CH712989A1 - Watch case and method of assembling such a watch case. - Google Patents

Abstract

The present invention relates to a watch case having a middle and a bezel (12) assembled on the middle, said box being closed by a bottom and an ice (16). According to the invention, the bezel (12) is assembled on the middle part by means of a ring (18) interposed between the caseband and the bezel (12), said ring (18) comprising, on one of its parallel faces to the general plane of the box, a plurality N of identical sectors of 360 ° / N, each sector having a variable height between a first end and a second end of the sector, the height being defined as the dimension orthogonal to said general plane of the box. One of the bezel (12) or the middle part has N bearing zones (22) uniformly distributed at 360 ° / N and each respectively bearing on one of the sectors, and the relative angular position of the ring ( 18) relative to that of the bezel (12) or the middle part which comprises the support zones (22), is variable. The object of the invention is to provide a watch case to adapt to dials of different heights. The invention also relates to a method of assembling such a watch case and an assembly formed by a watch case bezel and a ring as mentioned above.

Description

Description TECHNICAL FIELD [0001] The present invention relates to the field of watchmaking. It relates, more particularly, a watch case having a middle and a screw bezel assembled on the middle, said box being closed by a bottom and may include an ice.

The invention also relates to a method of assembling a watch case according to the invention.

State of the art [0003] Watch cases can be complex to achieve because they require particularly precise size adjustments. Indeed, the constituent elements of the boxes are used as a reference for the assembly of the movement, the dial but also the control members accessible from the outside and which must interact with the movement, such as the winding stem or any pushers. The tightness of the box must also be ensured.

However, some dials are obtained by manual or artisanal decoration processes, which do not allow to obtain guaranteed dial thicknesses and without variations. In particular, some dials are obtained after an enameling process, others are made with marquetry techniques. In these types of dials it has been possible to observe variations in height (the height being defined as the dimension perpendicular to the plane of the box or the dial) of the order of a tenth of a millimeter, with a relatively large variability. Such deviations are greater than the permitted tolerances for assembling the components of a watch case.

This type of dial being considered as such as a work of art, it is necessary to adjust some parts of the box dimensions of the dial, which can not be redone. These adjustments are long and delicate, even impossible without repercussion on the assembly of other elements of the watch. The manufacture of these types of dials is usually very expensive, it can be extremely damaging if one of the dials could not be used.

DISCLOSURE OF THE INVENTION [0006] A main object of the present invention is to propose a watch case making it possible to obviate the abovementioned disadvantages and to adapt to dials of variable height, in particular dials made by manual techniques and artistic.

For this purpose, the present invention relates to a watch case having a middle and a bezel assembled on the middle part, said box being closed by a bottom and an ice, characterized in that the bezel is assembled on the middle part by the intermediate of a ring interposed between the middle and the bezel, said ring comprising, on one of its faces parallel to the general plane, a plurality N (N> 2) of identical sectors of 360 7N, each sector having a height variable between a first end and a second end of the sector, the height being defined as the orthogonal dimension to a general plane of the box.

In addition, one of the telescope or the middle part has N support zones regularly distributed 360 7N and each taking respectively support on one of the sectors. The relative angular position of the ring relative to that of the bezel or the middle part which comprises the bearing zones, is variable.

Thanks to these characteristics, we can easily adjust the available height for the dial between the middle and the bezel, called in the trade, the "day-dial", which allows to adapt the box to variations in height of dial, as we meet them with dials made by artisanal or artistic techniques.

Preferably, it can be provided that the support zones are located on the telescope.

Advantageously, each sector comprises a plurality M of steps of different heights, each occupying an angle at the center of 3607 (N x M). Preferably, the height of the M steps is increasing between a first end and a second end of the sector.

To define adjustment positions, the relative angular positions of the ring and the bezel, respectively the middle part, are indexed.

In a preferred embodiment, the indexed angular positions are defined so as to correspond to positions in which the support zones are substantially centered with reference to the steps.

Other advantageous features are further defined in the dependent claims.

The present invention also relates to an assembly formed by a watch case bezel and a ring substantially of the same diameter as the bezel, as proposed above.

The invention further relates to a method of assembling a watch case according to the invention comprising the steps of: a. mount the dial in the box, b. assemble the assembly formed by the ring and the bezel on the middle part, c. check the height position of the telescope, in relation to the height of the dial, d. if necessary, modify the relative position of the ring relative to the bezel, and repeat steps b-c-d, until a height adjustment is obtained in accordance with the tolerances allowed for the day-dial.

