Subset of clothing for a timepiece, in particular a watch, or for jewelery.

专利摘要:
The invention relates to a cladding subassembly (100) for a timepiece, in particular a watch, or jewel, comprising a first component (1) and a second component (10), arranged for a bayonet fit between two flanges (2) and two wings (12) that comprise this first component (1) and the second component (10), and adapted to occupy an assembled and indexed position of the first (1) and second (10) components, said sub assembly (100) comprising a third ring-shaped component (20) interposed between the first (1) and second (10) components, fixed in rotation with respect to one of them and comprising a deformable zone (50) elastically, opposing a variable resistive torque to any relative tangential torque between the first (1) and second (10) components, and comprising at least one notch (26) cooperating with a relief (18) of the unbound component (1, 10) at the third component (20), at least one of the said notches (26) indexing angularly first (1) and second (10) components.
公开号:CH712740A2
申请号:CH00965/16
申请日:2016-07-26
公开日:2018-01-31
发明作者:Vuille Pierry；Knuchel Daniel；Catanese Rocco
申请人:Omega Sa；
IPC主号:

专利说明:

Description: The invention relates to a sub-assembly, known as a covering, for a timepiece or for a watch or for jewelry, comprising a first component comprising edges projecting from a first skirt alternated with first clearances, and a second component comprising wings projecting from a second skirt alternating with second clearances, arranged to occupy a first disassembled insertion position in which said first component and said second component have a first orientation relative to each other angular, or to occupy an assembled and locked position in which said first component and said second component have relative to each other a second angular orientation different from said first angular orientation and are held axially by a bayonet adjustment between at at least two said edges and at least two said wings.
The invention also relates to a timepiece, in particular a watch, comprising such a covering sub-assembly.
The invention also relates to a jewel comprising such a sub-assembly.
The invention relates to the field of dressing of watches, and the field of jewelry.
BACKGROUND OF THE INVENTION The covering of watches and similar devices obeys many constraints, in particular sealing, robustness, appearance, and must be carried out so as to prevent any involuntary disassembly resulting in irremediably by an after-sales intervention for exchange of seals, cleaning, lubrication, or even repair.
Some trim or control components must, again, be angularly indexed with respect to each other, for tracking the original reference position, rest, or actuation, or to facilitate reading. indications or graduations, or to ensure the continuity of left surfaces and / or decorations. This angular indexing is often difficult to achieve well, in combination with a good tightening of the components and with a perfect seal of the joints.
Summary of the invention [0007] The invention proposes to produce a sealed and secure assembly of covering components with an easy-to-adjust angular indexing.
To this end, the invention relates to a covering sub-assembly for a timepiece according to claim 1. The invention also relates to a timepiece comprising such a covering sub-assembly .
The invention also relates to a jewel comprising such a sub-assembly.
Brief description of the drawings [0011] Other characteristics and advantages of the invention will appear on reading the detailed description which follows, with reference to the accompanying drawings, where:
fig. 1 shows, schematically, in exploded perspective, a particular variant of a covering sub-assembly according to the invention, comprising a first component which is a middle part, under which is represented a second component which is a base, comprising an arrow indicating an angular indexing direction, and presented for its attachment in bayonet mode to the first component, and a third component which is an elastic ring intended to be inserted between the other two;
fig. 2 shows, similarly to FIG. 1, the same sub-assembly after insertion in support of the second component on the first component, with the third component mounted angularly integral with the first component, in a first relative angular orientation corresponding to the free passage of the bayonet;
fig. 3 shows, similarly to FIG. 2, the same sub-assembly, in a closed position following closure of the bayonet, after another rotation completed by the perfect relative angular indexing of the second component relative to the first component, in a second angular orientation;
fig. 4 is a partial perspective view in the position of FIG. 3, of this covering sub-assembly, where a relief of the second component is supported on a corrugation that comprises a deformable zone of the third component;
fig. 5 is a plan view of the same sub-assembly, in the indexed position of FIG. 3;
CH 712 740 A2 fig. 6 is a cross section along the section plane AA of FIG. 5;
fig. 7 is a cross section along the section plane BB of FIG. 5;
fig. 8 to 10 represent, in plan and top view, another variant of a sub-assembly according to the invention:
fig. 8 in the bayonet insertion entry position, similar to that of FIG. 2;
fig. 9 after a first relative rotation between the first component and the second component, where a ramp of the latter comes to bear on a deformable zone of the third component, before crossing three notches;
fig. 10 after a second relative rotation between the first component and the second component, where the ramp has made the crossing of the three notches, and where the first component and the second component are in their indexing position, the bottom being completely closed on the middle;
