EP2796940A2 - Clock component for receiving an organ by insertion - Google Patents

Abstract

Watch component (14) comprising an opening (140) for receiving a member (13) by driving the latter in the opening, the component comprising at least one receiving structure (15) of the member, each receiving structure comprising: a reception element (16) intended to come into contact with the organ, a connecting element (17), an elastically deformable element (18), the receiving element being mounted on the elastically deformable element via the connecting element.

Description

The invention relates to a watch component for receiving a body by driving. The invention also relates to an assembly comprising such a component and a member mounted or driven in the component. The invention also relates to a movement comprising such a component or such an assembly. The invention finally relates to a timepiece, in particular a watch, comprising such a movement or such an assembly or such a component.

The driving of a stone reported in a component (such as for example a blank, or a rocker) is not necessarily easy to achieve. While the driving of stones in brass blanks is known and controlled, the use of other materials, especially materials with little or no plastic deformation area, can be much more problematic. The implementation of an elastic geometry is in this case an interesting option, provided that this structure makes it possible to ensure the required rotational torque and release force required on the one hand, and a reliable assembly of other go.

Several bore geometries allowing the assembly of two components, particularly suitable for materials that have no or little field of plastic deformation, are known. Among the most common examples of use, mention may be made of the driving of shafts in gear wheels obtained by UV-Liga and the driving of balance shafts in spiral shells made of silicon.

These geometries are satisfactory when the required torque required for rotation is low, and / or when the force of resistance to the dehairing required remains low. In some cases, however, such as the maintenance of a stone inserted in a component, it turns out that the resistance to disassembly of existing solutions is insufficient. In addition, the known geometries involve a large footprint that is not always compatible with the space available to bring one component over another.

The object of the invention is to provide a watch component to overcome the disadvantages mentioned above and to improve the watch components known from the prior art. In particular, the invention provides a watch component for providing a significant resistance to the removal of a member driven in the component and a significant resistance to the rotation of the member driven into the component.

The watch component according to the invention is defined by claim 1.

Different embodiments of the component are defined by claims 2 to 11.

The assembly according to the invention is defined by claim 12.

An embodiment of the assembly is defined by claim 13.

The movement according to the invention is defined by claim 14.

The timepiece according to the invention is defined by claim 15.

• La figure 1 est une vue schématique d'un premier mode de réalisation d'une pièce d'horlogerie incluant un composant selon l'invention.
• La figure 2 est une vue schématique d'un deuxième mode de réalisation d'une pièce d'horlogerie incluant un composant selon l'invention.
• La figure 3 est une vue schématique d'un troisième mode de réalisation d'une pièce d'horlogerie incluant un composant selon l'invention.
• La figure 4 est une vue schématique d'un quatrième mode de réalisation d'une pièce d'horlogerie incluant un composant selon l'invention.
• La figure 5 est une vue schématique d'un cinquième mode de réalisation d'une pièce d'horlogerie incluant un composant selon l'invention.
• La figure 6 est une vue schématique d'un sixième mode de réalisation d'une pièce d'horlogerie incluant un composant selon l'invention.
• La figure 7 est une vue schématique d'un septième mode de réalisation d'une pièce d'horlogerie incluant un composant selon l'invention.
• La figure 8 est une vue schématique d'un huitième mode de réalisation d'une pièce d'horlogerie incluant un composant selon l'invention.

The accompanying drawings show, by way of example, several embodiments of a watch component according to the invention.

• The figure 1 is a schematic view of a first embodiment of a timepiece including a component according to the invention.
• The figure 2 is a schematic view of a second embodiment of a timepiece including a component according to the invention.
• The figure 3 is a schematic view of a third embodiment of a timepiece including a component according to the invention.
• The figure 4 is a schematic view of a fourth embodiment of a timepiece including a component according to the invention.
• The figure 5 is a schematic view of a fifth embodiment of a timepiece including a component according to the invention.
• The figure 6 is a schematic view of a sixth embodiment of a timepiece including a component according to the invention.
• The figure 7 is a schematic view of a seventh embodiment of a timepiece including a component according to the invention.
• The figure 8 is a schematic view of an eighth embodiment of a timepiece including a component according to the invention.

A first embodiment of a timepiece 10 according to the invention is described below with reference to the figure 1 . The timepiece is for example a watch, such as a wristwatch.