BRIEF DESCRIPTION OF THE DRAWINGS [0017] Other features and advantages of the present invention will appear more clearly on reading the detailed description of preferred embodiments which follows, made with reference to the appended drawings, given by way of non-limiting examples. and, in which: FIG. 1 shows in perspective a first main face of a bezel and a ring of a watch case according to the invention, FIG. 2 shows in perspective and in view from below, the other main face of the telescope of FIG. 1, figs. 3 and 4 show in perspective the one and the other of the main faces of the ring of FIG. 1, figs. 5a, 5b, 5c and 5d each show, in plan and in section, a detail of a watch case according to the invention, with different heights of adjustment of the position of the bezel relative to the middle part, and FIG. 6 is a sectional view of a watch case according to the invention.

Embodiment (s) of the Invention [0018] It should be noted that, in general, only the elements necessary for understanding the invention have been shown or described in detail.

The invention relates to a watch case, shown more particularly in FIG. 6, comprising in particular a caseband 10 and a bezel 12 assembled on the caseband 10. The box is closed by a bottom 14 and a glass 16. For the sake of clarity, it is defined that the general plane of the box is a median plane, substantially parallel to the bottom 14. The height is defined as the dimension orthogonal to the general plane of the box.

According to the invention, the bezel 12 is assembled on the middle part 10 by means of a ring 18 interposed between the middle part 10 and the bezel 12. This ring 18 comprises, on one of its faces parallel to the general plane, a plurality N (N> 2) of identical sectors 20 distributed at 360 7N, each sector 20 having a variable height varying between a first end and a second end of the sector 20. Preferably, each sector 20 occupies an angle of 360 7N, so that each sector 20 is contiguous with the neighboring sectors.

To cooperate with these sectors 20 of variable height, the telescope 12 or the middle part 10 has N support zones 22 regularly distributed at 360 7N and each taking respectively support on one of the sectors 20. The sectors 20 being identical the angular distribution of the support zones 22 causes each of them to be supported on zones of the sectors 20 having the same height.

In the example more particularly proposed in the figures, the support zones 22 are arranged on the telescope 12, on the side of the middle part 10. The sectors 20 of the ring 18 are arranged in abutment against the zones of FIG. support 22 of the telescope 12. These support zones 22 may take the form of pads or studs, of the same height, protruding from the rest of the face of the bezel 12 located on the side of the ring 18, called level basic 24.

The difference in height between the support zones 22 and the base level 24 is greater than the difference in height between the minimum height zone and the maximum height zone zone 20 of the ring 18. Thus, even when the ring 18 is in contact with the telescope 12 at its minimum height zones, the zones of the sectors 20 that are not in contact with the telescope 12 are housed in the interstices defined between the bearing zones 22.

Thus, in the example, the bezel 12 has four bearing zones 22 and the ring 18 has four sectors 20, each occupying 90 °, without space between two consecutive sectors 20.

Each sector 20 preferably comprises a plurality Μ (M> 2) of rungs 26 of different heights, each occupying an angle at the center P = 3607 (N x Μ), where P is the angular step of the rungs. In other words, the angular pitch of each step is identical. In the example, each sector 20 is divided into 4 steps 26a, 26b, 26c, 26d of increasing height h1, h2, h3, h4, between a first end of the sector 20 and the second end (see Figure 3).

In order to adjust the height of the assembly formed by the bezel 12 and the ring 18, the relative angular position of the ring 18 relative to the bezel 12 is variable. Advantageously, the relative angular positions of the ring 18 and the bezel 12, respectively of the middle part 10, are indexed, that is to say that the relative positions they can occupy are predefined, preferably at intervals. regular.

Thus, as will be better understood below, depending on the relative angular position of the ring 18 and the bezel 12, it is possible to adapt the height of the assembly formed by the bezel 12 and the ring 18 and thus adjust the height position of the bezel 12 relative to the middle part 10 and thus adjust the space available for the dial 19, held between the bezel and the movement.

For indexing the relative positions of the ring 18 and the bezel 12, the preferred embodiment shown in the figures proposes to define said indexed angular positions so as to correspond to positions in which the bearing areas 22 are substantially centered with reference to the rungs 26.

Thus, each step 26 comprises a positioning mark, for example a hole 28. Preferably, this hole 28 is located in the center of the step, that is to say in the middle of the arc occupied by the echelon 26, in the middle of the radial segment connecting the inner edge and the outer edge of the ring 18. Thus, the center of each hole 28 is separated from the center of a hole 28 adjacent to an angle P = 3607 ( N x M), ie 22.5 ° in the example.