fig. 11 is, for a particular variant of the invention, an example of a diagram of consumption of torque on the ordinate, as a function of the relative angle between the first component and the second component, on the abscissa, in solid lines for the production of FIGS. . 8 to 10, in comparison with an equivalent dashed line diagram corresponding to the end of the screwing stroke of a usual non-secure closure of a usual screwed bottom of the prior art;
fig. 12 shows, schematically and in view from below, a watch comprising such a sub-assembly of which a middle part constitutes the first component, and a case back constitutes the second component;
fig. 13 shows, schematically and in top view, a watch comprising such a sub-assembly of which a middle part constitutes the first component, and a bezel constitutes the second component;
fig. 14 shows, schematically and in top view, a watch comprising such a sub-assembly of which a tube fixed to a middle part constitutes the first component, and a crown constitutes the second component.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention proposes to produce a sealed and secure assembly of decomposing dressings with an angular indexing easy to adjust, and in a guaranteed position, and this with a minimum number of components, and moderate manufacturing costs.
Figs. 1 to 10 illustrate the non-limiting example of the angular indexing of a caseback relative to a watch middle.
The invention relates to a covering sub-assembly 100 for a timepiece, and more particularly for a watch, or for a piece of jewelry, comprising a first component 1 comprising flanges 2 projecting from a first skirt 6 alternated with first clearances, and a second component 10 comprising wings 12 projecting from a second skirt 11 alternated with second clearances 13.
We use here the general name of "dressing" sub-assembly for both a timepiece and a piece of jewelry, even if this term is commonly used in watchmaking only. It is understood that, in the case of jewelry, this sub-assembly may relate to the structure of the jewel, or of elements added to a basic structure, or any assembly of several elementary or pre-assembled components, or even the entire jewel.
This covering sub-assembly 100 is arranged to pass from a first disassembled insertion position, to a second assembled and locked position.
In the first disassembled insertion position, the first component 1 and the second component 10 have one with respect to the other a first angular orientation.
In a particular, non-limiting variant, comprising repulsion means arranged at the interface between the first component 1 and the second component 10, the latter tend to be kept at a distance from each other by repulsion means, which comprise magnetic repulsion means and / or at least one elastic element and / or at least one seal 9. The transition from the first disassembled insertion position to the second assembled and locked position is carried out under the action of forces exerted by an operator: an axial force to overcome the resistant force of the repulsion means and bring into contact the first component 1 and the second component 10, and a torque to bring them into a position d 'angular indexing.
In the second assembled and locked position, the first component 1 and the second component 10 have, relative to each other, a second angular orientation different from the first angular orientation. In the particular variant comprising repelling means, the first component 1 and the second component 10 are maintained
CH 712 740 A2 axially against the resistant force exerted by these repulsion means, by the effect of a bayonet adjustment, achieved by the application of the axial and torque forces imparted by the operator, between at least two edges 2 and at least two wings 12.
This securing of the first component 1 and the second component 10, by bayonet adjustment, in particular around an axial direction D, is reversible, and allows their disassembly. Specifically to the invention and breaking with the prior art, this disassembly requires from an operator efforts similar to those exerted during assembly, this disassembly preferably requires the use of a tool special, cooperating for example with peripheral holes or notches, or the like, and cannot be the result of clumsiness or exposure to particular external physical factors.
According to the invention, this covering sub-assembly 100 comprises at least a third component 20, which is arranged to be interposed radially, or respectively axially, between the first component 1 and the second component 10 and fixed in rotation relative to one of them, and which comprises at least one zone 50 which is elastically deformable radially, or respectively axially.
This third component 20 is inserted punctually, or else at the level of extended surfaces, it can take different forms, in particular a form of annular sector or ring as in the nonlimiting variant illustrated.
This deformable zone 50 is arranged to oppose a resistive torque of variable moment to any relative tangential torque between the first component 1 and said second component 10. This deformable zone 50 comprises at least one notch 26, which is arranged to cooperate with at least one complementary relief 18 that comprises that of the components 1.10, with respect to which the third component 20 is free to rotate. And any passage of such a notch 26 on a complementary relief 18 generates a resistant torque which tends to oppose the relative movement of rotation between the first component 1 and the second component 10, at least one such notch 26 being arranged for the relative angular indexing between the first component 1 and the second component 10.
