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EP2784603A1 - Vorrichtung zur Anzeige einer Zeitinformation - Google Patents

Vorrichtung zur Anzeige einer Zeitinformation Download PDF

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Publication number
EP2784603A1
EP2784603A1 EP14161239.0A EP14161239A EP2784603A1 EP 2784603 A1 EP2784603 A1 EP 2784603A1 EP 14161239 A EP14161239 A EP 14161239A EP 2784603 A1 EP2784603 A1 EP 2784603A1
Authority
EP
European Patent Office
Prior art keywords
cam
lever
probe
flank
action
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.)
Granted
Application number
EP14161239.0A
Other languages
English (en)
French (fr)
Other versions
EP2784603B1 (de
Inventor
Blaise FRACHEBOUD
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.)
Rolex SA
Original Assignee
Rolex 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 Rolex SA filed Critical Rolex SA
Priority to EP14161239.0A priority Critical patent/EP2784603B1/de
Publication of EP2784603A1 publication Critical patent/EP2784603A1/de
Application granted granted Critical
Publication of EP2784603B1 publication Critical patent/EP2784603B1/de
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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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
    • G04B19/00Indicating the time by visual means
    • G04B19/02Back-gearing arrangements between gear train and hands
    • 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
    • G04B19/00Indicating the time by visual means
    • G04B19/06Dials
    • G04B19/08Geometrical arrangement of the graduations
    • G04B19/082Geometrical arrangement of the graduations varying from the normal closed scale
    • 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
    • G04B19/00Indicating the time by visual means
    • G04B19/24Clocks or watches with date or week-day indicators, i.e. calendar clocks or watches; Clockwork calendars
    • G04B19/243Clocks or watches with date or week-day indicators, i.e. calendar clocks or watches; Clockwork calendars characterised by the shape of the date indicator
    • G04B19/247Clocks or watches with date or week-day indicators, i.e. calendar clocks or watches; Clockwork calendars characterised by the shape of the date indicator disc-shaped
    • G04B19/25Devices for setting the date indicators manually
    • 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
    • G04B19/00Indicating the time by visual means
    • G04B19/26Clocks or watches with indicators for tides, for the phases of the moon, or the like
    • G04B19/268Clocks or watches with indicators for tides, for the phases of the moon, or the like with indicators for the phases of the moon

