CH720582A2 - Autonomous adjustment device for the active length of a hairspring - Google Patents

Abstract

The present invention relates to a device for autonomously adjusting the active length of a hairspring (5), for a balance-spring type oscillator (4, 5), comprising a cock (12) mounted on a plate (13) of a watch movement (2) and in which a balance shaft pivots, the hairspring (5) comprising an internal end secured to the balance shaft and an external end secured to a first stud (8) fixed to a stud holder (10), the stud holder (10) being pivotally mounted on the cock (12) concentrically to the balance shaft, and means for modifying the active length of the hairspring (5). The invention makes it possible to autonomously counterbalance the effects of gravity, in particular disturbances of isochronism, on the balance-spring.

Description

Technical field of the invention

[0001] The invention relates to a device for autonomously adjusting the active length of a hairspring, for a hairspring-balance type oscillator.

[0002] The invention also relates to a watch movement comprising the autonomous device for adjusting the active length of a hairspring and a balance-spring type oscillator.

[0003] The invention further relates to a timepiece, in particular a watch, comprising the watch movement.

Technological background

[0004] In the field of watches equipped with mechanical oscillators of the balance-spring type, mechanisms are known for manually adjusting the active length of the balance spring.

[0005] For example, in common manual adjustment mechanisms, the outer end of the hairspring is immobilized by a stud fixed to a stud holder secured to a balance cock. A rotating indexing device relative to the stud holder is provided to adjust the active length of the hairspring, thus making it possible to adjust the frequency of the sprung balance. The indexing device is a lever, generally provided with two arms, which pivots centered on the coordinate of the balance shaft. A first arm of the indexing device carries, for example, two pins between which the hairspring is free. A second arm of the indexing device can be manually actuated to pivot the indexing device by a certain angle around the balance shaft. This makes it possible to modify the actual position of the counting point. When the indexing device pivots, the active length of the hairspring is reduced or increased. However, a disadvantage of such a manual adjustment device is that the Earth's gravity influences the frequency of the oscillations of the sprung balance depending on the orientation of the corresponding watch movement. Thus, the rate of a watch may have a significant rate deviation between its horizontal and vertical positions, in particular. In addition, when the balance spring moves between the pins because of the play between the latter two, the oscillations of the balance-spring cause a disturbance of its active length and therefore a slight variation in the frequency of the oscillations of the balance-spring assembly.

[0006] In order to limit the negative effects of gravity, it is known, in particular from patent document CH 705 605 B1, a solution implementing a device for adjusting the active length of the hairspring, in which the index carries clamping means intended to clamp a terminal portion of the hairspring to define the active length of the latter. The external end of the hairspring is furthermore integral with a fixing system mounted movably relative to the index and arranged to cooperate with the latter. The clamping means, consisting for example of a pin-eccentric clamping system in which the terminal portion of the hairspring is clamped, can be loosened or tightened at will by a watchmaker. When the watchmaker has loosened the pin-eccentric clamping system, he can move the fixing system by means of a tool, thus making it possible to move the hairspring relative to the index which remains fixed, and therefore relative to the pin, which makes it possible to modify the active length of the hairspring. The watchmaker can then pinch the hairspring against the pin by tightening the pinching system, to return the adjustment device to the service position. However, such a solution remains a manual adjustment solution, which has the disadvantage of considerably limiting the precision of the adjustment to counterbalance the effects of gravity. In addition, such a solution is tedious to implement, due to the various steps of manual adjustment by a watchmaker allowing the adjustment.

Summary of the invention

[0007] The invention therefore aims to provide a device for adjusting the active length of a balance spring, for a balance-spring type oscillator, making it possible to counterbalance in a simple, precise and autonomous manner the effects of gravity, in particular the disturbances of the isochronism of the balance of the oscillator, and overcoming the aforementioned drawbacks of the state of the art.

[0008] To this end, the invention relates to a device for autonomously adjusting the active length of a hairspring, for a balance-spring type oscillator, comprising a cock mounted on a plate of a watch movement and in which a balance shaft pivots, the hairspring comprising an internal end secured to the balance shaft and an external end secured to a first stud fixed to a stud holder, the stud holder being pivotally mounted on the cock concentrically to the balance shaft, and means for modifying the active length of the hairspring.