More particularly, in a particular non-limiting variant comprising repulsion means, and illustrated by the figures, the invention relates to a covering sub-assembly 100 for a timepiece or watch, comprising at least one seal d sealing 9 between a first component 1 and a second component 10. In this particular variant, the first component 1 has flanges 2 projecting radially inward from a first skirt 6, which are alternated with first clearances 3. The second component 10 has wings 12 projecting radially outward from a second skirt 11, which are alternated with second clearances 13. This covering sub-assembly 100 is then arranged to pass from a disassembled position to a position compression assembly of the seal 9, by the reversible connection of the first component 1 and of the second component 10, by an adjustment to ba onnette between at least two flanges 2 and at least two wings 12, in a relative rotational movement around an axial direction D. If the axial compression of the seal 9 is the most conventional, the invention also allows without difficulty an assembly with radial compression of such a seal.
It is understood that the invention is illustrated here in a particular variant, with edges and wings projecting radially. The invention is also applicable to other variants where the axial and radial configurations are reversed.
The covering sub-assembly 100 thus comprises at least a third component 20, which is arranged to be inserted radially in the variant illustrated by the figures, between the first component 1 and the second component 10. This third component 20 is fixed in rotation relative to the first component 1 or to the second component 10. The third component 20 which comprises at least one zone 50 which is elastically deformable, in particular radially in the variant of the figures. This deformable zone 50 is arranged to oppose a resistive torque of variable moment to any relative tangential torque between the first component 1 and the second component 10.
This third component 20 has the expected elastic effect, added or inserted into the first component 1 or into the second component 10. Preferably but not limited to, it is at least partially annular, in the annular sector, or even in closed ring shape as in the figures, or split ring, or the like.
Preferably, the deformable area 50 includes at least one notch 26, which is arranged to cooperate with at least one complementary relief 18 that includes that of the components 1.10, with respect to which the third component 20 is free to rotate. The relative arrangement of the components of the sub-assembly 100 is such that any passage of such a notch 26 over such a complementary relief 18 generates a resistant torque, which tends to oppose the relative movement of rotation between the first component 1 and the second component 10. At least one such notch 26 is arranged for the relative angular indexing between the first component 1 and the second component 10. More particularly the couple formed by a particular notch 26 and a particular complementary relief 18 corresponds to the exercise of a maximum resistant force, and this particular torque corresponds to a preferential position of indexing and locking in the indexed position.
More particularly, this third component 20 is a closed ring, substantially toroidal.
In a particular non-limiting embodiment, the third component 20 is made completely of elastic material.
More particularly, the first component 1 comprises at least one housing 6 for stopping an anti-rotation lug 29 that includes the third component 20.
CH 712 740 A2 [0032] Naturally, the configuration can be reversed, with a stop housing present in the second component
10.
More particularly, the deformable zone 50 comprises a plurality of notches 26, which are arranged to oppose successive resistance to a complementary relief 18. More particularly still, in the same such deformable zone 50, the successive notches 26 are arranged for to oppose an increasing resistance to a complementary relief 18, during the growth of the relative angle between the first component 1 and the second component 10.
It is understood that the resistant force can be all the more important as the number of notches 26 and complementary reliefs 18 in cooperation is high. It is therefore possible to play on the number of successive notches, and / or on the height of each notch, or, more exactly, the force resisting the passage of each notch.
During assembly, the user prints a progressive torque to print the relative rotation between the first component 1 and the second component 10. After the insertion of the second component 10 in the first component 1 by enclosing each joint 9 , in the position of fig. 2, and the bearing of the wings 12 and the flanges 2, during this relative rotation, the operator carrying out the assembly of the sub-assembly 100 encounters a first resistance when the first notch 26 is brought into cooperation with a first complementary relief 18. The resistive torque progresses during the relative rotation.
In a first case, the first notch 26 and the first complementary relief 18 are unique (or are each replaced by a plurality of such couples, of identical profile and resistance, and arranged at the periphery of the profile so to interfere at the same time: which amounts to a single resulting notch, and a single relief; this possibility of duplicating profiles in phase is not explained in more detail, and is applicable to any variant of the invention). In this first case, the minimum applied axial force necessarily corresponds to the sealing of the seal (s)
9. And this unique position of cooperation, the first notch 26 and the first complementary relief 18 constitute the housing 6 and the lug 29 for indexing the angular position of the second component 10 relative to the first component 1. For example, three 120 ° notches cooperate with complementary reliefs also at 120 °, the operator feels a single passage of hard point when the three 120 ° notches act simultaneously.