Definitions

  • the invention relates to a device for displaying a temporal information with the aid of an indicator member for a timepiece.
  • the display In some display devices, called “retrograde", the display is non-circular. Instead of performing a complete revolution, the indicator organ travels from a starting point A to an arrival point B in front of a graduation representing a quantity related to time. Once the path from A to B is achieved, the indicator organ returns back to point A instantaneously.
  • This type of display can be used for any type of size related to time, such as seconds, minutes, hours, days, weekdays or moon phases.
  • a retrograde display device generally comprises a cam in the form of spiral or spiral, whose profile has an abrupt flank.
  • a lever is supported against the cam via a probe.
  • a return spring ensures the support of the lever against the cam.
  • the lever is provided with a rake, or toothed portion, adapted to mesh and drive a drive gear of the indicator member.
  • the rotation of the cam in a first direction corresponding to the chronological direction, or hourly causes the driving of the indicator member from its starting position A, in which the probe is in a low position down the side of the cam, to its arrival position B, in which the probe is in the up position at the top of the side of the cam.
  • the cam continues to rotate.
  • the probe then moves from its high position to its low position instantaneously, causing the indicator member to return to the starting position A.
  • the document EP1918792 discloses a timepiece provided with a conventional retrograde display device having a spiral-shaped cam and a retrograde display lever in contact with the cam profile via a feeler.
  • the display lever controls an indicator hand of a time size.
  • a disengagement device is added to the display device.
  • the disengagement device allows to move the probe from the retrograde display lever of the path of the cam.
  • the indicator needle is in a predetermined position and indicates no value of the time value.
  • the disengagement device thus makes it possible at any time to perform a bidirectional correction of the display of the time value.
  • the correction made is not visible to the user, which may lead to adjustment errors of the timepiece.
  • the disengaging device requires a large number of components that are added to the conventional mechanism.
  • the object of the invention is to provide a device that overcomes the drawbacks mentioned above and improves the devices known from the prior art.
  • the invention proposes a simple, reliable and robust device allowing a rearward correction of a retrograde system.
  • the invention relates to a display device according to claim 1.
  • the invention thus originates from a problem of retrograde display device.
  • the applicant intends not to limit the scope of his application to this particular example of application, but to extend it to any type of display device comprising a cam with at least one sidewall and a control probe intended to raise this sidewall. .
  • the cam flank When raising the flank by the probe, the cam flank exerts on the probe a force of action.
  • This action force has the effect of acting on the probe so as to move relative to the lever, against the return action of the second elastic means, and thus to avoid damaging the mechanism.
  • the invention provides for interposing second elastic means between the feeler and the lever so as to allow a displacement relative of the probe relative to the lever during the ascent of the sidewall.
  • These second elastic means are of course distinct from the first elastic means which are arranged to bias the lever so as to bear against the cam via the probe. During the relative movement of the probe relative to the lever, the probe approaches the lever and thus retracts against the return action of the second elastic means.
  • the action force exerted by the sidewall of the cam on the probe during the passage of the sidewall in the second direction of movement of the cam acts to cause immobilization of the lever.
  • the action force acts on the lever to cause a pivoting effect thereof against a stop.
  • the lever being adapted to pivot about a pivot point, the action force passes substantially through said pivot point of the lever.
  • the drive lever comprising a drive arm of the indicator member, an angle of action, formed by the action force of the cam on the probe and the segment connecting the point of contact of the probe and the cam flank and the pivot point of the lever is located in the half-plane defined by the line containing said segment and not containing the drive arm of the lever.
  • the line containing the point of contact between the probe and the cam and the pivot point of the lever defines two half-planes, one containing the lever drive arm, the other not containing said arm.
  • the positioning of the angle of action in the half-plane not containing the lever arm has the effect of ensuring a force tending to pivot the lever arm in the correct direction to immobilize it against the stop.
