TECHNICAL FIELD OF THE INVENTION
The invention relates to a wristlet formed by elements that are hinged together, in particular by links at least some of which are made of a hard material. It also relates to a piece, including a timepiece such as a watch or a jewellery piece, comprising said wristlet.
TECHNOLOGICAL BACKGROUND
In the watchmaking or jewellery making industry, various materials are used for the manufacture of wristlets with various appearances. In particular, it is known to manufacture wristlets made of a hard material. By hard material, it should be understood the materials having a Vickers hardness higher than 1,200 HV. For example, these hard materials are ceramic such as silicon nitride, zirconium oxide or aluminium oxide. It may also consist of ceramels. Hard materials are used for their mechanical properties, in particular because they are hardly scratched.
The disadvantage of these materials is their fragility with an increased risk of breakage during machining of the links and when these move, or collide, relative to each other during handling of the wristlet.
SUMMARY OF THE INVENTION
The present invention aims to overcome the aforementioned drawbacks by providing an assembly between the links allowing controlling the amplitude of rotation of the links so as to avoid collisions.
For this purpose, the connecting rods that connect the different rows of links of the wristlet include a shoulder which it fits into a hollow formed in the links of the central row. This hollow is delimited by two bankings which limit the angular movement of the links of the central row relative to the connecting rod.
More specifically, the present invention relates to a wristlet comprising:
- a first row with at least one central link provided with two open-through holes, said holes of the central link,
- a second row and a third row disposed respectively on either side of the first row, the second row and the third row each comprising at least one lateral link, said lateral link being provided with two holes, called holes of the lateral link, with a hole of the lateral link of the second row aligned on a hole of the central link of the first row and on a hole of the lateral link of the third row to form a set with three aligned holes,
- a connecting rod positioned in the three aligned holes, said connecting rod being fixedly mounted with respect to the lateral link of the second row and of the third row and forming an axis around which the central link is pivotally mounted,
the wristlet being characterised in that the connecting rod comprises a shoulder, and in that each hole of the central link opens at one of its ends onto a hollow formed in said central link, said hollow being delimited by a first so-called internal wall as it is the closest to the centre of the central link and by a second so-called external wall as it is the furthest from the centre of the central link, the first wall and the second wall serving as a first banking and second banking for the shoulder when the central link pivots about the connecting rod so as to limit the amplitude of rotation of said central link about the connecting rod.
Thus, according to the invention, the axes serving as junctions and pivots between the links are used to limit the amplitude of rotation of the links and absorb all or part of the stresses upon abutment. These axes are protected from the outside by the links and can therefore be made of a material that is less hard and therefore less fragile than the links. Thus, hey can be easily shaped by machining to make the shoulders which allow controlling the amplitude of rotation.
Moreover, the central link includes a protruding portion, also called coverage area, which extends in the second and third rows between the lateral links. This protruding portion of the central link as well as the lateral link have a particular shape which confers an aesthetic touch on the wristlet without any contact between the protruding portion and the lateral links when the central link pivots. This absence of contact allows avoiding stressing of the links made of the hard material.
To conclude, the assembly of the wristlet according to the invention allows controlling the extent of movability of the links of a wristlet made of a hard material with a design including coverage areas in order to ensure solidity thereof while avoiding collisions or stressing of fragile portions made of a hard material during handling thereof.
Further features and advantages of the present invention will become apparent in the following description of a preferred embodiment, given by way of non-limiting example with reference to the appended drawings.
BRIEF DESCRIPTION OF THE FIGURES
FIG. 1 is a three-dimensional partial view of the wristlet according to the invention.
FIGS. 2A and 2B are exploded and three-dimensional partial views of the wristlet according to the invention.
FIG. 3 is a three-dimensional view of the central link and of the connecting rod according to the invention.
FIGS. 4A and 4B are partial sectional views of a portion of the wristlet respectively in the flat position and in the pivoted position.
FIG. 5A is a side view of the wristlet in the flat position with an enlargement D in FIG. 5D. FIG. 5B is a sectional view of FIG. 5A with an enlargement C in FIG. 5C.
FIG. 6A is a side view of the wristlet in the pivoted position.
FIG. 6B is a sectional view of FIG. 6A with an enlargement C in FIG. 6C.
FIG. 7 is a partial sectional view of the wristlet according to the invention.
FIGS. 8 to 11 are views of a portion of the wristlet during assembly.
