This application claims priority from European Patent Application No. 05006849.3 filed Mar. 30, 2005, the entire disclosure of which is incorporated herein by reference.
The present invention concerns mechanical clockwork movements, in particular in watches, and it concerns certain arrangements for reducing the errors in isochronism caused by imperfections in the regulating system of the watch.
The tourbillon invented two centuries ago by Abraham-Louis Breguet is a device that reduces errors in isochronism resulting from effects produced particularly by gravity on the regulating organs of the watch, because of the inevitable faulty poising of such organs. As the oscillator and the escapement are mounted in a carriage or cage which rotates about an axis parallel to the axis of the sprung balance assembly, the gravity component that is exerted in the perpendicular plane to these axes performs a continuous rotation in relation to the organs, such that each rotation of the cage leads to compensation for the effects of unbalance in that plane and thus improves the working regularity of the watch when worn, especially when the watch is in a vertical position. In order to simplify the terminology, the term “tourbillon” is used here to mean both devices in which the axis of the balance coincides with the rotational axis of the cage (for example according to Breguet or according to CH Patent No. 262 017) and devices often called “carrousels”, where those axes are distinct (see for example CH Patent Nos. 30 754 and 256 590 and EP Patent No. 846 987).
Given that a conventional tourbillon only compensates imperfectly for the effects of gravity, watchmakers seeking to further improve the isochronism of high quality mechanical watches have designed tourbillons with two or three axes of rotation that are all perpendicular to each other, disclosed in particular in the Patent Publication Nos. GB 2 027 232, CH 693 832, EP 1 465 024 and WO 2004/077171. These constructions constitute a remarkable feat, but they occupy a spherical space and thus can only be fitted to an extremely thick watch.
According to WO 03/017009, a similar object is achieved by means of a tourbillon with two axes of rotation which intersect each other at an angle other than 90 degrees, for example 30 degrees. This construction is more compact as regards height than a construction with two perpendicular axes, but it remains considerably thicker than a conventional tourbillon movement.
FR Patent No. 2 784 203 presents yet another method of reinforcing the compensation provided by the tourbillon. The tourbillon, the barrel that drives it and the gear train connecting these two elements are mounted on a rotating plate completing one revolution per hour, whose axis of rotation is parallel to that of the tourbillon. This arrangement in a way forms a tourbillon on a carrousel, with the tourbillon revolving about the centre of the rotating plate.
Another method of improving isochronism was formulated in the 1930s by M. Vuilleumier and was published in CH Patent No. 156 801, consisting in using two normal regulating systems each comprising a sprung balance and an escapement in a single clockwork movement, these two systems being coupled to the going train by means of a differential gear fulfilling the duel function of distributing the drive energy in equal parts to the two systems and averaging the working thereof to regulate the speed of the going train. This principle did not meet with success, probably because the theoretical gains were offset by losses in efficiency in the additional gear trains, in particular in the differential gear. However, with the current tourbillon fashion, various watchmakers have returned to this principle to create watches comprising two or more tourbillons coupled by a differential gear. Such arrangements confer a prestigious aspect on the watches, but it remains to be seen whether they really improve isochronism compared to a watch with a single tourbillon.
The present invention concerns a mechanical movement comprising at lest two regulating systems each including a mechanical oscillator and an escapement, the regulating systems being mounted on a common support and connected to a common time display device via a differential gear, and its object is to improve this arrangement in a way that improves the working of a watch. An additional object is to create a watch having an original appearance showing the highly technical nature of its movement to the best advantage.
In its most general aspect, a watch according to the invention is characterized in that its movement comprises as many sub-assemblies as regulating systems, each of said sub-assemblies comprising a regulating system, a barrel and a going train transmitting the energy from the barrel to the regulating system within the sub-assembly, and in that the differential gear, called the display gear, connects the barrel or going train of each of said sub-assemblies to the display.
Thus, unlike the movements using the principle illustrated by CH Patent No. 156 801, the differential gear is not used for distributing the mechanical energy stored in the barrel springs to the regulating systems, but only to move the display members forward at the mean speed of the regulating systems. This gear train thus transmits almost no stress and does not affect the efficiency of going trains at all.
