专利检索_..通过运动不受限定的摆动重锤专利检索_..通过运动不受限定的摆动重锤专利检索查询

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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
41		JP11938671	1971-12-20	JPS4873673U	1973-09-13

42	Timepiece	JP2003338521	2003-09-29	JP2004045429A	2004-02-12	NAGAO SHOICHI
PROBLEM TO BE SOLVED: To provide an optimum structure for downsizing and thinning a watch having an oscillating weight, especially an automatic winding power generation watch which generates power by means of the movement of the oscillating weight. SOLUTION: In order to effectively gain biased weight of the oscillating weight, the outer circumference of the oscillating weight is formed thick, and the central part thereof is formed thin. Almost all of the built-in components constituting a movement are placed below the thin part, and a coil or part of a switch is placed below the thick part. COPYRIGHT: (C)2004,JPO
43		JP161998	1998-01-07	JP2946203B2	1999-09-06	ISHII MITSURU; TAKAHASHI MASAAKI

44		JP72290	1990-01-09	JPH0391992U	1991-09-19

45		JP8552576	1976-06-29	JPS533545U	1978-01-13

46		JP7597576	1976-06-11	JPS52166555U	1977-12-16

47		JP13460473	1973-11-21	JPS5079473U	1975-07-09

48		JP10745069	1969-11-13	JPS469886Y1	1971-04-07

49	MECANISME DE REMONTAGE AUTOMATIQUE DE MONTRE A MASSE OSCILLANTE	EP20195101.9	2020-09-08	EP3964896A1	2022-03-09	LE NOA, Vincent; MONFERRER, M. Bernat
Mécanisme de remontage automatique de montre (100) comportant une masse oscillante (1) comportant un anneau denté (2) pour entraîner un dispositif de stockage d'énergie (20), et une masse inertielle (4) à balourd excentré, le mécanisme (100) comportant des moyens de guidage en rotation pour le guidage en rotation de la masse oscillante (1) avec des premiers moyens de guidage fixés à une structure de la montre, et des deuxièmes moyens de guidage portés par la masse oscillante (1), laquelle comporte, distincts les uns des autres, superposés au moins deux à deux, et fixés solidairement au moins deux à deux, plus particulièrement les uns aux autres, des constituants qui sont au moins un anneau denté (2), au moins une masse inertielle (4), au moins une bague de roulement mobile (6) constituant des deuxièmes moyens de guidage, et dans une variante au moins un flasque (7) de recouvrement.
50	Dispositif de débrayage pour mécanisme horloger, et mouvement de montre comportant ce dispositif	EP09154219.1	2009-03-03	EP2226687A1	2010-09-08	Courvoisier, Raphaël; Bron, Alphonse
L'invention concerne un dispositif de débrayage du type vertical, en particulier dans un mécanisme de remontage automatique de montre comportant une masse oscillante et un rouage reliant la masse oscillante à un barillet (9), ledit rouage comportant un dispositif redresseur de sens (11, 12), un engrenage réducteur (13, 14, 15, 16) et le dispositif de débrayage (20). Celui-ci comprend deux roues coaxiales (17, 7) susceptibles de se coupler en rotation dans un sens grâce à des dentures Breguet respectives (21, 22) disposées sur leurs flancs se faisant face. Celle (17) des roues coaxiales qui est mobile en direction axiale est fixée sur un axe coulissant (18) qui est monté de manière rotative et coulissante dans des paliers fixes (24, 25). Un ressort de rappel (26) comporte une lame élastique s'appuyant contre une extrémité de l'axe coulissant (18) pour tendre à mettre et maintenir en prise les dentures Breguet. Une telle construction permet de réduire les frottements et de gagner de la place. D'autres applications d'un tel dispositif de débrayage dans un mouvement de montre sont décrites.
51	SELF-WINDING TIMEPIECE	PCT/US2006/015272	2006-04-24	WO2006116201A2	2006-11-02	THUMM, Gregory, B.
A timepiece (10) has a case (12) with an interior sidewall defining a cavity (14) therein. A movement (16) is received in the cavity (14) and has an end surface and a side perimeter surface. The side perimeter surface is spaced inwardly from the interior sidewall of the case (12). A winding body (34) is coupled to the movement (16) about the end surface. At least a portion of the winding body 34 is between the side perimeter surface of the movement (16) and the interior sidewall of the case (12).
52	Automatic spring winding apparatus of the clock	JP15604195	1995-06-22	JP3686123B2	2005-08-24	ペルッキノルベルト

