EP4286961A1 - Uhrregulierungsorgan mit einer präzisionsrückervorrichtung - Google Patents

Uhrregulierungsorgan mit einer präzisionsrückervorrichtung Download PDF

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Publication number
EP4286961A1
EP4286961A1 EP22215645.7A EP22215645A EP4286961A1 EP 4286961 A1 EP4286961 A1 EP 4286961A1 EP 22215645 A EP22215645 A EP 22215645A EP 4286961 A1 EP4286961 A1 EP 4286961A1
Authority
EP
European Patent Office
Prior art keywords
eyebolt
regulating member
member according
spiral spring
racket
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP22215645.7A
Other languages
English (en)
French (fr)
Inventor
Olivier Mertenat
Julien Christan
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Omega SA
Original Assignee
Omega SA
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Omega SA filed Critical Omega SA
Priority to EP23167376.5A priority Critical patent/EP4286962A1/de
Priority to US18/315,523 priority patent/US20230393526A1/en
Priority to JP2023085922A priority patent/JP2023178233A/ja
Priority to CN202310606348.4A priority patent/CN117170208A/zh
Priority to CN202321304309.0U priority patent/CN220064632U/zh
Priority to JP2023088507A priority patent/JP2023178244A/ja
Priority to CN202310623073.5A priority patent/CN117170209A/zh
Priority to KR1020230070362A priority patent/KR20230167736A/ko
Priority to US18/328,362 priority patent/US20230393527A1/en
Publication of EP4286961A1 publication Critical patent/EP4286961A1/de
Pending legal-status Critical Current

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Classifications

    • GPHYSICS
    • G04HOROLOGY
    • G04BMECHANICALLY-DRIVEN CLOCKS OR WATCHES; MECHANICAL PARTS OF CLOCKS OR WATCHES IN GENERAL; TIME PIECES USING THE POSITION OF THE SUN, MOON OR STARS
    • G04B17/00Mechanisms for stabilising frequency
    • G04B17/32Component parts or constructional details, e.g. collet, stud, virole or piton
    • GPHYSICS
    • G04HOROLOGY
    • G04BMECHANICALLY-DRIVEN CLOCKS OR WATCHES; MECHANICAL PARTS OF CLOCKS OR WATCHES IN GENERAL; TIME PIECES USING THE POSITION OF THE SUN, MOON OR STARS
    • G04B17/00Mechanisms for stabilising frequency
    • G04B17/32Component parts or constructional details, e.g. collet, stud, virole or piton
    • G04B17/325Component parts or constructional details, e.g. collet, stud, virole or piton for fastening the hairspring in a fixed position, e.g. using a block
    • GPHYSICS
    • G04HOROLOGY
    • G04BMECHANICALLY-DRIVEN CLOCKS OR WATCHES; MECHANICAL PARTS OF CLOCKS OR WATCHES IN GENERAL; TIME PIECES USING THE POSITION OF THE SUN, MOON OR STARS
    • G04B18/00Mechanisms for setting frequency
    • G04B18/006Mechanisms for setting frequency by adjusting the devices fixed on the balance
    • GPHYSICS
    • G04HOROLOGY
    • G04BMECHANICALLY-DRIVEN CLOCKS OR WATCHES; MECHANICAL PARTS OF CLOCKS OR WATCHES IN GENERAL; TIME PIECES USING THE POSITION OF THE SUN, MOON OR STARS
    • G04B18/00Mechanisms for setting frequency
    • G04B18/02Regulator or adjustment devices; Indexing devices, e.g. raquettes
    • G04B18/023Regulator or adjustment devices; Indexing devices, e.g. raquettes with means for fine adjustment of the indexing device
    • GPHYSICS
    • G04HOROLOGY
    • G04BMECHANICALLY-DRIVEN CLOCKS OR WATCHES; MECHANICAL PARTS OF CLOCKS OR WATCHES IN GENERAL; TIME PIECES USING THE POSITION OF THE SUN, MOON OR STARS
    • G04B18/00Mechanisms for setting frequency
    • G04B18/04Adjusting the beat of the pendulum, balance, or the like, e.g. putting into beat
    • G04B18/06Adjusting the beat of the pendulum, balance, or the like, e.g. putting into beat by setting the collet or the stud of a hairspring

