CH709394A1 - clockwork. - Google Patents

Abstract

The invention relates to a watch movement comprising at least two regulating assemblies (61, 67) each having an escapement (5, 6; 13, 14) and a regulating member (62, 68), as well as elastic members ( 44, 46) provided between a torque sharing device (40) and the exhausts. The invention comprises variants with a differential device and also embodiments in which the adjustment assemblies are driven by a common shaft (20). The resilient members may be spiral springs (44,46). They decouple the control assemblies (61, 67) by providing each one with an independent pulse torque of the other.

Description

Technical area

The present invention relates to a watch movement, in particular for a mechanical wristwatch or a mechanical timepiece, comprising a plurality of regulating organs driven by a common source of energy.

State of the art

It is known, for example by the document CH698622, watch movements with two or more regulating members, for example two vortices, driven by a differential gear. In these movements, the differential gear comprises an input member, powered by energy from a barrel or other equivalent energy source, and two output members each driving a regulating member through a suitable gearbox. Owing to the property of the differential gearing, the rotational speed of the input is equal to the average of the rotational speeds of the outputs, the movement of these movements is determined by the average of the oscillation frequencies of their organs regulating this output. which gives them greater precision and stability than those of timepieces which have only one regulating organ.

This technical solution, however, has disadvantages related to the coupling of the two oscillators powered by the same energy source. In particular, during two simultaneous pulses on the two regulating members, it has been observed that the differential gear first supplies energy to the kinematic chain which requires the least, and only after the other. This results in a less efficient pulse and a loss of the amplitude of the oscillations of the balance, which is detrimental to the accuracy of walking.

Brief summary of the invention

An object of the present invention is to provide a watch movement with the possibility of maintaining in oscillation a plurality of regulating organs, whose operation is determined by the collective action of these regulating organs, without the disadvantages. known devices.

According to the invention, these objects are achieved in particular by means of a watch movement comprising: one or more mechanical energy sources, at least two control assemblies, each regulation assembly comprising an exhaust and an organ setting; a torque sharing device comprising at least as many elastic members as regulation assemblies with at least one input connected to the source or to the sources of mechanical energy, allowing the transmission of the energy produced by the source or by the sources of mechanical energy to the control assemblies; characterized in that each regulation assembly is driven by at least one resilient member provided to the escape wheel; preferably before this mobile escape.

This solution has the advantage over the prior art to allow a steady march of the two regulating organs even in the presence of simultaneous pulses. Moreover it allows the setting in function of any number of regulating organs.

A preferred variant of the invention relates to a watch movement having the above characteristics, wherein said torque sharing device comprises a shaft driving the elastic members.

The resilient members may further comprise a center integral with the shaft and a peripheral end connected to an output wheel which is freely mounted on the shaft and which kinematically drives a control assembly. In a variant, the elastic elements comprise spiral springs, preferably pre-loaded.

The movement of the invention may comprise multiplier wheels in each set of adjustment, downstream of the torque sharing device, or a multiplier gear interposed between the barrel and the torque sharing device. One could also have a common first multiplication stage before the torque sharing device and multiplication stages in the regulation sets, producing the required multiplication ratios.

Advantageously, the movement of the invention also comprises display means driven by an independent counting wheel, and / or by a multiplier gear or by the multiplier wheels of the assemblies.

The invention can be achieved with any kind of regulating system, whether it is conventional Swiss anchor escapements, or vortices, carousels, or other complications. It is also possible to use relaxation exhausts or other types.

The organs regulating control assemblies of the invention must not necessarily be identical and, preferably, are not arranged parallel to compensate for systematic errors due to gravity.

The present invention also comprises a timepiece comprising a movement as mentioned above.

Brief description of the figures

Examples of implementation of the invention are indicated in the description illustrated by the appended figures in which: <tb> Fig. 1 <SEP> schematically illustrates an overview of a watch movement according to one aspect of the invention. <tb> Fig. 2 <SEP> illustrates an isometric view of the torque sharing device of the invention having a spiral spring acting as an elastic member.

Example (s) of embodiment of the invention

[0015] Referring to FIG. 1, a possible embodiment of a movement according to the invention comprises a barrel 11 acting as a source of mechanical energy which drives the shaft 20 by the return 24 and the pinion 22. It is obvious that, according to the If necessary, the movement of the invention could comprise a plurality of barrels, or other suitable sources of mechanical energy. The pinion 22 could be replaced, without departing from the scope of the invention, by any other suitable transmission element.

The two coaxial output wheels 36, 38 are coupled to the shaft 20 via the elastic members 44, 46, as will be seen better later, and transmit the energy of the barrel 11 to two sets 61, 67, each comprising, in this example, a multiplier wheel 8, respectively 16, and a regulating member.

In the system shown in the figure, the output wheels 36, 38 are mounted on the barrels 33, 35 allowing their free rotation relative to the shaft 20 and are driven by spiral springs 44, 46, better visible. in fig. 2, a central core of which is integral with the shaft 20 and a peripheral end 48 is connected to an output wheel 36, 38 by a pin 50, 56. In this arrangement, the torque of the barrel is transmitted to the shaft 20 by the input pinion 22 and is shared between the two coaxial output wheels 36, 38.