  • said angle of action is between 0 and 180 °.
  • the invention thus uses, in a clever way, the stop immobilizing the lever at the end of descent of the sidewall to also immobilize the lever during the ascent of the sidewall.
  • said stop is arranged to immobilize the lever, during the displacement of the cam in the first direction, when the probe reaches the bottom of the sidewall.
  • the probe head is thus shaped to ensure continuous contact between the probe and the cam flank, during the entire movement of the probe along the cam flank, during the ascent of the cam flank.
  • the geometry of the probe is advantageously adapted so that there is no contact between the probe tip and the sidewall when the probe passes from the top of the cam flank to the bottom of the cam flank.
  • the probe in another embodiment, includes a head flange shaped to provide continuous contact between the probe flank and the upper end of the cam flank (i.e., the end at the cam portion of larger radius), during the ascent of the cam flank by the probe.
  • the probe is pivotally mounted on the lever.
  • the probe can rotate relative to the lever without arching.
  • an angle formed by the normal to the cam in contact between the feeler and the cam flank and the half-line originating from said contact and passing through the pivot point of the probe is greater than the angle formed by the normal to the contact between the probe and the cam flank and the reaction force exerted by the probe on the sidewall.
  • the displacement of the cam in the first direction causes a prestressing of the second resilient means, which is compensated by a shaped cam profile to ensure an accurate display of the time information.
  • the second resilient means comprise a flexible blade.
  • the lever, the second elastic means and the probe are made in one piece.
  • the lever is secured to a toothed portion adapted to cooperate with the toothing of a drive pinion of the indicator member.
  • the toothed part may comprise teeth to catch play.
  • the teeth clearance play allows to minimize display errors. It still helps to limit shocks and mitigate the effects of inertia when the time indication element suddenly returns to its initial position.
  • the lever can be manufactured with one of the materials of the group comprising Ni, NiP and Si.
  • the invention also relates to a watch movement comprising a display device defined above.
  • the invention also relates to a timepiece integrating the display device defined above or the watch movement defined above.
  • the timepiece may comprise a basic movement and a display device defined above, the cam of the display device being driven by the base movement.
  • a first embodiment of the display device according to the invention is represented on the figure 1 showing an embodiment of a timepiece 300 according to the invention.
  • the timepiece comprises a watch movement 200.
  • the watch movement comprises the display device 100.
  • This display device is intended to be integrated into a watch movement of a timepiece.
  • the display device 100 of the figure 1 is intended to drive an indicator member 1, here an indicator pointer, of a magnitude related to time (or time information).
  • Needle 1 appears in particular on Figures 2A , 3A and 4A .
  • the magnitude related to time is the time shown on a 24-hour scale placed on an angular arc of 180 °.
  • the forward path of the needle 1, in the time display phase goes from a "0h” position to a "24h” position.
  • the needle 1 is intended to make an instant return trip from the "24h” position to the "0h” position at midnight.
  • the invention could of course be applied to any type of magnitude related to time (seconds, minutes, calendars, days of weeks, moon phases, etc.), to a retrograde display represented on any angular arc and to a non-retrograde display, as will be explained in more detail at the end of the description.
  • the display device comprises a cam 2, a probe 3 and a lever 4.
  • the cam 2 is in the form of a spiral, with a spiral profile and mounted on an axis 20 rotating about a point of rotation 21.
  • the spiral profile of the cam 2 is referenced 24.
  • the cam 2 is kinematically linked to a basic movement of the timepiece through a wheel 22 meshing with a drive wheel 8, for example driving a needle 80 for circular hour indication, as shown in the Figures 2A , 3A and 4A .
  • the profile 24 of the cam 2 in a plane perpendicular to its axis of rotation 21, corresponds, at least substantially, to a spiral portion of Archimedes.
  • the cam 2 has a flank 23 connecting the cam portion of smaller radius and the cam portion of larger radius. In normal operation (that is to say during a time display phase), the flank 23 has the role of ensuring the return to the initial position "0h" of the indicator hand 1, once the final position "24h” reached.
  • the lever 4 comprises an arm 40, a toothed portion 41 and a counterweight portion 42.
