EP3525046A1 - Clock oscillator not sensitive to the angular accelerations of the wearing - Google Patents

Abstract

Clockwork movement (1000) comprising a mechanism (100) comprising an inertial element (10) arranged to oscillate or pivot about a first pivot axis (D1) with respect to a structure (12) of the movement (1000) , and arranged to cooperate directly or indirectly with a mobile energy distributor (20) pivoting with respect to the structure (12) around a second pivot axis (D2) parallel to or coincident with the first pivot axis (D1) and subjected to a torque exerted by a power source (300), wherein the energy-distributing mobile (20) meshes directly or indirectly with at least one inertia mobile (30) pivoting about a third pivot axis (D3) with respect to the structure (12), each inertia wheel (30) is arranged to pivot in the opposite direction of the energy distributing wheel (20), and the total inertia of the inertia wheel (30) is between 60% and 140% of the inertia of the mobile energy distributor (20).

Description

Field of the invention

The invention relates to a clockwork movement, comprising a mechanism comprising at least one inertial element arranged to oscillate or pivot about a first axis of pivot relative to a structure of said movement, and arranged to cooperate directly or indirectly with at least a mobile energy distributor pivoting relative to said structure about a second pivot axis parallel to or coincident with said first pivot axis and subjected to a torque exerted by at least one energy source.

The invention also relates to a watch comprising at least one such movement.

The invention relates to the field of watch mechanisms, in particular those that are sensitive to the movements of the user or the device that carries them, and whose operation is sensitive to accelerations related to the circumstances of the worn, such as flights, sudden movements or falls. The invention finds a particular interest for providing protection to resonators, regulators, or drive members.

Background of the invention

In a classic Swiss-anchor escapement mechanism, the escapement wheel has a variable rotational movement: at each alternation, it is initially blocked by the anchor, then briefly accelerated by the torque applied by the barrel, and finally blocked again. These long phases in locked position give this type of exhaust a great robustness to rotational accelerations due to the worn.

Some escapements, such as the Clifford escapement, or the direct synchronization magnetic escapement, require the escape wheel to rotate at a near constant speed, with no downtime. This continuous rotation has many advantages, in particular an increase in the energy efficiency of the exhaust, because it is no longer necessary to accelerate the escape wheel at each alternation. On the other hand, these systems can become sensitive to rotational accelerations due to the wear, because the escape wheel necessarily has a certain inertia. In one case particularly disadvantageous, an acceleration due to the bearing against the normal rotation of the wheel can stop temporarily or permanently if the exhaust is not self-starting.

This bearing sensitivity problem was not effectively solved in the case of Clifford's escape. Rather, it has been chosen to use such an escapement in a static timepiece, such as a clock or a table alarm clock, which by definition does not undergo any acceleration due to the worn.

Summary of the invention

The invention proposes to provide a simple solution, low cost, the recurring problem of protection against unwanted and disruptive accelerations of walking or the proper functioning of the watch mechanisms.

In particular in the escapements whose escape wheel rotates at a constant speed, the invention consists in adding at least one mobile of inertia equivalent to that of the mobile escapement, but rotating in the opposite direction in order to reject the rotational accelerations. due to the worn.

For this purpose, the invention relates to a watch movement according to claim 1.

The invention further relates to a watch movement according to claim 30.

The invention also relates to a watch comprising at least one such movement.

