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, this under assembly (100) comprising a third component in the form of a ring, interposed between the first (1) and second (10) components and comprising a rod (31) housed in a groove (131) of the first (1) or second (10) ) component, this third component comprising a rotational stop (34) relative to the first (1) or second (10) component, and an elastic region with radial relief cooperating in angular indexing with a lug (132) of the first (1) ) or second (10) component which is free in rotation with respect to the third comp daring (30).
公开号:CH712742A2
申请号:CH00967/16
申请日:2016-07-26
公开日:2018-01-31
发明作者:Mollier Adrien；Knuchel Daniel
申请人:Omega Sa；
IPC主号:

专利说明:

Description
FIELD OF THE INVENTION [0001] The invention relates to a so-called dressing sub-assembly for a timepiece or a watch or a jewel, comprising a first component comprising protruding edges of a first skirt alternated with first clearances, and a second component having 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 one relative to the another a first angular orientation, or to occupy an assembled and locked position wherein said first component and said second component have a second angular orientation different from said first angular orientation relative to each other and are maintained axially by an adjustment bayonet between at least two said flanges and at least two said wings.
The invention also relates to a timepiece, including a watch, including such a subassembly dressing.
The invention also relates to a jewel comprising such a subassembly.
The invention relates to the field of dressing watches, and the field of jewelery and jewelery. BACKGROUND OF THE INVENTION [0005] The cladding of watches and similar devices obeys many constraints, in particular sealing, robustness, appearance, and must be made in such a way as to prevent any involuntary dismantling resulting in irreparably by an after-sales intervention for exchange of joints, cleaning, lubrication, even repair.
Some trim components or control must, again, be indexed angularly with respect to each other, for reference position references of origin, rest, or actuation, or for easier reading indications or graduations, or to ensure the continuity of left surfaces and / or decorations. This angular indexing is often difficult to achieve, in combination with a good tightening of the components and with a perfect sealing of the joints. SUMMARY OF THE INVENTION [0007] The invention proposes to provide a tight and secure assembly of cladding components with an easy to adjust angular indexing to adjust the position accurately.
For this purpose, the invention relates to a subassembly for clocks for a timepiece according to claim 1.
The invention also relates to a timepiece comprising such a dressing subassembly.
The invention also relates to a jewel comprising such a subassembly.
BRIEF DESCRIPTION OF THE DRAWINGS [0011] Other features and advantages of the invention will appear on reading the detailed description which follows, with reference to the appended drawings, in which: FIG. 1 represents, schematically, in perspective view from above, a particular variant of a specific component of the invention, in the form of a rod comprising at least one elastic deformable zone, here in re-entrant relief, this ring constituting a third component arranged to be inserted between a first component and a second component arranged to be fixed to each other in bayonet mode; fig. 2 is a plan view, and from below, of a similar ring, comprising a projecting resilient deformable zone; fig. 3 represents, schematically, and in section passing through a main axis, a dressing subassembly according to the invention, comprising a first component which is a middle part, in which is represented a second component which is a bottom, fixed to one another in bayonet mode and enclosing, on the one hand a seal, and on the other hand the ring of FIG. 1, here housed in a groove of the first component and angularly stopped in a stop housing of the second component, through which passes the cutting plane; fig. 4 shows, similarly to FIG. 3, the same subassembly, in another section plane passing through the elastic deformable zone of the rod and a bulge of the groove of the first component, and between the two stop housing that comprises here the second component; fig. 5 is similar to FIG. 4, and in the same section plane, a particular variant where the groove of the first component is of revolution, and wherein the first component comprises a pin driven, stopping in the indexing position of the elastic deformable zone of the rod; fig. 6 is a partial section, in a plane perpendicular to the main axis, and in the middle of the groove of the first component, in another variant where this groove comprises a notch, and wherein the ring comprises a succession of several elastically deformable zones; fig. 7 shows, schematically and in a view from below, a watch comprising such a subset including a middle part constitutes the first component, and a bottom is the second component; fig. 8 represents, in a schematic manner and in plan view, a watch comprising such a subassembly of which a middle part constitutes the first component, and a bezel constitutes the second component; fig. 9 shows, schematically and in plan view, a watch comprising such a subset, a tube attached to a middle part is the first component, and a ring is the second component.