This application claims priority to European Patent Application No. 19185917.2 filed on Jul. 12, 2019, the entire disclosure of which is hereby incorporated herein by reference.
The invention concerns a timepiece display mechanism of variable geometry, comprising at least one resilient hand which includes a first drive pipe integral with a first end of a flexible strip, and a second drive pipe integral with another end of said flexible strip, and comprising a display index which, in an unconstrained free state of said resilient hand in which said first pipe and said second pipe are not subject to any stress and are distant from each other, is distant from said first pipe and said second pipe, the operating position of said resilient hand being a stressed position wherein said first pipe and said second pipe are coaxial to one another about an output axis, said display mechanism comprising first means for driving said first pipe about said output axis, and second means for driving said second pipe about said output axis, said first drive means and said second drive means being arranged to deform said flexible strip, by varying the angular position of said second pipe with respect to the angular position of said first pipe about said output axis, and to vary the radial position of said display index with respect to said output axis.
The invention concerns a timepiece movement including at least one such display mechanism.
The invention concerns a watch including at least one such movement and/or at least one such display mechanism.
The invention concerns the field of timepiece display mechanisms, and more particularly for timepieces with complications. The invention can be used both for static timepieces, such as pendulums or clocks, and for watches, due to the small dimensions of the mechanism of the invention.
It is important for the user to view the display members on a timepiece clearly.
The dials of many timepieces are not circular, and it is advantageous to have solutions for occupying all the available surface for an even clearer view.
The design of display mechanisms with variable geometry makes it possible to break up some of the monotony of the displays, and to liven up the display, with a different appearance according to the time of day, or at particular time periods. For example, from a very large number of other possible applications, an AM/PM display can be provided simply by the shape of a hand, which has a first appearance during the twelve hours of the morning, and a second appearance during the rest of the day; it is also possible to distinguish between day/night displays, time zone displays or others.
Resilient hands, and display mechanisms comprising such resilient hands, have been disclosed in European Patent Nos. EP2863274, EP3159751 and EP18186552, which disclose numerous variants.
The invention proposes to further simply such a mechanism and to make it even more compact and economical to produce.
To this end, the invention concerns a timepiece display mechanism with variable geometry according to claim 1.
The invention concerns a timepiece movement including at least one such display mechanism.
The invention concerns a watch including at least one such movement and/or at least one such display mechanism.
Other features and advantages of the invention will appear upon reading the following detailed description, with reference to the annexed drawings, in which:
and
Patent Application No. EP18186552, incorporated herein by reference, relating to a timepiece display mechanism with variable geometry and a resilient hand, discloses a first actuation mechanism using wheel sets with shaped toothings. Such an embodiment makes it possible to produce very innovative displays in horology, but is, however, expensive and reserved for luxury timepieces.
The same Application also discloses a second type of actuation mechanism using a first differential on the train of the first pipe and a second differential on the train of the second pipe, and at least one cam forming an input of such a differential. Consequently, it is necessary to find a planetary gear (differential) of suitable dimensions. Planetary gears have the advantage of achieving high gear ratios in a compact space. The input and output shafts are in the extension of one another. There is a very large number of possible gear combinations. In particular, they can produce advantageous gear boxes. In the present case, it is a question of controlling one of the differential inputs, in order to generate an advance and respectively a lag of an equivalent specific value at each of the ends of the hand. And, when this value is zero, a transmission ratio of 1 must be obtained (the positive value means that the direction must also be identical).
This
The invention proposes to further simplify the mechanism and to make it even more compact and economical to produce. In particular, when the resilient hand is to be placed on a small calibre, such as a ladies' watch, and especially on the minute hand, the main difficulty relates to the low torque available. It is therefore necessary to create a mechanism with the lowest possible energy consumption.
By diverging from the normal operation of a differential, the invention proposes to control the planet. By inserting a feeler in the planet and controlling the latter via a round cam, we obtain a gear ratio equal to one between the sun wheel and the planet carrier frame: the assembly then behaves like a wheel and pinion.