[0009] According to the invention, the means for modifying the active length of the hairspring comprise: – a lever capable of pivoting on the stud holder between a rest position and two correction positions of the device, the lever having a first free end and a second end (601) having two beaks (601, 602); – elastic constraint means configured to exert an elastic return action in position on the lever; – a movable weight in rotation around a shaft on which a cam is mounted, the weight being arranged to rotate freely around the shaft as a function of gravity, the rotation of the weight causing a rotation of the cam and a pivoting of the lever so that one of the beaks acts on the hairspring and simultaneously modifies the active length of the hairspring; – damping means comprising a toothed wheel coaxial with the weight and mounted on the weight, and a damping device arranged to cooperate with the weight via the toothed wheel and limit the modification of the active length of the balance spring in the event of sudden acceleration or deceleration.

[0010] According to other advantageous variants of the invention: – the stud holder comprises an extension provided with an opening through which a pivot axis for the lever passes; – the lever comprises, at its second end, a ball bearing through which the pivot axis passes; – the opening is oblong in shape to be able to adjust the position of the lever relative to the balance spring; – the elastic constraint means configured to exert an elastic return action in position on the lever are integral with the plate; – the elastic constraint means configured to exert an elastic return action in position on the lever are integral with the stud holder; – the cam is a radial cam with an external profile; – in the rest position of the device, a flat portion of the cam is in contact with the lever, and, in the correction position of the device, a corner or an angle of the cam is in contact with the lever; – the cam is in permanent contact with the free end of the lever regardless of the position of the weight; – the weight is a solid half-disc; – the device comprises an air shock absorber, the shock absorber being in the form of a body with a cavity of a similar shape to that of the weight, the weight being arranged to pivot in the cavity; – The device comprises a heart-shaped cam mounted on the shaft, the heart-shaped cam being arranged to cooperate with a spring, the assembly forming a device for resetting the position of the lever; – the heart-shaped cam is superimposed on the cam.

[0011] An advantage of the adjustment device according to the invention lies in the fact that it comprises a weight mounted freely in rotation and cooperating indirectly with a movable arm arranged to act on the external coil of the balance spring. A rotation of the weight, freely subjected to gravity, thus causes a movement of the arm, between a rest position and a correction position of the device, and simultaneously acts on the balance spring to modify the active length of the balance spring, making it possible to adjust the latter in order to compensate for the disturbances of the isochronism of the balance due to gravity. As a result, the adjustment device according to the invention makes it possible to precisely compensate for the rate of the oscillator according to its position in space, by counterbalancing the disturbances of the isochronism of the balance due to gravity, and this autonomously.

[0012] The invention also relates to a watch movement comprising the adjustment device described above, and which comprises the characteristics mentioned in dependent claim 14.

[0013] The invention also relates to a timepiece comprising the watch movement described above, and which comprises the characteristics mentioned in dependent claim 15.

[0014] Other features and advantages of the present invention will become apparent from the following description of a preferred embodiment, given by way of non-limiting example with reference to the accompanying drawings.

Brief description of the figures

[0015] The aims, advantages and characteristics of the device for adjusting the active length of a hairspring, as well as the watch movement and the timepiece comprising it, will appear better in the following description on the basis of at least one non-limiting embodiment illustrated by the drawings in which: - Figure 1 is a perspective top view of a watch movement of a watch comprising a device for adjusting the active length of a hairspring according to a first embodiment of the invention; - Figure 2 is a perspective top view of a watch movement of a watch comprising a device for adjusting the active length of a hairspring according to a first embodiment of the invention; - Figure 3 is a perspective top view of the adjustment device of Figure 1 according to the first embodiment of the invention; - Figure 4 an exploded perspective view of the adjustment device of Figure 1 according to the first embodiment of the invention; – Figures 5a and 5b are respectively perspective views from above and exploded views of the adjustment device of Figure 1 according to a second embodiment of the invention.

Detailed description of the invention

[0016] In the following description, reference is made to a watch movement provided with a device for adjusting the active length of a hairspring, for a balance-spring type oscillator. The usual components of the watch movement, which are well known to a person skilled in the art in this technical field, are described only in a simplified manner or not described at all. A person skilled in the art will indeed know how to adapt these different components and make them cooperate for the operation of the watch movement. In particular, everything relating to the escapement mechanism of the watch movement will not be described subsequently, although such an escapement mechanism can advantageously cooperate with the adjustment device according to the invention.