In a second case, the sub-assembly 100 comprises several notches 26 and several complementary reliefs 18, arranged relatively to each other so that, at the start of the relative rotation, a single clearance-boss couple is in cooperation, then, after a certain angle, two clearance-boss couples are in simultaneous cooperation, and so on, the peak of cumulative resistant torque increasing with each passage of hard point, to reach, at the indexing angle , the maximum value. The operator thus encounters a feeling of increasing resistance.
The seal exists from the bayonet setting, and the mechanism according to the invention is arranged so that, as in the previous case of a single bump, the securing of the seal or seals tightness 9 is ensured as soon as this first bump passes, since then no loosening can occur without the voluntary action of an operator.
In practice, very good results are obtained with at least two, and preferably three, even four, successive bumps, preferably without exceeding five, so as to provide an elementary angular travel sufficient for the passage of each bump. . A good practical example has three sets in phase, each corresponding to three bumps.
[0040] FIG. 11 illustrates such an example, and superimposes the torque profile obtained with a particular variant of the invention, in solid lines, corresponding to the passage of three successive hard points, also called bumps, before immobilization in the indexing position at 'angle ΘΜ, with, for comparison, the increase in torque in the last degrees of closure of a conventional traditional face of the prior art (which may in particular require an angular amplitude of the order of two turns), in line interrupted. In such a traditional screwing, the only resistance to rotation is the mechanical friction forces due in particular to the axial forces generated by the compression of a seal at the end of the stroke, and to the elastic deformation of the components present during the permanent mechanical blocking. It can be seen there that reaching the level of torque guaranteeing the tightness of the joint (s) 9 is reached only for a much greater relative angle, and that there is no threshold effect on disassembly, the loss of tightness being done in the case of unscrewing without encountering any resistant force unlike the invention.
In addition, the angular value OV corresponding to the maximum screwing with a torque yV corresponds to the end of a torque growth curve, the slope of which becomes extremely steep in the vicinity of this OV value: which means that a screwed sub-assembly which is then subjected to a significant effort risks unscrewing, without any guardrail to prevent total unscrewing, or loss of tightness, since the torque necessary for unscrewing is then declining, and the energy to provide for the loosening lower than in the case of the invention.
In yet another variant, not illustrated, the same hump successively cooperates with several clearances, which can each be of the same depth in a particular embodiment, then creating a fixed resistance force value, and which must be changed to several times to arrive in the closed and indexed position. It is, again, possible to mix these last two variants, everything is possible, the machining to be carried out is not very complex.
CH 712 740 A2 On the contrary, the invention requires, during assembly, the successive crossing, in a kind of ramp, of several bumps of torque of increasing resistance, but also during disassembly, since from the position final indexed GM, in particular on a possible mechanical stop (which is however not necessary within the framework of the invention), any application of a sudden force results, in the worst case, by the crossing of only one bump, without total disassembly, with a visual shift, and above all without loss of sealing or risk of pollution of the interior of the watch. In the example illustrated, the operator must successively cross three thresholds, visible optically due to the offset, before having a loss of tightness.
In a particular case, each notch is identical, and its passage opposes the same resistive torque.
In an advantageous variant, several notches succeed one another, and the operator must apply an increasing torque, as in the example of the three notches in FIG. 11. The multiplying coefficient of resistant torque, from one notch to another, can in particular be between 1.2 and 2.2.
The invention is advantageous because it is perfectly compatible with watchmaking dimensions, while having a capacity for a high resistant force, which can reach several Nm, for example in the case of a third component made of metallic material at least partially. amorphous. Even with more common materials for the manufacture of technical rings, POM, polyurethane or similar, and axial and radial dimensions of a few tenths of a millimeter, the resistant torque easily exceeds one N.m.
Moreover, in the case where the timepiece or jewelry is subject to particular constraints of great magnitude, the disassembly of the mechanism according to the invention requires the maintenance of the application of a possible effort d accidental origin during a large angular stroke, from 7 to 8 ° for crossing a single bump in the example illustrated, safety still being ensured if several bumps follow one another, whereas, in a screwed solution of the prior art , disassembly is consumed in an angular travel of the order of only 2 °, and therefore the loss of tightness as well.