The timepiece comprises a watch movement 11. The movement comprises an assembly 12 including a member 13 mounted, in particular driven, in a watch component 14.

The watch component 14 comprises an opening 140 intended to receive the member 13 by driving the latter into the opening. The component comprises at least one structure 15 for receiving the organ, in this case two structures 15 for receiving the organ.

The watch component and the body are shown in section on the figure 1 , in particular in section along a plane perpendicular to a direction or axis 131 in which the member is driven into the component.

• un élément de réception 16 destiné à venir en contact avec l'organe,
• un élément de liaison 17,
• un élément élastiquement déformable 18.

Each reception structure 15 comprises:

• a reception element 16 intended to come into contact with the organ,
• a connecting element 17,
• an elastically deformable element 18.

The receiving element is mounted on the elastically deformable element via the connecting element.

The elements are for example monoblocks or integrally.

The member preferably has a cylindrical shape of revolution of axis 131. On the figure 1 the organ is shown hollow. It can alternatively be full. The axis passes for example through the center of the opening defined as the center of gravity or the center of gravity of the opening 140. The opening 140 may for example be of elliptical or substantially elliptical shape.

Advantageously, the watch component has at least several parallel sections between them and perpendicular to the axis 131 which have the same geometry or substantially the same geometry. For example, on the thickness of the component, all sections may have the same geometry. Alternatively, the dimensions of the receiving structures, in particular the thicknesses of the elements, may change along the thickness of the component.

The receiving element of the receiving structure may come into contact with the member through one or more contact surfaces, or through one or more points of contact. Advantageously, the surfaces or points of the receiving element which are in contact with the organ are inscribed on a circle centered on the axis 131 of the organ.

The two reception structures of the organ are preferably distributed in the opening. In particular, the two receiving structures of the member are regularly distributed in the opening, that is to say that the two structures are distributed symmetrically, in particular face each other. The different reception structures of the organ may be identical. The receiving structures are separated by rigid parts 141 of the component.

Preferably, at least one or some of the receiving elements is elastically deformable. The receiving elements preferably extend orthoradially or substantially orthoradially relative to the axis 131 corresponding to an axis of the member, once the member mounted in the component.

Advantageously, the receiving element is biased at least mainly in bending when the member is introduced into the opening. To do this, the receiving member is preferably a member having a small thickness (measured radially) in comparison with its extent in contact with the member (on the sectional view of the figure 1 ). Thus, advantageously, the receiving element has a conformation complementary or substantially complementary to a conformation of the member, in particular when the member is mounted in the component. Indeed, before mounting, the receiving member may have a conformation slightly different from that of the member, so that the receiving member is slightly elastically deformed in contact with the member. As a result, contact pressure is exerted by at least one surface 161 of the receiving member or a point of contact on the member at their interface. Also, the receiving element comprises at least one surface 161. In the case of a circular section member, it is possible, for example, to provide a reception element with an elliptical or substantially elliptical section with a minor axis smaller than the diameter of the section. circular of the organ. The deformation of the receiving element makes it possible to ensure a tightening but also to adapt to the dispersion of the dimensions of the organ.

Alternatively, the receiving member may comprise a first stop member for co-operating by an obstacle with a second abutment member of the member to prevent rotation of the member relative to the component in the opening.

The surface 161 of the receiving member may extend at an angle of between 60 ° and 175 ° around the center of the opening. The surface 161 of the receiving member may extend at an angle of about 115 ° or about 120 °. The thickness of the receptacle element, measured radially relatively to the center of the opening, may be between 50 .mu.m and 100 .mu.m thick, in particular about 70 .mu.m. It is a dependent value mainly of a form factor due to the precedence of manufacture and the thickness of the component.

The connecting element is dimensionally stable or substantially indeformable. It is dimensioned so that it does not deform almost when hunting the organ. The connecting element extends radially or substantially radially relative to the axis 131 or the center of the opening. The connecting element makes it possible to mechanically connect or fix the receiving element to the elastically deformable element. When the member is put in place in the component, the maximum deformation rate in the connecting element is, for example, 10 times, or even 15 times, less than the maximum of the deformation rates in the receiving element and the element elastically deformable.

The connecting element is included in an angular sector represented at figure 1 and defined by the center of the opening and the extent of the receiving member at its interface with the member. More preferably, the connecting element is included in an angular sector of angular amplitude half of that represented by the extent of the receiving element.