DETAILED DESCRIPTION OF THE INVENTION
The present invention relates to a wristlet 1 comprising at least three rows of links with a first row 8 comprising the central links 2 and, a second row 9 and a third row 10 on either side of the first row 8 comprising the lateral links 3. A partial view of this wristlet 1 with two adjacent central links 2 and two lateral links 3 is represented in FIG. 1. For example, this wristlet is intended to equip a timepiece such as a watch or a jewellery piece. More specifically, the assembly as described hereinafter is suited for a wristlet some links of which are at least partially made of a hard material. By hard material, it should be understood a material whose hardness is substantially equal to or higher than 1,200 HV and which withstands little plastic deformation, or not at all, before breaking up. As a hard material, mention may be made, without limitation, of enamels, stones, precious or not, such as ruby, sapphire or quartz, ceramics such as an oxide, a carbide or a nitride, ceramels or hard metals. It should be noted that although the assembly is specifically suited for links made of a hard material, it also applies for links made of more ductile materials.
According to the invention and as illustrated in FIGS. 4B and 6C, the amplitude of rotation of the central links 2 is limited. For this purpose, the connecting rod 4 between the central link 2 and the two lateral links 3 includes a shoulder 5 abutting against the walls 6b, 6c of a hollow 6 formed in the central link 2, when the central link 2 pivots (FIGS. 2A and 3). Advantageously, the connecting rod is made of a less hard material such as a steel or a titanium alloy to facilitate machining. Typically, the material of the connecting rod has a hardness lower than 1,200 HV.
In a known manner, the central link 2 includes two open-through holes 2a each intended to receive the connecting rod 4, which are also referred to as axis, and each of the lateral links 3 includes two blind or open-through holes 3a to accommodate the end of the connecting rod 4 (FIGS. 2A and 8). According to the invention, the open-through holes 2a of the central link 2 open onto the hollow 6 formed in the central link 2 and that being so only at one end of each open-through hole (FIG. 3). In each central link, the hollow for the two open-through holes can be formed on the same face of the central link as represented in FIG. 2A or respectively for an open-through hole on a face of the central link and for the other open-through hole on the other face of the central link like for the assembly of FIG. 2B.
According to the invention, the connecting rod 4 is secured to the lateral link 3 and the central link 2 has a rotational relative movement relative to this block secured around the axis formed by the connecting rod. To secure the connecting rod and the lateral link, there are several possibilities. Preferably, the connecting rod has a portion with a non-circular section at each of its ends which is positioned in a portion of the blind or open-through hole of the lateral link provided with a non-circular section too. For example, the portion with a non-circular section of the connecting rod includes at least one flat surface which is positioned against a plane inside the hole of the lateral link. In the illustrated example, the portion with a non-circular section of the connecting rod 4 includes two flat surfaces 4a, for example diametrically opposite, which are positioned against two planes 3b which delimit the blind or open-through hole 3a of the lateral link 3 (FIGS. 3 and 7). Fastening of the connecting rod 4 within the lateral link 3 may be achieved using a screw 7 which is positioned at one end of the hole 3a which in this case is open-through as represented in FIGS. 2A and 2B. Fastening could also be achieved by gluing within the blind or open-through hole of the lateral link. Alternatively, fastening of the connecting rod within the hole of the lateral link could simply be achieved by gluing without requiring a portion with a non-circular section at the ends of the connecting rod.