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0012] The invention proposes to make a tight and secure assembly of cladding components with easy to adjust angular indexing, and this with a reduced cost of components.
The invention relates to a subassembly dressing 100 for a timepiece, and more particularly for a watch, or for a jewel, having a first component 1 having flanges 2 projecting a first skirt 6 alternate with first clearances, and a second component 10 having wings 12 projecting from a second skirt 11 alternated with second clearances.
We use here the general name subassembly "dressing" as well for a timepiece as a jewel, even if this term is current use in watchmaking only. It is understood that, in the case of jewelery, this subset may relate to the structure of the jewel, or elements reported on a basic structure, or any assembly of several basic or preassembled components, or the entire jewel.
This subassembly dressing 100 is arranged to move from a first disassembled insertion position to a second assembled and locked position.
In the first disassembled position of insertion, the first component 1 and the second component 10 have relative to each other a first angular orientation.
In a particular variant, not limiting, 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 one another by repulsion means, which comprise magnetic repulsion means and / or at least one elastic element and / or at least one seal 9. The passage from the first disassembled insertion position to the second assembled and locked position is performed under the action of forces exerted by an operator: an axial force to overcome the resisting force of the repulsion means and put in contact the first component 1 and the second component 10, and a couple to bring them into a position of 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 repulsion means, the first component 1 and the second component 10 are held axially against the resisting force exerted by these repulsion means, by the effect of a bayonet adjustment, made by the application of axial and torque forces printed 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, especially around an axial direction D, is reversible, and allows their disassembly. In a manner peculiar to the invention and in rupture with the prior art, this disassembly requires on the part of an operator efforts similar to those exerted during assembly, this disassembly preferably requires the use of a tool special, cooperating for example with holes or peripheral notches, or the like, and can not be consecutive to clumsiness or exposure to particular external physical factors.
In a particular variant comprising repulsion means and more particularly, in the non-limiting variants illustrated in Figures 3 to 5, the dressing subassembly 100 comprises at least one seal 9 between a first component 1 and a second component 10. In these variants, the first component 1 comprises flanges 2 protruding radially inwardly of a first skirt 6, which are alternated with first clearances. The second component 10 has wings 12 protruding radially outwardly from a second skirt 11, which are alternated with second clearances. The dressing subassembly 100 is arranged to pass from a disassembled position to an assembled position in compression of the seal 9, by the reversible joining of the first component 1 and the second component 10, by a bayonet fit between at least two flanges 2 and at least two flanges 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 makes it easy to assemble with radial compression of such a seal. It is understood that the invention is illustrated here in a particular variant, with flanges and radially projecting flanges. The invention is also applicable to other variants where the axial and radial configurations are reversed.
According to the invention, this subassembly 100 comprises at least a third component 30 in the form of a ring, which is interposed, in particular radially in the illustrated variants, between the first component 1 and the second component 10. This third component 30 more particularly comprises a rod 31, that is to say a thin ring, not necessarily closed, which is arranged to be housed in a groove 131 that comprises at least the first component 1 or the second component 10. More particularly this Rod 31 comprises segments similar to a röchet to allow easy unidirectional maneuver, as in the particular case of use of the invention for a unidirectional bezel. Such a ring may be filiform, of substantially round section, or rectangular section, or other.
