EP3193216A1 - Timepiece mechanism with a tourbillon - Google Patents

Abstract

The invention proposes a clock mechanism comprising at least one energy source (1, 2), a first gear train (3), a second gear train (4), a tourbillon cage (20) kinematically connected to the first gear train (3). and carrying an exhaust (18) and a regulating member (19), a driving wheel (30) kinematically connected to the second wheel (4) and arranged to directly or indirectly drive the exhaust (18), and a selection device (33, 35) to select between at least a first operating mode where the first gear (3) rotates and the second gear (4) is stopped and a second operating mode where the second gear (4) rotates and the first gear (3) is stopped. In the first mode of operation, the tourbillon cage rotates and the mechanism functions as a classic tourbillon movement. In the second mode of operation, the vortex cage is stopped and the mechanism functions as a classic vortex-free movement.

Description

The present invention relates to a tourbillon clock mechanism. For the purposes of the present invention, the term "vortex" means any rotating regulating system including the eddies themselves and the carousels.

In a mechanical watchmaking movement, the oscillations of a regulating member are maintained by an escapement which itself is driven by a source of energy via a gear train called a finishing train. In some watch movements, the escapement and the regulating member are mounted on a cage to form a vortex. The cage is rotated by the finishing gear while for the exhaust drive relative to the cage, an exhaust pinion meshes with a fixed second wheel. The function of such a vortex is to compensate for the variations in travel due to gravity by making the regulating member take different vertical positions.

Equipping a watch movement with a tourbillon is therefore advantageous in terms of the precision of the measurement of time. However, for the same amplitude of oscillation of the regulating organ, the energy consumed is greater than in a conventional movement without vortex since it is necessary to rotate the vortex cage. This increase in energy consumption decreases the running time, that is to say involves the user having to go back up the movement more frequently. There is therefore a need for a clock mechanism to offer the user the choice between better accuracy or longer running time.

• au moins une source d'énergie,
• un premier rouage,
• un deuxième rouage,
• une cage de tourbillon liée cinématiquement au premier rouage et portant un échappement et un organe réglant,
• un mobile d'entraînement lié cinématiquement au deuxième rouage et agencé pour entraîner directement ou indirectement l'échappement, et
• un dispositif de sélection pour sélectionner entre au moins un premier mode de fonctionnement où le premier rouage tourne et le deuxième rouage est arrêté et un deuxième mode de fonctionnement où le deuxième rouage tourne et le premier rouage est arrêté.

To satisfy this need, the present invention proposes a clock mechanism comprising:

• at least one source of energy,
• a first cog,
• a second wheel,
• a tourbillon cage kinematically connected to the first wheel and carrying an exhaust and a regulating member,
• a driving wheel kinematically connected to the second wheel and arranged to directly or indirectly drive the exhaust, and
• a selection device for selecting between at least a first mode of operation where the first wheel is running and the second wheel is stopped and a second mode of operation where the second wheel rotates and the first wheel is stopped.

In the first mode of operation, the tourbillon cage rotates and the mechanism according to the invention functions as a classic tourbillon movement. In the second mode of operation, the vortex cage is stopped and the mechanism according to the invention functions as a conventional movement without vortex. The user can therefore choose the mode of operation of his watch and the benefits associated therewith.

In an exemplary embodiment, said at least one energy source comprises first and second energy sources arranged to respectively drive the first and second wheels.

Typically, the drive wheel is coaxial with the tourbillon cage.

Preferably, the tourbillon cage is coaxial and integral with a first ring of a bearing and the drive wheel is coaxial and integral with, or formed by, a second ring of said bearing.

Also preferably, the first and second rings are separated by a fixed intermediate ring coaxial with the first and second rings.

Typically, the first ring is an inner ring and the second ring is an outer ring.

The selection device may include a stop lever which can occupy a first position where it blocks the first wheel leaving the second free wheel to turn and a second position where it blocks the second wheel leaving the first wheel free to turn.

The selection device may further comprise a column wheel for controlling the stop lever.