Finally, the elastically deformable element preferably extends orthoradially or substantially orthoradially relative to the center of the opening. It may also extend perpendicularly or substantially perpendicular to the direction in which the connecting element extends. This elastically deformable element is formed by the material between the opening 140 and a lumen 19 formed in the mass of the component. In this embodiment, the lumen is shaped concentrically or substantially concentrically in the center of the aperture. Thus, the elastically deformable element has a thickness (measured radially relative to the center of the opening) constant or substantially constant.

The elastically deformable element is biased at least mainly in flexion when the member is introduced into the opening. Indeed, because stress, the elastically deformable element flexes in the direction of a decrease in the thickness of the light 19.

The receiving element can be distinguished from the connecting element by a limit 172 and the elastically deformable element can be distinguished from the connecting element by a limit 171. These distinctions are effected for example at the levels where they occur. changes in the direction of extension of the structure, in particular a change of direction of radial extension in orthoradial extension direction or a change of direction of orthoradial extension in direction of radial extension. Indeed, the receiving element extends mainly orthoradially, the connecting element extends mainly radially and the elastically deformable element extends mainly orthoradially. These distinctions occur, for example, at levels where variations in the areas of the sections of the structure occur, including significant variations in section areas. These areas are for example measured on cylinders of revolution centered on the center of the opening. For example, the limit 172 is defined by a first cylinder centered on the axis 131 and radius r1 such that the area of the intersections of the receiving structure with the first cylinder is less than 50%, or even less than 30%, even less than 10%, of the maximum intersection area of the receiving structure, in particular of the receiving element, with a cylinder centered on the axis 131 and of radius less than r1. For example, the limit 171 is defined by a second cylinder centered on the axis 131 and radius r2 such that the area of intersection sections of the receiving structure with the second cylinder is greater than 200%, or even greater than 300%, or even greater than 500%, of the minimum intersection area of the receiving structure, in particular of the connecting element, with a cylinder centered on the axis 131 and radius greater than r1.

Alternatively or additionally, the connecting elements are defined or limited by a third cylinder centered on the axis 131 and radius r3 and a fourth cylinder centered on the axis 131 and radius r4 such that, once the mounted member all directions of the mechanical forces in the connecting elements are oriented radially to more or less 10 °, or more or less 5 °.

Alternatively or additionally, one, more or all of the receiving elements extend orthoradially or substantially orthoradially over a distance greater than 4 times, or even greater than 8 times their radially measured thickness.

Alternatively or additionally, one, more or all of the connecting elements extend radially or substantially radially over a distance equal to or substantially equal to their thickness measured orthoradially.

Alternatively or additionally, one, more or all the elastically deformable elements extend orthoradially or substantially orthoradially over a distance greater than 4 times, or even greater than 8 times their thickness measured radially.

The watch component can be produced by an electroforming process or by a LIGA type process or by a photolithography and deep etching process. It may in particular be made of a brittle material or Ni or NiP or Si or diamond or quartz.

The watch component may be a turntable or a bridge or a rocker or a wheel or a spiral or an anchor. In other words, the component may be mobile or not relative to the frame of the watch movement. Thus, the watch component comprises an opening defined by an elastically deformable geometry which has a small footprint and ensures a high resistance to loosening, particularly adapted to the reception of different types of watch organs such as in particular a clockwork stone, a pin or pin.

In the case of driving, it is significant effect in some applications that the resistance to disengagement, that is to say the force opposing the removal of the member of the component along the axis 131, is significant. The geometry described above makes it possible to achieve such a goal.

As seen in this first embodiment, the two reception structures face each other. They each comprise elastically flexible or deformable elements: the receiving element and the elastically deformable element. The receiving element can generally be seen as a clamp 16 which ensures the contact and the maintenance of the organ, of concave shape, for example of circular shape, preferably of elliptical shape (in the case of a circular section member or elliptical). The clamp deforms during the driving and ensures at least two points of contact per clamp, preferably close to the end of the arms of the clamp. The elastically deformable element is here a blade 18, formed between the opening and the light in the component. The clamp is mounted on this blade. The flexion of this blade allows the radial displacement of the clamp.

The effect of the pliers appears secondary to ensure the resistance to the stripping, but is important for the resistance to the rotating torque. The force of resistance to the stripping is mainly ensured by the flexible blade. The out-of-the-way resistance and the rotational torque resistance can thus be optimized almost independently.

