CH718398A2 - Device for assembling a watch movement with a watch component. - Google Patents

Abstract

The invention relates to a device (1) for assembling a watch movement (10) with a watch component (20) comprising a flange (60) comprising a hole (62), a screw (30) intended to be screwed into the watch movement or the watch component through the hole (62), the screw (30) comprising a head (40) having a surface of revolution (46) intended to cooperate with the flange (60), the surface of revolution (46 ) being convex and generated by the rotation of a curve around the main longitudinal axis of the screw (30). The flange may comprise a surface of revolution (72) intended to cooperate with the surface (46) of the screw and generated by the rotation of a curve or a straight line around an axis passing through the center of the hole (62 ) and perpendicular to one of the two faces (64, 66) of the flange (60). The invention also relates to a timepiece, an assembly of a timepiece movement with a timepiece component and an assembly method.

Description

Technical area

The invention relates to the field of watchmaking, more specifically it relates to a device for assembling a watch movement with a watch case or with a casing ring, comprising a flange and a screw, an assembly of a watch movement with a watch case or with a casing circle and a method for assembling a watch movement.

State of the art

[0002] In general, assembly devices exist in the watchmaking field and the most common, such as screwing (bridge of a movement, bottom of a watch case, for example), nevertheless have some limitations. In the case of screwing, the components to be assembled must generally be precisely aligned in order to allow the correct realization of the assembly and its duration over time. Some assemblies, due to the specificity of the components to be assembled having an offset between them for example, i.e. a notch or a difference in alignment at the level of their contact, or manufacturing tolerances, generate constraints at the level of the assembly device that it comprises, thus limiting its performance. For example, in the assembly of a movement in a case by clamping, an offset is present between the movement and the case in order to ensure their assembly during the screwing of the flange. The documents DE842929 and EP2595007 describe a device for assembling a watch movement with a watch case or a casing ring comprising a flange and a screw with a respectively flat conical head in an entirely conventional manner. EP2595007 requires specific machining operations on the movement and/or the case or the circle, which further complicates the assembly device. Part of the screw head used will take up the forces linked to the assembly, generating poorly distributed stresses. During normal use of the product, shocks or vibrations may occur, accentuating the stresses on the assembly which may then dislocate, loosen, loosen over time or go as far as a loss of its function or even breakage of components, such as the screw for example, which we want to avoid for the proper functioning of the product.

[0003] The screws usually used in the watch industry generally have flat or conical heads, sometimes with bearing surfaces (flat face separating two different diameters, here between the shank of the screw, the diameter being greater than that of the shank and different of that of the head of the screw). However, such screws cannot avoid the problems mentioned above.

Brief summary of the invention

[0004] An object of the present invention is to provide an assembly device for watch components which solves the limitations and drawbacks of the state of the art.

[0005] In particular, an object of the present invention is to provide a device for assembling a watch movement with a watch component, comprising: a flange comprising a hole, a screw intended to be screwed into the watch movement or the watch component through the hole, the screw comprising a head having a surface of revolution intended to cooperate with the flange characterized in that the surface of revolution is convex and generated by the rotation a curve around the main longitudinal axis of the screw. Curve means a curved line. Subsequently the term curve will therefore be used to designate a line or portion of a curved line, open or closed, for example a parabola, a hyperbola, an ellipse, a circle or other curved lines determined by numerical calculations or by deduction from using numerical simulations. The term straight line will therefore be used to designate a straight line or portion of a line. By watch component is meant a watch case or an intermediate component between the watch case and the watch movement such as a casing ring.

An assembly device according to the invention is integrated into a timepiece and is used to produce an assembly and an assembly method, the respective characteristics of which are detailed in the claims below.

[0007] Other advantageous and preferred characteristics of this assembly device are specified in the description and the sub-claims below.

Brief description of figures

Examples of implementation of the invention are indicated in the description illustrated by the appended figures in which: • Figure 1 shows a screw used for an assembly device according to the invention. • Figure 2 shows a flange for an assembly device according to the invention. • Figure 3 shows a first embodiment of an assembly using an assembly device according to the invention. • Figure 4 shows a second embodiment of an assembly using an assembly device according to the invention. • Figure 5 shows a third embodiment of an assembly using an assembly device according to the invention. • Figure 6 shows a fourth embodiment of an assembly using an assembly device according to the invention.