Advantageously, the watch mechanism according to the invention further comprises a device for resetting the tourbillon cage.

In an exemplary embodiment, the stop lever comprises a blade which, in the first position of the stop lever, is engaged in the toothing of a wheel or star kinematically connected to the first gear, and the reset device comprises a reset lever arranged to deform the blade so that it leaves said toothing to interrupt the path of an abutment carried by said wheel or star.

Preferably, the reset lever is controlled by said column wheel.

• la figure 1 est une vue plane de dessus d'un mécanisme horloger selon un mode de réalisation préférentiel de l'invention ;
• la figure 2 est une vue en perspective du mécanisme horloger selon le mode de réalisation préférentiel de l'invention ;
• la figure 3 est une vue en perspective d'une partie du mécanisme horloger selon le mode de réalisation préférentiel de l'invention ;
• la figure 4 est une demi-vue en perspective d'un tourbillon faisant partie du mécanisme horloger selon le mode de réalisation préférentiel de l'invention.

Other features and advantages of the present invention will appear on reading the following detailed description given with reference to the accompanying drawings in which:

• the figure 1 is a plan view from above of a watch mechanism according to a preferred embodiment of the invention;
• the figure 2 is a perspective view of the watch mechanism according to the preferred embodiment of the invention;
• the figure 3 is a perspective view of a part of the watch mechanism according to the preferred embodiment of the invention;
• the figure 4 is a half-perspective view of a tourbillon forming part of the watch mechanism according to the preferred embodiment of the invention.

With reference to Figures 1 to 4 , a watch mechanism according to the invention, intended to form or be part of the movement of a timepiece such as a wristwatch or a pocket watch, comprises two independent barrels 1, 2 leading to first and second respective wheels 3, 4. The barrels 1, 2 can be reassembled, for example, by a known mechanism comprising a winding stem, a rotation in one direction up one of the barrels and a rotation in the other direction up the other barrel. The first gear 3 comprises a pinion of medium 5 which meshes with the barrel 1, a wheel of high average 6 coaxial and secured to the pinion of medium 5, a pinion of average 7 which meshes with the wheel of medium 6, a coaxial average wheel 8 and secured to the average pinion 7 and a pinion second 9 which meshes with the average wheel 8. The second wheel 4 comprises a pinion of medium 10 which meshes with the barrel 2, a wheel of great average 11 coaxial and secured to the pinion of medium 10, a pinion of average 12 which meshes with the wheel of medium 11, a wheel of coaxial mean 13 and secured to the average pinion 12, a pinion of second 14 which meshes with the wheel of average 13 and a coaxial second wheel 15 and secured to the second gear 14. A first stopping star 16 is coaxial and secured to the second gear 9 of the first gear 3. A second stopping star 17 is coaxial and secured d u second gear 14 and the second wheel 15 of the second wheel 4.

The two wheels 3, 4 connect the two barrels 1, 2 to the same regulating system in the form of a tourbillon comprising an exhaust 18 and a regulating member 19 carried by a vortex cage 20. However, the two wheels 3 , 4 do not work at the same time. When the first wheel 3 turns, the second wheel 4 is stopped and vice versa, as will be explained later. In the example shown, the exhaust 18 comprises an exhaust pinion 21, an escapement wheel 22 coaxial and integral with the exhaust pinion 21 and an anchor 23, and the regulating member 19 comprises a balance wheel 24 and a 25. The vortex cage 20 carries a second indicator or needle (not shown). By means of a differential, for example, the two wheels 3, 4 can cause the mobile carrying the hands of the hours and minutes of the movement.

As can be seen on the figure 4 , the tourbillon cage 20 is coaxial and integral with an inner ring 26 of a bearing 27, such as a ball bearing. This inner ring 26 is itself coaxial and integral with a second pinion 28 which meshes with the average wheel 8 of the first gear 3. The bearing 27 also comprises an intermediate ring 29 fixed to the plate of the movement and an outer ring 30 comprising two outer teeth 31, 32. The inner ring 26 and the outer ring 30 and can rotate independently of each other relative to the intermediate ring 29, coaxially with the latter. The toothing 31 of the outer ring 30 meshes with the escape pinion 21. The other toothing 32 of the outer ring 30 meshes with the second wheel 15 of the second wheel 4.