Brief description of the drawings

• la figure 1 représente, de façon schématisée et partielle, un mouvement d'horlogerie selon l'invention, comportant un mécanisme résonateur à lames avec un élément inertiel oscillant sous l'action de lames flexibles, couplé avec un mécanisme d'échappement magnétique comportant un mobile d'échappement et soumis à un couple exercé par une source d'énergie au travers d'un rouage, l'élément inertiel comportant à sa périphérie des zones aimantées, agencées pour coopérer directement avec des zones aimantées du mobile d'échappement, et ce mobile d'échappement engrène, selon l'invention, avec un mobile d'inertie qui est une roue folle extérieure au rouage ; ce résonateur oscillant est entretenu par synchronisation directe, sans ancre, et le mobile distributeur d'énergie, ici une roue d'échappement, tourne à vitesse constante, sans phase d'arrêt ;
• la figure 2 représente, de façon similaire à la figure 1, un autre mouvement comportant un résonateur similaire, et où le mobile d'inertie est réglable en position, et est prévu pour être intégré dans le rouage de barillet ; la double flèche en trait interrompu schématise la perturbation externe due au porté (sens, intensité et centre de rotation aléatoires) ;
• la figure 3 représente, de façon similaire à la figure 1, une variante électro-mécanique de mise en oeuvre de l'invention, avec, selon le cas, une génératrice électrique alimentée par un barillet mécanique transmettant un couple moteur au mobile distributeur d'énergie comportant un rotor magnétique coopérant avec un stator bobiné, ou bien un moteur électrique à rotation continue comportant une pile alimentant un stator bobiné coopérant un rotor agencé pour entraîner le mobile distributeur d'énergie pour l'entraînement d'un mécanisme horloger ou d'un afficheur ou d'une aiguille ;
• la figure 4 représente, de façon similaire à la figure 1, une variante où le mobile d'inertie est en prise avec une roue du rouage, entre la source d'énergie et le mobile d'échappement, dans une position du rouage dans laquelle ce mobile d'inertie tourne en sens inverse de la roue d'échappement ;
• la figure 5 est un schéma-blocs représentant une montre comportant une source d'énergie et un mouvement selon l'invention.

Other features and advantages of the invention will appear on reading the detailed description which follows, with reference to the appended drawings, in which:

• the figure 1 represents, schematically and partially, a clockwork according to the invention, comprising a blade resonator mechanism with an inertial element oscillating under the action of flexible blades, coupled with a magnetic escapement mechanism comprising a mobile device; exhaust and subjected to a torque exerted by a power source through a train, the inertial element having at its periphery magnetized zones, arranged to cooperate directly with the magnetized zones of the mobile exhaust, and mobile d escapement engages, according to the invention, with a mobile of inertia which is a crazy wheel external to the wheel; this oscillating resonator is serviced by direct synchronization, without anchor, and the mobile energy distributor, here an escape wheel, rotates at constant speed, without stopping phase;
• the figure 2 represents, similarly to the figure 1 another movement comprising a similar resonator, and wherein the inertia mobile is adjustable in position, and is intended to be integrated in the barrel wheel; the double arrow in broken lines schematizes the external disturbance due to the bearing (random sense, intensity and center of rotation);
• the figure 3 represents, similarly to the figure 1 an electromechanical variant of implementation of the invention, with, as the case may be, an electric generator powered by a mechanical barrel transmitting a motor torque to the mobile energy distributor comprising a magnetic rotor cooperating with a wound stator, or a continuous rotation electric motor comprising a battery supplying a coiled stator cooperating with a rotor arranged to drive the mobile energy distributor for driving a watch mechanism or a display or a needle;
• the figure 4 represents, similarly to the figure 1 , a variant where the mobile of inertia is engaged with a wheel of the train, between the energy source and the mobile of exhaust, in a position of the gear train in which this mobile of inertia rotates in opposite direction of the wheel exhaust;
• the figure 5 is a block diagram showing a watch comprising a source of energy and a movement according to the invention.

Detailed Description of the Preferred Embodiments

The invention relates to a 1000 clock movement. This movement 1000 comprises a mechanism 100, which comprises at least one inertial element 10, which is arranged to oscillate or pivot about a first pivot axis D1 with respect to a structure 12 of the movement 1000.

This at least one inertial element 10 is arranged to cooperate directly or indirectly with at least one mobile energy distributor 20 pivoting relative to the structure 12, around a second pivot axis D2, parallel to or coincident with the first axis of pivoting D1, and is subjected, either directly or through a direct train 40, to a torque exerted by at least one energy source 300, such as a cylinder in the figure 1 , or similar.

By "direct wheel" is meant that, even if the mechanism 100 comprises several energy sources 300, and that differentials or the like are integrated at the wheel, the last mobile of the train, directly upstream of the mobile energy distributor 20, is unique.

The figures illustrate the particular, non-limiting case of a single mobile energy distributor.

According to the invention, this at least one mobile energy distributor 20 meshes directly or indirectly with at least one inertial mobile 30, distinct from the inertial element 10, or from each inertial element 10 when there are several, and which pivots about a third pivot axis D3 with respect to the structure 12.

This at least one mobile inertia 30 is also distinct from each energy source 300. It is, again, distinct from the gear 40, when the at least one mobile energy distributor 20 is subjected to a torque exerted by at least a source of energy 300 through a gear 40.