In a variant, the angular indexing can be guaranteed by a stop 28 for limiting the travel. But, preferably, it is the third component 20 which fulfills, de facto, the stop function, by the exercise of a particularly high resistant torque. Such a mechanical stop is therefore not absolutely necessary.
The invention thus makes it possible to prevent any unintentional and involuntary disassembly of the sub-assembly 100, for example under the effect of vibrations, of successive expansion cycles, by unfortunate use of the user, or the like.
Preferably, disassembly requires a special tool not sold, which ensures the execution of maintenance by after-sales personnel with the required qualifications.
The figures illustrate different variants which are in no way limitative.
Figs. 1 to 7 illustrate a first variant, where the third component 20 is a ring 24 held in abutment on a flat surface 5 that includes the edges 2 of the first component 1 constituted by a middle part, and the extensions of these edges 2. This ring 24 is well angularly secured to the first component 1, by anti-rotation lugs 29 whose external contours are housed in a complementary manner in housings 6 of the middle part. The three components present here each have the same contours three times , also distributed at 120 °. The second component 10 is a bottom, manipulated by an operator, preferably using a special tool. Above the skirt 11 of this bottom 10, the rim 12 is bypassed so as to be able to gradually deform the ring 24 during its rotation (counterclockwise for these figures). This rim 12 comprises in particular a ramp 18 which causes the opposing surfaces of the ring 24 to bend. This ramp is here followed by a clearance 17 which allows the movement of projecting notches 27, 28, which the ring 24 has internally, the l one 27 is substantially parallel to a clearance 25 which the ring 24 has on its outer face, at the level of such a deformable zone 50, while the other 28 faces a substantially cylindrical bearing surface of the ring 24 A recess 26 separates these projecting notches 27 and 28 on the inside of the ring 24.
Figs. 8 to 10 illustrate a second variant, quite similar to the previous one, also comprising a 120 ° repetition, the bottom 10 comprises here, after the ramp 18 and separated by intermediate reliefs, three clearances 171, 172, 173, which are arranged to cooperate successively with bosses 271, 272, 273 of the ring. The angular reference 19 of the base 10 makes it possible to locate the relative angular position of the middle part 1 and of the base 10: 50 ° in FIG. 8, 30 ° in fig. 9, 0 ° in fig. 10. It is understood that, during the angular progression, first of all a single clearance-boss couple 171/273 opposes a first resistant force during the passage of the notch which it constitutes; then, a little further, two clearance-boss pairs 171/272 and 172/273 set together a second resistant force greater than the first; then, still further, three clearance-boss couples 171 / 2171,172 / 272 and 173/273 together oppose a third resistant force greater than the second. There is thus a very simple means for opposing an increasing resistant force as a function of the angle of rotation. Fig. 11 shows clearly the passage of each of these notches, and the growth of the associated maximum torque level.
The invention lends itself well to cases where the sub-assembly 100 comprises components 1 and 10 made of different materials, with different coefficients of expansion, or even fragile or hard materials (ceramic, sapphire), which do not allow standard fixing methods. Let us quote among classic configurations the assembly
CH 712 740 A2 of a gold middle with a sapphire back, or an entirely ceramic case, a metal-ceramic combination, or the like.
The third component 20 is preferably a ring, which can be made of different materials, in particular POM, polyurethane, polymer-based material, or elastomer, at least partially amorphous metal alloy, the material chosen determining the maximum tightening torque. , and an amorphous alloy ring allows a tightening torque of about 3.2 Nm, similar to that usual for a bottom screwed onto a middle part, for a gasket 9 of the same size. This ring can also be made of amorphous metal, stainless steel, CuBe, "Liquidmetal ©", or even be bi-material, for example with a core of plastic material with molded inserts, metallic, or ceramic, or other. The advantage of such a ring, preferably in an elastic polymer material or the like, is its ease of accommodation in a volume whose free space is very limited, where it is impossible to safely implant a metallic element capable to break.
Naturally, the material of the third component 20 can also be more complex, in particular in the form of an elastomer type material loaded with technical fibers such as "Kevlar®" or the like, or with an antiwear additive such as polytetrafluoroethylene says PTFE, or whatever.
An important advantage of the invention is that it requires neither drilling nor tapping, but only simple machining which can be carried out with a certain ease, thus avoiding any soiling or pollution of the watch, and authorizing a moderate cost.
More particularly, and as visible in FIGS. 1 to 10 and 12, the first component 1 is a middle part and the second component 10 is a background. In a particular variant, the presence of at least one seal is required. In a variant not illustrated, the first component 1 is a bottom and the second component 10 is a part of appearance, such as a medallion, or the like, attached to this bottom, in which case a seal between them is not necessary , and the presence of a spring which may be perfectly sufficient in a variant comprising repulsion means.
It should be noted, in this regard, that the invention can be implemented without such repellency means, in particular for covering or similar applications.