Replacing the round cam of this example with a suitably shaped cam henceforth makes it possible to control the advance or lag that we wish to obtain on the pipe. It is to be noted that, here too, the mechanism has no return spring to maintain the contact of the feeler on the cam, since it is the resilient hand which performs this function.
In the case of a single frame carrying the two planets of the first and second differential, one above the frame for the second pipe, and the other below the frame for the first pipe, we obtain a system capable of reproducing the same advances and lags as the mechanism of Patent No. EP18186552 or of the present
Using the cams represented in
The invention therefore more particularly concerns a timepiece display mechanism 10 with variable geometry including at least one resilient hand 1.
Such a resilient hand, and display mechanisms comprising such resilient hands, have been disclosed in European Patent Nos. EP2863274, EP3159751 and EP18186552, which disclose numerous variants.
This resilient hand has a first drive pipe 2 integral with a first end of a flexible strip 3, and a second drive pipe 4 integral with another end of flexible strip 3.
This flexible strip 3 may be a continuous strip, or a strip comprising a succession of segments 5 joined two-by-two at tips 6, as seen in
Display mechanism 10 comprises first means 11 for driving first pipe 2 about output axis D and second means 13 for driving second pipe 4 about output axis D.
Variants wherein first pipe 2 and second pipe 4 are not coaxial are not described here, but remain possible for some special displays, particularly displays which are not on a full revolution, such as retrograde displays or similar.
First drive means 11 and second drive means 13 are arranged to deform flexible strip 3, by varying the angular position of second pipe 4 with respect to the angular position of first pipe 2 about output axis D, and to vary the radial position of the display index with respect to output axis D.
According to the invention, display mechanism 10 comprises a first differential 912 on the drive train of first pipe 2, one input of which is formed by a first cam 92 or 820, and a second differential 914 on the drive train of second pipe 4, one input of which is formed by a second cam 94 or 810. Depending on the configuration adopted, the first cam may be a fixed cam or a movable cam, and the second cam may be, likewise, a fixed cam or a movable cam.
Advantageously, first differential 912 and second differential 914 have a common planet carrier frame or two synchronous planet carrier frames, carrying planets 82, 84, which each have an off-centre feeler 83, 85, which is arranged to follow its respective cam 92, 820, 94, 820, depending on the variant.
More particularly, first drive means 11 or second drive means 13 are arranged to drive another input of an input differential, which is a different input from the cam referred to above forming one of the inputs of the differential concerned. This input differential is one of first differential 912 or second differential 914; for example, in the variant of
This other input is formed by a first planet of the input differential. The first planet is mounted to rotate freely on an input planet carrier frame 80, which is itself mounted to rotate freely about output axis D. And the sun pinion of the input differential is formed, either by a first toothing 21 carried by first pipe 2 when the input differential is first differential 912, or by a second toothing 41 carried by second pipe 4 when the input differential is second differential 914. A ‘planet carrier frame’ means a frame able to carry at least one planet on any of its faces.
More particularly, the other of first differential 912 and second differential 914 is an output differential, another input of which is formed by a second planet of the output differential. This second planet is mounted to rotate freely on the input planet carrier frame 80 as in
More particularly, the second planet is mounted to rotate freely on planet carrier frame 80, on the face opposite that which carries the first planet, as seen in
More particularly, first differential 912 comprises a first planet 82 comprising a first off centre finger 83, which is arranged to traverse a first inner path 93 of first cam 92 or 820, notably a fixed cam, and is pressed against first inner path 93 by the resilience of resilient hand 1. Likewise, second differential 914 comprises a second planet 84 comprising a second off-centre finger 85, which is arranged to traverse a second inner path 95 of second cam 94 or 810, notably a fixed cam, and which is pressed against second inner path 95 by the resilience of resilient hand 1. It is advantageous to use the resilience of resilient hand 1 itself to avoid using a return component which would be necessary to press each feeler onto its cam path.