Definitions

  • the invention relates to the field of watchmaking, and more particularly to the field of mechanical watchmaking, where the regulation of the driving energy is provided by a regulating organ.
  • the invention relates, more precisely, to a regulating member provided with a precision racket system, a clock movement comprising such a regulating member, as well as a timepiece comprising such a clock movement.
  • balance-spring system which includes a flywheel. inertia called balance wheel, associated with a spring in the form of a ribbon wound into a spiral, called hairspring.
  • the hairspring is fixed on a shaft which rotates with the balance wheel; through an external end, the hairspring is fixed on a pin mounted on a pin holder which is itself secured to a fixed bridge (or cock).
  • the rotation of the balance wheel is maintained - and its oscillations counted - by an escapement mechanism comprising an anchor driven by a low amplitude oscillating movement, provided with two pallets which engage the teeth of an escape wheel.
  • an escapement mechanism comprising an anchor driven by a low amplitude oscillating movement, provided with two pallets which engage the teeth of an escape wheel.
  • the escape wheel is subjected to a step-by-step rotational movement whose frequency is determined by the oscillation frequency of the pallet, itself aligned with the oscillation frequency of the sprung balance.
  • the oscillation frequency is approximately 4 Hz, or approximately 28,800 vibrations per hour (A/h).
  • An objective of good watchmakers is to ensure isochronism and regularity of the oscillations (or constancy of the rate) of the balance wheel.
  • this racket system is fixed in rotation relative to the axis of the hairspring.
  • the assembly comprising the bridge, the racket system, the key, the eyebolt holder, the eyebolt, the shaft, the spring and the balance wheel, is commonly referred to as a “regulating organ”.
  • regulatory bodies are proposed by the international application WO 2016/192957 and by the European patent EP 2 876 504 , both in the name of the ETA watch manufacturer.
  • the stops are adjustable to tighten the hairspring in order to eliminate play, particularly during operation of the hairspring.
  • we start by adjusting the rate by moving the racket key then we tighten the hairspring with the key.
  • tightening the hairspring with a racket key risks constraining it and creating chronometric faults, in particular by off-centering the turns.
  • removing the play also modifies the rate, and once the hairspring is tightened, we do not can no longer move the racket key along the hairspring to finish finely adjusting the rate.
  • spiral springs have an integrated adjuster.
  • the rate is not adjusted by modifying the effective length of the spiral spring, but by applying a force or a torque to an elastic element arranged in series with the spiral. It is thus possible to modify the stiffness of the elastic element and consequently of the spiral spring as a whole. Adjusting the stiffness of the spiral spring makes it possible to adjust the operation of the regulating organ.
  • Such a spiral spring provided with an elastic element is for example described in the patent application EP21202213.1 .
  • the aim of the present invention is to overcome all or part of the disadvantages mentioned above by proposing a racket system compatible with this type of adjustment device.
  • the invention relates to a regulating member for a clock movement comprising an inertial mass, for example an annular balance, a spiral spring, and a racket system for adjusting the rate of the spiral spring, the spring -spiral comprising a wound ribbon and means for adjusting the stiffness of the spiral spring provided with an elastic element arranged in series with the wound ribbon.
  • the invention is remarkable in that the racket system is configured to adjust the operation of the regulating organ with a resolution less than or equal to 1 second per day, preferably less than or equal to 0.5 seconds per day, or even less than or equal to 0.1 seconds per day.
  • the stiffness of the elastic element is modified, by varying a force or a torque applied to the elastic element.
  • the racket system includes adjustment marks corresponding to said resolution.
  • the racket system comprises a piton holder mechanically linked to the elastic element, the piton holder comprising a first piton and a second piton, characterized in that the elastic element is arranged between the first pin and the second pin, the first pin being movable relative to the second pin, the movement of the first pin modifying the stiffness of the spiral spring.
  • the eyebolt carrier comprises a first part provided with the first eyebolt, and a second part provided with the second eyebolt, the first part being movable relative to the second part to move the first eyebolt.
  • the first part and the second part are superimposed.
  • the racket system comprises an eccentric, cooperating with the first part so as to be able to move it when it rotates.
  • the racket system comprises an arm arranged on the first part and a cam cooperating with the arm, so that the actuation of the cam moves the first part relative to the second part .
  • the racket system comprises a spring, exerting a force between the first part and the second part to hold the arm of the first part against the cam.
  • the first part is movable in rotation relative to the second part.
  • the first eyebolt is movable in rotation.
  • the elastic element is arranged between the first eyebolt and the second eyebolt, the movement of the first eyebolt modifying the stiffness of the elastic element.
  • the adjustment means comprise prestressing means for applying a variable force or torque to the flexible element.