  • the lever 4 is pivotally mounted on an axis 43, about a pivot point 44.
  • the pivot axis 43 of the lever 4 and the axis of rotation 20 of the cam 2 are fixed relative to each other.
  • the toothed portion 41 is integral with the end of the arm 40, opposite the axis 43. It meshes with the toothing of a pinion 10 driving the needle 1.
  • the lever 4 carries the toothed portion 41 intended to cooperate with the driving pinion of the indicator organ.
  • the toothed portion 41 and / or the pinion 10 may have a clearance toothing 45 in order to minimize the display errors of the indication provided by the display device.
  • An example of teeth with catch-up play, usable in the invention, is disclosed in particular in the document EP2112567 .
  • the Figures 10 and 11 are examples of embodiments of teeth 45 to play clearance. The teeth are arranged so that teeth mesh in the "0h" and "24h" positions.
  • the counterweight portion 42 has a generally semicircular shape and is located on the side of the pivot axis 43 opposite the arm 40.
  • the counterweight 42 is adapted to coincide, at least substantially, the center of mass of the lever 4 and its point of contact. pivoting 44.
  • the probe 3 comprises an arm 30 and a head 31.
  • the arm 30 extends along a longitudinal axis AX1, shown in FIG. figure 1 , in the vicinity and generally along the arm 40. It comprises two ends 33, 34 respectively close to the counterweight portion 42 of the lever 4 and the toothed portion 41. The end 34 and the end 33 are respectively integral with the arm 40 and a flexible blade 5.
  • the arm 30 is pivoted on the lever 4 at a pivot point 32, located near the connection between the arm 30 and the lever 4. Let us note y the angle, represented on the figure 1 formed by the longitudinal axis AX1 of the arm 30 and the segment connecting the pivot point 32 of the probe 3 and the pivot point 44 of the lever 4.
  • the flexible blade 5 is curved and has, with the arm 30, an S shape.
  • the end of the blade 5 opposite to that integral with the arm 30 is integral with the counterweight portion 42.
  • the flexible blade acts as a spring recall 5, interposed between the probe 5 and the lever 4, against the action of which the probe 3 is arranged to rotate under the action of the cam 2, as will be explained in the description of operation.
  • the shape of the probe head is only an illustrative embodiment, non-limiting. In any case, the probe head has a shape adapted to ensure proper operation.
  • the probe head 31 is adapted to be in contact with the cam 2 either by the flank 310 or by the tip 312, as shown in FIGS. Figures 8A and 8B .
  • the contact flank 310 is intended to come into contact with a cam portion, close to the cam top (that is to say from the top of the flank 3, having a maximum cam radius), after the ascent or before the descent of the cam flank 23 by the probe 3, as will be explained later.
  • the contact tip 312 is intended to be in contact with the rest of the cam profile 24, in particular the sidewall 23.
  • the tangent T 1 to the cam flank 23 passing through the upper end of this flank 23 (that is to say the end of the flank 23 located near the cam portion of greater radius) and the tangent T 2 to the cam profile 24 at the low end point of this profile 24 (i.e. at the point of the smaller radius cam profile 24, at the bottom of the cam flank 23) form a space delimited by an angle ⁇ and within which the probe head 31 can romp.
  • the angle ⁇ is preferentially obtuse. In the particular example shown on the Figures 8A and 8B this angle ⁇ is at least of the order of 100 °.
  • the spring 6 is arranged to urge the lever 4 so as to support the lever 4 against the cam 2 by means of the feeler 3 and thus provide a support of the probe 3 against the cam 2.
  • the normal operation corresponds to the conventional display in the clockwise or chronological direction, of a temporal information, here the hour on a scale of 24h arranged on an angular arc of 180 °. It will be described with reference to Figures 2A-2B , 3A-3B , 4A-4B .
  • the shape of the probe head 31 is adapted to avoid any contact between the tip 312 of the probe head 31 and the cam flank 23 during the passage of the probe head 31 from the top of the cam 2 to the bottom of the flank of FIG. cam 23.
  • the raising of the cam profile 24 by the probe head 31 causes a displacement of the needle 1 from the "0h” position to the "24h” position in a rotational movement of 180 ° in the trigonometrical direction.
  • the passage from the top of the cam 2, at the top of the cam flank 23, to the bottom of the cam flank 23 causes instantaneous return of the needle 1 to the "0h” position.
  • the Figures 2A , 3A and 4A represent the display device respectively at different times, namely 22h, just before midnight and just after midnight, during normal operation.
  • a circular dial with hands 80, 81 for indicating the hours and minutes of the basic movement of the timepiece is also shown.
  • the Figure 2A represents the display device at 22h.
