The present invention relates to the field of horology, and more specifically to a display module for a timepiece.
There exist state-of-the-art mechanical watches including display devices, particularly time display devices, which possess original features distinguishing them from conventional analogue displays, which usually include an hour hand coaxial with a minute hand at the centre of the movement.
By way of example, Swiss Patent Application No 01949/07 (unpublished) discloses a timepiece display device comprising several elongated prisms. Each prism is capable of being actuated to pivot in rotation about its longitudinal axis, enabling one of the lateral faces thereof to be oriented in a display plane, so that, viewed together, all of the lateral faces displayed provide information relating to the legal time. Close to its periphery, the display device includes several display modules; each display module including several elongated prisms arranged side-by-side lengthwise so as to form a display surface. The visual appearance of each lateral face of each prism of each module is devised to enable the legal time information to be recreated on the display surface of one of the display modules when the prisms of that module are oriented side-by-side in the display plane. The display device further includes a rotating member arranged coaxially at the centre of the movement, said rotating member being capable of revealing, by rotating about its axis, one of the display modules corresponding to the legal time.
It is an object of the present invention to propose another original display device for indicating, in particular, the hours.
According to the invention, this object is achieved via a timepiece display module intended to display a series of alphanumerical characters and/or pictures at different times. The display module includes a platform arranged to be actuated in rotation about an Axis and several wheel sets arranged on the platform so that each wheel set turns on itself while orbiting about the axis of rotation of said platform when the latter is actuated in rotation. The display module further includes several wings which are arranged on each wheel set so as to be positioned in turn at the centre of the display module. Each wing of each wheel set is actuated such that the wings are oriented in a substantially identical plane at the centre of the display module and are adjacent to each other so as to form a central display unit. Each wing includes one portion of an alphanumerical character or picture so that the central display unit, formed of several wings, can display, at any time, one of the alphanumerical characters and/or pictures.
Preferably, the display module according to the invention is intended to display, in series on the central display unit, the numbers 1 to 12 representing the hours. For this purpose, the module includes four wheel sets each including six wings, which each have on both faces thereof one portion of the numbers from 1 to 12.
The features of the invention will appear more clearly upon reading the description of a preferred embodiment, given solely by way of non-limiting example with reference to the schematic drawings, in which:
According to the preferred embodiment of the invention the display module illustrated in
The complexity of the invention lies in the movement to be imparted to the wings since:
To achieve this specific mode of driving the wings, the module has a platform 3 (
In
A wing carrier 14, in the form of a pin, is mounted on each satellite wheel 13 along the axis of rotation thereof and, at the top end, has an orifice 15 inside which an arbour 16 is fitted (
In order to position, in turn, one wing of each wheel set 5 at the centre of the display module every hour, the four wheel sets move orbitally through 90° when platform 3 is actuated to rotate through 90° for a period which is set by the display module drive device and is preferably between five and ten seconds. During this time period, frame 9 makes a 120° rotation on itself while the three wing carriers 14 each make a 180° rotation relative to frame 9.
One of the major difficulties that the invention proposes to overcome concerns the movement that has to be imparted to each wing 1 for the wings to make a rotation on their axis 16 so that the first fraction of a number arranged on one of the wing faces is visible for one hour at the centre of the display module, and so that the second fraction of another number arranged on the other wing face is visible for one hour when the wing is repositioned at the centre of the display module six hours later. This allows the numbers 1 to 12 to be displayed in series on central display unit 2 while preventing any collision between the wings during the hour change.
For this purpose, referring now to
The geometry of wheel set 19 and of elliptical gears 18 is set so as to cause a variation in gear ratio so that, every hour, each wing turns twice, respectively three times alternately about its pivot axis so as to display the numbers 1 to 12 in series. More specifically, the circumference of wheel set 19 is the result of a mathematical relation providing the best possible rotation. Elliptical gears 18 are arranged at 120° from each other, so that each gear 18 meshes with one of the three rectilinear segments of wheel set 19 during an hour change, and then with one of the curved segments of said wheel set 19 during the next hour change (one unit incrementation of the hours). When elliptical gear 18 moves along the rectilinear segment, respectively the curved segment of wheel set 19, cylinder 17 pivots through 144°, 216° respectively about its axis. The gear ratios between the two conical pinions 20, 21 are determined so that the wings of each carrier 14 make one revolution about their pivot axis during the hour change, then one and a half revolutions during the next hour change. Given that each wing is repositioned at the centre of the display module every six hours, during that time period, the wing will thus have made 7.5 revolutions about arbour 16. This means that each wing can be oriented so that both of the faces thereof are visible at the centre of the module for one hour, at six hour intervals.
The profile of the toothings of wheel set 19 and of elliptical gears 18 is obtained by means of Pro/ENGINEER™ type software, whose calculation capacity is currently able to design virtual gears formed of “wheels” of quite extreme shapes and to analyse various parameters such as angular play and yield on the meshing of a tooth of a given shape. It is possible nowadays to manufacture these “wheels” in particular using a deep photolithography method.
The table below summarises the movements imparted to the essential elements of the display module after every hour:
According to this Table, frame 9 of each wheel set 5 makes one complete revolution on itself in the space of three increments of the hour display when platform 3 performs three-quarters of a revolution. During this time period, carrier 14 makes one and a half revolutions and positions both of the wings of each carrier at the centre of the module for one hour, at three hour intervals. Finally, the pivot arbour 16 of the wings respectively makes 7.5 and 15 revolutions during six, respectively twelve incrementations of the hours so that the first fraction of a number arranged on one of the faces of each wing is visible for one hour at the centre of the display module, and so that the second fraction of another number arranged on the other face thereof is visible for one hour when the wing is repositioned at the centre of the display module six hours later.
In order for the display module to be actuated every hour to perform the hour change, a release mechanism is arranged to drive platform 3 through a 90° rotation every hour. Thus, the mechanism of
Referring now to
In
To control and optimise the kinematic energies present, an inertia governor 42 is connected to release wheel 32 by means of an intermediate wheel 41 (
It goes without saying that the invention is not limited to the preferred embodiment described above but that it covers all the variant embodiments. By way of example, the wings may each include a portion of a picture in order to recreate different pictures at different times.
Number | Date | Country | Kind |
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00426/11 | Mar 2011 | CH | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB12/00472 | 3/14/2012 | WO | 00 | 11/18/2013 |