The present invention relates to watch movements, more particularly of the type comprising a sprung balance. Movements of this type comprise a frame. They are inserted between first and second parallel plane surfaces. The first surface generally serves as support for the dial, while the second is defined by the upper face of the bridges or of the oscillating weight, or the upper face of parts making up a mechanism. This face is generally intended to be adjacent to the wrist of the wearer.
The frame supports wheel assemblies generally arranged such that their axes of rotation are parallel to each other and perpendicular to said plane surfaces. These wheel assemblies, of discoid shape, are more or less superimposed, depending on their position in reference to the frame. One of them, arranged to support time indicator organs, is arranged in the vicinity of the first surface.
One also knows movements built in several sections, enveloping the wrist and making it possible to make a domed watch. The curve allowed by such a shape makes it possible to make relatively thin watches which have a particular esthetic. The movement thus realized occupies a relatively significant volume. It is unfortunately difficult to realize a sealed case able to house a movement of this type. Such movements are, for example, described in documents CH 60 360 or EP 1 394 638.
One also knows movements provided with a tourbillon whereof the cage supports a balance inclined in relation to the plane of the movement, described, for example, in documents WO 03/017009, WO 2005/043257 and EP 1 564 608. In these movements, and due to the rotation of the cage, the axis of the balance forms the envelope of a cone. Such a solution has the advantage of reducing the sensitivity to positions, but requires a substantial volume.
The primary aims of the present invention are to enable the realization of a movement occupying a limited volume, able to be housed without other in a sealed case and/or to offer optimal operating conditions of the balance.
To this end, the movement according to the invention comprises a frame, limited by first and second parallel plane surfaces and defining first and second reference planes, the second plane being on the side of the movement designed to be adjacent to the wrist of the wearer, and which comprises:
According to the invention, the balance oscillates around an axis inclined in relation to the reference planes and intersecting the latter, the point of intersection of the axis with the first plane being closer to the center of the movement than the point of intersection of this axis with the second plane. In this way, the incline of the balance frees up volume in the central part of the movement near the dial, which generally receives the wheel assembly supporting the time indicating organ.
The distribution of the components arranged in this part of the watch is difficult to achieve. Thus, by freeing up space, construction security can be increased, without the occupied volume being more significant.
Advantageously, the frame comprises an organ on which the balance and the escapement are mounted, which together form a platform escapement.
It appears that inclining all of the wheel assemblies of the going train in relation to the reference planes allows a different distribution of the components, which offers in particular new possibilities for esthetic creations.
In a piece where the energy source is formed by a barrel, it is also possible to arrange the balance and the barrel inclined in relation both to the reference planes and to each other.
When the movement is equipped with an automatic mechanism, comprising an inertial mass passing above the balance, the fact that the balance is inclined, as defined in claim 1, makes it possible to free up space in order to increase the volume of the sector of the inertial mass, thereby improving the winding conditions, especially for movements with small dimensions.
In order to reduce operating deviations as much as possible between the different positions of the watch, while also having a balance with a sufficiently large diameter for its inertial momentum to grant the movement good regulating qualities, the axis of the balance makes an angle between 15° and 30° with the reference planes.
Advantageously, in a movement also comprising a winding and setting stem, a plane passing through the axis of the balance and perpendicular to the reference planes makes an angle between 30° and 60° in relation to the axis of said stem.
The movement can comprise more than one balance, for example two balances, each of the balances oscillating around an axis inclined in relation to the reference planes and intersecting them, the points of intersection of the axes with the first plane being closer to the center of the movement than the points of intersection of the axes with the second plane.
The invention will be better understood upon reading the following description, provided as an example and done in reference to the drawing in which:
The watch movement illustrated in
The platform escapement 16 comprises a base 20 and, secured on the latter using screws (not referenced), a balance-cock 22, two columns 23 inserted between the base 20 and the cock 22 (
The plate 10, the plate bar 11, the base 20, the balance-cock 22 and the escapement bridge 24 form the main components of the frame of the movement. The outer surfaces of the plate 10 and of the plate bar 11 define parallel planes A and B (
Typically, the axis YY is inclined by 15° to 30° in relation to one perpendicular to the planes A and B, the incline depending on the characteristics of the movement. The most favorable spatial conditions are obtained when a plane parallel to the plane A and going through the end of the arbor of the balance closest to the felloe is tangent to the outside thereof. In this way, the balance uses the minimum thickness. It goes without saying that other construction parameters can also be used to define this incline.