According to another variant not shown of the present invention, the torque of the barrel is transmitted to a differential device and shared by the latter to two output wheels. In this case, by the properties of the differential gear, the output wheels and the sets of adjustment that they cause, have rotational speeds whose average is equal to or proportional to the rotational speed of the barrel 11.

FIG. 1 represents a movement with two output wheels and two sets of adjustment 61, 67. The invention however also includes variants with three or more sets of adjustment.

The regulating assembly 61 includes a multiplier gear train 8 which is here schematically represented by two references, but which can assume any suitable shape, followed by the escape wheel 5, the anchor 6, and a harmonic oscillator 62 which determines, by its natural frequency, the operation of the regulation assembly 61. The regulation assembly is here represented with a spiral balance pivoting about a fixed axis, could also include a vortex or a carousel .

The regulation assembly 67 shown in FIG. 1 has the same structure as the assembly 61. It comprises a multiplier gear 16, an escape wheel 13, an anchor 14, and an oscillator 68 which determines the operation. It should be understood, however, that the invention is not limited to this embodiment, but also includes variants in which the two sets have different structures to each other.

FIG. 2 shows the shaft 20 on which the two output wheels 36, 38 rotate freely, and the spiral spring 44 driving the wheel 36, as explained above. The spiral spring 44 could be pre-armed during the assembly of the movement, or be armed only by the torque transmitted by the barrel 11. The invention is however not limited to this embodiment, but also includes variants in which the spiral springs 44 and 46 are replaced by other elastic elements capable of storing mechanical energy from the barrel and returning it to the regulating assembly 61, respectively 67, as required. The resilient members may be of any type of shape, for example coil, blade, etc.

During operation, when the two exhausts 6 and 14 are in a rest phase, the wheels 36 and 38 are stationary. The static equilibrium condition of the shaft 20 implies that the sum of the pairs of the spiral springs 44 and 46 is equal to and opposite to that exerted by the barrel 11 through the return 24 and the pinion 22. It can be assumed, for simplicity the discussion and without loss of generality, that the springs 44 and 46 are pre-armed beforehand with identical tension values, so that each exerts on the shaft 20 a torque equal to half the torque exerted on the pinion 22.

When the anchor 6 releases the escape wheel 5, the spiral spring 44 provides a torque to the respective work train 8 by relaxing slightly. The shaft 20 can not fully follow the movement of the wheel 36 because it is retained by the wheel 38, immobile because the exhaust 14 is in the rest phase. It will then move at an angle equal to half the angle traveled by the wheel 36, slightly stiffening the spiral spring 46. It can be seen that the sum of the couples of the springs 44 and 46 is always equal and opposite to that acting on the pinion 22.

Then, when the anchor 14 releases the wheel 13, the driving force will be provided by the spiral spring 46. The shaft 20 again advance an angle equal to half the angle traveled by the wheel 38: the springs 44, 46 return to the initial state of identical voltages.

If on the other hand the impulse of the wheel 13 precedes that of the wheel 5, we will have the same course of steps, with reversed roles.

In the case of simultaneous pulses anchors 6 and 14, the driving force is provided first by the spiral springs 44, 46 which are closer to the escapements, before the shaft 20 is rotated ; The two wheels 36 and 38 advance at the same angle, and the springs 44 and 46 relax at the same time. The shaft 20 then turns to restore the balance torque. In this way, the movement of the invention provides each escapement with the required driving force and avoids the couplings and the amplitude losses that occur in the movements of the state of the art.

In a general case, the shaft 20 rotates with a speed which is given by the average wheel speeds 36 and 38, both in the variants provided with a differential, as in the embodiment of FIG. . 1 which does not include The spiral springs 44, 46 make it possible to decouple the operation of the adjustment assemblies 61, 67 independently of the pulses of the other. The unwinding of the barrel 11 is determined by the combined action of the two regulating members, and its speed is proportional to the average between the speeds of the two regulating members, with an improvement in the overall accuracy.

Since the embodiment illustrated in FIG. 1 does not have a differential, the angular velocities of the two output wheels 36 and 38 are not independent of each other, but may vary between them only for a limited period of time, and to the extent allowed by the elastic members 44 and 46.

At each moment the combined pairs of spiral springs 44, 46 compensate that provided by the barrel 11. In case of differences in operation between the two sets, the spiral spring of the faster set relaxes, while that which Powering the slower assembly increases its voltage state, so that the slower regulating member receives, on average, a higher driving force and speeds up its motion, while the faster regulating member slows down. In this way, the gap between the two sets of adjustment 61 and 67 is limited.

Preferably, the movement of the invention also comprises a counting wheel and display devices for displaying the time it is and / or the desired time indications. In an advantageous variant, not shown in the figures, this cog is independent and separate from the multiplier wheels 8 and 16. It can be driven directly by the barrel 11 the return 24, the pinion 22, the shaft 20, or any other element suitable, and rotates with a speed determined by the average speeds of the two sets of adjustment.