Example(s) of embodiment of the invention

Figure 1 shows a screw 30 used for an assembly device 1 according to the invention. An axis A passing through the main longitudinal axis of the screw 30 is illustrated. The screw comprises a head 40, the top of which comprises a recess 42 to cooperate with a tool during screwing or unscrewing operations, and a rod 34, at least partially threaded, one of its ends of which terminates below the head 40 or possibly (not shown) at a bearing surface (flat face separating two different diameters) then interposed between the rod 34 and the head 40. The screw 30 comprises below the head 40 a surface of revolution 46 convex generated by the rotation of a curve around the axis A. The curve is preferably that of a convex, a convex being a geometrical object containing all the segments joining any two of its points. More preferably, the curve is a segment of a circle and the surface thus obtained is that of a spherical segment. The curve can be seen as the cutting edge of a cutting tool for making such a screw. The surface of revolution 46 occupies, in FIG. 1, the entire underside of the head 40 which is then curved but it can obviously and without compromising the benefits of the invention only partially occupy the underside of the head 40 or, in the case of a scope screw, only partially replaced the scope.

Figure 2 shows a flange 60 for an assembly device according to the invention. The flange 60 has the general shape of a plate and comprises a first face 64, a second face 66 opposite and substantially parallel to the first, and a through hole 62. The hole 62 forms with the first or the second face an edge or a hollow then forming a surface. In FIG. 2, the hole 62 forms an edge 70 with the second face 66 and a hollow with the first face 64 then forming a surface of revolution 74 generated by the rotation of a curve around an axis passing through the center of the hole 62 and perpendicular to one of the two faces of the flange 60. The surface of revolution 46 is intended to cooperate with the flange 60. Other flange embodiments are given later in the description. The hole 62 is preferably, as shown, off-center on the flange 60, but it can obviously and without compromising the benefits of the invention be centered. Hole 62 has a larger diameter than rod 34 allowing said rod to pass freely through.

Figure 3 shows a first embodiment of an assembly device 1 according to the invention. The device 1 for assembling a watch movement 10 with a watch component 20, comprising a flange 60 and a screw 30 screwed into the watch movement 10, in particular into a frame element of the watch movement 10, for example a plate or a bridge. The watch movement 10 comprises a stop 15 intended to cooperate with the watch component 20. When screwing the screw 30, the watch component 20 will be pressed by the flange 60 against the stop 15 which will take up the forces during assembly and once in assembled position. This figure illustrates an assembled position where the timepiece movement 10 and the timepiece component 20 have an offset allowing the assembly device 1 to ensure good assembly between the timepiece movement and the timepiece component. The offset induces a bias position of the flange 60 which is reflected in particular on the head 40 of the screw 30 but which is caught up by the surface of revolution 46. Thus, whatever the bias of the flange 60 or its possible elastic deformation , the stresses induced in the screw 30, in particular in its head 40 and in close proximity to the rod 34, during screwing and in the assembled position, are better distributed. In this figure the hole 62 forms an edge 68, 70 on the two faces 64, 66 of the fixing member.

Figure 4 shows a second embodiment of an assembly device 1 according to the invention. The hole 62 of the flange 60 forms with the first face 64 a surface of revolution 72 being generated by the rotation of a straight line around an axis passing through the center of the hole 62 and perpendicular to one of the two faces 64, 66, in other words a chamfer 72, the geometry of which is essentially conical.

Figure 5 shows a third embodiment of an assembly device 1 according to the invention. The hole 62 of the flange 60 forms with the first face 64 a hollow whose shape is preferably that of a concave surface of revolution 74 generated by the rotation of a curve around an axis passing through the center of the hole 62 and perpendicular to one of the two faces of the flange 60, the surface of revolution 74 possibly being substantially equivalent to the surface of revolution 46 with which it is intended to cooperate. The contact zone between said surfaces represents a surface having an exterior contour and an interior contour, the two contours being continuous. This contact zone, representing a surface, further limits the stress concentrations by their better distribution to the benefit of the service life of the assembly device 1 and the quality of the assembly of the watch movement with the watch component. Alternatively, the surfaces of revolution 74 and 46 may be different, said surface of revolution 74 will then preferably have a more flared curvature than that of the surface of revolution 46.

Figure 6 shows a fourth embodiment of an assembly device 1 according to the invention. The hole 62 of the flange 60 forms with the second face 66 a recess which forms a surface 76, preferably the shape of which can be that of a chamfer or that of a surface of concave revolution generated by the rotation of a curve around an axis passing through the center of the hole 62 and perpendicular to one of the two faces of the flange 60. The surface 76 is preferably substantially equivalent to the surface of revolution 74, the flange then has a certain symmetry which presents notable advantages in terms of simplicity of assembly, whether manual or automatic, since the direction in which the flange is placed is irrelevant. Alternatively the surface 76 and the surface of revolution 74 are different, the flange 60 can then cooperate with screws 30 of different geometries which in an industrial context can be advantageous.

[0015] Figures 3 to 6 also illustrate an assembly of a watch movement 10 with a watch component 20, the assembly being carried out by an assembly device 1.