  • the lever 4 is pivoted so as to position the needle 1 in front of the indication "22h" of the graduation.
  • the Figure 2B represents an enlargement of the cam 2 and the probe head 31 in this position "22h". It will be noted that the head 31 is in contact with the upper part of the cam 2 by its side 310.
  • the figure 3A represents the display device at midnight (24h), when the probe head 31 reaches the high position of the cam 2, at the top of the flank 23, just before the passage from the top of the cam flank 23 to the bottom of the cam flank 23 by the head 31 of the probe 3.
  • the figure 3B represents an enlargement of the cam 2 and probe head 31 in the "midnight” position. In this position, the needle 1 indicates "24h".
  • the head 31 of the probe 3 bears against the top of the cam 2 by the contact tip 312.
  • FIG 4A represents the display device just after midnight, the needle 1 indicating "0h". This position is reached just after the passage from the top of the cam flank 23 to the bottom of the cam flank 23 by the feeler head 31.
  • Figure 4B represents an enlargement of the cam 2 and the probe head 31 in the "0h” position.
  • the lever 4 pivots in the trigonometric direction until it bears and stops against the stop 7. The pivoting of the lever 4 causes a return back snapshot of the needle 1 from the "24h” position to the "0h” position, by rotation in the antitrigonometric direction.
  • the return spring 5 is dimensioned so as to be as rigid as possible during the rotation of the cam 2 in the forward direction (trigonometric direction in the particular example described). However, this rigidity is limited by the stresses within the material and the allowable torque to the cam 2 during a correction of the time in reverse. Indeed, it is not necessary that the rigidity of the spring 5 is too important, because it would result in significant efforts to allow the passage of the flank 23. As a result, during the rotation of the cam 2 in the direction of travel before, in normal operation, the return spring 5 undergoes a prestressing and is slightly deformed under the action of the cam 2 on the probe 3. This preload and this deformation depend on the action exerted by the spring 6 recalling the lever to the stop 7.
  • this action itself depends on the position of the lever relative to the stop.
  • This deformation induces a time shift in the display of the needle 1 relative to the display of a needle connected to a mechanism comprising a probe mounted rigidly on a lever.
  • This time difference is quantifiable and corresponds to a given duration, for example 1h. It is compensated by an adaptation of the cam profile 24.
  • the cam profile 24 is adapted, modified with respect to a cam profile, said "initial”, 25 operating with a similar mechanism (feeler, spring and lever) that would be perfectly rigid.
  • the figure 9 represents the initial cam profile 25 and the cam profile 24 of the display device of the figure 1 .
  • the two cam profiles 24, 25 substantially correspond to an Archimedean spiral.
  • a correction in reverse is to correct the display counterclockwise or anti-chronologically. Operation in the reverse correction phase will be described with reference to Figures 5 to 7C .
  • the cam 2 is rotated in a second direction, called "reverse", anti-trigonometric.
  • the needle 1 moves from the "24h” position to the "0h” position.
  • the cam follower 31 is positioned at the bottom of the cam flank 23 and the lever 4 bears against the stop 7.
  • the immobilization of the lever 4 during the ascent of the flank 23 allows immobilization of the needle 1 and prevents any erroneous indication of the needle 1 during the ascent of the flank 23.
  • the needle 1 is instantaneously in a synchronized display position with the position of the main hands 30 and 40 of the hours and minutes, as shown in FIGS. Figures 6A and 6B .
  • the stop 7 serves, during normal operation, to immobilize the lever 4 at the end of descent of the sidewall 23 and thus to immobilize the needle in position "0h” just after midnight, after its return “retrograde” from the position "24h” .
  • the stop 7 also serves to stably immobilize the lever 4 and thus immobilize the needle 1 in the "0h” position. Thanks to this, the needle 1 is perfectly stable during the ascent of the flank 23.
  • FIGS 7A to 7C represent the force vector F action of the cam flank 23 on the probe head 31 and the force vector F the feeler tip 312 is reacted on the flank 23 during the raising of the flank 23 by the probe head 31.
  • the point C represents the point of contact between the probe head 31 and the flank 23.
  • the vector not represents the normal to flank 23 at point of contact C.
  • the angle ⁇ varies during the ascent of the flank 23 by the probe tip 312.
  • the pivot point 32 is defined in such a way that this angle ⁇ is greater than the angle Atan ( ⁇ ), during the entire ascent of the flank 23 by the probe head 31.