This third pivot axis D3 is parallel or coincides with the second pivot axis D2. Each mobile inertia 30 is arranged to pivot in the opposite direction of the mobile energy distributor 20, and the total inertia of the mobile inertia 30 is between 60% and 140% of the inertia of the mobile energy distributor 20.

More particularly, the total inertia of the inertia mobiles 30 is between 90% and 110% of the inertia of the mobile energy distributor 20.

The closer we approach the value of the inertia of the mobile energy distributor 20, and the better is the insensitivity to the angular accelerations of the worn. Advantageously, such an inertia mobile 30 comprises fine adjustment means for the value of its inertia, for example on the figure 2 with a network of holes located on the same radius relative to the third pivot axis D3, which holes are arranged to receive inserts of mass adapted to the desired inertia adjustment. The results are excellent with the total inertia of the mobile inertia 30 is between 98% and 102% of the inertia of the mobile energy distributor 20.

More particularly still, the total inertia of the inertia mobiles 30 is equal to that of the mobile energy distributor 20.

In order to minimize the energy losses following the addition of such a mobile, it is advantageous to treat the transmission by producing for example a gear without play, comprising at least one flexible gear wheel, or the like.

Advantageously, at least the mobile energy distributor 20 or a mobile inertia 30 has a flexible toothing clearance play with teeth having slots separating half-teeth or tooth portions, or consisting of two superimposed half-wheels each having a portion of the toothing, or the like.

In a variant, this at least one mobile energy distributor 20 meshes directly with a mobile of inertia 30, or with each mobile of inertia 30.

In another variant, the at least one mobile energy distributor 20 indirectly meshes with at least one mobile inertia 30 through at least one transmission mobile distinct from the inertial element 10, distinct from each source of energy. energy 300, and separate from the gear 40 when the at least one mobile energy distributor 20 is subjected to a torque exerted by at least one energy source 300 through a gear 40.

In another variant, the at least one mobile energy distributor 20 meshes indirectly with each mobile of inertia 30, through at least one transmission mobile distinct from the inertial element 10, distinct from each energy source. 300, and separate from the gear 40 when the at least one mobile energy distributor 20 is subjected to a torque exerted by at least one energy source 300 through a gear 40.

In a variant, at least one mobile energy distributor 20 is connected to the at least one energy source 300 by a gear 40, and at least one inertia mobile 30 is a wheel outside the gear 40, meshing directly or indirectly with a wheel of the train 40 and rotating in the opposite direction of the mobile energy distributor 20.

More particularly, at least one wheel external to the gear 40 meshes directly with a wheel of the wheel 40.

More particularly, at least one wheel external to the gear 40 meshes indirectly with a wheel of the gear train 40, through at least one transmission gear separate from the inertial element 10, distinct from each energy source 300, and distinct from the gears 40.

More particularly, each inertial wheel 30 is a wheel outside the wheel 40, meshing directly or indirectly with a wheel of the train 40, and which rotates in the opposite direction of the mobile energy distributor 20.

More particularly, when the mechanism 100 comprises a mobile transmission, at least one such mobile transmission has a flexible toothing clearance play.

In particular, at least one mobile inertia 30, or more particularly each mobile inertia 30, is a crazy wheel.

More particularly, the mobile energy distributor 20 meshes indirectly with at least one mobile inertia 30 through at least one transmission mobile. More particularly, at least one transmission mobile has a flexible toothing clearance play.

More particularly, but not exclusively, the mobile inertia 30 is unique, as visible on the figures 1 and 2 .

In a particular and advantageous manner, when the mobile inertia 30 is unique, and is not in direct contact with the mobile energy distributor 20, the ratio Ri / Rref between the inertia Ri of the inertia mobile 30 and the inertia Rref of the mobile energy distributor 20 is equal to the ratio Vref / Vi between the nominal rotation speed Vref of the mobile energy distributor 20 and the nominal rotation speed Vi of the mobile inertia 30.

In a particular embodiment, at least a third pivot axis D3 of a mobile inertia 30 which does not mesh directly with the at least one mobile energy distributor 20 coincides with the second pivot axis D2.

In a particular embodiment, at least a third pivot axis D3 coincides with the first pivot axis D1.

The figure 1 illustrates a variant where a mobile energy distributor 20 is connected to a power source 300 by a gear train 40, and at least one mobile inertia 30, or each mobile inertia 30, is a crazy wheel external to this wheel 40.