The assembly of a watch movement 10 comprising a stop 15 with a watch component 20 by an assembly device 1 is carried out according to a method comprising the following steps: position the watch component 20 in contact with the stop 15 of the watch movement 10 position flange 60 at an angle so that it partially covers watch movement 10 and watch component 20 screw the screw 30 through the hole 62 in the watch movement or the watch component.

In another embodiment according to the invention, the surface of revolution 46 of the screw 30 and the surface of revolution 72 or 74 or 76 of the flange 60 are essentially included in one another in the assembled position . Preferably the surface of revolution 72 or 74 or 76 is essentially included in the surface of revolution 46, advantageously whatever the relative position of the flange 60 with respect to the screw 30.

In one embodiment according to the invention, not shown, the surfaces of revolution 46 and 74 are convex.

[0019] The screw 30 like the flange 60 can be made of any material within the reach of those skilled in the art, for example metal, precious or not, manufactured by any methods within the reach of those skilled in the art such as machining, additive manufacturing (such as sintered powder, LiGA) or deep etching (such as DRIE) processes. Furthermore, the flange 60 can deform elastically. The screw 30 like the flange 60 can receive a surface treatment (such as mechanical, chemical) and/or a heat treatment inducing a modification of their intrinsic or surface properties in particular their mechanical, electrochemical, magnetic and/or tribological properties. The screw 30 like the flange 60 can also receive, alone or in combination with the preceding treatments, a coating of one or different materials for aesthetic reasons (coloring for example) or technical reasons (to limit unscrewing for example).

In an advantageous embodiment according to the invention, the assembly device 1 makes it possible to assemble a watch movement 10 and a watch component 20 which are at least partially side by side.

In a preferred embodiment according to the invention the flange 60 and or the watch component 20 can be elastically deformable.

It is obvious that in the preceding description the terms surfaces, geometries, shapes should not be understood as exact but as resulting from a manufacturing process and possibly from an assembly process which can induce dimensional variations. in particular without in any way detracting from the benefits provided by the invention. The assembly device can comprise several screws for example, the assembly can comprise several assembly devices.

Claims (13)

1. Assembly device (1) of a watch movement (10) with a watch component (20), comprising: – a flange (60) comprising a hole (62), – a screw (30) intended to be screwed into the watch movement or the watch component through the hole (62), the screw (30) comprising a head (40) having a surface of revolution (46) intended to cooperate with the flange (60) characterized in that the surface of revolution (46) is convex and generated by the rotation of a curve around the main longitudinal axis of the screw (30). 2. Assembly device (1) according to the preceding claim, the flange comprising a first face (64) and a second face (66) characterized in that the flange (60) comprises a surface of revolution (72, 74) intended to cooperate with the surface (46), the surface of revolution (72, 74) being generated by the rotation of a curve or a straight line around an axis passing through the center of the hole (62) and perpendicular to the one of the two faces (64, 66) of the flange (60). 3. Assembly device (1) according to one of the preceding claims, characterized in that the flange (60) also comprises a surface of revolution (74) being substantially complementary to the surface of revolution (46). 4. Assembly device (1) according to one of claims 2 or 3, the hole 62 forming with the first face (64) a surface of revolution (72, 74) and with the second face (66) a recess having a surface (76). 5. Assembly device (1) according to the preceding claim characterized in that the surface (76) is a surface of revolution generated by the rotation of a curve or a straight line. 6. Assembly device (1) according to claim 4 or 5 characterized in that the surface of revolution (72, 74) is substantially equivalent to the surface (76). 7. Assembly device (1) according to one of the preceding claims, characterized in that the hole (62) of the flange (60) is off-center thereon. 8. Assembly device (1) according to one of the preceding claims, characterized in that the watch movement (10) and watch component (20) are at least partially side by side. 9. Connecting device (1) according to one of the preceding claims, characterized in that the flange (60) can deform elastically. 10. Timepiece comprising at least one assembly device (1) according to one of the preceding claims. 11. Assembly of a watch movement with a watch component, characterized in that the assembly is carried out by an assembly device (1) according to one of claims 1 to 9. 12. Method for assembling a watch movement (10) comprising a stop (15) with a watch component (20) by an assembly device (1) according to one of claims 1 to 9, comprising the following steps : – position the watch component (20) in contact with the stop (15) of the watch movement (10) – position the flange (60) at an angle so that it partially covers the watch movement (10) and the watch component (20) – screw the screw (30) through the hole (62) in one of said timepiece components. 13. Assembly method according to claim 12, in which the screw and/or the flange first comprise at least one step of surface treatment and/or heat treatment and/or coating of a material.