It is understood that the relative arrangement of cams 92, 820, 94, 810 may be achieved in various ways:
In a particular embodiment, to form an additional, easy-to-assembly unit, first cam 92 or 820, notably a fixed cam, is fixed in an indexed manner to second cam 94 or 810, notably a fixed cam, with which it forms a case. This case contains first pipe 2, second pipe 4, and, inserted to rotate freely between first cam 92 or 820, notably a fixed cam, and second cam 94 or 810, notably a fixed cam, either a single input planet carrier frame 80 carrying all the wheel sets of first differential 912 and of second differential 914, or an input planet carrier frame 80 carrying all the wheel sets of first differential 912 and an output planet carrier frame mounted to rotate freely about output axis D and synchronous with input planet carrier frame 80 and carrying all the wheel sets of second differential 914.
More particularly still, the first planet projects radially with respect to output axis D and with respect to first cam 91 or 820, notably a fixed cam, and to second cam 94 or 810, notably a fixed cam, and is arranged to cooperate with an internally toothed ring, comprised in display mechanism 10, to drive this at least one resilient hand 1.
The implementation of the invention makes it possible to obtain a large variety of different displays, depending on the kinematics imposed on the cams and the planet carrier frame or planet carrier frames when there are several.
Indeed, it is possible to impose a stoppage on some of these components, which may be a permanent stoppage with permanent attachment to a plate, bridge or suchlike, or which may be a controlled stoppage of the wheel set concerned, which can be released and set in rotation by the user or by the movement for a limited or unlimited duration, to temporarily obtain a particular display effect.
Thus, in a variant illustrated in
In another variant, first cam 92 or 820 and second cam 94 or 810 pivot and are synchronous.
Thus, in a variant illustrated in
In yet another variant illustrated in
The invention also concerns a timepiece movement 900 including at least one display mechanism 10 of this type.
The invention also concerns a watch 1000 including at least one such movement 900, and/or at least one such display mechanism 10.
In short, the invention makes it possible to generate advance or lag on the two pipes of the resilient hand, allowing complex trajectories to be produced, all in a very simple, compact manner, which uses low torque and is therefore very reliable.
Number | Date | Country | Kind |
---|---|---|---|
19185917 | Jul 2019 | EP | regional |
Number | Name | Date | Kind |
---|---|---|---|
3952500 | Tomura | Apr 1976 | A |
4601585 | Farley | Jul 1986 | A |
4671670 | Kruener | Jun 1987 | A |
4995021 | Sullivan | Feb 1991 | A |
5172350 | Walen | Dec 1992 | A |
9075392 | Stranczl | Jul 2015 | B2 |
10222749 | Denden | Mar 2019 | B2 |
10444708 | Cardot | Oct 2019 | B2 |
20150016232 | Graemiger | Jan 2015 | A1 |
20150109891 | Stranczl | Apr 2015 | A1 |
20170351219 | Paratte et al. | Dec 2017 | A1 |
20180341224 | Alagon Carrillo | Nov 2018 | A1 |
20180341227 | Alagon Carrillo | Nov 2018 | A1 |
20210026305 | Stranczl | Jan 2021 | A1 |
20210048782 | Stranczl | Feb 2021 | A1 |
20210223740 | Stranczl | Jul 2021 | A1 |
20210373497 | Bifrare | Dec 2021 | A1 |
Number | Date | Country |
---|---|---|
1808310 | Jul 2006 | CN |
201576169 | Sep 2010 | CN |
203982086 | Dec 2014 | CN |
104570687 | Apr 2015 | CN |
207380448 | May 2018 | CN |
108279557 | Jul 2018 | CN |
109839814 | Jun 2019 | CN |
208984958 | Jun 2019 | CN |
0 211 285 | Feb 1987 | EP |
1 710 637 | Oct 2006 | EP |
2 863 274 | Apr 2015 | EP |
Entry |
---|
Combined Chinese Office Action and Search Report dated May 31, 2021 in corresponding Chinese Patent Application No. 202010233315.6 (with English Translation of Category of Cited Documents), 7 pages. |
International Search Report dated Oct. 8, 2019 in European Application 19185917.2 filed Jul. 12, 2019 (with English Translation of Categories of Cited Documents), 5 pages. |
Number | Date | Country | |
---|---|---|---|
20210011433 A1 | Jan 2021 | US |