More particularly, this ring 31 is resilient, it may in particular be made of spring wire, piano wire, or stamped, or molded, in an elastic material, or the like.
This third component 30 comprises at least one rotational stop 33, 34, relative to the first component 1 or to the second component 10.
The third component 30 further comprises at least one elastic zone 32, which is hollow radially in the variant of FIG. 1 respectively projecting radially in the variant of FIG. 2, and which is arranged to cooperate, in a plane passing through the groove, in angular indexing and in locking with a lug 132, respectively a housing, that comprises that of the first component 1 and second component 10 which is free in rotation relative to to the third component 30. This elastic zone 32 is radially embossed in the illustrated variants where the bayonet mechanism is based on radial extensions, it can be axially raised in another axial relief cooperation application at the level of the mechanism. assembly.
In a variant illustrated in FIG. 5, this pin 132 is attached in the groove 131, which is then machined in revolution relative to the axis D. More particularly, this pin 132 is constituted by a pin 232, or the like, that it is sufficient to drive in a simple drilling 231 made in the first component 1.
In this case where the pin 32 is a reported component, if this pin is the simplest embodiment, it does not exclude other variants, for example dovetail assemblies or the like. In a variant, the lug 132 may itself be elastic, and for example made of amorphous metal, or the like.
In another variant, illustrated in Figures 3 and 4, the groove 131 is made by contouring, or injection, or the like, and directly comprises the pin 132, or the housing in a reverse variant.
More particularly, this third component 30 is fixed in rotation with respect to the first component 1 or the second component 10, and the elastic zone 32 opposes a variable moment resistance torque to any relative tangential pair between the first component 1 and the second component 10. second component 10.
And any passage of a lug 132, or respectively of a housing, on an elastic zone 32, generates a resistive torque which tends to oppose the relative rotational movement between the first component 1 and the second component 10 .
At least one elastic zone 32 is arranged for relative angular indexing between the first component 1 and the second component 10.
More particularly, the second component 10 in the variant illustrated in Figures 3 to 5, comprises at least one stop housing 133 or 134 of a foot, constituting a rotational stop 33, 34, that includes the third component 30. More particularly, as shown in the figures, the third component 30 comprises two rotational stops 33 and 34, arranged to cooperate with two corresponding stop housing 133 and 134.
These feet provide rigidity to the assembly.
FIG. 1 illustrates a variant where the two rotational stops 33 and 34 are perpendicular to the plane of the ring 31. It is naturally possible to adopt other forms, with in particular radial stops in the plane of the ring 31, or other.
More particularly, in the latter variant, the spacing between the two stop housing 133 and 134 may be different from the spacing in the free state between the rotational stops 33 and 34, so as to print a stress to the ring 31; if the profile in the free state of the ring 31 is circular, except at the level of the elastic zone 32, this constraint makes it possible to give it a shape of ellipse in the stressed state, with a friction in a part of the groove 131 , so as to brake the first component 1 relative to the second component 10 which may be useful, especially during disassembly for maintenance.
A similar result can be achieved with a particular shape of the rod 31 in the free state: ellipse, circle with corrugations, multilobed, or other.
A surface treatment applied to the carrier component of the groove 131, and / or the ring 31, also makes it possible to achieve a friction surface that may be useful to oppose unplanned disassembly: the user must then provide a tool, preferably special to print a relative rotation between the first and second component, and cross the main resistance threshold of the zone 32 which accumulates with a resistant friction force.
More particularly, as visible in FIG. 6, the third component 30 comprises, on at least one elastically deformable zone, a plurality of elastic zones 32 arranged to oppose a successive resistance to a complementary relief 18 that comprises the antagonistic component, for example a notch or the like, which may be composed of 'a succession of housing.
