The present invention relates to an oscillating winding mass provided with a rotating element for the automatic movement of a timepiece. More particularly, the invention relates to such a winding mass intended to equip a wristwatch including a transparent back. The invention also relates to a timepiece provided with such an oscillating winding mass.
Wristwatches having cases with a transparent back to allow observation of their movement are already known. However, when these watches include a self-winding movement, the oscillating winding mass hides a movement part.
Furthermore, the aesthetics of such oscillating masses are not always pleasant, even if it is possible to engrave the material forming the oscillating mass to make it more attractive. It is possible, for example, to engrave a decorative element, such as a logo representing the brand of the watch. But this logo is generally not visible enough for the result to be aesthetically convincing. Furthermore, simply colouring the logo is not enough to make the mass more aesthetic, not to mention that the colour can degrade over time. In addition, the decorative element is static with respect to the rest of the oscillating mass.
The object of the present invention is to overcome the disadvantages of the prior art by proposing an oscillating winding mass for a timepiece including a particular decorative element.
To this end, the object of the invention is an oscillating winding mass for a movement of a timepiece, said oscillating winding mass being intended to be rotatably mounted on an axis of the movement.
The invention is remarkable in that it comprises a main element and a decorative element, for example a logo or an acronym, a part of the winding mass forming a heavy part allowing the oscillation of the mass in response to the movement of the timepiece and to the force of gravity, the main element giving the general shape of the oscillating winding mass, the decorative element being mechanically linked to the main element, the decorative element being rotatably mounted on the main element.
Thanks to this new winding mass structure, a decorative element is rotatably connected to the main element of the winding mass. Thus, the winding mass has a more attractive aesthetic result than a conventional winding mass known from the prior art. Indeed, the rotating decorative element, which can represent a brand logo or acronym, gives more cachet to the winding mass and therefore to the timepiece. The main element and the decorative element can rotate together at different speeds, or the decorative element can rotate when the main element has just stopped. Thus, the rotation of the decorative element relative to the main element provides a particular aesthetic effect.
According to a particular embodiment of the invention, the heavy part is formed by at least a part of the main element.
According to a particular embodiment of the invention, the mass comprises a ball bearing to allow the decorative element to rotate.
According to a particular embodiment of the invention, the ball bearing is arranged on the main element.
According to a particular embodiment of the invention, the main element includes an opening wherein the decorative element is arranged.
According to a particular embodiment of the invention, the ball bearing is disposed in an internal face of the opening.
According to a particular embodiment of the invention, the balls are disposed in the mass of the main element.
According to a particular embodiment of the invention, the balls are distributed angularly in the internal face of the opening.
According to a particular embodiment of the invention, each ball is retained in a housing whose dimensions allow the ball to rotate while being retained in a substantially predefined position.
According to a particular embodiment of the invention, the housing comprises an orifice emerging into the opening, so that part of the ball protrudes from the housing into the opening so as to be able to be in contact with the decorative element.
According to a particular embodiment of the invention, the decorative element comprises a portion intended to be in contact with the balls of the bearing.
According to a particular embodiment of the invention, the decorative element comprises, preferably entirely, ceramic.
According to a particular embodiment of the invention, the main element comprises amorphous metal.
According to a particular embodiment of the invention, the internal face of the opening includes rails for retaining the decorative element in the opening, the portion of the decorative element preferably being bevelled.
The invention also relates to a timepiece including a case formed of a middle part closed by a crystal and an at least partially transparent back and wherein is housed a self-winding timepiece movement, said movement being equipped with an oscillating winding mass as defined above.
Other details of the invention will appear more clearly upon reading the following description, made with reference to the appended drawings wherein:
The winding mass 1 comprises a main element 2 giving the general shape of the oscillating winding mass 1. The main element 2 comprises a heavy part 3 and a connecting member 5 intended to connect the heavy part 3 to an axis (not shown in the figures) integral with a horological movement, the mass 1 being intended to be rotatably mounted on this axis. The heavy part 3 allows the oscillation of the mass 1 in response to the movement of the timepiece and to the force of gravity.
The connecting member comprises a substantially circular ring 4 and a substantially flat wall 5 connecting the ring 4 to the heavy part 3 of the mass 1. The ring 4 is intended to be arranged on the axis of the movement. Thus, the oscillating mass 1 performs a circular movement around the axis, when it oscillates. The heavy part 3, as well as the ring 4 and the wall 5 of the connecting member are arranged substantially in the same plane.
The heavy part 3 has the shape of an arc of a circle forming an angle substantially equal to 180°. The wall 5 is connected to the heavy part 3, substantially in the middle of the arc of a circle, on the internal side of the curvature. The ring 4 is arranged at the other end of the wall 5.
