子分类:
- G04B1/105: ..{除了螺旋之外的其他形式}(G04B1/12和G04B1/14优先)
- G04B1/12: ..有几个主弹簧的{有一个主弹簧和一个辅助弹簧的装置入G04B1/225;同时给几个主弹簧上条的入G04B3/008}
- G04B1/14: ..主弹簧;簧夹(带簧夹的主弹簧入G04B 1/18;合金入C22C;一般弹簧入F16F){主弹簧动力变化补偿的结构入G04B1/22;游丝结构入G04B17/066;便于主弹簧拆卸的结构入G04B33/14}
- G04B1/16: ..条盒;心轴;条盒轴(便于拆除主弹簧的装置入G04B33/14)
- G04B1/18: ..主弹簧端部与条盒或心轴连接的结构{主弹簧和簧夹入G04B1/14;把游丝夹紧在调整器的入G04B17/14F;把游丝夹紧在心轴的入G04B17/32}
- G04B1/22: ..主弹簧动力变化的补偿(主弹簧用机械成型的入G04B1/14{钟摆的自动调节入G04B17/12B;调整器的入G04B19/28}
| 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 | 改良されたパワーリザーブを有する腕時計 | JP2014222322 | 2014-10-31 | JP2015090367A | 2015-05-11 | セドリック・デコステル |
| 【課題】基本的な歯車列を改造することなく、脱進機に放出される動力を低減することによって、既存のムーブメントのパワーリザーブを増大させる。 【解決手段】少なくとも1つの巻き上げ機構によって駆動される角穴車による供給を受け、時方輪列に動力供給する少なくとも1つのエネルギ貯蔵手段を含む、機械式時計ムーブメントであり、ムーブメントは、少なくとも1つの第1の弾性接続によって時方輪列の少なくとも1つのホイールセットに接続された第1のエネルギ取り込み手段6を含み、第1のエネルギ取り込み手段6は、角穴車を駆動する少なくとも1つのホイールセット8と協働し、角穴車と噛み合って、エネルギ取り込み手段6が取り込んだエネルギの一部を再注入することによってエネルギ貯蔵手段に動力供給し、角穴車を駆動するホイールセット8は、巻き上げ機構の動作中に作動状態となる少なくとも1つの連結解除機構9の作用によって連結を解除できる。 【選択図】図7 |
||||||
| 42 | Ribbon-like display time piece | JP2009502091 | 2007-03-29 | JP5149891B2 | 2013-02-20 | ジェルベ,フランシス; ルソー,セバスティアン; ジレ,ロマン |
| 43 | ハイブリッド計時器発振器 | JP2017130857 | 2017-07-04 | JP2018013478A | 2018-01-25 | ブノワ・レジュレ; デルドレ・ルノアール; ダヴィデ・サルチ |
| 【課題】磁気ピボットとねじれ発振器の望まない特徴をなくしつつ、磁気ピボットとねじれ発振器の利点を組み合わせて発揮させる。 【解決手段】リム2を備えたバランス1を有するばね仕掛けバランスアセンブリー10を有する計時器用発振器である。リム2は、バランスばね3によって戻され、構造4に対して回転する。この回転は、第1の側では、アンカー要素51によって構造4に固定されたねじれワイヤー5によって、そして、第1の側とは反対側の第2の側では、非接触の磁気ピボットによって行われる。バランス1は、バランス1に埋め込まれた第1の極60及びねじれワイヤー5を有する。第1の極60は、ばね仕掛けバランスアセンブリー10の軸Dに対して対称であり、構造4が備える第2の極70と連係して、第1の極60を磁気的に懸架し、アンカー要素51の反対側のねじれワイヤー5の遠位端に、ねじれワイヤー5を張るための磁力を与える。 【選択図】図1 |
||||||
| 44 | トルク特性が実質的に一定なバレル | JP2016050493 | 2016-03-15 | JP6125686B2 | 2017-05-10 | パトリック・シュトロイベル; ジルコ・ゴルトマン |
| 45 | 改良されたパワーリザーブを有する腕時計 | JP2014222322 | 2014-10-31 | JP5844873B2 | 2016-01-20 | セドリック・デコステル |
| 46 | 継ぎ手を組付け、ロックするためのデバイス | JP2013255663 | 2013-12-11 | JP5763738B2 | 2015-08-12 | ピエール・クザン; マルク・シュトランツル; ダニエル・マレ; エマニュエル・グラフ |
| 47 | エネルギ伝達手段と計数手段との間の連結解除を備える時計 | JP2014226680 | 2014-11-07 | JP2015094763A | 2015-05-18 | ジャン−リュック・エルフェ; パスカル・ウィンクレ; ティエリ・コヌ |
| 【課題】耐衝撃性を有したまま、振動子及び機械的エネルギ源からエネルギを伝達する手段に関して高い技術的自由度をもたらす時計を提供する。 【解決手段】時計は表示デバイス5と協働する時計ムーブメント1を備え、時計ムーブメント1は、機械的エネルギ源7と、機械的エネルギ源7から少なくとも1つの共振器11へのエネルギ伝達システム9とを備え、エネルギ伝達システム9は、少なくとも1つの共振器11によって制御される第1の分配デバイス10を含む。時計1は、少なくとも1つの共振器11と表示デバイス5との間に設置された計数システムも備え、計数システムは、少なくとも1つの共振器11によって制御される第2の分配デバイス12を含み、第2の分配デバイス12は表示デバイス5と協働して、エネルギ伝達手段を計数システムから連結解除する。 【選択図】図1 |
||||||
| 48 | 香箱 | JP2014560400 | 2013-03-08 | JP2015509600A | 2015-03-30 | エス、ステファン; カレーム、ローラン |
| 本発明は、重ね合わされる第1の分室16a及び第2の分室16bを画定する胴部14と、第1の蓋24aに固定され、第1の分室内に少なくとも部分的に収容される第1の管状ハブ22aと、第2の蓋24bに固定され、第2の分室内に少なくとも部分的に収容される第2の管状ハブ22bと、を備える時計香箱に関する。各分室が螺旋状に巻かれるぜんまい18a、18bを含有し、それらの内側の第1の端部が第1及び第2のハブとそれぞれ結合し、それらの第2の端部が胴部14と結合する。分室が蓋の側で開いており、前記第1及び第2の蓋が胴部14に関して制約されず、各々が周囲歯部を備え、胴部14が歯部を有さない。 | ||||||
| 49 | Spring device | JP14619677 | 1977-12-07 | JPS5386956A | 1978-07-31 | ERITSUKU ARONSON |
| 50 | 타임피스 메카니즘 구조물 | KR1020140031461 | 2014-03-18 | KR1020140114782A | 2014-09-29 | 스트랜첼마르크; 헤슬러띠에리; 헬페르장-뤽 |
| The present invention relates to a timepiece mechanism structure (1) for receiving and guiding at least one pivoting wheel set (10). The structure includes at least one inseparable single-piece structure (11) including at least one inseparable single-piece frame (17) which includes pivot housings (12) aligned in pairs in an alignment direction (A) for receiving the pivots of an arbor (47) of at least one pivoting wheel set (10). Each of the pivot housings (12) is an open housing formed by a semi-bearing or by a dihedral and includes a stop bearing surface (120) in the alignment direction (A) at one end. | ||||||