In another application, the first component 1 is a middle part and the second component 10 is a flange or a bezel, as visible in FIG. 13. This case is well suited to a variant in which a first component and a second component tend to be spaced from one another, by magnetic repulsion or by an elastic element such as a rod, that is to say -to say a thin ring, not necessarily closed, or more particularly a rod comprising segments similar to a röchet so as to easily authorize only a unidirectional maneuver, as in the particular case of use of the invention for a unidirectional telescope. Such a rod may be filiform, of substantially round section, or else of rectangular section, or the like. Or, the third component 20 simply constitutes the repulsion means itself, which significantly reduces the number of components while ensuring the required maintenance very well.
In yet another application, the first component 1 is a middle part or a tube attached to a middle part, and the second component 10 is a crown, as visible in FIG. 14. In a variant, the second component 10 is a crown stem or a pusher. In these cases of fig. also, the presence of at least one seal is mandatory.
The invention is suitable for many watchmaking applications, for example for a helium valve on a diving watch, or also for covering components such as a bracelet, a buckle, a clasp, or the like. It is the same in jewelry, to close cuff links, earrings, or to fix precious stones or decorated elements removably designed.
The invention also relates to a timepiece or watch 1000 comprising such a covering sub-assembly 100.
The invention also relates to a jewel comprising such a subset 100.
In summary, the invention makes it possible to have a bayonet assembly sub-assembly, with a retaining ring mounted on a first component, in particular a substantially O-ring. This ring can also be opened, for example with a slot such as a circlip or the like, to facilitate mounting. During the relative rotation of the second component with respect to the first component, notches in the second component are blocked with notches in the ring. This space-saving design keeps the watch waterproof, which it protects against accidental dismantling.
The invention ensures the perfect orientation of a component kept locked in its service position.
When the sub-assembly according to the invention fulfills a function of closing a bottom or the like, it provides numerous advantages:
- from a first relative angular position, between the first component and the second component, where the sealing function is ensured, for example as soon as the compression of a seal is carried out, there exists, in the mechanism according to the invention, an enlarged range of relative angular values between this first component and this second component, in which the seal remains guaranteed, for example of several tens of degrees, which is important in comparison with for example a screwed back standard in the case of a middle-back sub-assembly, where
CH 712 740 A2 unscrewing only a few degrees (less than ten degrees) results in the loss of tightness and the need for cleansing and a new claim, whereas according to the invention it is only 'after the passage of the very last notch during disassembly that the loss of tightness becomes possible if the rotation is continued;
- a closure by succession of notches which has a largely dimensioned closing torque of the bottom, both sufficient and acceptable for such an assembly, thanks in particular to the multiplication of the number of bumps distributed on the circumference, with, for the operator , a feeling of screwing in stages of increasing the closing torque to the desired position, known to be the closed position, which is also noticeable;
- opening security, which is increased by two factors: the need for the operator to provide significant positive energy to pass a notch; and the successive passage of several notches prior to any loss of tightness.
The invention allows, again, the cooperation of antagonistic components made of materials of different natures, without friction expansion stress, elasticity, or the like, without requiring any external fastening element such as screws or the like, without no screws or machining that could weaken particular materials such as ceramics, sapphire, and the like. It has very good resistance to accidental or even voluntary unscrewing by vibration or of the Chapuis-choc type. The invention also makes it possible to ensure the interchangeability of the components, and, consequently, increased customization of the watches or jewelry of the users.
This invention is applicable both to watches or jewelry made of precious materials and to mass-produced products comprising components of low unit cost, in particular plastic or similar.
The invention lends itself well to cases where the sub-assembly 100 comprises components 1 and 10 made of different materials, with different expansion coefficients, or even fragile or hard materials (ceramic, sapphire, stones precious stones, gems, cameos), which do not allow standard fixing methods. Classic configurations include assembling a gold middle part with a sapphire caseback, or an entirely ceramic case, a metal-ceramic combination, or similar. Components 1 and 10 can thus be made of all kinds of materials: metallic alloys, in particular precious or titrated, stainless steels, metallic alloys at least partially amorphous, or “Liquidmetal ©” or similar, ceramics, sapphire, minerals, hard stones, rubber, plastics and in particular thermoplastic elastomers called TPE including in particular thermoplastic polyurethane called TPU, polycarbonates called PC, polyvinyl chlorides called PVC, polyacetals or polyoxymethylene called POM, silicone, “Nylon®”, to name, but not limited to, only materials usual in watchmaking construction and in jewelry.