As shown in
The assembly of the movement which has just been described begins by placing bearings and feet. Then, the mechanisms and the train are mounted on the plate. In parallel, the components of the platform escapement 16 are assembled and adjusted. The latter is then put into place on the plate, as the last operation. If necessary, the running of the piece can be adjusted again.
As one can see in
In
In this embodiment, the plate 10 comprises support surfaces 34 and 36 (
The support surface 36 ensures the positioning of the platform escapement 16. As one can see more particularly in
In a variation not shown, the base of the platform escapement 16 could have been removed and the bearing of the balance secured directly in the plate 10. The balance-cock 22 would then also be secured directly on the plate 10.
As shown by
A pinion 44 is mounted pivoting in the plate 10. It comprises an arbor 44a and a conical toothing 44b. The cannon-pinion 42a is frictionally fastened on the arbor 44a.
The going train 14 comprises a wheel 14c driven by the barrel 12 and turning at a speed slower than one revolution per hour. It drives the pinion 44a which must perform one revolution per hour and which causes the cannon-pinion 42a to turn with it. The latter part drives the minute wheel 42b, which is engaged with the hour wheel 42c.
Thus, thanks to the conical toothing of the pinion 44, it is possible to realize a movement in which the display is done in planes parallel to the plane A, while having oriented the wheel assemblies of the going train and the time base along axes parallel to each other but inclined in relation to the planes A and B.
Once the cam 54 has performed one revolution, the lever 56 falls back and the hand 48 jumps abruptly while crossing the graduated scale 59 in the counterclockwise direction.
A motion work wheel assembly 62 meshes with the cannon-pinion 52. It drives, via its pinion 62a, an hour wheel 64 supporting a cam 66 of the spiral type. A lever 68, provided with a toothed sector 68a at one end and a finger 68b at the other end, is kept resting against the cam 66 by a spring diagrammatically illustrated by an arrow. A pinion 70 meshes with the toothed sector 68a. It supports the hour hand 46, which moves opposite a graduated scale 72 supported by the dial 60.
Due to the reduction of the motion work wheel assembly, the hour wheel performs one revolution in twelve hours. The result is that the cam causes the sweeping of the graduated scale at a rate of one revolution in twelve hours, after which the hand 46 returns backward when the lever 68 arrives at the end of travel and falls.
As shown more particularly in
In the variation illustrated in
The movement illustrated in
In this movement, the two balances 301 and 302 are inclined in relation to the axes of the wheel assemblies of the going train in particular. The incline is such that, if one defines two reference planes arranged on either side of the movement, the points of intersection of the axes of the balances 301 and 302 intersect the reference plane on the side of the movement designed to be adjacent to the wrist of the wearer which are further from the center of the movement than the points of intersection with the other plane. In one variation which was not shown, only one of the balances may be inclined.
The frame equipping a movement of this type may be quite similar to that of the movement described in reference to
Such a configuration also makes it possible to reduce the variation of the operation in the different positions of the movement, the two balances never being in the horizontal position simultaneously.
The movement according to the invention can be the object of many other variations without going beyond the scope of the invention. Thus, the energy source could, of course, comprise several barrels, connected to each other in series or in parallel. As explained above, the movement can comprise one or two balances, or even more. These balances can be arranged side by side or overlapping in whole or in part.
Thus, thanks to the particular characteristics presented by the different variations of the movement according to the invention, it is possible to realize a watch offering both particularly interesting technical characteristics, while also allowing original esthetic developments.
Number | Date | Country | Kind |
---|---|---|---|
07101958 | Feb 2007 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2008/051407 | 2/5/2008 | WO | 00 | 8/7/2009 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2008/101802 | 8/28/2008 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
7350966 | Zaugg | Apr 2008 | B2 |
7445375 | Kasapi | Nov 2008 | B2 |
7677793 | Lete et al. | Mar 2010 | B2 |
7697376 | Ruchonnet | Apr 2010 | B2 |
20050073913 | Born et al. | Apr 2005 | A1 |
20080144447 | Ruchonnet et al. | Jun 2008 | A1 |
20090268565 | Salathe | Oct 2009 | A1 |
Number | Date | Country |
---|---|---|
60360 | Jul 1913 | CH |
1 394 638 | Mar 2004 | EP |
1 686 435 | Aug 2006 | EP |
03017009 | Feb 2003 | WO |
2005043257 | May 2005 | WO |
1 564 608 | Aug 2005 | WO |
Number | Date | Country | |
---|---|---|---|
20100097899 A1 | Apr 2010 | US |