwork of wristwatch, has eccentric mass acting on ratchet arm carrier over control surfaces for generation of linear stroke of ratchet arm carrier DE102008031444 2008-07-04 DE102008031444A1 2010-01-07 DAMASKO KONRAD
The device (1) has gear wheels (2-4) comprising two ratchet levers (12) with a ratchet wheel (10), where the ratchet levers are provided at a ratchet arm carrier (11). The gear wheels convert the pivoting or rotary movement of an eccentric mass (6) into a movement which causes winding of a drive spring. The gear wheels have two radially spaced crank levers or tappets (7, 8) that rotate in opposite directions during pivoting of eccentric mass. The eccentric mass acts on the ratchet arm carrier over control surfaces for generation of linear stroke (B) of the ratchet arm carrier.
114 DE102006025022 2006-05-26 DE102006025022B4 2008-06-19 DAMASKO KONRAD
115 Automated, mechanical elevator for mainspring of mechanical clockwork of wristwatch, has drive units duplexly designed in such manner that swiveling movement of swiveling unit produces movement that causes raising of mechanical clockwork DE102006025022 2006-05-26 DE102006025022A1 2007-11-29 DAMASKO KONRAD
The elevator has an eccentric gauge swivelable about a joint (11). Drive units (6, 13, 14) are duplexly designed in such a manner that the swiveling movement of the swiveling unit produces a movement that causes raising of a mechanical clockwork (4) both in a direction and in an opposite direction. A ball guiding (17) extends over an angle preferably smaller than 180 degree about the swiveling axis of a swiveling unit (7).
116 Automatic wind-up mechanism for a timepiece, especially a wristwatch, comprises an oscillating mass that drives first and second reduction gears alternately with the reduction ratios of the gears selected to optimize winding DE102004033632 2004-07-12 DE102004033632A1 2005-02-10 SCHMIEDCHEN CHRISTIAN; HINTZE HANS-GEORG
Automatic wind-up mechanism for a timepiece, especially a wristwatch, has a mechanism with an oscillating mass (16) that drives first and second reduction gears (20, 44) in an alternating manner. The reduction ratios of the first and second gears are 1:70 and 1:140 respectively.
117 REVERSING MECHANISM FOR AN AUTOMATIC TIME PIECE WINDING DEVICE HK68693 1993-07-15 HK68693A 1993-07-23 MEIER WILLY
118 DE3141051 1981-10-15 DE3141051C2 1988-03-24 GRIMM, MAURICE, NEUCHATEL, CH
The watch has a winding weight comprising an arm 10a and an oscillating mass 10b. The arm is mounted for pivotal movement about the axis of a toothed ring 12 by way of which the spring barrel 20 is kept wound and which axis is offset with respect to the watch hand axis X, X'. The oscillating mass 10a is at the same level relative to the case back 6 as the spring barrel 20. The length L' of the winding weight is greater than the offset L and more than half the largest dimension of the case 6. The oscillating mass 10b thus occupies substantially half the casing of the watch and is almost as thick as the distance between the glass and the back 6 which is also the rear plate of the movement.
119 SELF-WINDING WATCH GB8131824 1981-10-22 GB2086099A 1982-05-06
The watch has a winding weight comprising an arm 10a and an oscillating mass 10b. The arm is mounted for pivotal movement about the axis of a toothed ring 12 by way of which the spring barrel 20 is kept wound and which axis is offset with respect to the watch hand axis X, X'. The oscillating mass 10a is at the same level relative to the case back 6 as the spring barrel 20. The length L' of the winding weight is greater than the offset L and more than half the largest dimension of the case 6. The oscillating mass 10b thus occupies substantially half the casing of the watch and is almost as thick as the distance between the glass and the back 6 which is also the rear plate of the movement.
120 FR7439469 1974-12-03 FR2251855A1 1975-06-13