- G04B27/001: .{用于此的内部齿轮,例如,用于调整秒针或用于调整时钟机构}
- G04B27/002: .{冠形的调整设备(G04B27/02优先)}
- G04B27/004: .{几个功能同时,例如,停止或启动时钟机构或指针(G04B27/02优先)}
- G04B27/005: .{逐步的或按某个特定值(G04B27/02 优先)}
- G04B27/007: .{不是手动的(G04B27/02优先)(一般的摆动重锤入G04B5/04)}
- G04B27/008: .{带有与上发条部件装配在一起的部件,但是功能是分离开的}
- G04B27/02: .利用上发条装置{用手或机械上发条入G04B3/00}
- G04B27/08: .利用外壳零部件{利用外壳零部件上发条的入G04B3/08}
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | Time-setting mechanism for analog timepiece | EP88105525.5 | 1988-04-06 | EP0286078A3 | 1989-11-23 | Shoji, Masaru Pat. Dept. Dev. Div. Hamura R&D; Yatabe, Mitsunobu Pat. Dept. Dev. Div. Hamura R&D |
In a time-setting mechanism for an analog timepiece, when an operation member (17) is moved in its axial direction, a pinion (18) provided on the operation member is brought into mesh with a gear (19) which is normally rotated in an interlocked relation to hands (3a to 3c). When the operation member (17) is turned in this state, the torque thereof is transmitted via the pinion (18) and gear (19) to the hands (3a to 3c) for time-setting. The pinion (18) and gear (19) are made of synthetic resins, and the pinion (18) is made of a resin material having a higher flexibility than the resin material of the gear (19). |
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| 142 | Vorrichtung zur axialen Spielbegrenzung des Zeigerwerks einer Kleinuhr | EP87100235.8 | 1987-01-10 | EP0274550A1 | 1988-07-20 | Schnell, Hans-Georg |
Die Spielbegrenzung der Räder des Zeigerwerks einer Kleinuhr wird im allgemeinen durch Räderwerksbrücken oder einer Räderwerksplatte bewirkt. Diese Teile sind schwierig zu fertigen und zu montieren, ebenso wie ein das Spiel der Stellwelle begrenzender Federarm. Die Erfindung gibt eine einfach zu fertigende und ohne Verschraubung zu montierende Deckplatte an, die an den entsprechenden Rädern des Zeigerwerks anliegt und auch mit einem Positionierungsarm in die Stellwelle eingreift. |
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| 143 | Dispositif de mise à l'heure | EP83111086.1 | 1983-11-07 | EP0108412B1 | 1987-03-11 | Vuilleumier, Cyril |
| 144 | Pièce d'horlogerie électronique à affichage analogique | EP84104863.0 | 1984-04-30 | EP0124853A1 | 1984-11-14 | Schaffner, Jean-Claude |
Le stator (10) du moteur sert de platine unique non seulement pour le rotor, les mobiles et les axes d'aiguilles, mais aussi pour la bascule (72), la tirette (70) et le renvoi (80) de roue de minuterie. En outre, le stator est localement embouti pourformer, d'une part, une rainure qui assure le guidage de l'extrémité de la tige de commande (64) et, d'autre part, un tenon dans lequel est chassé le clou (82) servant d'axe au renvoi (80). |
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| 145 | Dispositif de mise à l'heure | EP83111086.1 | 1983-11-07 | EP0108412A1 | 1984-05-16 | Vuilleumier, Cyril |
Le dispositif permet la mise à l'heure d'une pièce d'horlogerie à affichage analogique mécanique. Il comprend une tige (1) à couronne actionnable manuellement et susceptible d'être crantée dans au moins deux positions axiales dont une active, tirée par rapport à une position neutre enfoncée. La tige est équipée d'un pignon denté (3) qui engrène avec un pignon déplaçable axialement (6). Lesdits pignons (3, 6) sont disposés l'un à côté de l'autre et un mécanisme comportant une tirette (9), une bascule (10) et un levier (21) asservit à la tige le pignon déplaçable axialement. Cette disposition présente l'avantage de prendre peu de place et de bien s'intégrer dans une pièce d'horlogerie de faible épaisseur. |
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| 146 | Battery powered timepiece | EP81305167 | 1981-10-30 | EP0069814A3 | 1983-03-16 | Inage, Kuniyoshi |
A casing 17' houses a plurality of wheels including a particular wheel which is coupled to a minute hand of the timepiece, a correction device which can be operated to correct the position of the minute hand, and a slip device which enables the said particular wheel to slip relative to the remaining wheels during such operation of the correction device. Also housed within the casing 17' are two terminal plates 8' and 14' for engagement with a dry element battery, and an electro-magnetically actuated sounder 6'. The size of a sound outlet 6a' of the sounder can be adjusted by means of a blade (29', Figure 12 not shown) to alter the level of the sound emitted therefrom. |
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| 147 | Battery powered timepiece | EP81305167.9 | 1981-10-30 | EP0069814A2 | 1983-01-19 | Inage, Kuniyoshi |
A casing 17' houses a plurality of wheels including a particular wheel which is coupled to a minute hand of the timepiece, a correction device which can be operated to correct the position of the minute hand, and a slip device which enables the said particular wheel to slip relative to the remaining wheels during such operation of the correction device. Also housed within the casing 17' are two terminal plates 8' and 14' for engagement with a dry element battery, and an electro-magnetically actuated sounder 6'. The size of a sound outlet 6a' of the sounder can be adjusted by means of a blade (29', Figure 12 not shown) to alter the level of the sound emitted therefrom. |
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| 148 | Switch device and timepiece | US15083202 | 2016-03-28 | US09709955B2 | 2017-07-18 | Sen Hirayama |
