| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 腕時計用自動巻機構 | JP2016208367 | 2016-10-25 | JP6313835B2 | 2018-04-18 | シルヴァン・マレシャル; ジェローム・ファーヴル |
| 22 | JPS5525793B2 - | JP10166875 | 1975-08-21 | JPS5525793B2 | 1980-07-08 | |
| 23 | Uotsuchikiko | JP10166875 | 1975-08-21 | JPS5146161A | 1976-04-20 | MISHERU TOMII; REIMON SUCHUDE |
| 24 | DEVICE FOR WINDING A TIMEPIECE MOVEMENT | US15667718 | 2017-08-03 | US20180046141A1 | 2018-02-15 | Sergio de Almeida Graça; Vannina Linck |
| A component of a winding device, in particular an automatic winding device, of a timepiece movement, wherein it is made of austenitic stainless steel and wherein it comprises at least one friction surface hardened by carbon or nitrogen type atoms introduced into the austenitic stainless steel over a predetermined depth. | ||||||
| 25 | SELF-WINDING MECHANISM FOR WATCHES | US15293718 | 2016-10-14 | US20170115628A1 | 2017-04-27 | 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. | ||||||
| 26 | Inverter device for a timepiece movement | US13391149 | 2010-06-16 | US08622610B2 | 2014-01-07 | 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 while 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. | ||||||
| 27 | Watch mechanism incorporating two barrels | US88064 | 1979-10-24 | US4363553A | 1982-12-14 | Michel Thomi; Raymond Studer |
| A watch mechanism incorporating two barrels each containing a spring. The springs contained in each barrel are positively connected in series to each other via a gear mechanism or a common arbor.The considerable energy available makes it possible to maintain the movement of a high frequency spring balance oscillator. The barrel rotates rapidly to drive the first pinion of the train of gears with an angular velocity approximately double relative to the normal angular velocities; the torque is approximately half (600 gr.mm) that of conventional-sized watch mechanism of comparable performance.The barrels may be mounted coaxially or in the same plane and the mechanism can be arranged to be wound manually or automatically. | ||||||
| 28 | Self-winding watch movement | US55321166 | 1966-05-26 | US3412550A | 1968-11-26 | GEORGES DELESSERT; FELIPE LANG |
| 29 | Winding device for watches with both a manual winding and a self-winding mechanism | US10797061 | 1961-05-05 | US3131531A | 1964-05-05 | HEINRICH STAMM |
| 30 | Planetary gear winding mechanism | US16926762 | 1962-01-29 | US3104517A | 1963-09-24 | PAUL WUTHRICH |
| 952,442. Toothed gearing; ratchet gearing. UNITED STATES TIME CORPORATION. Jan. 28, 1963 [Jan. 29, 1962], No. 3378/63. Heading F2Q. [Also in Division G3] In a watch wherein a mainspring which drives a barrel wheel 13 is wound through barrel arbor 1 both by automatic and manual winding means, the winding is effected through a common planetary gear train comprising a centre wheel 4 connected with the automatic winding means 11 and in mesh with a plurality of planet gears 5 which are carried on a plate 2 fast with the barrel arbor 1, the planet gears 5 being in mesh with a ring gear 7 which is rotatable in one direction by the manual winding means 56, rotation of the ring gear 7 in the opposite direction being prevented by a known click 8. The automatic winding means comprises an oscillatory mass 14 fast through a plate 16 with a heart-shaped cam 17 rotatable on a pivot 15. This cam is engaged between arms 23, 24 of a lever 18 pivoted at 22 and carrying two spring- urged pawls 19, 28 engaging a ratchet wheel 29 fast with a centre spindle 3 which is rotatably housed in an axial bore of the barrel arbor 1, the other end of this spindle carrying the centre wheel 4 of the planetary train. External teeth 9 of the ring gear 7 are engaged by a drive wheel 10 of the manual winding means, this drive wheel being carried