In a particularly interesting way, the bezel 12 comprises firstly, threads 30 for fixing with the ring 18, and, secondly, threads 32 for fixing with the middle part 10. Two threads 30 are sufficient to allow to secure the ring 18 and the bezel 12. The latter are preferably diametrically opposed for better stability. Four threads 32, distributed at 90 °, are provided for fastening the telescope 12 to the caseband 10. In this case and without being limiting, these threads 32 are located in the center of the bearing zones 22.

Advantageously, the threads 30 for fixing the ring 18 and the bezel 12, and 32 for fixing the bezel 12 and the middle part 10, are spaced a step or a multiple of steps. Thus, the holes 28 formed in the ring 18 not only serve to fix the ring 18 on the bezel 12, but the screws 34 serving to fix the bezel 12 on the middle part 10 also pass through the holes 28 of the ring 18. to be screwed into the threads 32 of the bezel 12, stiffening the position of the ring 18.

As shown in FIG. 4, the ring 18 can be equipped with marks (a, b, c, d in the figures), to help an operator to visualize the level of the rungs 26 on which the bezel 12 is supported. These marks are located on the opposite side of the sectors 20, so that they are visible when the ring 18 is fixed on the bezel 12. The screws 34 for assembling the ring 18 and the bezel 12 can serve as index, cooperating with the markers for reading the position. The marks take into account that the screws 34 used to secure the ring 18 and the bezel 12 are offset relative to the angular position of the bearing zone 22. The offset between the steps and the corresponding marks is equal to the offset between the threads 30 of the telescope 12 for attachment to the ring 18 and those 32 for attachment to the middle part 10.

Figs. 5a to 5d show the different relative positions that can occupy the ring 18 and the bezel 12, and the height that the assembly thus formed leaves available for the dial. We can see the screw 34 for fixing the ring 18 on the bezel 12. For example, in FIG. 5d, this screw 34 is located at the level of the step having the smallest height, corresponding to the d mark, while the bearing zone 22 is in contact with the step having the greatest height. Thus, the heights shown in the figures are such that H4> H3> H2> H1.

The invention also relates to an assembly formed by a bezel 12 of a watch case and a ring 18, as described above. More particularly, the ring 18 is substantially of the same diameter as the bezel 12 and comprises, regularly distributed on its face on the side of the bezel 12, N identical sectors of 360 7N, each sector 20 having a variable height between a first end and a second end of the sector 20, the height being defined as the dimension orthogonal to the general plane of the telescope 12. The telescope 12 has N bearing zones 22 regularly distributed at 360 7N. The ring 18 and the bezel 12 are fixed to each other in a respective angular position in which the support zones 22 each respectively bear on one of the sectors 20. The assembly preferably comprises means for indexing the angular position of the telescope 12 relative to the ring 18.

Advantageously, the bezel 12 and the ring 18 and mounted on the bezel 12, are used for an operator, such as a standard bezel, except that its height can be adjusted, by varying the relative angular position. of the ring 18 with respect to the telescope 12. The watchmaker can be equipped with an adjustable telescope 12 as proposed by the invention, which enables him to adjust the construction of the box according to the thickness (in the same dimension as the height) of the dial 19 which is provided.

The skilled person could consider alternative constructions to that which has been described. For example, the sectors 20 of the ring 18 could have a uniform height variation, forming ramps, instead of forming a series of steps. In this case, the support zones 22 are smaller, approaching "point" zones, obtained for example with cap-shaped supports, to maintain good positioning accuracy on each of the support zones 22.

Similarly, one can provide to have an inverted construction, that is to say a construction in which the sectors 20 of variable height of the ring 18 are arranged against support zones 22 located on the middle part 10. Such a construction of an assembly comprising a middle and a ring 18 would nevertheless be less easy for the realization

Claims (11)