  • the prestressing means are arranged between the first eyebolt and the second eyebolt, the movement of the first eyebolt relative to the second eyebolt actuating the prestressing means.
  • the prestressing means comprise a lever connected to the flexible element, the first eyebolt being secured to a free end of the lever.
  • the flexible element is linked to a rigid support, the second stud being integral with the rigid support.
  • the prestressing means comprise a semi-rigid structure arranged in parallel to the flexible element, the lever being connected to the semi-rigid structure.
  • the invention also relates to a clock movement comprising such a regulating member.
  • the invention also relates to a timepiece, for example a watch, comprising such a clockwork movement.
  • THE figures 1 and 2 show a schematic representation of a first embodiment of a regulating member 1 arranged in a timepiece movement 10.
  • the timepiece movement 10 comprises a plate 21, an inertial mass, an elastic return element of the inertial mass configured to make it oscillate, and a balance bridge 22.
  • the regulating member 1 further comprises a racket system 20, an annular balance 23 as inertial mass, a balance shaft 24 and a spiral spring 25 as elastic return element.
  • the plate 21 is provided with a housing 26 to receive the regulating member 1, in which are superimposed, here from bottom to top, the balance 23, the spiral spring 25, the balance bridge 22 and the racket system 20 .
  • the balance shaft 24 is centered in the housing 26 and passes through the center of the balance 23, the balance spring 25 and the balance bridge 22.
  • the balance shaft 24 is held by two anti-shock bearings 28 arranged at the two ends of the balance shaft 24.
  • a first bearing is arranged at the bottom of the housing 26, and the second bearing 28 is arranged above the housing 26, and is held by the balance bridge 22, the balance bridge 22 crossing the top of the housing 26 passing through the central axis of the housing 26.
  • the balance bridge 22 is provided with a hole, here through, in which the second bearing 28 is held.
  • the racket system 20 is mounted on the balance bridge 22 and is arranged, in this embodiment, on the central axis of the housing 26.
  • the spiral spring 25 preferably extends substantially in a plane.
  • the spiral spring 25 comprises a flexible ribbon 2 wound on itself in several turns, the ribbon 2 having a predefined stiffness.
  • the internal end 9 of the ribbon 2 comes from material or is assembled to a support 3, generally called a ferrule.
  • the support 3 has a substantially triangular shape, and is slipped around the shaft of the balance 24.
  • the spiral spring 25 further comprises means for adjusting its stiffness.
  • the adjustment means are in particular operable by a user when the regulating member is mounted on the plate of the clock movement.
  • the adjustment means comprise a flexible element 5 arranged in series with the ribbon 2, the flexible element 5 connecting one end 4, 9 of said ribbon 2 to a rigid support 17, and secured to one of the ends 4, 9 of the ribbon 2
  • the flexible element 5 is integral with the external end 4 of the ribbon 2.
  • the elastic element 5 is a different element from the ribbon 2.
  • the flexible element 5 adds additional stiffness to that of the ribbon 2.
  • the flexible element 5 preferably has a stiffness greater than that of the ribbon 2.
  • the flexible element 5 is here arranged in the extension of the ribbon 2.
  • the adjustment means and the ribbon 2 are in one piece, or even made of the same material, for example silicon.
  • the flexible element 5 of the spiral spring 25 comprises a pivot with uncrossed flexible blades.
  • the pivot comprises two uncrossed flexible blades 11, 12 and a rigid part 18.
  • the flexible blades 11, 12 are joined, on the one hand laterally to a rigid support 17, and on the other hand to the rigid part 18 by approaching the 'one from the other.
  • the flexible blades 11, 12 move away from the rigid part 18 to the rigid support 17.
  • the external end 4 of the ribbon 2 is joined to the rigid part 18.
  • the rigid support 17 is immobile relative to the rigid part 18. to the plate 21.
  • the rigid support 17 has an L shape, a first branch 46 of the L serving as a connection with the flexible blades 11, 12, the second branch 47 of the L being oriented on the side opposite the pivot with uncrossed blades to be able to be assembled with the clock movement 10.
  • the means for adjusting the spiral spring 25 further comprise prestressing means 6 for applying a variable force or torque to the flexible element 5.
  • prestressing means 6 for applying a variable force or torque to the flexible element 5.
  • the prestressing means 6 comprise a secondary flexible blade 19, arranged on an opposite side of the rigid part 18 in the extension of the pivot with uncrossed blades.
  • the secondary flexible blade 19 is arranged tangentially to the ribbon 2, at the external end 4.
  • the secondary flexible blade 19 is connected at the other end to a curved lever 14 bypassing the ribbon 2.
  • the lever 14 is connected, in addition to the secondary flexible blade 19, to a semi-rigid structure 27 linked to the rigid support 17.
  • the semi-rigid structure 27 is partially deformed when the lever 14 is actuated by force or torque.
  • the force or torque is exerted on the free end 15 of the lever 14.
  • the lever 14 of the preloading means 6 transmits the force or torque to the flexible element 5 via the secondary flexible blade 19 and of the semi-rigid structure 27, so as to modify the stiffness of the spiral spring 25.
  • the regulating member comprises a particular racket system 20 according to the invention.
  • the racket system 20 is provided with a eyebolt holder 31 in two parts, a first part 32 and a second part 33.
  • the first part 32 of the eyebolt holder 31 suspends the first eyebolt 34, while a second part 33 of the eyebolt holder 31 is equipped with the second eyebolt 35.