More particularly still, as also visible in FIG. 6, in the same elastically deformable zone, the successive elastic zones 32 are arranged to oppose increasing resistance to such a complementary relief 18. Particularly and advantageously, such a succession of elastic zones 32 and / or complementary reliefs 18 may be arranged to oppose a growing resistant torque during the rotational movement to the indexing position printed by the operator, for example with a growth of the projections, or the like.
It is thus possible to achieve a strong progressive braking during the relative rotation between the first component and the second component, before arriving in a position where the magnitude of the relative relief between the rod 31 and the pin 132 or the profile of the groove 131 as appropriate, is such that the resistive torque is at the maximum value, which corresponds to a particular indexing position. Such notches allow, also, to oppose unintentional disassembly of the subset.
Naturally an inverse variant, or the first component 1 carries a stop housing 133 or 134, and wherein the second component 10 comprises the pin 132 or the like, is also feasible, and is not described in detail, being easy to transpose by the skilled person.
More particularly, and as shown in Figures 1 and 2, the ring 31 is open, and thus comprises two free ends in the unassembled free state of this ring. This particularity facilitates in particular its placing under stress as explained above.
Note that when a seal is not necessary, the third component 30 may constitute the repulsion means, in particular in the form of a rod 31 not planar, but with corrugations, or the like.
In an advantageous application, not limiting, visible in FIG. 7, the first component 1 is a middle and the second component 10 is a bottom. In a particular variant, the presence of at least one seal is required. In a variant not shown, 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, or the rod 31 itself, which may be perfectly sufficient in a variant comprising repulsion means.
It is noted, in this regard, that the invention can be implemented without such repulsion means, especially for dressing applications or the like.
In another application, the first component 1 is a middle and the second component 10 is a flange or bezel, as shown in FIG. 8. This case is well suited to a variant in which a first component and a second component tend to be separated from each other, by magnetic repulsion or by an elastic element such as a rod, that is to say say a thin ring, not necessarily closed, or more particularly a rod comprising segments similar to a röchet to allow easy unidirectional maneuver, as in the particular case of use of the invention for a unidirectional bezel. Such a ring may be filiform, of substantially round section, or rectangular section, or other. Or again, in a particular variant, it is simply the third component 30 itself which then constitutes the repulsion means, which substantially reduces the number of components while ensuring very good maintenance required. In this case the ring 31 may comprise both a relief in its main plane for the indexing between the first component 1 and the second component 10, and another relief in the axial direction of the subassembly 100, to constitute such means of repulsion.
In yet another application, the first component 1 is a caseband or a tube attached to a middle part, and the second component 10 is a ring, as shown in FIG. 9. In a variant, the second component 10 is a crown rod or a pusher. In these cases too, the presence of at least one seal is mandatory.
The choice of pairs of materials, that form, two by two, the first and the third component, and the second and the third component, allows to have, for identical geometry, different friction characteristics, especially if some these components have a friction surface due to the application of a surface treatment. This makes it possible to modulate the resisting force, useful in particular to oppose unintentional disassembly. The ring 31, which ensures a recovery of forces, particularly in the event of shocks, still makes it possible to preserve the surfaces of the components, which is of interest for example if at least one of the components is ceramic, the ring is then advantageously at least partially amorphous metal, "Liquidmetal ©" or the like.
The invention is suitable for many applications in watchmaking, for example for a helium valve on a diving watch, or for dressing components such as a bracelet, a buckle, a clasp, or other. It is the same in jewelry, for closing cufflinks, earrings, or for securing precious stones or decorated elements removably designed.