权利要求:
Claims (16)
[1]
Claims
1. Dressing sub-assembly (100) for a timepiece or for a watch, comprising a first component (1) comprising edges (2) projecting from a first skirt (6) alternated with first clearances (3) , and a second component (10) comprising wings (12) projecting from a second skirt (11) alternated with second recesses (13), arranged to occupy a first disassembled insertion position in which said first component (1) and said second component (10) have a first angular orientation relative to each other, or to occupy a second assembled and locked position in which said first component (1) and said second component (10) have one relative to the other a second angular orientation different from said first angular orientation and are held axially by a bayonet adjustment between at least two said flanges (2) and at least two said wings (12), characteristic in that said subassembly (100) comprises at least a third component (20), which is arranged to be interposed radially or respectively axially between said first component (1) and said second component (10) and fixed in rotation by relative to one of them, and which comprises at least one zone (50) elastically deformable radially or respectively axially, said deformable zone (50) being arranged to oppose a resistive torque of variable moment to any relative tangential torque between said first component (1) and said second component (10), said deformable zone (50) comprising at least one notch (26) arranged to cooperate with at least one complementary relief (18) that comprises that of the components (1, 10) by ratio in which said third component (20) is free to rotate, and any passage of a said notch (26) over a said complementary relief (18) generating a said resistant torque tending to oppose the relative movement if rotation between said first component (1) and said second component (10), at least one said notch (26) being arranged for relative angular indexing in the indexing position between said first component (1) and said second component (10).
[2]
2. covering sub-assembly (100) according to claim 1, characterized in that, in said first disassembled insertion position, said first component (1) and said second component (10) have one with respect to the other a first angular orientation, and are kept at a distance from each other by repulsion means, which comprise magnetic repulsion means and / or at least one elastic element and / or at least one gasket sealing (9), and in that, in said second assembled and locked position, said first component (1) and said second component (10) are held axially against a resistant force exerted by said repulsion means.
[3]
3. Dressing sub-assembly (100) according to claim 2, characterized in that said repulsion means comprise at least one said seal (9).
[4]
4. covering sub-assembly (100) according to claim 3, characterized in that said repulsion means comprise at least one said seal (9), in that said flanges (2) project radially towards the inside said first skirt (6), said wings (12) project radially outwards from said second skirt (11), in that
CH 712 740 A2 said third component (20) is in the form of a ring, and arranged to be interposed radially between said first component (1) and said second component (10).
[5]
5. covering sub-assembly (100) according to one of claims 1 to 4, characterized in that said first component (1) comprises at least one housing (6) for stopping an anti-rotation lug ( 29) that comprises said third component (20).
[6]
6. covering sub-assembly (100) according to one of claims 1 to 5, characterized in that said deformable zone (50) comprises a plurality of said notches (26) arranged to oppose successive resistance to said relief complementary (18).
[7]
7. covering sub-assembly (100) according to claim 6, characterized in that, in the same said deformable zone (50), said successive notches (26) are arranged to oppose increasing resistance to said complementary relief ( 18).
[8]
8. Dressing sub-assembly (100) according to one of claims 1 to 7, characterized in that said third component (20) is a ring (24) held in abutment on a flat surface (5) that includes said flanges (2) of said first component (1) with which said ring (24) is angularly secured, and in that said flange (12) of said second component (10) is arranged so as to be able to gradually deform said ring (24) during of its rotation, said flange (12) comprising a ramp (18) arranged to flex the opposing surfaces of said ring (24), which ramp (18) is followed by a clearance (17) which allows the movement of projecting notches (27, 28), which internally comprises said ring (24) at a said deformable zone (50).
[9]
9. covering sub-assembly (100) according to one of claims 1 to 8, characterized in that said third component (20) is a ring (24) held in abutment on a flat surface (5) that includes said flanges (2) of said first component (1) with which said ring (24) is angularly secured, and in that said flange (12) of said second component (10) is arranged so as to be able to gradually deform said ring (24) during of its rotation, said flange (12) comprising a ramp (18) arranged to flex the opposing surfaces of said ring (24), which ramp (18) is followed by a plurality of clearances (171, 172, 173), which are arranged to cooperate successively with bosses (271, 272, 273) that comprises said ring, and in that, during the relative rotation between said first component (1) and said second component (10), first of all a single clearance-boss pair (171; 273) opposes said rotation a pr first resistant effort during the passage of the notch which it constitutes; then, a little further, two clearance-boss couples (171; 272, 172; 273) together oppose a second resistance force greater than the first, then, even further, three clearance-boss couples (171; 2171, 172; 272 , 173; 273) together oppose a third resistance force greater than the second.
[10]
10. Dressing sub-assembly (100) according to one of claims 1 to 9, characterized in that said third component (20) is in the form of an annular sector or ring.
[11]
11. Dressing sub-assembly (100) according to one of claims 1 to 10, characterized in that said first component (1) is a middle part and said second component (10) is a base.
[12]
12. Dressing sub-assembly (100) according to one of claims 1 to 10, characterized in that said first component (1) is a middle part and said second component (10) is a flange or a bezel.
[13]
13. covering sub-assembly (100) according to one of claims 1 to 10, characterized in that said first component (1) is a middle part or a tube attached to a middle part, and said second component (10) is a crown or crown stem or pusher.
[14]
14. Dressing sub-assembly (100) according to claim 2 and one of claims 3 to 13, characterized in that said third component (20) constitutes said repulsion means.
[15]
15. Watch (1000) comprising a covering sub-assembly (100) according to one of claims 1 to 14.
[16]
16. Jewel comprising a covering sub-assembly (100) according to one of claims 1 to 14.
CH 712 740 A2
CH 712 740 A2