For example, the effective clamping of the insert member is typically 25-35 μm, which indicates that each blade 18 bends 12-18 μm.

The ratio of the minimum and maximum dimensions of the contour of the opening is for example about 0.85. The size of the geometry of the opening in one of the directions (along the small axis of the opening) can be further reduced, until it comes in close proximity to the diameter of the member.

A second embodiment of a timepiece 20 according to the invention is described below with reference to the figure 2 .

This embodiment differs from the first embodiment only in that the openings 29 have a different geometry. Indeed, they are a little less extensive. The rigidity of the elastically deformable elements is a little increased.

On the figure 2 , elements similar or identical to those of the figure 1 are identified by a reference whose first digit is a "2", whereas it was a "1" on the figure 1 the other figures remain unchanged.

A third embodiment of a timepiece 30 according to the invention is described below with reference to the figure 3 .

This embodiment differs from the first embodiment only in that the openings 39 have a different geometry. Indeed, they have a different curvature. Thus, the rigidity of the elastically deformable elements is significantly increased. Such an increase in rigidity can be obtained by orienting the light so as to produce a gradual increase in the thickness of the flexible blade 38 towards its ends (for example to obtain a so-called iso-stress beam). Such an increase can also be obtained in another way, in particular by providing a blade of constant thickness, but thicker.

On the figure 3 , elements similar or identical to those of the figure 1 are identified by a reference whose first digit is a "3", whereas it was a "1" on the figure 1 the other figures remain unchanged.

A fourth embodiment of a timepiece 40 according to the invention is described below with reference to the figure 4 .

This embodiment differs from the first embodiment only in that the connecting elements 47 are made in the form of two segments or bridges 471 and 472 each extending substantially radially relative to the center of the opening. The two segments are also angularly distant from each other. Thus, compared to the first embodiment, the rigidity of the elastically deformable elements is significantly increased and the rigidity of the receiving elements is also significantly increased. Depending on the geometry of the opening, it is possible to act independently on the rigidities of the receiving elements and the elastically deformable elements.

On the figure 4 , elements similar or identical to those of the figure 1 are identified by a reference whose first digit is a "4", whereas it was a "1" on the figure 1 the other figures remain unchanged.

A fifth embodiment of a timepiece 50 according to the invention is described below with reference to the figure 5 .

This embodiment differs from the fourth embodiment only in that the segments or bridges 571 and 572 are further split. Indeed, each of them is made by a pair of two sub-segments or sub-bridges referenced 5711, 5712, 5721 and 5722. This also makes it possible to play on the rigidity of the elastically deformable elements and on the rigidity of the elements of reception.

On the figure 5 , elements similar or identical to those of the figure 4 identified by a reference whose first digit is a "5", whereas it was a "4" on the figure 4 the other figures remain unchanged.

A sixth embodiment of a timepiece 60 according to the invention is described below with reference to the figure 6 .

This embodiment differs from the fourth embodiment only in that the lights 69 are each divided into two lights 691 and 692. Similarly, the elastically deformable elements 68 are each divided into two elastically deformable elements 681 and 682. This also allows to play on the rigidity of the elastically deformable elements and on the rigidity of the receiving elements.

On the figure 6 , elements similar or identical to those of the figure 4 identified by a reference whose first digit is a "6", whereas it was a "4" on the figure 4 the other figures remain unchanged.

A seventh embodiment of a timepiece 70 according to the invention is described below with reference to the figure 7 .

This embodiment differs from the previous embodiments in that the watch component comprises a single receiving structure 75, while it included two in each of the previous embodiments. In this embodiment, any of the previously described receiving structures may be used. In this embodiment, provision is made in the opening of the component at least one rigid surface against which the body must also come to bear. This rigid surface may optionally be provided with at least one stop element to prevent rotation of the member relative to the component in the opening.

On the figure 7 , elements similar or identical to those of the figure 1 identified by a reference whose first digit is a "7", whereas it was a "1" on the figure 1 the other figures remain unchanged.

An eighth embodiment of a timepiece 80 according to the invention is described below with reference to the figure 8 .

This embodiment differs from the previous embodiments in that the watch component comprises three receiving structures 85, while it included one or two in the previous embodiments. In this embodiment, any of the previously described receiving structures may be used. The different reception structures are preferably identical. However, they can also be of different natures. It is also possible to provide more than three reception structures in the opening, in particular four receiving structures.

