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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
61		CH41987	1987-02-06	CH667176A	1988-09-30

62		FR1055696D	1952-05-13	FR1055696A	1954-02-22

63		DET0004612	1951-07-26	DE878777C	1953-06-05	ROBERT HENRI

64	Mouvement de montre à remontage automatique par masse oscillante.	CH251925D	1946-01-19	CH251925A	1947-11-30	SCHILD S A A

65	Mécanisme de remontage automatique à masse oscillante pour mouvements de montres.	CH229460D	1943-01-07	CH229460A	1943-10-31	SCHILD SA A

66		FR772723D	1934-05-01	FR772723A	1934-11-05
439,677. Watches. MEYER & STUDELI SOC. ANON., Weissensteinstrasse, Soleure, Switzerland. May 7, 1934, No. 13751. Convention date, May 8, 1933. [Class 139] In a self-winding wrist watch wherein the mainspring is coupled to an oscillatory weight pivotally mounted near the periphery of the substantially rectangular movement, the weight is shaped like a shallow cup substantially enclosing the movement. The movement 2 is carried by a movement plate 1, Figs. 1, 2, to which the oscillating weight 5 comprising a bottom plate 19 and side walls 191 surrounding the movement is pivoted at 4. A bridge 7 secured to the movement block 2 is located in an aperture 6 in the plate 19, and houses a ratchet wheel 8 which drives the mainspring ratchet 12 through gearing 10, 9, 11, 12. Pivoted coaxially with the ratchet wheel 8 is a lever 13 which carries a spring pressed driving pawl 14 and is oscillated by the weight to wind the mainspring through a blade spring 16 fixed at one end to the plate 19 and at its other end engaging between the arms of a fork 15 rigid with the lever. A stop pawl 18 prevents backward rotation of the ratchet wheel 8 and the blade spring 16 is adapted to yield against the reaction of the mainspring when the latter is fully wound to prevent overwinding. The Specification as open to inspection under Sect. 91 also describes other embodiments. In one the moving weight 24, Fig. 3 (Cancelled), is pivoted at 23 to the plate 20 carrying the movement 21, and the driving pawl 28, pivotally mounted on the weight 24, rotates a ratchet wheel 29 geared to the mainspring ratchet 33. In a modification of this embodiment the driving pawl 35, Fig. 5 (Cancelled), is mounted on a slide 36 engaging in a slot 37 in the moving weight and a spring 38 normally maintains the slide at the upper end of the slot. When the mainspring is fully wound however, the spring 38 yields and the slide oscillates in the slot 37. In another embodiment, the driving pawl 41, Fig. 6 (Cancelled), is mounted on a lever 39 rotatably mounted coaxially with the ratchet wheel 29, the lever having a fork 42 engaging a pin 51 on the moving weight 24. The pin 51 may be rigid or it may be adapted to yield to prevent overwinding. In Fig. 7 (Cancelled), the driving pawl 45 is mounted on a lever 43 pivoted at 44 to the movement 21, and similarly rocked by a pin 51. In a further embodiment the pivotal lever carries two driving pawls to advance the ratchet in both directions of movement of the oscillating weight. This subject-matter does not appear in the Specification as accepted.
67	Uhr für Kraftfahrzeuge mit selbsttätigem Pendelaufzug.	CH138352D	1929-03-08	CH138352A	1930-02-28	HELMUT JUNGHANS

68		DEJ0033837	1928-03-18	DE485355C	1929-10-30

69	Watch or timepiece	NL2023420	2019-07-02	NL2023420B1	2021-02-02	SYBREN LENNARD WEEKE; MAARTEN PIETER LUSTIG
Watch or timepiece (1) comprising a wheel (2) and a mass (3) that drives the wheel (2), the mass (3) being sub— jectable to environmental forces for bringing it into the sta— tus 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).
70		DE102007046689	2007-09-28	DE102007046689B4	2009-09-17	DAMASKO KONRAD
Automatic mechanical winding device for the driving spring of a mechanical clockwork of a wristwatch with an eccentric mass that can be swiveled on a joint, said mass having a center of mass that is radially offset from the axis of the joint, with gear means for converting the swivel or rotary motion of the eccentric mass into a motion that winds the driving spring.
71		AT99118465	1999-09-17	AT421717T	2009-02-15	KAELIN LAURENT; REBEAUD JEAN-PHILIPPE
Device comprises a cylinder (2) between a generator rotor (11) and an oscillating mass (3) of the transmission chain. The cylinder includes a helical spring (4) and a sliding leaf (6), rolled in the same direction as the spring round its turns, but without a mechanical connection to the spring. In this way it forms a protecting envelope for the spring in its open position.
72	SELF-WINDING WATCH	GB8131824	1981-10-22	GB2086099B	1984-05-02
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.
73		FR8119735	1981-10-19	FR2492998A1	1982-04-30	GRIMM MAURICE
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.
74	Improvements in or relating to self-winding watches	GB3154659	1959-09-16	GB881393A	1961-11-01
881,393. Watches. GIGANDET, C. Sept. 16, 1959 [Sept. 23, 1958], No. 31546/59. Class 139. In a self-winding watch the rotor 3, Fig. 1, which is of annular form and surrounds the movement 1, is pivoted at 5 to the lug 4 projecting from the movement frame. Two pawls 8, 9 are pivoted to the rotor at 10, 11 and, as the rotor swings about its pivot in either direction, one or other of the pawls 10, 11 drives a ratchet 7 connected by a gear 6 to the barrel 2. In a modification, Fig. 3 (not shown). the barrel ratchet is driven directly by the pawls the pivots of which are located radially inwardly of the rotor pivot which comprises a pin carried by the rotor and having its conical ends in ball bearings located respectively in a lug projecting from the movement frame and in a bridge mounted thereon.
75	Improvements in or relating to self-winding timepiece	GB2261152	1952-09-09	GB719977A	1954-12-08	GAZDA ANTOINE
719,977. Clocks and watches. GAZDA, A. Sept. 9,1952 [Sept. 25, 1951], No. 22611/52. Class 139 In a timepiece self-winding mechanism of the type disclosed in Specification 707,755 each of the two actuating pawls 12, 13 coact with one of two integrallyconnected ratchet wheels 14, 15 of different diameters. The pawl 12, which is the farther from the pivot of the member 11. coacts with the ratchet 14 of greater diameter.
76	Selbsttätiger Aufzug für Armbanduhren.	CH291264D	1951-04-26	CH291264A	1953-06-15	JUNGHANS AG GEBRUEDER

77	Montre se remontant automatiquement	BE514319	1952-09-20	BE514319A	1952-10-15	GAZDA ANTOINE

78	Selbstaufziehende Automobiluhr.	CH285841D	1951-05-26	CH285841A	1952-09-30	ANTOINE GAZDA

79	Montre automatique.	CH280557D	1949-10-31	CH280557A	1952-01-31	A A SCHILD S

80	Dispositif de remontage automatique pour montre.	CH278649D	1951-05-18	CH278649A	1951-10-31	BOHDAN CERVINKA; CERVINKA VLADIMIR DR

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