| 51 | 타임피스 메카니즘 카세트 | KR1020140031459 | 2014-03-18 | KR1020140114780A | 2014-09-29 | 스트랜첼마르크; 헤슬러띠에리; 헬페르장-뤽 |
| A timepiece mechanism cassette (1) includes at least one bearing surface (101) for positioning the cassette in a movement (100), a plate (2), and a bar (3). At least one among the plate and the bar is rigid. Functional components (10) are arranged between or on the plates. At least two components are movable with regard to each other. At least one function component (10) is pivotally movable and pivoted between the plate and the bar and forms an inseparable single piece component (20) with the plate (2) and/or with the bar (3). | ||||||
| 52 | Method for producing timepiece spring, device for producing timepiece spring, timepiece spring, and timepiece | US14017681 | 2013-09-04 | US09823624B2 | 2017-11-21 | Kazuhiro Tsuchiya; Masao Takeuchi; Masatoshi Moteki; Shoichi Nagao |
| A method for producing a timepiece spring includes a step for producing, by casting, a metallic glass raw material constituted of a metallic glass; a step for heating the metallic glass raw material to achieve a superplastic state; and a step for rolling the metallic glass raw material in a superplastic state to produce a sheet material. A timepiece spring is characterized by being obtained by the method for producing a timepiece spring. | ||||||
| 53 | BARREL WITH SUBSTANTIALLY CONSTANT TORQUE | US15058777 | 2016-03-02 | US20160274540A1 | 2016-09-22 | Patrick STREUBEL; Silko GOLDMANN |
| A barrel for a timepiece. The barrel has a device for limiting the number of running rotations of the barrel, wherein this device still allows any number of winding rotations of the barrel. | ||||||
| 54 | CHRONOGRAPH MECHANISM | US15044411 | 2016-02-16 | US20160246256A1 | 2016-08-25 | Alain ZAUGG; Stefan Rombach; Dominique Lechot; Jean-Philippe Rochat |
| A chronograph mechanism including its own energy accumulator, its own regulating system, and a gear train connecting the energy accumulator to the regulating system. The energy accumulator is formed by a strip-spring and includes a device for driving the gear train arranged to regulate the torque delivered by the strip-spring. | ||||||
| 55 | Device for assembling and locking a joint | US14098837 | 2013-12-06 | US09176478B2 | 2015-11-03 | Pierre Cusin; Marc Stranczl; Daniel Mallet; Emmanuel Graf |
| The invention relates to a system of assembling a member, made of a first material, in the aperture of a part made of a second material having no plastic domain, using an intermediate portion made of a third material, mounted between said member and said part, According to the invention, the intermediate portion is accommodated against a shoulder of the part and is laterally locked in a resilient manner by at least one resilient locking device of the part to secure together the unit comprising the member-intermediate portion-part.The invention concerns the field of timepieces. | ||||||
| 56 | TIMEPIECE COMPRISING A DECOUPLING BETWEEN THE ENERGY TRANSMISSION MEANS AND THE COUNTING MEANS | US14527062 | 2014-10-29 | US20150131413A1 | 2015-05-14 | Jean-Luc HELFER; Pascal Winkler; Thierry Conus |
| The invention concerns a timepiece comprising a timepiece movement cooperating with a display device, the timepiece movement comprising a mechanical energy source and a system of energy transmission from the energy source to at least one resonator including a first distribution device controlled by the at least one resonator. According to the invention, the timepiece also comprises a counting system mounted between the at least one resonator and the display device, and including a second distribution device controlled by the at least one resonator and cooperating with the display device to uncouple the energy transmission means from the counting means. | ||||||