The mechanism according to the invention also comprises a stop lever 33 pivoted at a point 34 and controlled by a column wheel 35 itself controlled by a push button (not shown) accessible from outside the timepiece . The stop lever 33 comprises a spout 36 which, depending on the angular position of the column wheel 35 and under the action of a return spring 37, bears against a column of the wheel 35 or falls between two columns . The stop lever 33 can thus occupy two angular positions. In a first of these angular positions, the end of a blade 38 of the stop lever 33 is engaged in the toothing of the first stop star 16 to immobilize the latter and thus all the first gear 3, the second wheel 4 being free to turn. In the second angular position of the stop lever 33, a nose 39 of the stop lever 33 is engaged in the toothing of the second stop star 17 to immobilize the latter and thus all the second wheel 4, the first wheel 3 being free to turn.

When the second gear 4 is immobilized by the action of the stop lever 33, the first gear 3, more precisely the average wheel 8, rotates the vortex cage 20 under the action of the barrel 1, and the outer ring 30 of the bearing 27 serves as a fixed second wheel with which The vortex formed by the cage 20, the exhaust 18 and the regulating member 19 then functions as a conventional vortex. When the first gear 3 is immobilized by the action of the stop lever 33, the tourbillon cage 20 is also immobilized, but the outer race 30 of the bearing 27 driven by the second wheel 15 under the action of the cylinder 2 serves as a second wheel driving the exhaust pinion 21 in a conventional manner, as in a movement without vortex. The vortex cage 20 is stopped but the regulating member 19 continues to oscillate.

It is therefore understood that in the present invention the user can, by means of the push button controlling the column wheel 35, operate the mechanism in two different modes, namely a first mode where the mechanism operates as a conventional movement to whirlpool, and a second mode where the mechanism functions as a classic, whirlpool-free movement. In the first case, the user will be able to benefit from an accuracy of measurement of the increased time thanks to the rotation of the tourbillon. In the second case, at the same amplitude of oscillation of the regulating organ 19 the running time will be greater. In addition, the present invention is surprising since, in the second mode of operation, the regulating member 19 can be seen to oscillate while the vortex cage 20 is stationary, which does not correspond to a usual configuration.

According to another advantageous characteristic of this preferred embodiment of the invention, a reset lever 40 pivoted at a point 41 is provided for resetting the vortex cage 20 and the second indicator that it carries. At one of its ends, the reset lever 40 comprises a spout 42 which cooperates with the column wheel 35 under the action of a return spring (not shown) acting on the lever 40. At its other end, the reset lever 40 comprises a blade 43 having a clearance 44 in its lower face (cf. figure 2 ), clearance in which passes the blade 38 of the stop lever 33.

After immobilization of the first gear 3 by the stop lever 33 following an actuation of the push button controlling the column wheel 35, a new actuation of the push button does not cause movement of the stop lever 33 but switches the reset lever 40. During this movement, an inclined plane of the clearance 44 cooperates with the blade 38 of the stop lever 33 to deform and lower the blade 38 so that it leaves the teeth of the first star d stop 16 and stops the path of a stop 45 (visible at the figure 3 ) carried by the first stopping star 16. The first gear 3 and, with it, the vortex cage 20 begin to rotate under the action of the barrel 1 until the stop 45 comes to stop against the At this moment, the vortex cage 20 is stopped in a predetermined position corresponding to the zero position of the second indicator, which allows for example a precise adjustment of the time, or even the second indicator. carried by the tourbillon cage 20. A new actuation of the push button causes a displacement of the reset lever 40 and the stop lever 33 to stop the second wheel 4 and release the first wheel 3 and the vortex cage 20.