In another variant, the mobile energy distributor 20 is connected to the at least one energy source 300 by a gear train 40, and at least one inertia moving wheel 30, or each moving wheel 30, is a wheel belonging to the gear train 40 as visible on the variant of the figure 2 , which allows such an arrangement, with a barrel wheel, not shown, in engagement with the inertia wheel 30, or at least one inertia wheel 30, or each inertia wheel 30, is a wheel meshing with a wheel of the gear as shown on the figure 4 , subject to turn in the opposite direction of the mobile energy distributor 20.

More particularly, the mechanism 100 and the mobile energy distributor 20 are arranged to control a continuous pivoting, without stopping, of the mobile energy distributor 20.

More particularly, the mechanism 100 and the mobile energy distributor 20 are arranged to control a pivoting of the mobile energy distributor 20 at a speed which is proportional, with a constant proportionality factor, to the value of the torque exerted by the less a source of energy 300.

More particularly and as visible on the figure 2 the flywheel 30 pivots on an intermediate plate 50 which is movable relative to the structure 12, and which has position adjustment means 51 of the third pivot axis D3 with respect to the structure 12, such as an oblong groove / pin, and / or eccentric screw, or other.

In a particular embodiment, and in particular on the variants illustrated by the figures, each inertial mobile 30 is isolated from any inertial element 10 by a mobile energy distributor 20, which is interposed between this mobile inertia 30 and each inertial element 10. This application is well suited to non-contact exhaust mechanisms, such as magnetic exhaust or the like.

Another particular embodiment relates to other architectures, such as for example a natural escape mechanism, where, conversely, at least one inertial mobile 30 is arranged to directly or indirectly transmit energy to minus an inertial element 10.

More particularly, the mobile energy distributor 20 is unique.

In a particular variant embodiment, the mechanism 100 is a resonator mechanism, which comprises at least one inertial element 10 arranged to oscillate around the first pivot axis D1 relative to the structure 12 of the movement 1000, and which is arranged to cooperate directly or indirectly with the at least one mobile energy distributor 20.

More particularly, the resonator mechanism is devoid of a stop, in particular without anchor.

More particularly, the at least one mobile energy distributor 20 is an escape wheel as in the variants of the figures 1 and 2 .

In another particular embodiment, the mechanism 100 is a ringer regulator mechanism, which comprises eddy current regulation means and / or by return spring and / or mechanical friction and / or aerodynamic friction.

In another particular variant of embodiment schematized by the figure 3 , the mechanism 100 is an electromechanical mechanism which comprises, or an electric generator powered by a mechanical barrel transmitting a motor torque to the mobile energy distributor 20 which comprises a rotor 60 with magnetic sectors whose fields are arranged to cooperate with at least one wound stator 61, or comprises an electric motor to continuous rotation comprising electrical supply means or at least one battery supplying a wound stator 61 arranged to cooperate with fields emitted by magnetic sectors of a rotor 60 arranged to drive the at least one mobile energy distributor 20 for the driving a watch mechanism or a display or a needle.

In particular, at least one mobile inertia 30 comprises a rotor 60 with magnetic sectors whose fields are arranged to cooperate with at least one wound stator 61.

The invention also relates to a watch 2000 comprising at least one such movement 1000. Naturally, this watch can be a wristwatch, a pocket watch, or even a watch of a vehicle, aircraft, car, ship, for example a stop watch. marine, or other.

The invention allows an economic transformation of existing movements, by addition of mobile inertia. It accommodates the available space, since it is not essential to have a single mobile of inertia, and it is possible, with games of referrals, to make the most of areas still available within of the watch box.

In short, for the particular case of an escape mechanism, the invention proposes adding to the train of gear a mobile of rotational inertia equivalent to that of the escape wheel, rotating at the same speed but in the opposite direction to it and which meshes permanently with the escape wheel.

In a particular embodiment according to the figure 2 , this mobile inertia is located just before the escape wheel. The other mode according to the figure 1 has a flywheel which is a crazy wheel, used in parallel with the gear train rather than in series.

It is theoretically possible to place the mobile inertia higher in the gear train, ie closer to the barrel, but in practice the inertia should become very large to compensate for the fact that this inertia would be reported at the pinion of the mobile escapement (and no longer at the wheel), and game catch-up problems are then more complex.