| 57 | WATCH WITH IMPROVED POWER RESERVE | US14514574 | 2014-10-15 | US20150124572A1 | 2015-05-07 | Cedric DECOSTERD |
| Mechanical timepiece movement, including at least one energy storage means fed at the input by a ratchet driven by one winding mechanism and at the output powering a going train.The movement includes first energy take-up means connected to at least one wheel set of this going train by at least a first elastic connection, this first energy take-up means cooperating with at least one wheel set driving this ratchet, in mesh with this ratchet for powering this energy storage means by reinjecting part of the energy taken up by this energy take-up means, this wheel set driving this ratchet being uncouplable under the action of at least one uncoupling mechanism active during the operation of this winding mechanism. | ||||||
| 58 | METHOD FOR PRODUCING TIMEPIECE SPRING, DEVICE FOR PRODUCING TIMEPIECE SPRING, TIMEPIECE SPRING, AND TIMEPIECE | US14017681 | 2013-09-04 | US20140064043A1 | 2014-03-06 | Kazuhiro TSUCHIYA; Masao TAKEUCHI; Masatoshi MOTEKI; Shoichi NAGAO |
| A method for producing a timepiece spring includes a step for producing, by casting, a metallic glass raw material constituted of a metallic glass; a step for heating the metallic glass raw material to achieve a superplastic state; and a step for rolling the metallic glass raw material in a superplastic state to produce a sheet material. A timepiece spring is characterized by being obtained by the method for producing a timepiece spring. | ||||||
| 59 | Mainspring mechanism and device having the same | US09978247 | 2001-10-15 | US06763915B2 | 2004-07-20 | Shoichi Nagao; Eiji Morikuni; Taro Matsunaga |
| A winding stem (10) is connected to an inner end (11a) of a mainspring (11), and an outer end (11b) of the mainspring (11) is connected to a barrel drum (12). A braking plate (15) is placed inside a braking case (14), and the braking case (14) is filled with a fluid (16). An uneven joint portion (10b) is formed at the lower end of the winding stem (10), and is engaged with an uneven joint portion (15b) of the braking plate (15) placed in the braking case (14). By adopting the above configuration which can simplify the structure of the mainspring mechanism having the braking plate and which can reduce the number of components, the size and production cost of the mainspring mechanism can be reduced. | ||||||
| 60 | Differential drive system | US10128960 | 2002-04-23 | US20030199347A1 | 2003-10-23 | W. Daniel Hillis |
| A drive system is provided comprising two rotatable drive members which have different effective mechanical advantages. The rotatable drive members are directionally linked or indexed in a one to one relationship. A drive link, such as a chain, band or belt, is connected to each of the drive members. The drive link is also linked to a source of potential energy, such as a drive weight or a drive spring. The drive members rotate upon movement of the drive link in reaction to the energy source. While the drive members rotate similarly through the one to one link, the drive link moves in relation to the difference in mechanical advantage between the rotatable drive members. The differential drive system can be used to provide a driving force for a connected device, such as a clock. In some embodiments, a secondary bias force, such as a bias weight, spring, or dampener, is used to take up slack and/or to provide tension for the drive link. | ||||||
QQ群二维码
意见反馈
意见反馈