权利要求:
Claims (19)
[1]
The invention also relates to a timepiece, in particular a watch 1000, comprising such a dressing sub-assembly 100. [0050] The invention also relates to a jewel comprising such a dressing subassembly 100. The invention thus makes it possible to prevent any unintentional and involuntary disassembly of the subassembly 100, for example under the effect of vibrations, successive expansion cycles, by an unfortunate use of the user, or the like . An important advantage of the invention is to require simple machining achievable with some ease, thus avoiding any dirt or pollution of the watch, and allowing a moderate cost. The invention makes it possible to ensure the perfect orientation of a locked component maintained in its service position. The invention authorizes, again, the placing in cooperation of antagonistic components made of materials of different natures, without stress of expansion friction, elasticity, or other, without the need for external fastening element such as screw or the like, without no screw or machining may weaken particular materials such as ceramics, sapphire, and the like. It has a very good resistance to accidental or even voluntary unwinding by vibration or Chapuis-choc type. The invention also makes it possible to ensure the interchangeability of the components and, consequently, an increased personalization of the watches or jewels of the users. This invention is applicable to both watches or jewelry made of precious materials as large series of achievements comprising low unit cost components, including plastic or the like. The invention is well suited to cases where the subassembly 100 comprises components 1 and 10 made of different materials, with different expansion coefficients, or fragile or hard materials (ceramic, sapphire, stones). precious stones, gems, cameos), which do not allow standard fastening methods. Among conventional configurations include assembling a gold case with a sapphire caseback, or a box entirely ceramic, a metal-ceramic combination, or the like. The components 1 and 10 can thus be made of all kinds of materials: metal alloys, especially precious or titrated alloys, stainless steels, at least partially amorphous metal alloys, or "Liquidmetal ©" or the like, ceramics, sapphire, minerals, hard stones, rubber, plastics and in particular thermoplastic elastomers known as TPE including TPU thermoplastic polyurethane, so-called PC polycarbonates, polyvinyl chlorides known as PVC, polyacetals or polyoxymethylene said POM, silicone, "nylon", to mention, without limitation, that materials used in watchmaking and jewelery. claims
1. Assembly subassembly (100) for a timepiece or watch or jewel, comprising a first component (1) having flanges (2) projecting from a first skirt (6) alternated with first clearances and a second component (10) having flanges (12) projecting from a second skirt (11) alternating with second clearances, arranged to occupy a first disassembled insertion position in which said first component (1) and said second component 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 relative to each other. the other a second angular orientation different from said first angular orientation and are held axially by a bayonet fit between at least two said flanges (2) and at least two said wings (12), cara characterized in that said subassembly (100) comprises at least one third ring-shaped component (30), which is interposed between said first component (1) and said second component (10) and comprising a rod (31) housed in a groove (131) which comprises at least said first component (1) or said second component (10), and which third component (30) comprises at least one rotational stop (33, 34) with respect to said first component (1) ) or second component (10), and at least one elastic zone (32) radially hollow, respectively projecting radially, arranged to cooperate, in a plane passing in said groove, in angular indexing and in locking with a lug, respectively a housing, that comprises that of said first component (1) and second component (10) which is free in rotation with respect to said third component (30).
[2]
Cladding subassembly (100) according to claim 1, characterized in that, in said first disassembled insertion position, said first component (1) and said second component (10) have relative to each other. the other a first angular orientation, and are kept at a distance from each other by repulsion means, which comprise means of magnetic repulsion and / or at least one elastic element and / or at least one seal of 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 subassembly (100) according to claim 2, characterized in that said repulsion means comprise at least one said seal (9).
[4]
4. subassembly covering (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 outwardly from said second skirt (11), in that said third ring-shaped component (30) is arranged to be interposed radially between said first skirt (6); component (1) and said second component (10).
[5]
5. dressing subassembly (100) according to one of claims 1 to 4, characterized in that said third component (30) is fixed in rotation relative to said first component (1) or said second component (10) , and in that said elastic zone (32) opposes a resisting torque of variable moment to any relative tangential torque between said first component (1) and said second component (10), and any passage of a said lug or housing on a said elastic zone (32) generating a resisting torque tending to oppose the relative rotational movement between said first component (1) and said second component (10), at least one said elastic zone (32) being arranged for indexing relative angle between said first component (1) and said second component (10).
[6]
6. Housing subassembly (100) according to one of claims 1 to 5, characterized in that said lug (132) is reported in said groove (131) which is of revolution relative to said axis (D).
[7]
7. Housing subassembly (100) according to one of claims 1 to 6, characterized in that said groove (131) directly comprises said lug (132), or said housing in the opposite configuration.
[8]
8. dressing subassembly (100) according to one of claims 1 to 7, characterized in that said rod (31) is elastic.
[9]
9. Cladding subassembly (100) according to one of claims 1 to 8, characterized in that said second component (10) comprises at least one stop housing (133,134) of a foot constituting a said stop in rotation (33, 34) that comprises said third component (30).
[10]
10. subassembly dressing (100) according to claim 9, characterized in that said third component (30) comprises two said rotational stops (33, 34), arranged to cooperate with said two dwellings stop (133,134 ), whose spacing is different from the spacing in the free state between said rotational stops (33, 34), so as to print a stress to said rod (31) when in position.
[11]
11. Cladding subassembly (100) according to one of claims 1 to 10, characterized in that the carrier component of said groove (131), and / or said rod (31) comprises a friction surface arranged to opposing a resistant friction force during disassembly of said subassembly (100).
[12]
12. subassembly covering (100) according to one of claims 1 to 11, characterized in that said third component (30) comprises, on at least one deformable zone, a plurality of elastic zones (32) arranged for opposing a successive resistance to a said complementary relief (18).
[13]
13. Subassembly dressing (100) according to claim 12, characterized in that, in the same said deformable zone, said successive elastic zones (32) are arranged to oppose increasing resistance to a said complementary relief (18) .
[14]
14. Housing subassembly (100) according to one of claims 1 to 13, characterized in that said first component (1) is a middle and said second component (10) is a bottom.
[15]
15. dressing subassembly (100) according to one of claims 1 to 13, characterized in that said first component (1) is a middle and said second component (10) is a flange or bezel.
[16]
16. subassembly dressing (100) according to one of claims 1 to 13, characterized in that said first component (1) is a middle or a tube attached to a middle part, and said second component (10) is a crown.
[17]
17. Cladding subassembly (100) according to claim 2 and one of claims 3 to 16, characterized in that said third component (30) constitutes said repulsion means.
[18]
18. Watch (1000) comprising a dressing subassembly (100) according to one of claims 1 to 17.
[19]
19. Jewel comprising a dressing subassembly (100) according to one of claims 1 to 17.

