This application claims priority to European Patent Application No. 20159595.6 filed Feb. 26, 2020, the entire contents of which are incorporated herein by reference.
The invention relates to a mechanical horological bearing provided with a damping part.
The invention also relates to a horological movement including such a bearing.
The invention relates to the field of horological mechanisms and more particularly rotational guides.
Mechanical watches with automatic winding are generally provided with oscillating winding masses for winding the barrel spring. In order to allow the pivoting of the oscillating mass, use is usually made of a ball bearing as a suspension.
The components of a bearing are usually metallic, in particular steel, brass or copper-beryllium alloy.
However, such ball bearings generate noises in the form of acoustic waves, which may be a nuisance for the wearer of the watch. The origin of these noises is diverse, in particular because of the roughness of the contacts between the bodies, shape defects on manufacture or due to wear on the bodies by friction.
In order to solve this problem, it has been sought, for example in the application EP 3460275, to reduce the contact surfaces between the balls and the other bodies of the bearing. However, such a bearing requires a large quantity of lubricant, the viscosity of which is higher, which may limit the winding capacity. The lubricant is also visible from the outside of the watch, which may cause unpleasant unaesthetic effects.
The aim of the invention is to propose a mechanical bearing, in particular a ball bearing, which avoids the aforementioned problems.
To this end, the invention relates to a mechanical horological bearing intended to be arranged on a mechanical movement of a timepiece, the bearing including, coaxial around a common rotation axis, at least one internal frame and at least one external frame forming a running track, as well as a plurality of wheels sliding or rolling in the running track, during a relative movement between the internal frame and the external frame that guide them and wherein at least one of said internal frame and external frame is a dynamic frame.
The invention is remarkable in that at least one structural part of the bearing is produced from an elastic metal material with high damping capacity, the damping factor of which is greater than 10%, preferably greater than 30%.
By virtue of such a bearing, the vibrations due to the movement of the oscillating mass are significantly attenuated. Thus, wearing a watch with automatic winding does not give rise to any unpleasant sensation, in particular on the wrist.
Furthermore, the use of a metal material makes it possible to avoid the problems of damping in synthetic materials, such as the absorption of moisture and the release of gas. In addition, a metal material has higher quality and is more noble in a luxury timepiece, and is generally much stronger.
According to a particular embodiment of the invention, the metal material has a tensile strength greater than 100 MPa, preferably greater than 400 MPa, or even 600 MPa.
According to a particular embodiment of the invention, the material is to be chosen from the following list:
According to a particular embodiment of the invention, the bearing comprises a first damping piece intended to be positioned between one of said frames and a bridge of the automatic winding system of the movement, the first damping piece forming a part of the bearing produced from an elastic metal material with a high damping capacity.
According to a particular embodiment of the invention, the bearing comprises a second damping piece intended to be positioned between one of said frames and means for holding the bearing on the movement, such as a nut or a screw, the second damping piece forming the part of the bearing produced from an elastic metal material with a high damping capacity.
According to a particular embodiment of the invention, the first and/or the second piece are washers.
According to a particular embodiment of the invention, the first and/or second piece are tubes.
According to a particular embodiment of the invention, the external frame is produced from a damping material.
According to a particular embodiment of the invention, the internal frame is produced from a damping material.
According to a particular embodiment of the invention, said wheels are balls produced from a metal material with a high damping capacity.
The invention also relates to a horological movement including such a bearing.
Other features and advantages of the invention will emerge from a reading of the following detailed description, with reference to the accompanying drawings, where:
The invention relates to a mechanical bearing 1 with automatic winding for a horological movement 10, for example as shown in
In
This bearing 1 includes, conventionally, coaxial around a common rotation axis D, at least one internal frame 4, 14 and at least one external frame 5, 15. The arbor 2 of the display system with hands and the axis D are colinear, the arbor 2 of the display system being assembled on the other side of the bridge with respect to the bearing 1.