Thus, by three successive presses on the push button, the user can immobilize the vortex cage 20 then reset it and restart it without the regulating member 19 stops oscillating.

The present invention has been described above by way of example only. It goes without saying that modifications could be made without departing from the scope of the claimed invention. For example, instead of the two barrels 1, 2 one could use a barrel as a source of energy. In this case, the barrel could be connected to the two wheels 3, 4 by means of a differential, or one of the gear wheels 3, 4 could be connected to the barrel plug and the other wheel to drum barrel . Another modification could be to mount the vortex cage 20 around a shaft, rather than an inner race of a bearing as in the described embodiment. In this case, the driving wheel of the exhaust pinion 21, constituted by the outer ring 30 of the bearing 27 in the described embodiment, could also be mounted around a tree.

Furthermore, the vortex of the mechanism according to the invention could be adapted or associated with devices known per se, for example enabling the speed or direction of rotation of the vortex cage 20 to be changed or the vortex cage 20 to be displaced jumping. In these cases, the mechanism workings could be modified to control the tourbillon cage in the desired manner according to different modes of operation by stopping the cage before changing its speed, direction of rotation or type of displacement (dragging / jumping) . Several cogs (and several modes of operation) can of course be considered, and the gear selection device must be adapted accordingly. In yet another variant, the vortex could be a multi-axis vortex comprising at least two cages where the drive wheel does not necessarily cause the exhaust directly. In this case one could have, for example, a multi-axis tourbillon operating mode and a single-axis tourbillon operating mode. According to yet another example, the tourbillon cage 20 could act as a second counter of a chronograph mechanism of the timepiece.

Claims (11)

Watchmaking mechanism comprising: at least one energy source (1, 2), a first gear train (3), a second wheel (4), - a vortex cage (20) kinematically connected to the first gear (3) and carrying an exhaust (18) and a regulating member (19), - a driving wheel (30) kinematically connected to the second wheel (4) and arranged to drive directly or indirectly the exhaust (18), and a selection device (33, 35) for selecting between at least one first mode of operation where the first gearwheel (3) rotates and the second gearwheel (4) is stopped and a second mode of operation where the second gearwheel (4) turns and the first gear (3) is stopped. Clock mechanism according to claim 1, wherein said at least one energy source (1, 2) comprises first and second energy sources arranged to respectively drive the first and second wheels (3, 4). Clock mechanism according to claim 1 or 2, wherein the drive wheel (30) is coaxial with the vortex cage (20). Clock mechanism according to claim 3, wherein the vortex cage (20) is coaxial and integral with a first ring (26) of a bearing (27) and the driving wheel (30) is coaxial and integral with, or formed by, a second ring (30) of said bearing (27). Clock mechanism according to claim 4, wherein the first and second rings (26, 30) are separated by a fixed intermediate ring (29) of said bearing (27) coaxial with the first and second rings (26, 30). Clock mechanism according to claim 4 or 5, wherein the first ring (26) is an inner ring and the second ring (30) is an outer ring. Clock mechanism according to one of claims 1 to 6, wherein the selection device (33, 35) comprises a stop lever (33) which can occupy a first position where it blocks the first gear (3) leaving the second wheel (4) free to turn and a second position where it blocks the second wheel (4) leaving the first gear (3) free to turn. The watch mechanism according to claim 7, wherein the selection device (33, 35) further comprises a column wheel (35) for controlling the stop lever (33). Clock mechanism according to one of claims 1 to 8, further comprising a device (35, 40) for resetting the vortex cage (20). Clock mechanism according to claim 9, wherein the stop lever (33) comprises a blade (38) which, in the first position of the stop lever (33), is engaged in the toothing of a wheel or star ( 16) related kinematically at the first wheel (3), and the reset device (35, 40) comprises a reset lever (40) arranged to deform the blade (38) so that it emerges from said toothing to interrupt the path a stop (45) carried by said wheel or star (16). The watch mechanism according to claim 10, wherein the reset lever (40) is controlled by said column wheel (35).

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