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同族专利:

---

公开号 | 公开日

---

CN107656434A|2018-02-02|

---

EP3276432A1|2018-01-31|

---

JP6453949B2|2019-01-16|

---

US10088806B2|2018-10-02|

---

CN107656434B|2020-12-01|

---

JP2018017731A|2018-02-01|

---

HK1249593A1|2018-11-02|

---

EP3276432B1|2020-03-25|

---

US20180032034A1|2018-02-01|

---

CH712740B1|2020-08-31|

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CH710995A2|2015-04-27|2016-10-31|Eta Sa Mft Horlogere Suisse|Watch for mounting removable media.|EP3543798B1|2018-03-20|2020-12-30|Omega SA|Annular rotating bezel system comprising at least one resilient arm|

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EP3543800B1|2018-03-20|2021-11-10|Omega SA|Annular rotating bezel system comprising a spring ring|

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EP3699695A1|2019-02-25|2020-08-26|Comadur S.A.|Multi-decor and/or multi-colour clock piece component with ceramic structure|

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EP3712715A1|2019-03-18|2020-09-23|Montres Breguet S.A.|Watch case comprising a rotating bezel|

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JP6924417B2|2019-03-25|2021-08-25|カシオ計算機株式会社|Cases, case manufacturing methods and watches|

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EP3796106A1|2019-09-20|2021-03-24|The Swatch Group Research and Development Ltd|Casing subassembly for a timepiece, watch or jewel|

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EP3800514A1|2019-10-04|2021-04-07|Comadur S.A.|Spring ring of a snap fitting of a rotating bezel|

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EP3936732A4|2020-07-10|2022-01-12|Rolex Sa|Threaded timepiece member|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

---

EP16181139.3A|EP3276432B1|2016-07-26|2016-07-26|Casing subassembly for a timepiece, watch or jewel|

---

CH00965/16A|CH712740B1|2016-07-26|2016-07-26|Sub-assembly of a covering for a timepiece, in particular a watch, or for a piece of jewelry.|CH00965/16A| CH712740B1|2016-07-26|2016-07-26|Sub-assembly of a covering for a timepiece, in particular a watch, or for a piece of jewelry.|