| A switch device includes a case having a through hole, an operation member which is inserted into the through hole of the case and protrudes inside and outside the case, a waterproof member which is placed on at least one of the outer surface and the inner surface of the case and into which the operation member is slidably inserted, and a press member which presses the waterproof member against the case. | ||||||
| 149 | TIMEPIECE AND METHOD FOR MANUFACTURING TIMEPIECE | US15086502 | 2016-03-31 | US20160313698A1 | 2016-10-27 | Eiichi HIRAYA |
| A timepiece includes a winding stem, a calendar correction transfer wheel that rotates in synchronization with the winding stem in a state in which the winding stem is pulled to a first-step position, a calendar corrector wheel that rotates in synchronization with the calendar correction transfer wheel, a setting wheel lever that supports the calendar correction transfer wheel and the calendar corrector wheel, and a date indicator that rotates in synchronization with the calendar corrector wheel. The setting wheel lever is provided with shaft receiving holes to which the calendar corrector wheel is attachable in a rotatable manner, and the calendar corrector wheel is attached to one of the shaft receiving holes in accordance with the type of the date indicator. | ||||||
| 150 | MODULAR MECHANICAL TIMEPIECE UNIT WITH FUNCTIONAL MODULES | US13711125 | 2012-12-11 | US20130148481A1 | 2013-06-13 | Laurent KAELIN; Jean-Bernard Peters |
| Mechanical modular unit (100) with mechanical timepiece functional modules (1) each derived from a sub-assembly (1A) carrying components for a particular timepiece function of transforming a movement between input (3) and output (4) wheel sets.Said sub-assembly (1A) comprises adjustment components which are irreversibly secured after said timepiece function has been adjusted and function checked on the test bench, and said pre-adjusted module (1), derived from the transformation of said sub-assembly (1A) by the irreversible securing of said adjustment components thereof, includes at least one bearing surface (5) and a locating means (6) for the recognition and positioning of said module (1) relative to another element of said mechanical modular unit (100) or relative to a plate, by the abutment of said bearing surface (5) on a complementary bearing surface comprised in said other element or said plate. | ||||||
| 151 | MODULAR TIMEPIECE MOVEMENT WITH FUNCTIONAL MODULES | US13710737 | 2012-12-11 | US20130148479A1 | 2013-06-13 | Jean-Bernard PETERS; Laurent Kaelin; Ivan Villar; Raphael Balmer |
| Mechanical timepiece movement (100) in the form of a modular unit. It includes at least one mechanical modular unit (1) for performing a particular timepiece function, which is irreversibly pre-adjusted by the irreversible securing of adjustment and/or assembling components (9) comprised in said functional module (1) after said particular horological function has been adjusted and function checked on the test bench, and in that said at least one pre-adjusted functional module (1) is irreversibly secured to a plate (10) comprised in said movement (100) or comprised in another pre-adjusted functional module (1) of said movement (100), or is irreversibly secured to another pre-adjusted functional module (1) comprised in said movement (100). | ||||||
| 152 | Device for operating an electronic multifunctional device | US12316919 | 2008-12-16 | US20090175130A1 | 2009-07-09 | Beppo Hilfiker |
| An operating mechanism of a multifunctional device which can be worn on the wrist and has a housing with integrated electronics. The operating mechanism is integrated into the housing and has an operating element which is a one-piece or multi-piece setting stem. The setting stem partly crosses the housing, and the setting stem is arranged parallel to a planar enlargement of the housing and is rotatably and linearly moveably mounted. The setting stem can be moved linearly parallel to the longitudinal axis and rotatively about the rotational axis/longitudinal axis by a first operating watch button and optionally with a second operating watch button. The movement of the setting stem triggers various contacts on a contact plate, from which contacts electronic signals are sent to the electronics, as a result of which the electronic control of the multifunctional device is effected. | ||||||
| 153 | Correcting Device For a Timepiece | US10599278 | 2005-03-09 | US20080259740A1 | 2008-10-23 | Georg Schafer |
| The invention concerns a corrector device for a timepiece for correcting a piece of information provided by an indicator mechanism (46), the timepiece comprising a case (1) delimiting a volume (8), the device being characterised in that it includes a control lever (14) located outside the volume (8) of the case (1) and able to be actuated by a user, and an actuating lever (16) located inside the volume (8) of the case (1) and cooperating with the indicator mechanism (46) providing the information to be corrected, the control lever (14) and the actuating lever (16) being connected to each other by a stem (20). | ||||||
| 154 | Analog universal timepiece | US829238 | 1992-02-03 | US5210721A | 1993-05-11 | Tadahiro Kikuchi |
