CH705384B1 - Tourbillion mechanism for use in timepiece field, has balance, escape wheel and escape pinion pivoted on lower and upper bridges and intermediate bridge, where intermediate bridge is placed in cage between lower and upper half-cages - Google Patents

Abstract

The mechanism has a cage (14) comprising a lower half-cage provided with a lower bridge (22) and an upper half-cage provided with an upper bridge (20). An intermediate bridge (24) is placed in the cage between the lower and upper half-cages. An escape mechanism is housed inside the cage, and includes a balance (10) and an escape wheel (12). An escape pinion (38) is geared with a fixed element of movement in which the mechanism is placed. The balance, the wheel and the pinion are pivoted on the lower and upper bridges and the intermediate bridge.

Description

Technical area

The present invention relates to the field of watchmaking. It relates, more particularly, to a tourbillon mechanism comprising a cage comprising a lower bridge, an intermediate bridge and an upper bridge, said lower and upper bridges being provided with means for pivoting the cage along an axis AA, an escape mechanism housed inside the cage and comprising a rocker arm and an escape wheel, and an escape pinion intended to mesh with a fixed element of a movement in which said tourbillon mechanism takes place.

State of the art

The tourbillon is a rotating regulating system well known to those skilled in the art. It is known that, when the escapement of a mechanical watch is in a vertical position, the inevitable imbalances of the balance and spiral generated by the earth's gravitation cause gait deviations. The purpose of the vortex is to compensate for these variations by making the balance-sprung, in the case of a vortex with a single axis, all the vertical positions.

[0003] In summary, a tourbillon is generally composed of a usual escapement mechanism comprising a rocker, an escape wheel and, in the case of an anchor escapement, an anchor. These elements are mounted in a rotating cage suspended between two pivot points, which may be located on the plate and the bridge bar or on the cage bridge and the bridge bar. The cage functions as the second mobile. It carries, on its axis, a pinion of second and is driven by the average wheel. Inside the cage, the role of the exhaust is conventional. The force is transmitted from an exhaust pinion coaxial with the escape wheel, this pinion meshing, in the manner of a satellite, with a fixed second wheel, integral with the plate. The axis of the balance must be perfectly coaxial with that of the cage.

The vortex mechanism is complex to implement and implement. It requires, according to the mechanisms of the state of the art, a fairly large number of parts, pivoted on many bridges, a bridge being frequently used only to receive a pivot of a movable member.

One of the aims of the present invention is to provide a tourbillon of particularly simple construction, involving a very limited number of parts.

Disclosure of the invention

To achieve this purpose, the vortex mechanism as presented in the first paragraph of this application, is characterized in that the balance, the wheel and the exhaust pinion are exclusively rotated on the upper and lower half-cages and on the intermediate bridge.

The mechanism according to the invention may further comprise one or other of the following features: the balance and the escape wheel are arranged on either side of the intermediate bridge, the balance is pivoted between the lower deck and the upper deck and crosses the intermediate deck, the balance being associated with a spiral spring, a device for adjusting the tension of the spiral spring is disposed directly in the lower bridge or in the upper bridge, the lower and upper decks receive a shockproof device cooperating with pivots of the balance, the balance being provided with a double-plate, the intermediate bridge has an opening through which the rocker passes, the double-plate being at least partially located in the thickness of the intermediate bridge, the escape wheel is pivoted between the intermediate bridge and a rim that includes the lower bridge, and the pinion is located between the rim and the escape wheel.

Brief description of the drawings

Other features of the present invention will appear more clearly on reading the description which follows, with reference to the accompanying drawing, in which Figs. 1, 2 and 3 are views, respectively, from above, in section and exploded of a tourbillon according to the invention.

Mode (s) of realization of the invention

As explained above, a vortex is a rotating regulating system, in which an escapement mechanism comprising a rocker 10 associated with a spiral spring 11 and an escape wheel 12, is mounted in a cage pivoted on a fixed element of a watch movement. In the example illustrated, the escapement also includes an anchor 16, cooperating with the balance 10 and with the escape wheel 12 by pallets 18.