  • the eyebolt holder 31 is mechanically linked to the elastic element 5, but it does not block the ribbon 2.
  • the first part 32 of the eyebolt holder 31 is arranged partly above the second part 33 of the eyebolt holder 31, which is in contact with the balance bridge 22.
  • the racket system 20 comprises two eccentrics 36, 37.
  • first eccentric 36 is mounted on the second part 33 of the eyebolt carrier 31 and allows angular adjustment between the two parts of the eyebolt carrier 31, which makes it possible to adjust the step.
  • a second eccentric 37 is mounted on the balance bridge 22 and makes it possible to adjust the angular position of the eyebolt holder 31 relative to the plate 21, which makes it possible to adjust the mark.
  • the two parts of the eyebolt carrier 31 are held and positioned by the shock absorber 28.
  • the regulating member 1 further comprises locking means configured to lock the second part 33 of the eyebolt holder 31 in an angular positioning relative to the plate 21 of the movement.
  • the locking means include a second eccentric 37.
  • each part 32, 33 surround the second bearing 28.
  • each part 32, 33 comprises a central ring 38, 39 arranged around the second bearing 28, the two central rings 38, 39 being superimposed.
  • the first part 32 comprises two protrusions 41, 42 extending radially from the central ring 38, a first protuberance 41 holding the first eyebolt 34 downwards in the housing 26 using a first screw 74, the second protuberance 42 having the shape of an arc of a circle cooperating with the first eccentric 36.
  • the second part 33 comprises three protuberances 43, 44, 45 extending from the central ring 39.
  • a first protuberance 43 holds the second stud 35 down in the housing 26 using a second screw 75, a second protuberance 44 extending around the first eccentric 36, and the third protuberance 45 having the shape of an arc of a circle cooperating with the second eccentric 37.
  • first eyebolt 34 and the second eyebolt 35 are for example arranged substantially symmetrically with respect to the balance shaft 24.
  • the first eyebolt 34 cooperates with the free end 15 of the lever 14, and the second eyebolt 35 cooperates with the second branch 47 of the rigid support 17.
  • the prestressing means 6 and the elastic element 5 are supported by the system of racket 20 from which they are suspended.
  • the two eyebolts 34, 35 are arranged on either side of the prestressing means 6 and the elastic element 5.
  • the two eyebolts 34, 35 are rigidly linked to the lever 14 and to the rigid support 17.
  • the first 34 and the second eyebolt 35 are respectively secured to the lever 14 by the free end 15 and to the rigid support 17 by the second branch 47.
  • the assembly of the eyebolts and the spiral spring 25 is for example carried out by gluing, brazing , welding, by deformation of metallic glass, or by mechanical fixing.
  • the first eyebolt 34 is movable relative to the second eyebolt 35.
  • the first part 32 is movable relative to the second part 33.
  • the first part 32 is movable in rotation around the second bearing 28.
  • the first eyebolt 34 moves with the first part 32, the first eyebolt 34 being movable in rotation around the second bearing 28.
  • the first eyebolt 34 can for example be moved over an angular range of 20°, or even 10°.
  • the movement of the first eyebolt 34 relative to the second eyebolt 35 modifies the stiffness of the elastic element 5, because the movement exerts a more or less significant force or torque on the lever 14 of the prestressing means 6, so that the stiffness of the elastic element 5 varies, and thus the stiffness of the entire spiral spring 25.
  • the racket system 20 thus makes it possible to adjust the operation of the regulating member 1.
  • the racket system 20 makes it possible to modify the position of the first piton 34 relative to the second piton 35 thanks to the second protuberance 42 in the form of an arc of a circle of the first part 32 and the first eccentric 36.
  • the arc of a circle has a diameter barely smaller than the head of the first eccentric 36, so that the movement of the first eccentric 36 generates the movement of the second protuberance 42, and therefore of the first part 32 relative to the second part 33 circularly around the second bearing 28, while the second part 33 remains in position, when the first part 32 is actuated.
  • the second protuberance 42 in the form of an arc of a circle moves circularly around the second bearing 28.
  • the first part 32 moves relative to the second part 33, and consequently, the first pin 34 moves relative to the second pin 35 to modify the force or the torque applied to the preloading means 6 of the spiral spring 25.
  • the absence of play between the eccentrics 36, 37 and the arcs of circle 42, 45 allows an adjustment without hysteresis.
  • Adjustment marks 29 are arranged on the second protuberance 42 in the shape of an arc of a circle around the first eccentric 36.
  • the first eccentric 36 is oriented according to a preferred mark.
  • the racket system 20 is configured to adjust the operation of the regulating member 1 with a resolution less than or equal to 1 second per day, preferably less than or equal to 0.5 seconds per day, or even less than or equal to 0.5 seconds per day. equal to 0.1 seconds per day.
  • the racket system 20 is calibrated so that their actuation allows such a resolution.
  • the configuration of the regulating member 1 makes it possible to achieve such precision.
  • the adjustment marks 29 correspond to the resolution.
  • the difference between two consecutive marks corresponds to 1 second, 0.5 seconds, or even 0.1 seconds per day.
  • the characteristics of the regulating member 40 are substantially identical to the first embodiment, except for the adjustment of the racket system 60.