53	AUTOMATIC WHEEL TRAIN STRUCTURE	JP161998	1998-01-07	JPH11194173A	1999-07-21	ISHII MITSURU; TAKAHASHI MASAAKI
PROBLEM TO BE SOLVED: To make the transmission wheel of an automatic wheel train to be easily assembled to the automatic wheel train. SOLUTION: A second reduction wheel and pinion 4 which constitutes an automatic wheel train is passed through a chronograph wheel train area 10 in a movement. The reduction wheel and pinion 4 is a separately assembled body composed of a second reduction wheel gear 41 and a second reduction wheel arbor 42. When the wheel and pinion 4 is constituted in the above- mentioned way, the second reduction wheel gear 41 can be assembled after a chronograph mechanism area 10 is constructed by assembling the reduction wheel arbor 42. Consequently, the automatic wheel train 4 can be assembled easily, because the interference between the reduction wheel arbor 42 and a chronograph mechanism can be prevented when the automatic wheel train is assembled.
54	AUTOMATIC SPRIAL-SPRING WINDING DEVICE OF TIMEPIECE	JP15604195	1995-06-22	JPH0915345A	1997-01-17	NORUBERUTO PERUTSUKI
PURPOSE: To provide an automatic coil-winding timepiece where a vibration mass has a decorative function and actually works as the active mass of an eccentricity system when using the timepiece. CONSTITUTION: The eccentricity system of an automatic spring-winding timepiece has two vibration masses. One mass 25 out of the two masses corresponding to the vibration mass of a conventional normal system is arranged at the side of movement and a second mass 26 is arranged directly below a clock face, and a decorative hole is formed on the timepiece face to accept a decorative motif formed on an upper surface 26A of the second mass 26. The second mass connected to the first mass 25 forms a normal vibration mass and has two functions, namely an active technological function and at the same time a decorative function.
55	WRIST WATCH WITH ROTARY WEIGHT	JP12606792	1992-05-19	JPH05323051A	1993-12-07	NAGAO SHOICHI
PURPOSE:To realize a smaller size and a less thickness of a rotary weight by a method wherein a thick part is formed on the outer circumference side of a rotary weight while a thin part on the side of the center of rotation thereof and a wheel train part is arranged in a range of a rotating locus of the thin part while a part of a coil is arranged in a range of a rotating locus of the thick part. CONSTITUTION:A rotary weight 20 has a thick part 20a on an outer circumference part 20a and takes a locus rotating outside the most of built-in parts constituting a movement. A dynamo coil 29 has a part thereof overlapping a coil winding part flatly with respect to a thick part 20a. The winding part of the dynamo coil 29 overlaps a gear 25b of a dynamo rotor transmission wheel 25 and further, a MOSIC chip 32 constituting a circuit and a circuit substrate 37. This enables the ensuring of a half weight value of the rotary weight even if the diameter of the movement is small.
56	WRISTWATCH	JP1457278	1978-02-10	JPS54107769A	1979-08-23	FUJITA AKIRA
PURPOSE:To improve the durability of eccentric pin without lubricating, by forming a specified hard lubricating film on the surface of a rotary eccentric pin for self- winding. CONSTITUTION:A self-winding eccentric pin 1 made of stainless steel which rotates with a rotary spindle 3 being supported by a ruby bearing 2 is plated, and a hard film of eutectoid containing graphite fluoride in the hard plating solution is formed on the surface of the pin 1, or a hard film of more than Vickers hardness 800 by heat-treating a material of Vickers hardness 600 to 800 is formed on the surface of the pin 1. Thanks to the lubricating property of such hard film, the durability of the eccentric pin may be increased without lubricating it.
57		JP15367274	1974-12-18	JPS547978Y2	1979-04-13

58	JPS5178768U -	JP15367274	1974-12-18	JPS5178768U	1976-06-22

59		JP7731373	1973-07-09	JPS5027566A	1975-03-20

60	Dispositif de débrayage pour mécanisme horloger, et mouvement de montre comportant ce dispositif	EP09154219.1	2009-03-03	EP2226687B1	2013-05-15	Courvoisier, Raphaël; Bron, Alphonse

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