BALANCE PROVIDED WITH MEANS FOR ADJUSTING ITS TEMPERATURE SENSITIVITY

Abstract

A balance for a regulating member of a horological movement, the balance including, at least in part, a body that can be deformed as a function of temperature, the deformable body being arranged, at least in part, on the periphery of the balance, the balance being configured so as to be able to move about a centre of rotation, the balance including a device for adjusting the sensitivity of the deformable body to temperature change, the adjustment device being provided with a first inertial element arranged on the deformable body in order to be able to modify the moment of inertia thereof, the first inertial element being capable of moving relative to the deformable body into a plurality of positions, wherein the positions form a continuous set. A horological movement and a regulating member can include such a balance.

Claims

1. A balance for a regulating member of a horological movement, the balance comprising, at least in part, a body that can be deformed as a function of temperature, the deformable body being arranged, at least in part, on the periphery of the balance, the balance being configured so as to be able to move about a centre of rotation, the balance comprising adjustment means for adjusting the sensitivity of the deformable body to temperature change, the adjustment means being provided with a first inertial element arranged on the deformable body in order to be able to modify the moment of inertia thereof, the first inertial element being capable of moving relative to the deformable body into a plurality of positions, wherein the positions form a continuous set.

2. The balance according to claim 1, wherein the first inertial element is arranged at a substantially constant distance from the centre of rotation, regardless of the position thereof relative to the deformable body, for a given configuration of the deformable body relative to the centre of rotation.

3. The balance according to claim 2, wherein the first inertial element is capable of being displaced in a direction substantially tangential to the deformable body.

4. The balance according to claim 1, wherein the deformable body comprises a first peripheral free end, the first inertial element being arranged at the first free end.

5. The balance according to claim 1, wherein the adjustment means comprise a second inertial element capable of moving relative to the deformable body into a plurality of positions forming a continuous set.

6. The balance according to claim 4, wherein the deformable body comprises a second free end, the second inertial element being arranged at the second free end, so as to be able to be displaced in a direction substantially tangential to the balance.

7. The balance according to claim 5, wherein the first inertial element and the second inertial element are screws, each screw being screwed to a greater or lesser extent and tangentially to the body in a free end in order to change their positions.

8. The balance according to claim 1, wherein the first inertial element and the second inertial element are arranged symmetrically relative to the centre of rotation.

9. The balance according to claim 1, wherein the deformable body has a peripheral shape that is at least partly annular.

10. The balance according to claim 9, wherein the deformable body includes a first annular part provided with the first free end, and a second annular part provided with the second free end.

11. The balance according to claim 10, wherein the first annular part and the second annular part each include a bimetallic attachment so that they can deform as a function of temperature.

12. The balance according to claim 10, wherein the two annular parts are connected by a radial section.

13. The balance according to claim 10, wherein the two annular parts are arranged symmetrically relative to the centre of rotation.

14. A regulating member, comprising a balance according to claim 1.

15. A horological movement, comprising a regulating member according to claim 14.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0032] The purposes, advantages and features of the present invention will become apparent after reading several embodiments, which are provided for purposes of illustration only and not intended to limit the scope of the invention, given with reference to the accompanying drawings, wherein:

[0033] FIG. 1 is a diagrammatic top view of a balance according to one embodiment of the invention, in a first configuration, and

[0034] FIG. 2 is a diagrammatic top view of the balance in FIG. 1 in a second configuration, the second configuration being deformed relative to the first configuration.

DETAILED DESCRIPTION OF THE INVENTION

[0035] FIGS. 1 and 2 show an embodiment of a balance for a horological regulating member according to the invention.

[0036] The balance 1 comprises a rotary staff 2 enabling it to rotate when arranged in a regulating member. The balance 1 further comprises a body 10 that can be deformed as a function of temperature. The deformable body 10 is mounted on the rotary staff 2, the balance 1 being capable of moving about a centre of rotation 11 located on the rotary staff 2.