with an intermediate wheel 38 and an idler 42 on a bracket 41 pivoted at 39 and spring-urged in the direction engaging wheel 10 with the ring gear 7. Withdrawal of a manual winding knob 33, through a lever 47 withdraws the wheel 10 from engagement. Manual winding rotates ring gear 7 anti-clockwise in Fig. 1 to turn the barrel arbor in the same direction, the centre wheel 4 being held by ratchet wheel 29. Rotation of the ratchet wheel by the automatic winding means also winds the barrel arbor anticlockwise through centre wheel 4, the ring gear 7 being held against clockwise rotation in this case by the click 8 which pivots to engage the teeth 9 of the wheel. An annular locating and guide ring 12 fits round the wheel 9. | ||||||
| 31 | Double winding for horological movements | US1860448 | 1948-04-02 | US2620619A | 1952-12-09 | FRIEDRICH MEYER |
| 32 | REMONTAGE AUTOMATIQUE D'UNE MONTRE | EP15191497 | 2015-10-26 | EP3163381A1 | 2017-05-03 | MARÉCHAL SYLVAIN; FAVRE JÉRÔME |
| Montre (1) comportant une boîte (10) renfermant un accumulateur d'énergie (30) rechargé par un remontoir (40), cette montre (1) est agencée pour recevoir, fixé sur la boîte (10) ou à sa proximité immédiate, un mécanisme additionnel de remontage automatique (100) prévu pour être porté en même temps que la montre (1) par un utilisateur, et comportant un mobile émetteur (110) agencé pour coopérer sans contact avec un mobile récepteur (41) que comporte le remontoir (40), dans une interaction ou bien par couplage mécanique ou bien à distance sous l'action d'un champ dans l'entrefer situé entre le mobile émetteur (110) et le mobile récepteur (41), l'intensité du champ et la distance maximale d'entrefer étant définis pour transmettre au mobile récepteur (41), pour la recharge de l'accumulateur d'énergie (30), un couple ou un effort imprimé par un utilisateur au mobile émetteur (110), et ce mécanisme additionnel de remontage automatique (100) est amovible par rapport à la boîte (10). | ||||||
| 33 | ECRIN MULTIFONCTIONS | EP12718090.9 | 2012-03-22 | EP2689293A1 | 2014-01-29 | LAMARCHE, Fabien |
| The invention relates to a multifunctional case (1) that is suitable for winding an automatic or manual watch (4) having one or more displays, the case (1) comprising: a box (2) comprising a removable support (3) designed to hold the watch (4); a winding mechanism (5) intended to wind the watch (4) when the latter is arranged on the removable support (3); the multifunctional case (1) also having an adjusting mechanism (16) 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. | ||||||
| 34 | Roue pour dispositif inverseur, procédé de fabrication d'une telle roue, et dispositifs inverseurs pour mouvement horloger comportant une telle roue | EP09162836.2 | 2009-06-16 | EP2264550A1 | 2010-12-22 | Tran, Huy Van; Perez, Ludovic |
Il s'agit d'une roue (1,32,51,52), pour dispositif inverseur destiné à équiper un mouvement horloger à remontage automatique, comportant une planche (2) présentant un premier rayon R1 et munie d'une denture périphérique (3). Elle comporte une noyure centrale (5) dont la périphérie présente n becs périphériques (10,53,54) destinés à coopérer avec un organe inverseur (25,56,57) et dont chacun est défini par l'intersection d'un trou circulaire (8) avec la périphérie de la noyure centrale, n étant égal ou supérieur à un. Il s'agit également d'un procédé de fabrication d'une telle roue ainsi que des dispositifs inverseurs simple et double dans lesquels une telle roue est mise en oeuvre.
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| 35 | INVERTER DEVICE FOR A CLOCK MOVEMENT | PCT/EP2010058498 | 2010-06-16 | WO2010146099A3 | 2011-04-28 | 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. | ||||||
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