| An analog universal watch has an area dial 4 showing different areas of the world attached to an area dial spindle 10 and an area dial wheel 11 linked to a timepiece drive mechanism through a minute wheel 15. A pawl fastened to an hour wheel 17 engages with a ratchet wheel 12 fastened to the area dial spindle 10 so that an hour hand spindle 16 is driven indirectly. Provisions are made to permit correcting the area dial spindle 10 by means of a hand setting stem through the minute wheel 15, along with the independent correction of the hour wheel 17 by means of the hour hand correcting wheel 25 that engages with and releases the hand setting stem. Thus, the timepiece permits not only the ordinary correction of the pointers but also the setting of the hour hand alone to the local time of the desired area. | ||||||
| 155 | Watch hand adjustment gear | US878343 | 1986-06-25 | US4970709A | 1990-11-13 | Wolfgang Kroner |
| A hand adjustment structure for a wristwatch which has a spur gear structure disposed intermediate the minute and the hour gears of the watch includes a crown gear structure on one side of the spur gear disc for engagement with the pinion of a time setting shaft by which the spur gear structure can be rotated and together therewith the watch's minute and hour hands radial projections are stamped axially out of the spur gear disc in a circular array so as to form the crown gear structure integrally with the spur gear disc. | ||||||
| 156 | Timepiece structure | US138904 | 1987-12-28 | US4862434A | 1989-08-29 | Imao Hiraga; Satoshi Yamazaki; Takehide Yamada; Tadashi Nishitani |
| An electronic timepiece in which a gear train is driven and the hand is moved by a stepping motor and, more particularly, the timepiece which surely permits time correcting owing to the simple structure even if the gear train is formed of plastic materials. One end of the third wheel and pinion engaged with the center wheel is guided or held by the operating lever interlocked with the external control member. When the external operating member is moved into the axis direction, this operating lever is rotated and the third wheel and pinion is radially removed from the engagement of the center wheel and pinion. | ||||||
| 157 | Arrangement for adjusting the hand position of a watch | US807344 | 1985-12-10 | US4704710A | 1987-11-03 | Wolfgang Kroener |
| A timepiece hand adjustment mechanism especially for small wristwatches comprises a control shaft with a squared key structure formed thereon and a coupling lever operating member with squared central passage disposed on the key structure so as to be movable therewith. The coupling lever operating member has a collar of which a section projects into an elongated opening in a coupling operating lever so that the lever can be pivoted by axial movement of the control shaft for coupling the adjustment mechanism while, at the same time, it can be rotated for adjusting the hand position. | ||||||
| 158 | Gear train mechanism stop device of timepiece | US822018 | 1986-01-24 | US4636087A | 1987-01-13 | Toshiyuki Suzuki |
| A gear train mechanism stop device is used in a timepiece having clock signal producing IC, a stepping motor for generating a given rotational movement in response to a clock signal produced from the IC, at least hour and minute hands, and a gear train mechanism for transmitting the rotational movement from the motor to hands so as to make the hands move in a given movement, which is selectively engaged with a specified gear in the gear train mechanism so as to stop rotation of the specified gear. The device comprises an engaging member movable between an engaged position at which the member is engaged with the specified gear in the gear train mechanism in the axial direction of the specified gear so as to stop rotation of the specified gear, and a disengaged position at which the member is disengaged from the specified gear and allows the specified gear to rotate so as to allow rotational movement transmission from the motor to the hands, and an operation member for selectively moving the engaging member between the engaged and disengaged positions, wherein the specified gear is made of a synthetic resin. | ||||||
| 159 | Timepiece construction | US313109 | 1981-10-20 | US4496246A | 1985-01-29 | Tomio Ota; Mamoru Miyasaka; Imao Hiraga |
| A precision, reliable, analog timepiece uses plastic frame elements reinforced with metal, and plastic wheel and pinions pivoting in holes formed in the plastic of the frame elements. The plastic frame elements are separated into portions corresponding to the functional timepiece portions. Exposed areas of the reinforcing metal provide reference locations in molding the frame elements and for component mounting. The entire timepiece is assembled from one side of a base frame element. | ||||||
| 160 | Electronic watch movement with modular stepper motor and setting mechanism | US601454 | 1984-04-18 | US4488819A | 1984-12-18 | Jean-Claude Schaffner |
| The stator (10) of the motor serves as a single plate, not only for the rotor, wheels and spindles for hands, but also for the rocker (72), the pulling crank (70) and the setting pinion of the minutes wheel. The stator is shaped locally to form, on the one hand, a groove which guides the end of the setting stem (64) and, on the other hand, a boss (84) into which is driven a pin (82) serving as a spindle for the setting pinion (80). | ||||||