类似技术:

---

公开号 | 公开日 | 专利标题

---

EP3276432B1|2020-03-25|Casing subassembly for a timepiece, watch or jewel

---

EP3276187B1|2019-09-18|Casing subassembly for a timepiece, watch or jewel

---

EP0403717B1|1993-08-04|Watch with a rotating bezel

---

EP2624076B1|2014-12-31|Watch case provided with a rotatable, indexed bezel

---

EP2781970A1|2014-09-24|Mechanism for adjusting a timepice hairspring

---

EP3123251B1|2021-04-28|Timepiece comprising a turning collar

---

CH707815B1|2017-05-31|Subassembly of a clockwork escapement mechanism comprising a spiral spring.

---

EP2462829B1|2014-10-29|Bracelet with articulated links and use of said bracelet

---

EP3276433B1|2019-05-15|Casing subassembly for a timepiece, watch or jewel

---

CH677713A|1991-06-28|

---

CH712741A2|2018-01-31|Subset of clothing for a timepiece, in particular a watch, or for jewelery.

---

EP3796104A1|2021-03-24|Casing subassembly for a timepiece, watch or jewel

---

WO2007105043A3|2008-03-06|Timepiece with rotating bezel

---

EP1975749B1|2014-05-21|Timepiece with elastically-held movement

---

EP3796106A1|2021-03-24|Casing subassembly for a timepiece, watch or jewel

---

CH714646A2|2019-08-15|Device for fixing a bracelet.

---

EP3401740A1|2018-11-14|Flashless timepiece setting component

---

CH709408A2|2015-09-30|A control system for a rotary member of a timepiece.

---

CH708733A2|2015-04-30|anti-shock device.

---

CH571964A5|1976-01-30|

---

WO2003083585A1|2003-10-09|Rotating bezel

---

CH713937A2|2018-12-28|Modular mechanical part with a ball bearing.