Preferably, the barrels are connected to each other and to a winding device by a differential winding gear. This has the advantage not only of allowing the two barrels to be wound together, but also compensates for the winding between them, which tends to equalise the oscillation amplitude of the balances between the regulating systems.
The common support of the regulating systems can be fixed in the watch, but in improved versions, it can be formed by a rotating plate, which adds compensation for the effects of gravity on unbalance as in a tourbillon. In order to obtain a particular appearance for the watch, the rotating plate could complete only two revolutions per day and carry an hour hand.
According to a preferred embodiment of the invention, the regulating systems mounted on the rotating plate are two tourbillon systems, which adds the compensatory effects provided by FR Patent No. 2 784 203 to the basic effects of the invention, in order to further improve the regularity of working of the watch. This principle is applied in the examples described hereinafter.
Other features and advantages of the present invention will appear from the following description, which presents a preferred embodiment by way of non-limiting example with reference to the annexed drawings, in which:
In order to explain more clearly how the example described hereinafter works, the block diagrams of
In these diagrams, the single arrows represent gear trains with no energy transmission to the regulating systems, whereas the double arrows represent gear trains with energy transmission to the regulating systems. It will also be noted that, in these diagrams, the symbol SR can represent both an ordinary mechanical regulating system and a rotating regulating system, particularly a tourbillon.
In the diagram of
According to the embodiment of the invention which is illustrated by
The respective rotational speeds of the two barrels B1 and B2 are transmitted by two appropriate gear trains to two input elements of the differential display gear Da, which makes the mean thereof across its output element coupled to display A. Unlike the case of
In the example described hereinbelow, the movement made in accordance with the diagram of
The two barrels are mounted on rotating support 5 so that each barrel drives one of tourbillons 11 and 12. In
The drawing of
The second main element of the differential display gear Da is a planetary wheel carrier 60 formed of two parts one of which is an entry wheel with an outer toothing. In this case, a single planetary wheel 64 is provided, with two toothings, one of which meshes with wheel 52 of pipe wheel 51 and the other meshes with a pinion 65 secured to another entry wheel 66 of the differential. The two wheels 62 and 66 have the same diameter and play a symmetrical role, so that only half of them has been shown in
The toothings of planetary wheel 64 and the corresponding toothings of elements 52 and 65 are such that entry wheels 62 and 66 of he differential gear can rotate at equal and opposite speeds when pipe wheel 51 is immobile. But as these two speeds are each regulated by one of tourbillons 11 and 12 and can thus differ slightly because of momentary variations of rate, the effect of differential Da is to average out these two speeds in speed of revolution of support 5 carrying the tourbillon and gear train bearings that have just been described. Thus a better regularity of rate (isochronism) is thus obtained than that of each of the tourbillons.
The minute hand 70 shown in
The time-setting mechanism will be described with reference to
As can be seen in
The central part of rotating plate 6 has a cylindrical protruding part 90 towards the bottom that acts as a hub for the three main elements of the differential winding gear Dr, namely a planetary wheel carrier 91 and two exit wheels 92 and 93. This differential gear is of the planetary type, its two satellite wheels 94 meshing on an inner toothing of wheel 92 and on a toothing of central hub 89 of wheel 93. Wheel 92 drives ratchet 20 of barrel 16 via a gear train mounted on plate 6, comprising a wheel set 95 and an intermediate wheel 96. Likewise, wheel 93 drives ratchet 97 of the second barrel 17 via the insertion of a gear train including a wheel set 98 and an intermediate wheel 99. Of course, the diameters of the gear elements of differential Dr and the gear trains that follow are determined such that the torque applied to planetary wheel carrier 91 during winding is distributed equally over the ratchets of the two barrels.
Planetary wheel carrier 91 can only rotate in one direction, since it is blocked in the other direction by a click 100 (
Those skilled in the art will easily understand that the diagram of
Moreover, even though the two regulating systems SR1 and SR2 have the same nominal frequency in the example described hereinbefore, this is not critical, since suitable sizing of the gear trains and the differential display gear enables two different nominal frequencies to be averaged properly.
Number | Date | Country | Kind |
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05006849.3 | Mar 2005 | EP | regional |