CH707187A2 - Resonator clockwork and assembly comprising such a resonator and an escapement mechanism. - Google Patents

Abstract

The invention relates to a clockwork movement resonator comprising: - a rocker (10), - a pinion (24) mounted coaxially and secured to the rocker arm, - at least one movable piece (20) having a gearing engaged with the pinion and - a spring member (26) exerting a restoring force on the moving part. The invention also relates to an assembly comprising an escapement mechanism and a mechanical resonator comprising: - a rocker (10), - an escape wheel (12) intended to receive a torque supplied by a source of energy, the rocker arm (10) and the escape wheel (12) being connected by an alternating and transmission stop system (14) for connecting the escape wheel (12) and the rocker arm (10), and arranged to block intermittently the escape wheel (12) and release under the action of the beam (10) and to transmit to the balance (10) a parcel of energy to maintain its oscillations. According to the invention, the mechanism further comprises a pinion (24) intended to be mounted integral with the rocker (10), said pinion (24) being kinematically connected with a toothing of an intermediate mobile (20) subjected to the action of a spring member (26) for forming a resonator with the balance (10).

Description

Technical area

The present invention relates to the field of watchmaking. It relates more particularly to a clock movement resonator and an assembly comprising such a resonator and an escape mechanism. Also, this assembly comprises a balance associated with a spring to form the resonator, and an escape wheel for receiving a torque provided by a spring-type energy spring barrel.

The rocker and the escape wheel are connected by an alternating stop and transmission system arranged to intermittently block the escape wheel and release under the action of the pendulum and to transmit to the pendulum a parcel of energy to maintain its oscillations.

State of the art

The escapement is an essential part of mechanical clockwork movements. It is generally placed between a transmission member (gear train) which transmits a torque supplied by the energy source and resonator which defines the regulating member, in order to maintain and count the oscillations of the regulating member.

In the current movements, except the clock movements and pendulum equipped with a pendulum pendulum, the regulating member is a balance-spiral. Current spirals have the disadvantage of developing eccentrically during their expansion and during their contraction.

This defect causes imbalance and pressure on the pivots, which translate into differences in operation.

In addition, it is always difficult to control the manufacture of spirals at the industrial level. The efforts to implement the know-how and technologies necessary for reliable industrial production are very important.

Some oscillators work without spirals, but their system is partly magnetic. In the first case, the spiral is replaced by magnets that oppose and repel each other. In another case, it is the balance and the hairspring that no longer exist and are replaced by a resonator using a magnetic rotor and a sound frequency oscillator.

These partly magnetic systems come out of the circle of purely mechanical movements. The object of the present invention is to propose an oscillator escapement assembly without a 100% mechanical spiral.

Disclosure of the invention

More specifically, the invention relates to a clock movement resonator comprising: - a pendulum, A pinion mounted coaxially and secured to the balance, At least one movable part having a gear engaged with the pinion, and - A spring member exerting a restoring force on the moving part.

The invention also relates to an assembly comprising an escape mechanism and a mechanical oscillator, as presented in the first paragraph of this application, characterized in that it further comprises a pinion intended to be mounted integral with the balance. This pinion is kinematically connected with a toothing of an intermediate mobile subjected to the action of a spring member to form a resonator with the pendulum.

The dependent claims provide other features of the invention.

Brief description of the drawings

Other details of the invention will appear more clearly on reading the description which follows, given with reference to the accompanying drawing in which: <tb> fig. 1 <SEP> represents a first embodiment of an assembly comprising an escape mechanism and a mechanical oscillator according to the invention, <tb> figs. 2a, 2b and 2c <SEP> provide chronological views of the whole of FIG. 1, at different stages of its operation, <tb> fig. 3 <SEP> illustrates a second embodiment of the assembly according to the invention, and <tb> fig. 4 <SEP> provides an illustration of a clock movement resonator according to the invention.

Embodiment of the invention

The invention relates to an assembly formed of an escapement mechanism and a resonator comprising a mechanical oscillator, taking the usual form of a balance wheel 10. The exhaust mechanism is intended to maintain the oscillations of the balance wheel 10 by transmitting a parcel of energy supplied by an energy source not shown. This energy source can be, conventionally, a barrel.