Assembled, these internal 4, 14 and external 5, 15 frames form a running track 20, wherein a plurality of wheels 12, 13, here balls, slide or roll in a relative movement between the internal frame 4, 14 and the external frame 5, 15. The running track 20 is an internal rolling conduit, which holds the wheels 12, 13, while enabling them to move in the conduit.
The invention is illustrated in the figures in the simplified case of a single internal frame 4, 14 and a single external frame 5, 15, a person skilled in the art can extrapolate it to a bearing including a plurality of stages, each of which includes a running track 20 for wheels 12, 13 between an internal frame 4, 14 and an external frame 5, 15. The external frame 5, 15 is formed by a single external race. Naturally the external frame 5, 15 may also be composed of a plurality of juxtaposed external races.
The bearing 1 is assembled on the bridge 3. In
In such a stage including a running track 20, at least the internal frame 4, 14, or the external frame 5, 15, is a dynamic frame, that is to say it is movable during the normal functioning of the bearing compared with a static component of a horological movement, such as a plate, bridge 3, or similar. In a particular variant that is not illustrated, the internal frame 4, 14, is a dynamic frame and the external frame 5, 15 is a dynamic frame. In another variant illustrated by
Such bearings 1 are designed for horological applications, and because of this have very small dimensions:
More particularly, the smallest bearings have balls with a diameter of 0.2 mm, for a diameter of 1.6 mm the thicknesses thereof are between 0.4 and 1 mm.
And the largest bearings have balls with a diameter up to 0.6 mm, for a diameter of 5.7 to 20.2 mm the thicknesses thereof range up to 1.5 mm.
The bearing 1 illustrated in
According to the invention, at least one structural part of the bearing 1 is produced from an elastic metal material with a high damping capacity, the damping factor of which is greater than 10%, preferably greater than 30%. Structural part means a part of the bearing that is different from the wheels or balls, such as the frames or a damping piece for example. The wheels or balls may of course also be made from this same material, but in addition to a structural part of the ball bearing.
In the first embodiment in
The damping pieces 6, 17, 22 are produced from an elastic metal material with a high damping capacity, the damping factor of which is greater than 10%, preferably greater than 30%. Such a damping factor affords sufficient comfort for the wearer of the timepiece. Thus these damping pieces absorb the vibrations generated by the ball bearing 1.
In dynamic mechanical analysis, a body is subjected to a strain or to an oscillatory deformation. The damping factor 8, also referred to as the loss factor, characterized by the damping capacity of a material according to the following equation:
where Ediss is the energy dissipated by the material during an oscillation cycle, and Emax is the maximum deformation energy stored by the material during an oscillation cycle.
The metal material is preferably to be chosen from the following list:
However, other metal materials are also possible, in particular alloys having the same physical properties, in particular concerning the damping factor.
The materials of the M2052 type or of the Nitinol type are particularly well suited to damping pieces, such as the washers or tubes described above. Nitinol has in particular shape-memory and superelasticity qualities.
Furthermore, the metal material has a tensile strength greater than 100 MPa, preferably greater than 400 MPa, or even 600 MPa. Thus the part of the bearing is stronger, and wears less quickly, than with other materials. Damping materials made from polymer, as described in the application EP 3418595, have a much lower modulus of elasticity, so that a clearance may occur between the ball bearing and the bridge. Such a clearance may give rise to contacts between the bearing and the bridge, or other components of the movement.
The embodiments shown relate to damping pieces. However, it is possible to obtain damping with other components of the bearing.
More generally, according to the invention, at least part of the bearing is produced from an elastic metal material with a high damping capacity, the damping factor of which is greater than 10%, preferably greater than 30%.
In a second embodiment, not shown in the figures, the part made from metal material is one of the frames of the ball bearing. In a variant, the two frames are formed from this metal damping material. The geometry of the bearing must be adapted in order to avoid stresses and contact pressures.
In a third embodiment, not shown in the figures, said wheels are balls produced from a metal material with a high damping capacity. Materials of the Nitinol type are particularly well suited to producing such balls.
The invention also relates to a horological movement 10 including at least one bearing 1 as described above.
Number | Date | Country | Kind |
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20159595.6 | Feb 2020 | EP | regional |