[0037] The deformable body 10 has a peripheral shape that is at least partly annular. The deformable body includes a first annular part 3 and a second annular part 4.

[0038] The two annular parts 3, 4 are connected by a radial section 7 mounted on the rotary staff 2, preferably in the middle thereof.

[0039] Each annular part 3, 4 is connected and extends from an opposite end of the radial section in a position opposite each other, symmetrically relative to the rotary staff 2 and the centre of rotation 11.

[0040] Each annular part 3, 4 describes a curve of equal radius to form an arc of a circle, preferably equal to each other. The two annular parts 3, 4 thus form a ring that is open at two opposite points that are symmetrical relative to the centre of rotation 11.

[0041] The first annular part 3 is provided with a first free end 12, and the second annular part 4 is provided with a second free end 13. The two free ends 12, 13 are arranged in the two open positions. Each free end 12, 13 is arranged at the end of one of said annular parts 3, 4.

[0042] In order to be able to deform as a function of temperature, the first and second annular parts 3, 4 are each formed by a bimetallic attachment. A bimetallic attachment is made up of two layers of different materials 8, 9, which enable it to deform as a function of temperature in a predefined direction. The two annular parts 3, 4 are thus deformable as a function of temperature.

[0043] Under the effect of temperature, the annular parts 3, 4 deform to a greater or lesser extent, so that the free ends 12, 13 move further away from or closer to the centre of rotation 11. The moment of inertia of the balance 1 is thus modified in order to maintain a substantially constant rate.

[0044] In FIG. 1, the free ends 12, 13 of the annular parts 3, 4 are closer to the centre 11, whereas in FIG. 2, the free ends 12, 13 are located further from the centre of rotation 11.

[0045] To adjust the sensitivity of the balance 1 to temperature, the balance 1 further comprises means 20 for adjusting the sensitivity of the deformable body 10 to temperature change.

[0046] The adjustment means 20 are provided with a first inertial element 5 arranged on the deformable body 10 so that the moment of inertia thereof can be modified. The first inertial element 5 is arranged at the first peripheral free end 12.

[0047] Preferably, the adjustment means 20 comprise a second inertial element 6 arranged at the second free end 13. The first inertial element 5 and the second inertial element 6 are arranged symmetrically relative to the centre of rotation 11. The adjustment means 20 thus have a substantially symmetrical configuration.

[0048] In this embodiment, the first and second inertial elements 5, 6 are screws, arranged to be screwed to a greater or lesser extent into each free end 12, 13. The screws are highly resistant to impacts and gravity.

[0049] The inertial elements 5, 6 are capable of moving relative to the deformable body 10 into a plurality of positions.

[0050] According to the invention, the positions form a continuous set. The sensitivity of the adjustment means 20 can thus be precisely and continuously adjusted.

[0051] The first inertial element 5 and the second inertial element 6 are each capable of being displaced in a direction substantially tangential to the deformable body 10. Thus, each screw is screwed to a greater or lesser extent and tangentially to the balance, in particular tangentially to the deformable body 10, in a free end 12, 13, in order to change their positions relative to the deformable body 10.

[0052] Thanks to this positioning, each inertial element 5, 6 maintains a substantially constant distance from the centre of rotation 11, regardless of its position relative to the deformable body 10, for a given deformation of the annular parts 3, 4. The extent to which the screw is screwed in does not change the distance thereof from the centre of rotation 11.

[0053] The distance between each inertial element 5, 6 and the centre of rotation 11 may vary due to the deformation of the annular parts 3, 4 under the effect of temperature change. However, the displacement of the inertial element 5, 6 relative to the deformable body 10 does not result in any change in the distance between the inertial element 5, 6 and the centre of rotation 11 for a given configuration of the deformable body 10.

[0054] The invention further relates to a regulating member, not shown in the figures, including a balance 1. The invention further relates to a movement comprising such a regulating member.

[0055] It goes without saying that the invention is not limited to the embodiments described with reference to the figures and alternatives can be considered without leaving the scope of the invention.