  • the first part 52 of the racket system 60 comprises an arm 63 extending radially outwards from the first part 52 in the same plane.
  • the second part 53 does not include the protuberance in the shape of an arc of a circle.
  • the racket system 60 comprises a cam 55 movable in rotation in place of the first eccentric.
  • the cam 55 cooperates with the arm 63 of the first part 52 to rotate it around the second bearing 28.
  • the end 56 of the arm 63 is preferably constantly in contact with the cam 55, so that the rotation of the cam 55 exerts a movement on the arm 63 according to the angular position of the cam 55.
  • the first part 52 of the racket system 60 moves in a manner similar to the first embodiment.
  • Such a racket system 60 equipped with a cam 55 makes it possible to vary the stiffness of the spiral spring 25 with linearity.
  • the racket system 60 comprises a spring 57 exerting a restoring force on the first part 52.
  • the spring 57 has substantially a U shape surrounding a screw of locking 77, a first end 58 of the U being assembled to the second part 53 of the racket system 20, and a second end 59 of the U being retained by a retaining hook 61 arranged on the first part 52.
  • the spring 57 is arranged on the second part of the eyebolt holder 31 symmetrically of the cam 55 with respect to the second bearing 28.
  • the spring 57 exerts a restoring force on the two parts 52, 53 of the racket system 60, the restoring force having the function of constantly maintaining the arm 63 of the first part 52 in contact with the cam 55.
  • the first part 52 rotates to move the first eyebolt 34 relative to the second eyebolt 35, while undergoing a restoring force exerted by the spring 57, to allow the contact of the arm 63 of the first part 52 against the cam 55, in particular when the peripheral wall 64 of the cam 55 moves away from the arm 63.
  • the racket system 60 is configured to adjust the operation of the regulating member 40 with a resolution less than or equal to 1 second per day, preferably less than or equal to 0.5 seconds per day, or even less than or equal at 0.1 seconds per day.
  • the configuration of the regulating member 40 makes it possible to achieve such precision.
  • the regulating member 40 further comprises locking means configured to lock the second part 53 of the eyebolt holder 51 in a position relative to the balance bridge 22 of the movement.
  • the locking means include a locking plate 62 and a locking screw 77 for assembling the locking plate 62 on the second part 53 and locking its position.
  • the locking plate has a shape cooperating on one side with a balance bridge 72 and on the other side with the second bearing 28.
  • the locking screw 77 passes through the locking plate 62 to be screwed into the bridge of balancer 72 disposed below the locking plate 62.
  • the locking plate 62 exerts a force at least in part on the second part 53 of the eyebolt holder 51, at the level of a shoe 78 of the first end 58 of the U of the spring 57, the shoe resting on the second part 53 of the eyebolt holder 51.
  • Adjustment marks 49 are also arranged on the cam 55.
  • the cam 55 is moved, by example by means of an adjustment button (not shown on the figures 4 and 5 ), placed on cam 55, and which can be rotated.
  • the cam 55 is oriented according to a preferred reference.
  • the adjustment marks 49 correspond to the resolution.
  • the difference between two consecutive marks makes it possible to modify the step by one second, 0.5 seconds, or even 0.1 seconds per day.
  • the resolution of the adjustment marks 49 is 0.1 second.
  • the eyebolt holder 51 is a variant of the second embodiment, in which the second part 53 comprises on one side an elbow arm 70, and on the other side a pair of fingers 71, as well as a through orifice 68 noticeably circular in the middle.
  • the function of the bent arm 70 is to cooperate with the locking plate 62.
  • the function of the pair of fingers 71 is to maintain the axis of the cam and to rest on the balance bridge 72 of the movement.
  • the through hole 68 makes it possible to insert a shockproof bearing 28 of the balance, around which the eyebolt holder 51 is mounted and maintained.
  • the through orifice 68 is opened by a slot 69 to provide flexibility to a segment 73 bordering the orifice 68.
  • the bearing 28 can be clipped and held in the orifice 68. Thanks to this flexibility, the segment 73 can move aside to introduce the bearing 28 into the orifice 68, and exert sufficient force to maintain it.
  • the shapes of the orifice 68 and the anti-shock bearing 28 are configured to cooperate together, the shape of the bearing 28 preferably being slightly greater than the shape of the orifice 68.
  • the geometry of the orifice 68 makes it possible to guide the eyebolt carrier 51 in rotation.
  • the flexible segment 73 makes it possible to guide the eyebolt carrier in rotation around the shock absorber bearing while maintaining the concentricity of the axis of the balance (not shown in the figures).
  • a rotary adjustment knob 65 is mounted on the cam, the knob 65 comprising peripheral adjustment marks 66, the adjustment marks 66 being in accordance with the invention.
  • FIG 8 shows how the locking means block the second part 53 of the eyebolt holder 51 on the balance bridge 72.
  • the locking plate 62 presses on the bent arm 70.
  • the locking screw 77 passes through the locking plate 62 and passes to the inside the bent arm 70 to reach the balance bridge 72 located below.
  • the second part 53 of the eyebolt holder 51 is sandwiched between the locking plate 62 and the balance bridge 72.
  • the locking plate 62 retains the spring 57.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Springs (AREA)
  • Transmission Devices (AREA)
EP22215645.7A 2022-06-02 2022-12-21 Uhrregulierungsorgan mit einer präzisionsrückervorrichtung Pending EP4286961A1 (de)