The invention provides, when the inertia of the mobile energy distributor is equivalent to the total inertia of all the inertial mobiles associated with it, a very high resistance to external accelerations, including angular accelerations related to the wearer and the set.

Claims (31)

Clockwork movement (1000) comprising a mechanism (100) comprising at least one inertial element (10) arranged to oscillate or pivot about a first pivot axis (D1) with respect to a structure (12) of said movement ( 1000), and arranged to cooperate directly or indirectly with at least one mobile energy distributor (20) pivoting relative to said structure (12) around a second pivot axis (D2) parallel to or coincident with said first axis of pivoting (D1) and subjected to a torque exerted by at least one energy source (300), either directly or through a direct train (40), characterized in that said at least one mobile energy distributor (20) meshes directly or indirectly with at least one flywheel (30) separate from said inertial element (10), distinct from each said energy source (300), and separate from said gear (40) when said at least one mobile power distributor (20) is subject to a couple exe driven by at least one energy source (300) through a gear train (40), and said at least one inertial moving member (30) pivoting about a third pivot axis (D3) relative to said structure (12), which third pivot axis (D3) is parallel to or coincides with said second pivot axis (D2), and each said inertial moving member (30) is arranged to pivot in opposite direction of said mobile energy distributor (20), and in that the total inertia of said inertia mobiles (30) is between 60% and 140% of the inertia of said energy distributor (20). Movement (1000) according to claim 1, characterized in that said at least one mobile energy distributor (20) meshes directly with at least one said mobile inertia (30). Movement (1000) according to claim 2, characterized in that said at least one mobile energy distributor (20) meshes directly with each said mobile inertia (30). Movement (1000) according to claim 1 or 2, characterized in that said at least one mobile energy distributor (20) indirectly meshes with at least one said mobile inertia (30) through at least one mobile of separate transmission of said inertial element (10), distinct from each said energy source (300), and distinct from said gear train (40) when said at least one energy distributing mobile (20) is subjected to a torque exerted by at least one an energy source (300) through a gear train (40). Movement (1000) according to claim 4 when it depends on claim 1 only, characterized in that said at least one mobile energy distributor (20) meshes indirectly with each said inertial moving member (30), through at least one transmission unit separate from said inertial element (10), distinct from each said energy source (300), and separate from said gear train (40) when said at least one energy distributing mobile (20) is subjected to a torque exerted by at least one energy source (300) through a gear train (40). Movement (1000) according to claim 1, characterized in that said at least one mobile energy distributor (20) is connected to said at least one energy source (300) by a gear train (40), and in that at least one said mobile inertia (30) is a wheel outside said gear (40), meshing directly or indirectly with a wheel of said train (40) and rotating in the opposite direction of said mobile energy distributor (20). Movement (1000) according to claim 6, characterized in that at least one said outer wheel gear wheel (40) meshes directly with a wheel of said train (40). Movement (1000) according to claim 6, characterized in that at least one said outer wheel gear (40) meshes indirectly with a wheel of said train (40), through at least one separate transmission mobile of said inertial element (10), distinct from each said energy source (300), and separate from said wheel (40). Movement (1000) according to one of claims 6 to 8, characterized in that each said mobile inertia (30) is a said outer wheel gear wheel (40) meshing directly or indirectly with a wheel of said wheel (40) and rotating in the opposite direction of said mobile energy distributor (20). Movement (1000) according to claim 4 or 5 or 8, characterized in that at least one said mobile transmission comprises a flexible toothing clearance play. Movement (1000) according to one of claims 1 to 10, characterized in that at least one said mobile inertia (30), or each said mobile inertia (30), is a crazy wheel. Movement (1000) according to one of claims 1 to 11, characterized in that said mobile inertia (30) is unique. Movement (1000) according to claim 12, characterized in that , when said mobile inertia (30) is unique, the ratio Ri / Rref between its inertia Ri and the inertia Rref of said mobile energy distributor (20) is equal to the ratio Vref / Vi between the speed nominal rotation Vref of said mobile energy distributor (20) and the nominal rotation speed Vi of said mobile inertia (30). Movement (1000) according to one of claims 1 to 13, characterized in that the total inertia of said inertia mobiles (30) is between 90% and 110% of the inertia of said mobile energy distributor (20). ). Movement (1000) according to claim 14, characterized in that the total inertia of said inertial mobile (30) is equal to that of said mobile