This energy source is kinematically connected to an escape wheel 12. An alternative stop and transmission system 14 is arranged between the rocker 10 and the escape wheel 12 to block the latter intermittently and release it under the action of the pendulum 10.

In the embodiment of FIG. 1, the alternative stop and transmission system 14 is a pivotally mounted anchor and provided with an entry pallet 16a and an output pallet 16b intended to cooperate with the teeth of the escape wheel 12. this variant, the pallets 16a and 16b are located at a different level of the general plane of the anchor. They are made in the form of cylindrical rollers mounted free to rotate on an axis 18a, 18b disposed orthogonally to the general plane of the anchor. These rollers, capable of rotating, substantially reduce the friction between the escape wheel 12 and the anchor, replacing a portion of the slides by rotations. The pallets 16a, 16b are arranged to perform the conventional functions of a conventional exhaust: stop, release, pulse, as will be detailed below with reference to FIGS. 2a, 2b and 2c.

Coaxially with the anchor 14, an intermediate mobile 20 is mounted freely in rotation. This intermediate mobile 20 is here represented in the form of a truncated wheel so as to leave visible the other elements of the exhaust, but it can also be a complete wheel. As will be seen below, the term mobile intermediate must be interpreted broadly which also includes a moving part without pivot. The intermediate mobile 20 is provided with a peripheral toothing 22, arranged to be connected kinematically with a pinion 24 coaxial and integral with the rocker 10. The intermediate mobile 20 can be engaged directly with the pinion 24 or via a or several referrals forming a reduction train.

The intermediate mobile 20 is subjected to the action of a spring member 26 to form a resonator with the balance 10. In this embodiment, the spring member 26 connects the intermediate mobile 20 and the stop system. alternating and transmission 14. More particularly, a first end of the spring member 26 is fixed on the anchor 14, for example by a clamping pin 28 and on the intermediate mobile 20, by a piton type fastening system 30.

The spring member 26 may be a wire spring, but is not a spiral spring. It may possibly be likened to a portion of turn, but which defines an angle less than 360 °, preferably less than 180 °. It is arranged so that, in the rest position, the center line which connects the axes of the escape wheel 12, the anchor and the balance 10, is substantially located in the center of the useful part of the peripheral toothing 22 of the intermediate mobile 20. The spring member 26 is capable of being deformed in tension and in compression with respect to its rest position.

The spring member 26 thus allows to connect in rotation, but with a temporal and spatial shift due to its deformation, the anchor and the intermediate mobile.

An adjusting spring 32 may be further provided to adjust the extreme positions of the anchor. Advantageously, in the proposed variant, the adjusting spring 32 comprises a first 32a and a second spring blades 32b, respectively intended for adjusting the first and second extreme positions of the anchor 14, cooperating with a tail 34 that includes the 'anchor. The position of the spring blades 32a, 32b can be adjusted by an eccentric 35. The advantage of the spring blades 32a, 32b is that their effect is adjusted as a function of the amplitude variations related to the decrease in the torque transmitted by the source of the spring. 'energy. Thus, when the energy source is armed to the maximum, the spring blades 32a, 32b can accept a greater amplitude of the displacements of the anchor. When the energy source is less armed, the spring blades are less stressed.

In operation, we can see in fig. 2a the escape wheel 12 in the stop position on the output pallet 16b. The anchor is supported on the first leaf spring 32a. The rocker 10 performs its alternation in the opposite direction of clockwise, driving the mobile intermediate 20 also in the opposite direction of clockwise. Under the combined action of the displacement of the intermediate mobile 20 and the spring member 26, the anchor also pivots in the counterclockwise direction and releases the escape wheel 12. In the disengagement phase ( Fig. 2b), the escape wheel 12 pulses on the output pallet 16b. However, we can not clearly identify the two phases in the drawings, since there are no separate plans in the usual sense of the term. Then, the escape wheel 12 falls on the entry pallet 16a to be at rest again. The anchor is now supported on the second leaf spring 32b.