Priority Applications (9)

Application Number Priority Date Filing Date Title
EP23167376.5A EP4286962A1 (de) 2022-06-02 2023-04-11 Regulierorgan für uhr, das eine rückervorrichtung umfasst, die mit verriegelungsmitteln ausgestattet ist
US18/315,523 US20230393526A1 (en) 2022-06-02 2023-05-11 Timepiece regulating member comprising an index-assembly system provided with locking means
JP2023085922A JP2023178233A (ja) 2022-06-02 2023-05-25 精密なインデックスアセンブリーシステムを備える計時器用規制メンバー
CN202310606348.4A CN117170208A (zh) 2022-06-02 2023-05-26 包括设有锁定装置的快慢针组件系统的钟表调速机构
CN202321304309.0U CN220064632U (zh) 2022-06-02 2023-05-26 用于钟表机芯的调速机构、钟表机芯及钟表
JP2023088507A JP2023178244A (ja) 2022-06-02 2023-05-30 ロック手段を設けられたインデックスアセンブリシステムを備えた計時器調節部材
CN202310623073.5A CN117170209A (zh) 2022-06-02 2023-05-30 设有精密快慢针组件系统的钟表调速机构
KR1020230070362A KR20230167736A (ko) 2022-06-02 2023-05-31 로킹 수단이 제공된 인덱스-조립체 시스템을 포함하는 타임피스 조절 부재
US18/328,362 US20230393527A1 (en) 2022-06-02 2023-06-02 Timepiece regulating member provided with a precision index-assembly system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP22177059.7A EP4286960A1 (de) 2022-06-02 2022-06-02 Regulierorgan für uhr, das mit einer rückervorrichtung ausgestattet ist