According to a certain terminology generally used in the field of horology, in a vortex, the pivot axis of the cage 14 and that of the balance 10 are merged. There are carousels, in which the balance 10 and the cage 14 are not coaxial. In the present application, the term vortex encompasses these two possibilities of arrangement of the axes of the cage 14 and the balance 10. Thus, the following description is made with reference to a device in which the axis of the cage and that of the balance 10 are not confused, the invention can be directly transposed to a vortex in the usual sense of the term.

The tourbillon according to the invention comprises a cage 14 constituted by two half-cages, respectively made by means of an upper bridge 20 and a lower bridge 22. An intermediate bridge 24 is interposed between the upper bridge 20 and the lower bridge 22. Piers 26, typically two in number, are used to assemble the bridges 20, 22 and 24 between them. Advantageously, each pillar 26 secures the three bridges. Each of the pillars 26 passes through the intermediate bridge 24, one of its ends including a tapping which receives a fastening screw 28, passing through the upper bridge. The end of the pillar 26 located on the side of the lower bridge is secured to the latter, for example by driving. Screwing similar to that made at the other end can also be used. Other screws 30 can complete the tightening by securing the intermediate bridge 24 with one or other of the lower bridges 22 or upper 20. The heads of the screws cooperate with and take place in the grooves in the bridges, so to minimize the thickness of the vortex.

The lower and upper bridges each comprise pivots 32 of the cage directed towards the outside of the cage. These pivots 32 are conventional and are intended to cooperate with stones housed in a frame that includes a movement in which the vortex takes place. They are arranged along an axis AA.

The intermediate bridge 24 comprises pivoting means 34 for the escape wheel 12 and the anchor 16. These pivoting means 34 may be stones or other types of bearings housed in the bridges, with which cooperate pivots which are provided with the wheel 12 and the anchor 16.

The rocker 10 carries a double-plate 40 for its operation in the exhaust. It is mounted between the upper and lower decks, on an axis passing through the intermediate bridge 24. The latter comprises an opening adapted to let the axis of the balance 10 freely pass. The balance spring is mounted on a first side of the intermediate bridge 24 , for example between the upper bridge 20 and the intermediate bridge 24, while the double-plate 40 is mounted on the other side of the intermediate bridge 24, for example between the lower bridge 22 and the intermediate bridge 24. To decrease the thickness of the mechanism, an opening is formed in the intermediate bridge 24 so that the double-plate 40 can be located at least partially in the thickness of the intermediate bridge 24.

In a conventional manner, an anti-shock device 42 is disposed at each end of the axis of the balance spring. The anti-shock devices 42 are arranged in the lower and upper decks, the latter receiving the cock and a usual adjustment device of the tension of the hairspring. In the illustrated example, the axis of the balance is not coincident with the axis AA of the cage.

Advantageously, the axis of the escape wheel 12 is directly rotated on a flange 36 that includes the lower bridge 22, thus limiting the number of parts constituting the vortex. An escape pinion 38, coaxial with the escape wheel, is intended to cooperate with a fixed wheel integral with the movement frame. For better guidance of the axis of rotation of the wheel and the exhaust pinion 38, the pivots of this axis are located at its ends, that is to say that the pinion is located between the rim 36 and the escape wheel.

According to another interesting aspect of the invention, the intermediate bridge 24 takes the form of a wheel, provided with a toothing at its periphery and defining a serge. The pivoting means 34 of the escape wheel 12 are arranged on the serge of the wheel. The pivoting means 34 of the anchor 16 are located on an arm integral with the serge, oriented towards the inside of the wheel. The arm may be disposed substantially on a diameter of the wheel. Preferably, the arm is a part of the wheel, so that the intermediate bridge has come in one piece, which also simplifies the construction of the tourbillon according to the invention.

The escape wheel 12 is disposed at the periphery of the intermediate bridge. It is thus possible to superpose the board of this wheel to some parts of the existing movement, which allows a significant space saving.