---

CH714357B1|2021-04-15|Spiral cam second reset watch mechanism.

---

US1139109A|1915-05-11|Watchcase, &c.

---

CH714260A2|2019-04-30|Device for fixing a bracelet to a watch case and a timepiece comprising such a fastening device.

同族专利:

---

公开号 | 公开日

---

EP3276187A1|2018-01-31|

---

EP3276187B1|2019-09-18|

---

HK1249591A1|2018-11-02|

---

US20180032033A1|2018-02-01|

---

US10114338B2|2018-10-30|

---

JP6386633B2|2018-09-05|

---

JP2018017725A|2018-02-01|

---

CN107656433B|2019-09-03|

---

CN107656433A|2018-02-02|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

EP3608730A1|2018-08-08|2020-02-12|Omega SA|Annular rotating bezel system comprising a spring ring provided with at least two lugs|DE1089332B|1953-02-07|1960-09-15|Erwin Piquerez|Dense watch case|

---

DE1024889B|1953-11-02|1958-02-20|Erwin Piquerez|Bayonet lock for a tight watch case|

---

GB751246A|1954-03-05|1956-06-27|United States Time Corp|Improvements in or relating to watch cases|

---

CH456468A|1965-06-15|1968-07-31|Schmitz Freres & Cie S A|Watch|

---

CH617816A|1978-05-23|1980-06-30|

---

JPH0457788U|1990-09-26|1992-05-18|

---

CH690140A5|1996-03-05|2000-05-15|Smh Management Services Ag|watch box with a rotating bezel.|

---

JP3712911B2|2000-03-30|2005-11-02|セイコーインスツル株式会社|Watch case with rotating bezel|

---

JP4723784B2|2000-03-30|2011-07-13|セイコーインスツル株式会社|Watch case with rotating bezel|

---

US20080273427A1|2005-07-29|2008-11-06|Richemont International Sa|Case for Screening Magnetic Fields|

---

DE202006012410U1|2006-08-12|2006-10-26|Kobrink & Wagner Gmbh|Trinket for use as e.g. bracelet, has adornment body detachably connected with support body and comprising bayonet ring that intervenes in bayonet recess of support body, where bodies are made from precise metal e.g. silver|

---

JP4993210B2|2008-02-25|2012-08-08|リズム時計工業株式会社|Fitting structure between front plate and back cover of watch body|

---

DE202008013898U1|2008-10-17|2009-01-08|Rühaak, Diedrich|jewel|

---

CH705090A2|2011-06-08|2012-12-14|Omega Sa|Device for adjusting angular orientation of screw-down crown relative to middle of watch, has indexing unit arranged between cover and coupling member of crown, and magnetic return unit to rotatably connect cover and coupling member|

---

CN104769511B|2012-11-02|2017-06-13|奥米加股份有限公司|For the device of the orientation of the screw-in element of clock and watch|

---

JP6255015B2|2013-06-20|2017-12-27|シチズン時計株式会社|clock|

---

CH709475B1|2014-04-07|2019-02-28|Sisyphus Trading LLP|Watch case and support element.|

---

US9568808B2|2014-08-07|2017-02-14|Houdinix Llc|Low-profile lens mount|

---

EP3002639B1|2014-10-01|2018-01-31|Montres Breguet SA|Musical watch bezel with improved acoustic performance|

---

CN105988358B|2015-02-26|2019-10-01|精工爱普生株式会社|Clock and watch with rotation watch rim|

---

CH710995A2|2015-04-27|2016-10-31|Eta Sa Mft Horlogere Suisse|Watch for mounting removable media.|EP3582028A1|2018-06-13|2019-12-18|Rolex Sa|Clock notching device|

---

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

法律状态:
2021-04-15| AZW| Rejection (application)|

优先权:

---

申请号 | 申请日 | 专利标题

---

EP16181146.8A|EP3276187B1|2016-07-26|2016-07-26|Casing subassembly for a timepiece, watch or jewel|

---