settings. We would make this setting by mounting the dial on a box whose case is provided with the ring 18, and assembling the bezel. We can then evaluate the setting of the day-dial, and if necessary, remove the bezel, the dial and change the angular position of the ring 18 relative to the middle part. [0038] Referring to FIG. 6, we will now describe how the sealing of the box according to the invention is carried out. Indeed, it is essential to guarantee it, regardless of the different heights that can occupy the assembly formed by the bezel 12 and the ring 18. The bezel 12 has an annular groove 36 disposed at its periphery and opening opposite the ring 18, the groove 36 being closed on the one hand by the ring 18, and on the other hand by the middle part 10. This groove 36 is thus formed at the place where the corner should be. external of the bezel 12, the side of the ring 18. A seal 38 is compressed within this groove 36, thereby closing the gap between the middle part 10 and the bezel 12. The height of this groove 36 does not change, regardless of the relative position of the ring 18 relative to the bezel 12. Indeed, the sector 20 of the ring 18 will close the groove 36, the height is always limited to its own height. In use, a watch case according to the invention is assembled according to the following steps. The box is conventionally assembled, as if the assembly formed by the telescope 12 and the ring 18 was a traditional telescope 12. The dial 19 is thus mounted in the box. The assembly formed by the ring 18 and the bezel 12 is mounted on the middle part 10, without tightening, so as not to risk damaging the dial 19. It then verifies the height position of the bezel 12, with respect to the height of the dial 19. Where appropriate, the relative position of the ring 18 with respect to the telescope 12 is modified and the assembly and verification operations are renewed, until a height of the telescope 12 is obtained which makes it possible to fix the dial 19 without undue constraint, and the whole bezel-ring is tightened on the middle part 10. [0041] The person skilled in the art will not encounter any particular difficulty in adapting the content of the present disclosure to his own needs and implementing a timepiece only partially meeting the described characteristics without departing from the scope of the invention. claims 1. Watch case having a middle (10) and a bezel (12) assembled on the middle part 10, said box being closed by a bottom (14) and an ice (16), characterized in that the bezel (12) is assembled on the middle part (10) by means of a ring (18) interposed between the middle part (10) and the bezel (12), said ring (18) comprising, on one of its faces parallel to the general plane of the box, a plurality N of identical sectors (20) of 360 7N, each sector (20) having a variable height between a first end and a second end of the sector (20), the height being defined as the dimension orthogonal to said plane general of the box, in that one of the telescope (12) or the middle part (10) has N support zones (22) regularly distributed at 360 7N and each respectively bearing on one of the sectors ( 20), and in that the relative angular position of the ring (18) relative to that of the bezel (12) or the middle part (10) which comprises the support zones (22), is variable. 2. Watch case according to claim 1, characterized in that each sector (20) comprises a plurality M of echelons of different heights, each occupying an angle at the center of 3607 (N x M). 3. Watch case according to claim 2, characterized in that the height of the M steps is increasing between a first end and a second end of the sector (20). 4. Watch case according to one of the preceding claims, characterized in that the relative angular positions of the ring (18) and the bezel (12), respectively of the middle part (10), are indexed. 5. Watch case according to claim 4, when it depends on one of claims 2 and 3, characterized in that said indexed angular positions are defined so as to correspond to positions in which said bearing zones (22 ) are substantially centered with reference to said rungs. 6. Watch case according to claim 5, characterized in that said sectors (20) of the ring (18) are arranged in abutment against the telescope (12), said telescope (12) comprising said bearing zones (22). , and in that the telescope (12) comprises means for fixing the ring (18) and the telescope (12) and means for fixing the telescope (12) and the middle part (10). 7. Watch case according to claim 6, characterized in that said ring (18) has through holes, located substantially in the center of each step and defining said indexed positions, the center of each hole being separated from the center of a hole adjacent to an angle of 3607 (N x M), said holes participating in fixing the telescope (12) and the ring (18), and in fixing the telescope (12) and the middle part (10) . 8. Box according to one of the preceding claims, characterized in that the bezel (12) comprises an annular groove (36) disposed at its periphery and opening opposite the ring (18), said groove (36) being closed by on the one hand by the ring (18), and on the other by the middle part (10), and in that a seal 38 is compressed inside said groove (36). 9. Assembly formed by a bezel (12) and a watch ring (18) of substantially the same diameter as the bezel (12) and comprising, on its face on the side of the bezel (12), a plurality N of sectors (20) identical to 360 7N, each sector (20) having a variable height between a first end and a second end of the sector (20), the height being defined as the dimension orthogonal to the general plane of the telescope (12), the bezel (12) having N bearing areas (22) uniformly distributed at 360 7N, the ring (18) and the bezel (12) being fixed to each other in a respective angular position in which said zones support (22) each respectively support one of the sectors (20). 10. The assembly of claim 9, characterized in that it comprises means for indexing the angular position of the bezel (12) relative to the ring (18). 11. A method of assembling a watch case according to one of claims 1 to 8 and a dial (19), comprising the steps of: a. mount the dial (19) in the box, b. assemble the assembly formed by the ring (18) and the bezel (12) according to one of claims 9 and 10 on the middle part (10), c. checking the height position of the telescope (12) relative to the height of the dial (19), d. if necessary, change the relative angular position of the ring (18) by the bezel (12), and repeat steps bcd, until a height adjustment is obtained in accordance with the tolerances allowed for the tightening of the dial (19).