Depending on the desired quality and accuracy, we can add a specially adapted system to promote the release of pallets, fork type on the anchor 14, and peg on a plate mounted integral on the axis of the balance 10 or mounted on another mobile connected to the balance by a gear.

FIG. 3 proposes a second embodiment of the invention. We find, as in the embodiment above, the intermediate mobile 20 kinematically connected to the pinion 24 integral with the rocker 10, the intermediate mobile 20 being subjected to the action of the spring member 26 to form a resonator with the pendulum 10. However, in this embodiment, the intermediate mobile 20 and the alternative stop and transmission system 14 are mounted along two different axes. The intermediate mobile may be only partially toothed, depending on the amplitude provided for its rotation and the part of its periphery that will be used.

The spring member 26 connects, at one end, the intermediate mobile 20 and, at the other end, an attachment point 36. This attachment point 36 is preferably a mobile pin associated with a racket of conventional type, except that the cock is not mounted on the axis of the balance 10, but on a cock bridge independent of the balance 10. It can thus adjust the active length of the spring member . Such an arrangement of the intermediate mobile 20 makes it possible to accommodate an alternative stop system and transmission 14 of conventional type. In the example, there is shown a Swiss lever escapement, but one could also consider a relaxation exhaust or other exhaust. Similarly, all the frequencies are conceivable. It is also possible to replace the conventional rocker 10 with a flywheel, circular or cylindrical having the same function. This regulator can be inclined at any angle to the movement, the teeth connecting the regulator and the intermediate mobile being adjusted to ensure good cooperation between these elements, regardless of the relative angle between them.

Note that in the example shown, the intermediate mobile 20 is balanced. In addition, one could have two spring members on the intermediate mobile 20, these two spring members being arranged symmetrically with respect to the axis of the intermediate mobile 20, so that the influence of gravity on the spring members compensate.

In FIG. 4, there is shown a variant of a resonator according to another aspect of the invention. Like the resonators proposed above, there is a rocker 10 with a pinion 24 which is integral and coaxial. Advantageously, the mobile having the peripheral toothing 22 is here a moving part 20 devoid of pivot. This configuration is therefore particularly interesting from the point of view of friction. More particularly, the movable part 20 is suspended at one end of the spring member 26, which it can form an extension.

In the example proposed in FIG. 4, the movable piece is connected to a frame 40 by the spring member 26, which is formed by a plurality of flexible arms. When the flexible arms are at rest, they are arranged parallel to each other and the pinion 24 meshes with the peripheral toothing 22 substantially in the middle of the latter. The flexible arms are arranged so that the peripheral toothing 22 is movable in translation, according to oscillations of the balance.

At rest, the movable part 20 can thus be connected by a first pair of flexible arms 26a arranged perpendicularly with reference to the peripheral toothing 22. The flexible arms 26a of this first pair join a connecting amount 42 parallel to the teeth. 22, and from which a second pair of flexible arms 26b joined the frame, parallel to the flexible arms 26a of the first pair. As can be seen in fig. 4, during the displacement of the moving part 20, the flexible arms deform according to different behaviors for each pair, allowing the peripheral teeth 22 to translate. The peripheral toothing therefore follows a rectilinear trajectory. Such a configuration with flexible blades has already been applied to other areas, so it does not need to be described in more detail.

As mentioned above, can be meshed on the pinion 24 two moving parts 20, the peripheral teeth meshing on both sides of the pinion, symmetrically. In the example of FIG. 4, the moving parts 20 are positioned on either side of a plane passing through the pinion and perpendicular to the plane of the beam. The moving parts are symmetrical and connected to the same frame 40.

It could also be envisaged that the two moving parts 20 are positioned on the same side of this plane, but with their respective peripheral teeth in engagement with the pinion 24 according to the meshing points located, them, of part and of other of said plan.

In an alternative not shown, the movable part 20 can be simply located at the end of a spring blade recessed on the frame. The peripheral toothing is then likely to move in a rotation centered on the embedding point.