energy distributor (20). Movement (1000) according to one of claims 1 to 15, characterized in that at least said at least one mobile energy distributor (20) or at least one said mobile inertia (30) has a flexible toothing to catching up game Movement (1000) according to one of claims 1 to 16, characterized in that at least one said third pivot axis (D3) of a said inertia mobile (30) which does not mesh directly with the said at least a mobile energy distributor (20) coincides with said second pivot axis (D2). Movement (1000) according to one of claims 1 to 17, characterized in that at least one said third pivot axis (D3) coincides with said first pivot axis (D1). Movement (1000) according to one of claims 1 to 18, characterized in that said mechanism (100) and said at least one mobile energy distributor (20) are arranged to control a continuous pivoting, without stopping, said mobile distributor of energy (20). Movement (1000) according to one of claims 1 to 19, characterized in that said mobile inertia (30) pivots on an intermediate plate (50) movable relative to said structure (12) and comprising means for adjusting the position (51) of said third pivot axis (D3) with respect to said structure (12). Movement (1000) according to one of claims 1 to 20, characterized in that at least one said inertial mobile (30) is arranged to directly or indirectly transmit energy to at least one said inertial element (10). ). Movement (1000) according to one of claims 1 to 20, characterized in that each said mobile inertia (30) is isolated from said all inertial element (10) by a said mobile energy distributor (20). Movement (1000) according to one of claims 1 to 22, characterized in that said mechanism (100) comprises a single mobile energy distributor (20). Movement (1000) according to one of claims 1 to 23, characterized in that said mechanism (100) is a resonator mechanism comprising at least one said inertial element (10) arranged to oscillate about said first pivot axis (D1) by relative to said structure (12) of said movement (1000), and arranged to cooperate directly or indirectly with said at least one mobile energy distributor (20). Movement (1000) according to claim 24, characterized in that said resonator mechanism is devoid of stop. Movement (1000) according to one of claims 1 to 25, characterized in that said at least one mobile energy distributor (20) is an escape wheel. Movement (1000) according to one of claims 1 to 23, characterized in that said mechanism (100) is a ring regulator mechanism comprising eddy current regulation means and / or by return spring and / or by friction mechanical and / or aerodynamic friction. Movement (1000) according to one of claims 1 to 23, characterized in that said mechanism (100) is an electromechanical mechanism which comprises, or an electric generator powered by a mechanical barrel transmitting a driving torque to said mobile distributor. energy (20) which comprises a rotor (60) with magnetic sectors whose fields are arranged to cooperate with at least one wound stator (61), or comprises a continuous rotation electric motor comprising electrical power supply means or at least one battery supplying a wound stator (61) arranged to cooperate with fields emitted by magnetic sectors of a rotor (60) arranged to drive said at least one mobile energy distributor (20) for driving a watch mechanism or a display or a needle. Movement (1000) according to claim 28, characterized in that at least one said inertia wheel (30) comprises a rotor (60) with magnetic sectors whose fields are arranged to cooperate with at least one wound stator (61). ). Clockwork movement (1000) comprising a mechanism (100) comprising at least one inertial element (10) arranged to oscillate or pivot about a first pivot axis (D1) with respect to a structure (12) of said movement ( 1000), and arranged to cooperate directly or indirectly with at least one mobile energy distributor (20) pivoting relative to said structure (12) around a second pivot axis (D2) parallel to or coincident with said first axis of pivoting (D1) and subjected to a torque exerted by at least one energy source (300), either directly or through a direct train (40), characterized in that the at least one mobile energy distributor (20) meshes directly or indirectly with at least one inertia wheel (30). separate from said inertial element (10), distinct from each said energy source (300), and separate from said gear train (40) when said at least one energy distributing mobile (20) is subjected to a torque exerted by at least one energy source (300) through a gear train (40), and said at least one inertia wheel (30) pivoting about a third pivot axis (D3) with respect to said structure (12), which third pivot axis (D3) is parallel to or coincides with said second pivot axis (D2), and each said inertia moving member (30) is arranged to pivot in opposite directions of said energy distributor (20), and in that the total inertia of said inertia mobiles (30) is between 60% and 140% of the inertia of said mobile distributor energy unit (20), and characterized in that at least one said inertia mobile (30) is arranged to directly or indirectly transmit energy to at least one said inertial element (10). Watch (2000) comprising at least one movement (1000) according to one of Claims 1 to 30.

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