  • the moment when the angle ⁇ is the smallest and tends towards the angle Atan ( ⁇ ) corresponds to the moment when the point 312 reaches the top of cam 2 (in other words the top of the sidewall 23) , as shown on the Figure 7B .
  • the pivot point 32 is thus determined so that at the moment when the tip 312 reaches the top of the cam 2, the angle ⁇ is greater than the angle Atan ( ⁇ ) and thus allows the probe 3 to pivot relative to the lever 4. It will be noted, with reference to the Figure 7B , that when the probe tip 312 reaches the top of the cam 2, the compression of the return spring 5 is maximum.
  • the pivot point 44 of the lever 4 is defined in such a way that the action force F immobilizes the lever 4 or causes a pivoting of the lever 4, here in the counterclockwise direction, against the stop 7, which has the effect of to immobilize the lever 4.
  • the angle ⁇ defined by the vectors F and C44 and as represented on the Figure 7C , is positive and less than the value ⁇ : 0 ⁇ ⁇ ⁇ ⁇
  • the strength of action F and the angle ⁇ are located in the half-plane defined by the straight line containing the point of contact C and the pivot point 44 of the lever 4 and not containing said lever arm 40.
  • the force of action F acts to rotate the lever 4 against the stop 7 to immobilize effectively during the ascent of the side 23 by the probe 3.
  • the action force F is thus directed and located on the side of the pivot point 44 of the lever 4, capable of causing a pivoting effect of the lever 4, this pivoting taking place against the stop 7, thus immobilizing the lever 4.
  • the oriented angle ⁇ can be defined as an action angle formed by the force of action F of the cam on the probe and the segment, noted [C44], connecting the point of contact cam follower C and the pivot point 44 of the lever 4.
  • This angle of action ⁇ is located in the half-plane defined by the right containing this segment [C44] and not containing said lever arm 40. It is preferably between 0 ° and 180 °.
  • the action force F of the cam 2 on the probe 3 passes substantially through the pivot point 44 of the lever 4, ie the action angle ⁇ is 0. In this configuration, the action force F acts to immobilize the lever 4 without inducing its pivoting against a stop.
  • the probe 3, the lever 4 and the spring 5 are monobloc.
  • the figure 10 another example embodiment is shown which differs from that just described by the shape of the spring blade 5 which forms a U with the probe arm.
  • the display device could comprise an assembly comprising a lever 4 on which a feeler 3 is pivoted.
  • figure 11 represents, by way of illustration, a particular example of such an alternative embodiment.
  • the probe 3 is pivotally mounted on the lever 4 by means of a pivot.
  • the return spring 5, interposed between the lever 4 and the feeler 3, is formed by a flexible blade. This is here secured to the lever 4, at one of its ends, and in abutment against the arm 30 of the probe 3, at its other end.
  • the cam flank 23 is substantially straight. Alternatively, it may have a more or less marked curvature adapted in particular to ensure that the force of action F permanently passes through the pivot point 44 of the lever 4, or substantially by this pivot point 44, to immobilize the lever 4 (without pivoting effect against a stop).
  • the device which has just been described, according to various exemplary embodiments, can be implemented in order to indicate retrograde any temporal information, or derived from the time (indication of the time of a time zone, indication calendar such as the indication of the dates, days of the week, months, moon phases, etc ).
  • the invention is not limited to a retrograde application but concerns any implementation involving a lever cooperating with a cam (spiral or other) whose profile has at least one sidewall.
  • the invention could for example be applied to a perpetual calendar with a cam, for example such as that disclosed in the document EP0191921 , or within an instant jump chronograph counter, in other words within a chronograph whose counting of instantaneous indications is instantaneous, for example such as that disclosed in the document CH702137 .
  • the invention allows bidirectional driving of the display of the time information, whether or not it is indicated in a retrograde manner.
  • the display device of the invention is integrated in a watch movement, itself integrated into a timepiece comprising a base movement, to which the movement of the invention is kinematically related.
  • the invention therefore also relates to the watch movement incorporating the display device which has just been described and the timepiece.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Geometry (AREA)
  • Astronomy & Astrophysics (AREA)
  • Electromechanical Clocks (AREA)
  • Measurement Of Unknown Time Intervals (AREA)
EP14161239.0A 2013-03-28 2014-03-24 Vorrichtung zur Anzeige einer Zeitinformation Active EP2784603B1 (de)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP14161239.0A EP2784603B1 (de) 2013-03-28 2014-03-24 Vorrichtung zur Anzeige einer Zeitinformation

