This application claims priority from European Patent Application No. 05022045.8 filed 10 Oct. 2005, the entire disclosure of which is incorporated herein by reference.
The present invention concerns a watch with a mechanical movement whose escapement is driven via a constant force device.
In mechanical horology, the expression “constant force device” has been used for more than a century to designate a member inserted in the gear train connecting the main spring to the escapement and comprising a permanently loaded intermediate spring, in order to transmit a relatively constant torque to the escapement, corresponding to the tension of the intermediate spring. This tension oscillates a little, but within a small margin and its mean value remains constant over time. Thus, variations in the state of winding of the main spring do not make the forces applied to the mechanical oscillate vary, thus the amplitude and frequency of the mechanical oscillator are more stable.
The constant force device temporarily locks the part of the gear train located upstream, and then periodically releases it, which tightens the intermediate spring. In generally, the release rate is once per second and this allows a seconds indicator hand, commonly called the independent seconds, to jump forward at this rate. Constant force devices are thus almost always combined with the seconds wheel, with an independent seconds display. Various examples of such combinations and the operation thereof are disclosed in Patent publication nos. CH 47 297, CH 98 828, CH 120 028, EP 1 319 997 and EP 1 528 443. The last cited publication further provides that the regulator member driven by the constant force device could be a tourbillon, which is secured to the output wheel of the constant force device.
The stop and periodic release mechanism of the independent seconds device must be controlled from the wheel that follows the seconds wheel, thus the escapement wheel. The first member to be released is generally called the “flirt”, because at the moment that it is released, it rotates very quickly to complete one revolution or a fraction of a revolution, until it is locked again. The element that locks the flirt is generally a star wheel with N branches, completing one revolution in N seconds in order to release the flirt once per second. Typically, as shown by CH Patent No 47 297, this star wheel is secured to the escapement wheel, since the latter rotates at a speed (one revolution in six seconds) which corresponds to an acceptable number of branches of the star wheel. The instantaneous rotation and consecutive abrupt stop are accompanied by the entire gear train located upstream and by the display members connected thereto. The inertia of these elements means that the stop mechanism transmits non-negligible shocks to the escapement via the star wheel. A substantial part of the advantages due to a constant force driving the escapement is therefore lost.
It is an object of the present invention to overcome the aforementioned drawbacks of the prior art, by providing a watch movement with a constant force device whose instantaneous movements disrupt as little as possible the operating conditions of the escapement and the mechanical oscillator. It is an additional object to be able to drive a tourbillon in good conditions with such a constant force device.
Thus, the invention concerns a watch whose movement comprises a constant force device inserted in a going train connecting a barrel spring to an escapement, this gear train including a third wheel which completes one revolution in several minutes and drives a seconds pinion completing one revolution per minute, the constant force device including an input element, an output element coaxial to the input element and mechanically connected to a star wheel with several branches, a spiral spring resiliently connecting the input element to the output element in rotation, and a stop train meshed with the input element and provided with a stop wheel having at least one finger arranged to abut against one branch of said star wheel, the watch being characterized in that the input element of the constant force device is the third wheel, the output element of said device being a second third wheel connected by gearing to the seconds pinion.
Thus, the shocks caused by the flirt formed by the finger of the stop train, when it abuts against the star wheel, barely reverberate at all in the escapement, since there exists a high multiplication ratio gearing between the output element of the constant force device and the escapement wheel, with an intermediate wheel set which is the seconds wheel set. The escapement thus receives a motor torque that is as constant as possible.
According to a preferred embodiment of the invention, the watch includes a so-called independent minutes display, by a minute hand driven by the going train, the number of branches of the star wheel being equal to the number of minutes during which the star wheel completes one revolution, such that the rotation of the star wheel releases the stop train, the third wheel set and the minute hand once per minute. The fact that the minute hand thus jumps from one division to the next on the scale of minutes on the watch dial provides an original visual effect and facilitates reading of the time.
It should also be noted that if the watch includes a tourbillon mechanism the arrangement of the invention of the device on the minute easily allows it to be disposed outside the tourbillon mechanism.
Other features and advantages of the present invention will appear from the following description, which presents an advantageous embodiment by way of non-limiting example with reference to the annexed drawings, in which:
In the movement of watch 1 shown in a simplified manner in
Centre wheel 6 meshes on pinion 11 of a third wheel set 12 comprising a first third wheel 13. Wheel set 12 is associated with the constant force device 14 shown in detail in
A star wheel 16 with eight branches 25 is secured to the top end of star wheel 21, which further includes a pivot 27 carried by a bearing in a bridge 28. Star wheel 26 acts as a locking member for a stop train 30 driven by the first third wheel 13. In fact, the latter meshes on a pinion 31 of an arbour 32 rotatably mounted in bridges 18 and 28 and provided with a wheel 33 above the level of wheel 20. Stop train 30 ends in a stop wheel 35 driven by wheel 33 via the insertion of an intermediate wheel 34 in order to rotate in the opposite direction to the star wheel. Wheels 34 and 35 are carried by bridge 28. Wheel 35 is provided with an off-centre finger 36 which abuts successively against each branch of star wheel 26 during the rotation thereof, like the flirt of the devices of the prior art. While the star wheel is thus preventing wheel 35 and thus stop train 30 from rotation, rotation of the first third wheel 13 and all of the preceding train is stopped.
The second third wheel 20 meshes on a seconds pinion 38 which completes one revolution per minute and which, in the present example, is secured to the cage 41 of a tourbillon 40 containing, in a conventional manner, the escapement and the mechanical sprung balance oscillator, of which the balance 42 centred on the axis of rotation 44 of cage 41, can be seen. The cage can carry a seconds hand 45, as shown schematically in
When constant force device 14 is assembled, the relative positions of plate 16 and wheel 20 are fixed by means of stop train 30 such that spiral spring 22 is pre-loaded with the desired torque for operating the regulator member of the watch movement in an optimal manner, in this case tourbillon 40. Spring 22 preferably has several turns, so that the torque that it transmits from wheel set 12 to wheel 20 does not vary substantially while wheel 20 completes an eighth of a revolution whilst plate 16 is stopped.
In operation, the elements of movement 1 rotate in the directions indicated by arrows in
While branch 25 (see
The construction described hereinbefore and shown in the drawings is only one example from among other possible embodiments of the invention. In particular, the number of branches of star wheel 26 could be different to eight if the transmission ratio between the second third wheel 20 and the seconds pinion 38 were different. Moreover, the star wheel is not necessarily secured to wheel 20, to which it could be connected via a gearing in order to be placed next to the latter and to cooperate with a finger placed on wheel 33, for example. Another variant could comprise more than one finger 36 on stop wheel 35, which would only complete a fraction of a revolution each minute. It should also be mentioned that the invention can be applied without any difficulty to a movement of the type wherein the cannon-pinion is not carried by centre wheel 6, but by a wheel driven by the third pinion, as is common with a central seconds arbour.
Number | Date | Country | Kind |
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05022045 | Oct 2005 | EP | regional |
Number | Name | Date | Kind |
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6863434 | Mojon | Mar 2005 | B2 |
6997602 | Mojon et al. | Feb 2006 | B2 |
20070147179 | Girardin et al. | Jun 2007 | A1 |
Number | Date | Country |
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47297 | Jun 1909 | CH |
98828 | May 1923 | CH |
120028 | Jul 1927 | CH |
818 024 | Oct 1951 | DE |
1 319 997 | Jun 2003 | EP |
1 528 443 | May 2005 | EP |
Number | Date | Country | |
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20070127319 A1 | Jun 2007 | US |