On the figure 8 , elements similar or identical to those of the figure 1 are identified by a reference whose first digit is an "8", while it was a "1" on the figure 1 the other figures remain unchanged.

In the various embodiments, the dimensions of the various elements will of course have to be adjusted to take into account the mechanical properties of the material used (Young's modulus, maximum elastic stress, etc.).

In addition, the geometries are also adapted to accommodate a member made of a fragile material, that is to say having no or little plastic deformation field.

Alternatively, it would also be possible to make an insert member with abutment elements, in particular grooves, and to use the shape of the end of the receiving elements to achieve a stop in rotation.

The organ is for example a clockwork stone, hollow or not, pierced or not, made of a fragile material, especially ceramic, more particularly ruby. Of course, the member may be of another order, for example a plug, or a foot-screw, made for example of steel or a cuprous material.

The member preferably has a substantially cylindrical shape. Alternatively, it may have an elongated shape, in particular an elliptical shape.

In the various embodiments, the component may comprise exactly one, exactly two, exactly three, exactly four, exactly five or exactly six receiving structures.

Claims (15)

A watchmaking component (14; 24; 34; 44; 54; 64; 74; 84) comprising an opening (140; 240; 340; 440; 540; 640; 740; 840) for receiving a member (13; 23; 43; 53; 63; 73; 83) by driving the latter into the opening, the component comprising at least one receiving structure (15; 25; 35; 45; 55; 65; 75; 85) of the organ, each receiving structure comprising: a receiving member (16; 26; 36; 46; 56; 66; 76; 86) intended to come into contact with the member, a connecting element (17; 27; 37; 47; 57; 67; 77; 87); an elastically deformable element (18; 28; 38; 48; 58; 68; 78; 88); the receiving element being mounted on the elastically deformable element via the connecting element. Watch component according to the preceding claim, characterized in that it comprises at least two reception structures, in particular two, three or four organ reception structures distributed in the opening, in particular regularly distributed in the opening, in particular distributed angularly and regularly in the opening, the different receiving structures of the body being in particular identical. Timepiece component according to the preceding claim, characterized in that the receiving structures are separated by rigid parts (141; 241; 341; 441; 541; 641; 841) of the component. Timepiece component according to one of the preceding claims, characterized in that at least one or some of the receiving elements is elastically deformable. Clock component according to one of the preceding claims, characterized in that the receiving element extends orthoradially or substantially orthoradially relative to an axis corresponding to an axis of the member, once the member mounted in the component. Watch component according to one of the preceding claims, characterized in that the receiving element is biased at least mainly in bending when the member is introduced into the opening. Watch component according to one of the preceding claims, characterized in that the receiving element comprises at least one surface or point of contact intended to come into contact with the body. Watch component according to one of the preceding claims, characterized in that the connecting element is dimensionally stable or substantially indeformable and / or in that the connecting element extends radially or substantially radially relative to an axis corresponding to an axis. of the member once the member mounted in the component, between the receiving element and the elastically deformable element. Watch component according to one of the preceding claims, characterized in that the elastically deformable element extends orthoradially or substantially orthoradially to an axis corresponding to an axis of the member, once the member mounted in the component, and / or in that the elastically deformable element is biased, at least mainly in bending when the member is introduced into the opening. Watch component according to one of the preceding claims, characterized in that it is produced by an electroforming process or a LIGA type process or a deep photolithography and etching process and / or in that it is carried out in a brittle material or Ni or NiP or Si or diamond or quartz. Timepiece component according to one of the preceding claims, characterized in that the component is movable or not relative to the timepiece movement, in particular is a plate or a bridge or a rocker or a wheel or a coil or an anchor. An assembly comprising a horological component (12; 22; 32; 42; 52; 62; 72; 82) according to one of the preceding claims and a member (13; 23; 33; 43; 53; 63; 73; 83), the member being in particular mounted in the opening. Assembly according to the preceding claim, characterized in that the member is made of fragile material, in particular ruby. Watch movement (11; 21; 31; 41; 51; 61; 71; 81) comprising a component according to one of claims 1 to 11 or an assembly according to one of claims 12 and 13. Timepiece (10; 20; 30; 40; 50; 60; 70; 80), especially a watch, in particular a wristwatch, comprising a movement according to the preceding claim or an assembly according to one of the claims 12 and 13 or a component according to one of claims 1 to 11.

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