According to the invention, the winding mass 1 comprises a decorative element 10, for example a logo or acronym, the decorative element 10 being mechanically linked to the main element 2 of the mass 1. The decorative element 10 is here a logo in the shape of an anchor having a substantially straight segment 11 and a curved segment 12, the straight segment 11 being connected to the curved segment 12 in its middle, on the internal side of the curvature.
The main element 2 includes an opening 6 wherein the decorative element 10 is arranged. The opening 6 is made in the wall 5 of the connecting member in the plane of the wall 5. The decorative element is disposed in the same plane as the opening 6 and the wall 5. Preferably, the opening 6 passes through the wall 5 of the main element 2. The opening 6 here has a circular shape provided with a centre of the circle. The opening 6 is bordered by an internal face 7 defining the outline of the opening 6. The internal face 7 has a cylindrical shape, the height of which corresponds to the thickness of the wall 5.
The decorative element 10 is rotatably mounted on the main element 2. To this end, the winding mass 1 comprises a ball 9 bearing 8.
In a first embodiment, shown in the figures, the ball 9 bearing 8 is arranged on the main element 2 to allow the decorative element 10 to rotate by sliding on the balls 9. The ball 9 bearing 8 is arranged in the opening 6, in the internal face 7. The decorative element 10 can then rotate around an axis passing substantially through the centre of the opening 6.
The balls 9 are distributed angularly in the internal face 7 of the opening 6. The balls 9 are disposed in the mass of the main element 2. In
Each housing further comprises an orifice 15 emerging into the opening 6. The orifices 15 are arranged on the internal face 7 of the opening 6. Thus, the ball 9 protrudes from the housing into the opening 6 and can be in contact with the decorative element 10.
The decorative element 10 comprises a portion intended to be in contact with the balls 9 of the bearing 8. In the example of the anchor, this is the external face of the curved segment 12 which slides on the balls 9 of the bearing 8.
To retain the decorative element 10 in the opening 6, the internal face 7 of the opening 6 includes rails 13, 14 for retaining the decorative element 10. Two rails 13, 14 are each disposed substantially on an edge of the cylinder defined by the internal face 7.
The contact portion of the decorative element preferably has a bevelled shape to be able to be introduced and retained between the two rails 13, 14. Thus, the decorative element 10 can slide against the balls 9, while remaining retained in the opening 6 by the rails 13, 14.
The balls 9 are for example formed of a poly-crystal type synthetic ruby material.
The decorative element 10 is formed of a material, which is preferably opaque, to be distinguished from the main element 2. The material of the decorative element 10 comprises, preferably entirely, ceramic such as zirconia of the ZrO2 type. This material allows to obtain particular colours, for example black, to be clearly visible.
In a first variant embodiment, the main element 2 is formed from a one-piece amorphous metal material with a high density greater than 10 g/cm3, such as an amorphous platinum alloy of the Pt85CuNiP type with a density of 15.4 g/cm3. Thus, the heavy part 3 is formed of the same material. The high-density material gives sufficient inertia to the heavy part 3.
In a second variant embodiment, the main element 2 is partly formed of an amorphous metal with a low density of less than 10 g/cm3, such as an amorphous zirconium alloy of the ZrVit106a type with a density of 6.7 g/cm3. The heavy part 3 is a separate element assembled to the main element 2. The heavy part 3 is made of a high-density material, preferably greater than 10 g/cm3, for example tungsten or a tungsten alloy with a density of 19.3 g/cm3.
To form the balls 9 and the housings in the wall 5, a method is used wherein the ruby balls are first formed, which are covered with a metal layer, for example copper, deposited by galvanic growth. The metallised balls 9 are then embedded in the amorphous metal mass of the main element 2 during its formation, and finally the metal layer is dissolved by a chemical technique. The dissolution of the layer frees the ball from the material of the main element, and allows it to rotate in the housing, while being retained therein. For example, use is made of an overmoulding method, such as hot forming or the injection of amorphous metal. Such a production method is described in patent EP 2 585 238, in particular in paragraphs [0044] and [0045].
In a second embodiment, not shown in the figures, the ball bearing is arranged in the decorative element. To this end, the decorative element is formed of an amorphous metal material to be able to form the balls in the same way as in the first embodiment, but in the decorative element this time. The main element is preferably formed of another material allowing sufficient inertia to be obtained.
In a third embodiment, not shown in the figures, the ball bearing is an additional element attached to the internal face of the opening. Thus, the balls are not embedded in the material of the additional element, but are part of the additional element. The additional element is fixed to the inner side of the opening. The decorative element is retained by the additional element while being able to rotate thanks to the ball bearing, as in the embodiment of
Number | Date | Country | Kind |
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20157748.3 | Feb 2020 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2021/050898 | 1/18/2021 | WO |