[0017] Figure 1 shows a portion of a timepiece 1, which comprises a watch movement 2. In the particular embodiment of Figure 1, the timepiece 1 is a watch. The watch movement 2 comprises an oscillator provided with a balance 4 and a hairspring 5, and a device 6 for autonomously adjusting the active length of the hairspring 5. Conventionally, the hairspring 5 is fixed to a shaft 7 of the balance 4 by its inner end (not visible). The shaft 7 of the balance 4 has one end pivotally mounted in a balance bridge (the latter not being visible in the figures for clarity). The outer end of the hairspring 5 is conventionally fixed to a stud 8 fixed to a stud holder 10, the stud holder 10 being secured to a cock 12 by slight tightening. More specifically, the stud holder 10 is pivotally mounted on the cock 12 concentrically to the shaft 7 of the balance 4, as illustrated in FIG. 2. The shaft 7 of the balance 4 is pivotally mounted in the cock 12.

[0018] The means 6 for modifying the active length of the hairspring 5 are capable of modifying the active length of the hairspring 5 by acting on the length of the external turn of the hairspring 5. In the two exemplary embodiments respectively illustrated in FIGS. 1 to 4 and FIGS. 5a and 5b, the means for modifying the active length of the hairspring 5 comprise a lever 60 capable of moving between a rest position and two correction positions of the device. The lever having a first free end 610 and a second end 600 provided with two beaks 601, 602, each beak 601, 602 being arranged to act independently of one another on the external turn of the hairspring and modify the active length of the hairspring.

[0019] As can be seen in the figures, the stud holder 10 comprises an extension 100 provided with an opening 101 through which passes a pivot axis 102 around which the lever 60 pivots to move from its rest position to a correction position.

[0020] In order to pivot about the axis 102 which is formed by a bolt 103 and a nut 104, the lever comprises, at its second end 600, a ball bearing 603 through which the rod of the bolt 103 passes.

[0021] It will also be noted that the opening 101 is oblong in shape in order to be able to adjust the position of the lever 60 relative to the hairspring 5. Thus, once the correct position of the lever is determined, it suffices to fix the second end 600 of the lever on the extension 100 of the stud holder by tightening the bolt 103 and the nut 104.

[0022] The means 6 for modifying the active length of the hairspring also comprise a weight 40 movable in rotation about an axis 30 on which is mounted a cam 31 against which the free end 610 of the lever 60 rests. The weight 40 is arranged to be able to rotate about the axis 30 depending on the gravity to which it is subjected, the rotation of the weight 40 causing a rotation of the cam 31 and a movement of the lever 60 to act on the external coil of the hairspring 5 and simultaneously modify the active length of the hairspring.

[0023] The adjustment device 6 further comprises damping means comprising a toothed wheel 34 coaxial with the weight 40 and secured to the weight, and a damping device 20 arranged to cooperate with the weight 40 via the toothed wheel 34 and limit the modification of the active length of the balance spring 5 in the event of sudden acceleration or deceleration.

[0024] The adjustment device comprises elastic constraint means configured to exert an elastic return action in position on the at least one arm 60. The elastic constraint means is in the form of a spring blade 70, 73. According to the first embodiment illustrated in FIGS. 1 to 4, the spring blade 70 comprises a first end 71 in contact with the free end 610 of the lever 60 so as to hold the free end 610 against the profile of the cam 31, and a second end secured to the plate 13. According to the second embodiment illustrated in FIGS. 5a and 5b, the spring blade 73 is secured to the stud holder 10 and also makes it possible to press the free end 610 against the profile of the cam 31.

[0025] The means for modifying the active length of the hairspring 5 comprise two pins 19 fixed to the second stud 8', the second end 601 of the arm 60 being arranged so that it slides between the two pins 19 and comes into contact with the external coil of the hairspring 5 in the correction position and thus modifies the active length of the hairspring.

[0026] The weight 40 is mounted freely in rotation on the axis 30 on which the cams 31 are mounted so that a rotation of the weight 40 causes a movement of the lever 60 and acts simultaneously on the means for modifying the active length of the balance spring 5. The movement of the lever under the effect of the rotation of the weight 40, itself subject to gravity, is carried out between a rest position of the device, and two correction positions of the device, the beaks 601, 602 of the lever 60 allowing a distinct correction depending on the position of the watch. As illustrated in the figures, the weight 40 is for example made of a half-solid disk. In an alternative embodiment not shown in the figures, the weight 40 is made of a solid bi-material disk, the two materials of the disk having different densities.