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
EP13161772 2013-03-28
EP14161239.0A EP2784603B1 (de) 2013-03-28 2014-03-24 Vorrichtung zur Anzeige einer Zeitinformation

Publications (2)

Publication Number Publication Date
EP2784603A1 true EP2784603A1 (de) 2014-10-01
EP2784603B1 EP2784603B1 (de) 2016-06-08

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EP14161239.0A Active EP2784603B1 (de) 2013-03-28 2014-03-24 Vorrichtung zur Anzeige einer Zeitinformation

Country Status (4)

Country Link
US (1) US8995238B2 (de)
EP (1) EP2784603B1 (de)
JP (1) JP6381940B2 (de)
CN (1) CN104076675B (de)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP3185090A1 (de) 2015-12-23 2017-06-28 Rolex Sa Zähler- und anzeigevorrichtung einer fraktion einer zeiteinheit
CH713354A1 (fr) * 2017-01-13 2018-07-13 Mft Et Fabrique De Montres Et Chronometres Ulysse Nardin Le Locle S A Mécanisme pour pièce d'horlogerie comportant une came et un palpeur, notamment pour montre régate ou montre à sonnerie.
EP3869280A1 (de) * 2020-02-19 2021-08-25 Montres Breguet S.A. Anzeigemechanismus für uhr

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107870550B (zh) * 2017-06-14 2023-11-28 深圳市飞亚达精密科技有限公司 一种手表时间显示结构
CN108535994B (zh) * 2018-03-23 2019-11-22 飞亚达(集团)股份有限公司 一种时间显示方法
EP3913442B1 (de) * 2020-05-20 2023-05-17 Blancpain SA Retrograder uhranzeigemechanismus, der mit einer sicherheitsvorrichtung ausgestattet ist

Citations (7)

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CH159199A (fr) * 1931-12-30 1932-12-31 Schild Sa A Mécanisme de commande instantanée du disque des heures aux montres à heures sautantes.
CH331410A (fr) * 1956-09-07 1958-07-15 Havlicek Emilian Pièce d'horlogerie
EP0191921A2 (de) 1985-02-20 1986-08-27 IWC International Watch Co. AG Uhr
EP1918792A1 (de) 2006-11-06 2008-05-07 Compagnie des Montres Longines, Francillon SA Uhr, die einen Korrekturmechanismus für eine Vorrichtung zur Anzeige einer Zeitgröße umfasst
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CH702137B1 (fr) 2007-02-05 2011-05-13 Patek Philippe Sa Geneve Dispositif d'entraînement et de réglage d'un compteur instantané et pièce d'horlogerie comportant un tel dispositif.
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CH713354A1 (fr) * 2017-01-13 2018-07-13 Mft Et Fabrique De Montres Et Chronometres Ulysse Nardin Le Locle S A Mécanisme pour pièce d'horlogerie comportant une came et un palpeur, notamment pour montre régate ou montre à sonnerie.
EP3349072A1 (de) * 2017-01-13 2018-07-18 Manufacture et fabrique de montres et chronomètres, Ulysse Nardin Le Locle S.A. Mechanismus für uhr, der einen nocken und einen taster umfasst
EP3869280A1 (de) * 2020-02-19 2021-08-25 Montres Breguet S.A. Anzeigemechanismus für uhr
US11586149B2 (en) 2020-02-19 2023-02-21 Montres Breguet S.A. Horological display mechanism

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US20140293757A1 (en) 2014-10-02
JP6381940B2 (ja) 2018-08-29
JP2014194416A (ja) 2014-10-09
US8995238B2 (en) 2015-03-31
CN104076675B (zh) 2018-04-13
CN104076675A (zh) 2014-10-01
EP2784603B1 (de) 2016-06-08

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