For example, one end of the shaft 20 could directly cause an indication, for example a minute hand, and also carry a time barrel, mu by any suitable drive.

Optionally, the multiplier wheels 8 and 16 may also be used for counting time and carry display devices providing indications.

In a variant of the invention not visible in the figures, the multiplier gear train could be interposed between the barrel 11 and the torque-splitting device 20. Consequently, the latter could therefore directly drive the wheels of the wheels. Exhaust 5 and 13.

As already mentioned, the movement of the invention is not limited to two regulating members, but may have any number of adjustment sets, identical or different, preferably variously oriented in space, so to eliminate as far as possible the sources of systematic error due to the action of gravity. In variants provided with a differential, one can multiply the output number of the torque sharing device by providing a cascade of differential devices. The embodiment of FIG. 1 allows a multiplication of the number of outputs simply by superimposing on the same axis 20 the desired number of output wheels and elastic members.

Furthermore, the elastic member does not necessarily have to be positioned between the main shaft 20 and the output wheel, but could also be integrated into the multiplier gear or in any position, to the exhaust, but of preferably before.

In another variant, the pinion 22 could be in the middle of the sharing device, between the barrels 33 and 35, or at the other end of the shaft 20.

The hairspring and the output wheel could be replaced by a wheel incorporating an elastic member, coaxial with the shaft 20 or in any position downstream of the latter, before the exhaust.

The invention is not limited to a single device sharing torque, but could include any number of sharing device. In one example, a watch movement according to the invention could include a first sharing device constituted by a differential, conventional or spherical, driving two shafts having the structure of the shaft 20 of FIG. 1: thus there would be in this case four regulating organs.

Furthermore, the invention could include, in variants, several elastic members per regulation assembly, for example two spiral springs working in opposition or in combination.

Although the examples and figures represent a movement conventionally arranged, it should be understood that the invention is not limited to a particular provision but also includes constructions in which the elements of the movement are superimposed or inclined in n ' any direction.

Reference numbers used in the figures

[0042] <tb> 5 <SEP> escape wheel <Tb> 6 <September> anchor <tb> 7 <SEP> mobile exhaust <tb> 8 <SEP> gear multiplier <tb> 11 <SEP> source of energy <tb> 12 <SEP> mobile exhaust <tb> 13 <SEP> escape wheel <Tb> 14 <September> anchor <tb> 16 <SEP> gear multiplier <Tb> 20 <September> tree <Tb> 22 <September> pinion <Tb> 24 <September> dismissal <Tb> 33 <September> cannon <Tb> 35 <September> cannon <tb> 36 <SEP> exit wheel <tb> 38 <SEP> exit wheel <tb> 40 <SEP> Divider Torque Sharing Device <tb> 44 <SEP> spiral spring <tb> 46 <SEP> spiral spring <tb> 48 <SEP> end of spiral spring <Tb> 56 <September> pin <tb> 61 <SEP> regulation set <Tb> 62 <September> pendulum <tb> 67 <SEP> regulation set <Tb> 68 <September> balance

Claims (13)

1. Watch movement comprising: One or more sources of mechanical energy (11), At least two regulating assemblies (61, 67), each regulating assembly comprising an escapement (5, 6; 13, 14) and a regulating member (62, 68); A torque sharing device (40) comprising at least as many elastic members (44, 46) as regulation assemblies (61, 67) with at least one input (22) connected to the source or sources of mechanical energy, enabling the transmission of the energy produced by the source or by the sources of mechanical energy to the control assemblies (61, 67); characterized in that - Each regulation assembly is driven by at least one elastic member (44, 46) provided to the mobile exhaust (7, 12). 2. Watchmaking movement according to the preceding claim, wherein said at least one resilient member is provided before the mobile escape. 3. Timepiece movement according to the preceding claim, wherein said torque sharing device comprises a shaft (20) driving the elastic members (44, 46). 4. A watch movement according to claim 3 wherein the resilient members each comprise a center integral with the shaft (20) and a peripheral end (48) connected to an output wheel (36, 38) which is freely mounted on the shaft (20) and which kinematically drives a regulation unit (61, 67). 5. Watchmaking movement according to the preceding claim wherein the elastic members comprise a spiral spring. 6. Watch movement according to one of the preceding claims, wherein the elastic members are pre-armed. 7. Horological movement according to one of the preceding claims wherein the control assemblies comprise a multiplier gear (8, 16). 8. Watchmaking movement according to the preceding claim wherein at least one of the gearboxes of the sets drive display members. 9. A watch movement according to claim 7 further comprising a counting wheel independent of the multiplier wheels of the control assemblies. 10. Timepiece movement according to one of claims 1 to 4, comprising a multiplier gear interposed between the barrel (11) and the torque-sharing device (20), the torque-sharing device directly driving the exhausts (5). , 13). 11. Watchmaking movement according to one of the preceding claims wherein the regulating bodies regulating devices comprise at least a vortex or a carousel. 12. Timepiece according to one of the preceding claims wherein the regulating members regulating sets are not arranged parallel. 13. Timepiece comprising a movement according to one of the preceding claims.