[0027] Thus, depending on the position of the watch movement 2 in space, the weight 40, freely subjected to gravity, can rotate around its axis of rotation and thus cause a movement of the lever 60. In doing so, the rotation of the weight 40 acts simultaneously on the means for modifying the active length of the balance spring 5, making it possible to continuously adjust the active length of the balance spring in order to compensate for disturbances in the isochronism of the balance wheel due to gravity.

[0028] In order to prevent the flyweight from forming a freewheel, and disrupting the oscillator 4, 5 instead of correcting it, the adjustment device 6 comprises damping means comprising a toothed wheel 34 coaxial with the flyweight and secured to the latter. The damping means comprise a damping device arranged to cooperate with the flyweight via the toothed wheel to limit, or even prevent, the modification of the active length of the balance spring 5 during a sudden acceleration or deceleration.

[0029] As illustrated in the figures, the damping device 20 is in the form of an air shock absorber, the shock absorber comprising a body 22 with a cavity in which a mass 21 of a shape similar to that of the cavity rotates about an axis 24. The axis 24 also comprises a pinion 23 arranged to cooperate with the teeth of the toothed wheel 34. Thus, when the weight 40 moves, it drives the toothed wheel 34 which meshes with the pinion 23, and rotates the mass 21 of the damping device 20. It is therefore understood that during a sharp movement of the weight 40, the mass 21 will slow the rotation of the weight 40 by means of the damping device 20. Obviously, other types of shock absorber can be put in place, such as a mass moving in a cylinder, or even a magnetic shock absorber.

[0030] It will be noted that the axis 30 carrying the weight 40, the toothed wheel 34 and the cam 31, also comprises a heart-shaped cam 32 integral with the axis 30, and superimposed on the cam 31. The heart-shaped cam 32 is arranged to cooperate with a spring 24, 25 whose end 26 cooperates with the profile of the heart-shaped cam 32, the assembly thus forming a device for resetting the position of the lever 60 to make it return to its rest position naturally when the weight is no longer subject to gravity.

[0031] Preferably, the cam 31 is a radial cam with an external profile. Although a radial cam with a substantially rectangular external profile is shown in FIGS. 1 to 5b, in practice the shape envisaged for the external profile of the cam will depend on the type of balance spring 5 used and the correction to be made to it. For example, a radial cam with a triangular, oblong or even ovoid external profile can also be used in the context of the present invention. Preferably, in the rest position of the adjustment device 6, a flat portion of the cam is in contact with the free end 610 of the lever 60, while in the correction position of the device 6, a corner or an angle of the cam 31 is in contact with the free end 610 of the lever 60. More preferably, the cam 31 is in contact with the lever 60 regardless of the position of the weight 40.

[0032] It is thus understood that depending on the position of the watch movement 2 in space, the weight 40, freely subjected to gravity, can rotate around its axis of rotation and thus cause a movement of the lever 60. In doing so, this rotation of the weight 40 acts simultaneously on the means for modifying the active length of the balance spring 5, making it possible to continuously adjust the active length of the balance spring in order to compensate for disturbances in the isochronism of the balance wheel due to gravity. The rotation of the weight 40 causes a rotation of the axis 30 and has the effect of moving the cam 31 which is integral with the axis 30, the cam then acting on the free end 610 of the lever 60 and moving the latter so that the second end 600 of the lever pivots around the axis 102 and one of the beaks 601, 601 comes into contact with the balance spring 5 so as to modify the active length of the balance spring.

[0033] Once the weight has stabilized following its change of position, the device will return by itself to the rest position thanks to the action of the spring 24, 25 on the heart-shaped cam 32 which is also integral with the axis 30.

[0034] The invention also relates to a watch movement 2 comprising an oscillator 4, 5 of the balance-spring type and a device 6 for autonomous adjustment of the active length of the balance spring 5 as described previously.

[0035] The invention also relates to a timepiece 1 comprising a watch movement 2 provided with a device 6 for autonomous adjustment of the active length of the balance spring 5 as described above.