The amplitude of the relative rotational movement between the connecting rod 4 and the central link 2 is limited by the shoulder 5 of the connecting rod 4 which bears either on the first banking 6b, or on the second banking 6c of the hollow 6 of the central link 2 according to pivoting of the latter. Preferably, the shoulder 5 flares radially as a circle arc from the connecting rod 4. The circle arc 5a is connected to the connecting rod 4 by a first flank 5b and a second flank 5c which bear on the first banking 6b or on the second banking 6c (FIG. 3). The first banking 6b is formed by the innermost wall of the hollow, i.e. the closest one to the centre of the central link, in contrast with the second banking 6c which is formed by the outermost wall with respect to the centre of the central link. Preferably, the two connecting rods and their shoulder are arranged within the hollows of the central link so as to bend the wristlet in a direction inwards of the wristlet as illustrated in FIG. 6A. For this purpose, within the central link, the two connecting rods are positioned angularly in a different manner in the two open-through holes. In the flat position, the shoulder 5 for the two connecting rods 4 bears on the internal wall 6b of the hollow 6 (FIG. 4A). Thus, for a connecting rod, it is the first flank 5b which bears on the internal wall 6b of the hollow and for the other connecting rod, it is the second flank 5c which bears on the internal wall 6b of the hollow (FIG. 5C). In the fully pivoted position, the shoulder 5 of the two rods bears on the external wall 6c of the hollow 6 (FIG. 4B). Thus, for a connecting rod, it is the second flank 5c which bears on the external wall 6c of the hollow and for the other connecting rod, it is the first flank 5b which bears on the external wall 6c of the hollow (FIG. 6C). The hollow 6 formed at the end of the open-through hole also flares as a circle arc with the circle arc 6c of the hollow 6 having a length larger than that of the circle arc 5a of the shoulder 5 to enable pivoting of the latter within the hollow. The length of the circle arc of the hollow in comparison with that of the circle arc of the shoulder allows defining the extent of angular movement of the central link relative to the connecting rod. Typically, the amplitude of rotation of the central link relative to the connecting rod is smaller than or equal to 150°, preferably smaller than or equal to 60°. In the illustrated example, each central link 2 has an amplitude of rotation of 60°, which, after rotation of two adjacent central link by 60°, allows having a pivoting by 120° between two adjacent lateral links 3 as schematised in FIGS. 5C and 6C.
Preferably, the lateral links 3 have two circular lugs 3c which are positioned in a circular recess 2c formed in a protruding portion 2b of the central link 3 disposed between the two open-through holes 2a (FIGS. 5D and 11). The protruding portion 2b of the central link 2 is interposed between two lateral links 3 to form respectively the second row 9 and the third row 10 with the lateral links 3 (FIG. 1). Typically, the protruding portion 2b of the central link 2 has a thickness substantially equal to that of the lateral link 3. The lugs 3c of the lateral links 3 fit without contact within the circular recess 2c of the protruding portion 2b of the central links. The lugs 3c of the lateral link are topped by a portion 3d setback with respect to these (FIG. 5D). This setback portion 3d is positioned without contact opposite the top 2d of the protruding portion 2b which hangs over the recess 2c. The space d between the top 2d of the protruding portion 2b and the setback portion 3d of the lateral link 3 is observed in FIG. 5D. Positioning is done without contact to avoid stressing the hard material.
The assembly of the different elements of the wristlet is done as follows. It may be carried out like in FIG. 2A with all hollows of the central links which are formed on the same face of the link, therefore with all connecting rods provided with the shoulder which are introduced via this face. It may also be carried out like in FIG. 2B with a hollow formed alternately on one face and on the other face of the central link, the connecting rod being introduced with this same alternation. The assembly principle is substantially the same in both cases and described in connection with FIGS. 2A and 8 to 11. FIG. 10 shows a simplified view where the central link is absent.
The two connecting rods 4, and more specifically the portion with the flat surfaces 4a, are mounted in the respective holes 3a of the lateral link 3 with the shoulder 5 of the connecting rod 4 which is positioned with an axial clearance opposite the lateral link 3. Fastening between the connecting rods 4 and the lateral link 3 is performed using screws 7 which are introduced into one end of the open-through hole 3a of the lateral link up to the recessed portion of the connecting rod. Alternatively, fastening may be performed by gluing. Afterwards, a central link 2 is fitted onto one of the connecting rods 4 with the shoulder 5 which fits with an axial clearance into the hollow 6 of the central link 2 and bears on the internal wall 6b of the hollow. Similarly, a central link 2 is fitted onto the other connecting rod 4 of the lateral link 3 still with the shoulder which bears on the internal wall of the hollow. Lastly, the other end of the two connecting rods provided with the flat surfaces is introduced into a lateral link and fastening is performed with the two screws or by gluing. And so on, the entire wristlet is assembled.
KEY
1. Wristlet
2. Central link
- a. Open-through hole
- b. Protruding portion
- c. Circular recess
- d. Top of the protruding portion
3. Lateral link
- a. Open-through or blind hole
- b. Plane
- c. Circular lug
- d. Setback portion
4. Connecting rod
5. Shoulder
- a. Circle arc
- b. First flank
- c. Second flank
6. Hollow, also called pocket, of the central link
- a. Circle arc
- b. Second banking, also called internal wall or first wall
- C. Second banking, also called external wall or second wall
7. Screw
8. First row
9. Second row
10. Third row
Patent Application
20240000201