With these configurations, the escape wheel can be positioned with great flexibility with respect to the balance, thus providing many opportunities for the skilled person to build his exhaust.

Advantageously, the assembly according to the invention allows to introduce a gear ratio between the balance 10 and the intermediate mobile. Consequently, the amplitude of the intermediate mobile 20 can be reduced, which therefore makes it possible to dispense with a spiral. It avoids all the disadvantages of spirals, including its adjustment, its asymmetry ...

In addition, the fact that the action of the spring does not apply to the balance 10, but further in the train, reduces the influence of the spring on the running of the watch, linked to the friction axis . One can even consider having a balance amplitude greater than 360 °.

Thus is proposed a new type of assembly comprising an exhaust mechanism and a mechanical oscillator for mechanical watch, which makes it possible to dispense with a spiral spring and decreases the influence of the spring on the running of the watch. Those skilled in the art will be able to make different variants, drawing on the description given above, given by way of nonlimiting example, without departing from the protection defined by the claims.

Claims (15)

1. Clockwork movement resonator comprising - a balance (10), - A pinion (24) mounted coaxially and secured to the balance, - at least one movable part (20) having a toothing engaged with the pinion, and - A spring member (26) exerting a restoring force on the moving part. 2. Resonator according to claim 1, characterized in that it comprises a plurality of moving parts associated in pairs, said moving parts of each pair being arranged to move in phase opposition with respect to the other during pendulum oscillations. 3. Resonator according to claim 2, characterized in that the teeth of the moving parts of a pair, are arranged symmetrically with respect to the pinion. 4. Resonator according to claim 3, characterized in that the moving parts of a pair are positioned on the same side or on either side of a plane passing through the pinion and perpendicular to the beam. 5. Resonator according to one of the preceding claims, characterized in that the movable part is connected to a frame by the spring member, the latter being formed by a plurality of flexible arms arranged so that the toothed sector is movable. in translation. 6. Resonator according to one of the preceding claims, characterized in that the movable part is suspended at one end of the spring member. An assembly comprising an escape mechanism and a mechanical resonator comprising: - a balance (10), An escape wheel (12) intended to receive a torque supplied by an energy source, the rocker (10) and the escape wheel (12) being connected by an alternating and transmission stop system (14); ) for connecting the escape wheel (12) and the rocker (10), and arranged to intermittently block the escape wheel (12) and release it under the action of the balance (10) and to transmit to the pendulum (10) a parcel of energy to maintain its oscillations, characterized in that it comprises a pinion (24) intended to be mounted integral with the rocker (10), said pinion (24) being kinematically connected with a toothing of an intermediate mobile (20) subjected to the action of a spring member (26) to form a resonator with the balance (10). 8. The assembly of claim 7, characterized in that the intermediate mobile (20) is coaxially mounted and free to rotate with the alternative stop and transmission system (14), and in that the spring member (26) connects the intermediate mobile and the alternative stop and transmission system (14). 9. An assembly according to claim 8, characterized in that the alternative stop and transmission system (14) is an anchor provided with an entry pallet (16a) and an exit pallet (16b), said pallets being located at a different level from the general plane of the anchor. 10. The assembly of claim 9, characterized in that said input vanes (16a) and outlet (16b) are cylinders mounted free to rotate on the anchor, along an axis orthogonal to the general plane of the anchor. 11. Assembly according to one of claims 9 and 10, characterized in that it comprises at least one adjusting spring to define the extreme positions of the anchor. 12. An assembly according to claim 7, characterized in that the intermediate mobile (20) and the alternative stop and transmission system (14) are mounted on two different axes, and in that the spring member (26) connects the intermediate mobile and an attachment point (36). 13. The assembly of claim 12, characterized in that the point of attachment (36) is a mobile peg associated with a racket. 14. An assembly according to one of claims 12 and 13, characterized in that the alternative stop and transmission system (14) is a Swiss anchor type anchor. 15. Assembly according to one of claims 7 to 14, characterized in that said spring member (26) is not a spiral spring.