Claims (15)

1. Device (6) for autonomously adjusting the active length of a hairspring (5), for a balance-spring type oscillator (4, 5), comprising a cock (12) mounted on a plate (13) of a watch movement (2) and in which a balance shaft (7) pivots (4), the hairspring (5) comprising an internal end secured to the balance shaft (7) and an external end secured to a first stud (8) fixed to a stud holder (10), the stud holder (10) being pivotally mounted on the cock (12) concentrically to the balance shaft (7) (4), and means for modifying the active length of the hairspring (5); characterized in that the means for modifying the active length of the hairspring comprise: – a lever (60) capable of pivoting on the stud holder (10) between a rest position and two correction positions of the device, the lever (60) having a first free end (600) and a second end (601) having two beaks (601, 602); – elastic constraint means (70, 71, 72, 73) configured to exert an elastic return action in position on the lever (60); – a weight (40) rotatable about an axis (30) on which a cam (31) is mounted, the weight being arranged to rotate freely about the shaft depending on gravity, the rotation of the weight (40) causing a rotation of the cam (31) and a pivoting of the lever (60) so that one of the beaks (601, 602) acts on the balance spring and simultaneously modifies the active length of the balance spring (5); – damping means comprising a toothed wheel (34) coaxial with the weight (40) and mounted on the weight, and a damping device (20) arranged to cooperate with the weight via the toothed wheel and limit the modification of the active length of the balance spring (5) in the event of sudden acceleration or deceleration. 2. Device (6) for autonomous adjustment of the active length of a hairspring (5) according to claim 1, characterized in that the stud holder (10) comprises an extension (100) provided with an opening (101) through which passes a pivot axis (102) for the lever (60). 3. Device (6) for autonomously adjusting the active length of a hairspring (5) according to claim 2, characterized in that the lever comprises, at its second end (600), a ball bearing (603) through which the pivot axis (102) passes. 4. Device (6) for autonomously adjusting the active length of a hairspring (5) according to claim 2, characterized in that the opening (101) is oblong in shape to be able to adjust the position of the lever (60) relative to the hairspring (5). 5. Device (6) for autonomously adjusting the active length of a hairspring (5) according to one of claims 1 to 4, characterized in that the elastic constraint means (70, 71, 72) configured to exert an elastic return action in position on the lever are integral with the plate (13). 6. Device (6) for autonomously adjusting the active length of a hairspring (5) according to one of claims 1 to 4, characterized in that the elastic constraint means (73) configured to exert an elastic return action in position on the lever are integral with the stud holder (10). 7. Device (6) for autonomous adjustment of the active length of a hairspring (5) according to one of claims 1 to 6, characterized in that the cam (31) is a radial cam with an external profile. 8. Device (6) for autonomously adjusting the active length of a hairspring (5) according to one of claims 1 to 7, characterized in that, in the rest position of the device (6), a flat portion of the cam (31) is in contact with the lever (60), and, in the correction position of the device (6), a corner or an angle of the cam (31) is in contact with the lever (60). 9. Device (6) for autonomously adjusting the active length of a hairspring (5) according to one of claims 1 to 8, characterized in that the cam (31) is in permanent contact with the free end (610) of the lever (60) regardless of the position of the weight (40). 10. Device (6) for autonomous adjustment of the active length of a hairspring (5) according to any one of the preceding claims, characterized in that the weight (21) is a solid half-disc. 11. Device (6) for autonomously adjusting the active length of a balance spring (5) according to one of the preceding claims, characterized in that the device comprises an air shock absorber, the shock absorber being in the form of a body with a cavity of a shape similar to that of the weight, the weight being arranged to pivot in the cavity. 12. Device (6) for autonomously adjusting the active length of a hairspring (5) according to one of the preceding claims, characterized in that it comprises a heart-shaped cam (32) mounted on the axis (30), the heart-shaped cam being arranged to cooperate with a spring (24, 25), the assembly forming a device for resetting the position of the lever (60). 13. Device (6) for autonomous adjustment of the active length of a hairspring (5) according to claim 16, characterized in that the heart-shaped cam (32) is superimposed on the cam (31). 14. Clock movement (2) comprising an oscillator (4, 5) of the balance-spring type and a device (6) for autonomous adjustment of the active length of the balance spring (5), characterized in that the autonomous adjustment device (6) conforms to any one of the preceding claims. 15. Timepiece (1) comprising a watch movement (2), characterized in that the watch movement (2) conforms to claim 14.