Note that the wheel does not include pivoting means at its center. The wheel pivots on the pivots 32 of the cage 14 carried by the lower and upper decks. Thus, although rotating about the axis AA, the wheel is not mounted on a pin axis AA, but is made integral with the lower and upper bridges by the pillars and screws. The wheel is also asymmetrical, with respect to this axis AA, since the pivoting means 34 of the exhaust are arranged asymmetrically with respect to the axis AA.

At the level of the pallets 18 of the anchor 16, the wheel can be open or of lesser thickness, which, avoiding possible tolerance problem, to bring the anchor 16 of the intermediate bridge 24 and limit the thickness of the vortex as much as possible. In addition, the tourbillon is thus lightened.

The wheel is intended to be kinematically connected to the gear train of the movement. The dimensions and gear ratios of the escapement, of the fixed wheel with which the exhaust pinion meshes with the wheel are determined so that the wheel performs a revolution in one minute and thus pivots like a wheel. second. It can thus cooperate with a second second wheel of the same size as the movement. The wheel meshes directly or via a return, but without gearing, with the second wheel of the movement.

This arrangement allows to integrate the tourbillon according to the invention in an existing caliber, not designed to receive a vortex, directly engaging the wheel formed by the bridge 24 and the second wheel that initially comprises the movement. In addition, the vortex has no second gear, which limits the thickness of the device.

Thus, the construction of the tourbillon described above provides an extremely compact structure, with a small thickness and very simple, with very few parts and without multiplying the bridges. All the elements of the mechanism are arranged in only three decks.

Note further that the vortex mechanism according to the invention allows to have a balance 10 whose diameter is greater than that of the cage, which is interesting in the ratio between the size of the device and the quality of the regulation.

The above description has been given by way of non-limiting example of the invention. Those skilled in the art will be able to provide any variants, without departing from the scope of the invention defined in the claims.

Claims (9)

1. Tourbillon mechanism comprising: - a cage (14) comprising a lower half-cage consisting of a lower bridge (22), an upper half-cage consisting of an upper bridge (20) and an intermediate bridge (24) disposed in the cage (14) between the lower and upper half-cages, An escape mechanism housed inside the cage (14) and comprising a rocker (10) and an escape wheel (12), and An escape pinion (38) intended to mesh with a fixed element of a movement in which said tourbillon mechanism is intended to take place, characterized in that the balance (10), the wheel (12) and the pinion (38) exhaust are exclusively pivoted on the lower bridges (22) and upper (20) and on the intermediate bridge (24). 2. Tourbillon mechanism according to claim 1, characterized in that the rocker (10) and the escape wheel (12) are arranged on either side of the intermediate bridge (24). 3. Tourbillon mechanism according to claim 2, characterized in that the rocker (10) is pivoted between the lower bridge (22) and the upper bridge (20) and passes through the intermediate bridge (24). 4. A vortex mechanism according to claim 3, wherein the rocker (10) is associated with a spiral spring (11), characterized in that a device for adjusting the tension of the spiral spring is arranged directly in the lower bridge ( 22) or in the upper deck (20). 5. Tourbillon mechanism according to one of claims 3 and 4, characterized in that the lower and upper bridges receive an anti-shock device (42) cooperating with pivots of the balance (10). 6. Tourbillon mechanism according to one of claims 3 to 5, wherein the rocker (10) is provided with a double-plate (40), characterized in that the intermediate bridge (24) has an opening through which passes the beam (10), the double-plate (40) being at least partially located in the thickness of the intermediate bridge (24). 7. Tourbillon mechanism according to one of the preceding claims, characterized in that the escape wheel (12) is pivoted between the intermediate bridge (24) and a flange (36) that comprises the lower bridge (22). 8. Tourbillon mechanism according to claim 7, characterized in that the pinion is located between the flange (36) and the escape wheel (12). 9. vortex mechanism according to one of the preceding claims, characterized in that the rocker (10) is pivoted along an axis not coincident with the pivot axis of the cage.