Publications (1)

Publication Number Publication Date
EP4286961A1 true EP4286961A1 (de) 2023-12-06

Family

ID=81877979

Family Applications (2)

Application Number Title Priority Date Filing Date
EP22177059.7A Pending EP4286960A1 (de) 2022-06-02 2022-06-02 Regulierorgan für uhr, das mit einer rückervorrichtung ausgestattet ist
EP22215645.7A Pending EP4286961A1 (de) 2022-06-02 2022-12-21 Uhrregulierungsorgan mit einer präzisionsrückervorrichtung

Family Applications Before (1)

Application Number Title Priority Date Filing Date
EP22177059.7A Pending EP4286960A1 (de) 2022-06-02 2022-06-02 Regulierorgan für uhr, das mit einer rückervorrichtung ausgestattet ist

Country Status (5)

Country Link
US (1) US20230393528A1 (de)
EP (2) EP4286960A1 (de)
JP (1) JP2023178243A (de)
KR (1) KR20230167735A (de)
CN (2) CN117170207A (de)

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2437126A1 (de) * 2010-10-04 2012-04-04 Rolex Sa Regulierorgan mit Spiralunruh
US20140286143A1 (en) * 2013-03-19 2014-09-25 Nivarox-Far S.A. Timepiece balance spring adjustment mechanism
EP2876504A1 (de) 2013-11-20 2015-05-27 ETA SA Manufacture Horlogère Suisse Schraubenloser Spiralklötzchen-Träger für Uhr
CH704687B1 (fr) * 2011-03-23 2015-11-30 Lvmh Swiss Mft Sa Organe réglant pour pièce d'horlogerie.
WO2016192957A1 (fr) 2015-06-03 2016-12-08 Eta Sa Manufacture Horlogère Suisse Résonateur à réglage fin par raquetterie
US10761484B2 (en) * 2017-08-31 2020-09-01 Eta Sa Manufacture Horlogere Suisse Balance-spring stud-holder for a mechanical timepiece movement
EP4009115A1 (de) * 2020-12-02 2022-06-08 Omega SA Spiralfeder für resonatormechanismus eines uhrwerks, der mit mitteln zum ausgleichen der starrheit ausgestattet ist

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CH704687B1 (fr) * 2011-03-23 2015-11-30 Lvmh Swiss Mft Sa Organe réglant pour pièce d'horlogerie.
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EP2876504A1 (de) 2013-11-20 2015-05-27 ETA SA Manufacture Horlogère Suisse Schraubenloser Spiralklötzchen-Träger für Uhr
WO2016192957A1 (fr) 2015-06-03 2016-12-08 Eta Sa Manufacture Horlogère Suisse Résonateur à réglage fin par raquetterie
US10761484B2 (en) * 2017-08-31 2020-09-01 Eta Sa Manufacture Horlogere Suisse Balance-spring stud-holder for a mechanical timepiece movement
EP4009115A1 (de) * 2020-12-02 2022-06-08 Omega SA Spiralfeder für resonatormechanismus eines uhrwerks, der mit mitteln zum ausgleichen der starrheit ausgestattet ist

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US20230393528A1 (en) 2023-12-07
JP2023178243A (ja) 2023-12-14
CN220040974U (zh) 2023-11-17
EP4286960A1 (de) 2023-12-06
CN117170207A (zh) 2023-12-05

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