This application claims priority of European patent application No. EP 22212619.5 filed Dec. 9, 2022, the content of which is hereby incorporated by reference herein in its entirety.
The invention concerns a device for articulation of two timepiece components. It also relates to a timepiece as such including at least one such articulation device.
Various devices are used to fix together in an articulated manner two timepiece components, such as a part of a strap and a case of a wristwatch. In accordance with routine common prior art solution a watch middle has two pairs of horns, each pair of horns delimiting a housing to receive a link at the end of a part of a strap. A pin extending between the two horns of a pair of horns comes to be engaged with this link of the part of a strap, holding it in position between the two horns, while enabling relative articulation of the part of a strap and the watch case, by pivoting about this pin.
This way of mounting a part of a strap on a watch case, in particular on a middle, and likewise more generally an articulated assembly of two timepiece components, must ideally achieve the following objectives:
Existing solutions achieve the above objectives at least in part, but remain open to improvement. The present invention therefore has for an objective improving on the current situation.
The general object of the invention is therefore to define an improved solution for the articulated assembly of two timepiece components.
To be more precise, an object of the invention is to define a reliable and robust solution for articulation of two timepiece components.
To this end, the invention is based on a device for articulation of two timepiece components including at least one articulation pin and first and second timepiece components connected to one another in an articulated manner by means of the at least one articulation pin, wherein said two timepiece components each include first and second guide surfaces that cooperate with first and second articulation surfaces respectively of at least one articulation portion of the at least one articulation pin, said guide surfaces and said respective articulation surfaces being positioned face-to-face to guide by rubbing the movement in rotation of the respective timepiece components relative to said at least one articulation pin, the at least one articulation portion of the articulation pin or the at least one articulation pin being made entirely of ceramic, wherein the at least one articulation pin includes at least one portion of lower strength positioned out of reach of said guide surfaces of said respective timepiece components, and wherein the at least one articulation portion of the articulation pin or the at least one articulation pin includes an entirely continuous peripheral surface with no sharp edges, or wherein any section of the at least one articulation portion or of the articulation pin on a median longitudinal plane and any section of the at least one articulation portion or of the articulation pin on a transverse plane has a contour of continuous shape.
The invention is more precisely defined by the claims.
These objects, features and advantages of the present invention are described in detail in the following description of particular embodiments given by way of non-limiting example with reference to the appended figures, in which:
To simplify the description of the invention identical or corresponding elements of the various embodiments bear the same reference numbers.
In this embodiment the connecting element 11 takes the form of a part of a strap forming a connecting link. This connecting link is intended to be arranged at the end of a part of a strap 10. It advantageously has the same shape and the same appearance as the other parts of a strap.
Each horn of the receiving element 21 of the middle 20 includes a bore 21a that in particular takes the form of a blind hole. The respective bores 21a of the two horns are arranged on preferably substantially aligned axes. The bores 21a preferably have a circular cross section. The openings of the two bores are oriented toward one another. The space between the two horns defines a housing intended to be occupied by the connecting link of the part of a strap. The visible exterior surface of the horns does not feature any modification or any discontinuity that would degrade its appearance. Nevertheless, as an alternative, the two bores could be through-holes and/or be provided with bearing surfaces and/or have non-parallel orientations with respect to one another.
The articulation device further includes two articulation pins 1 intended to fix together or not, in articulated manner, the connecting element 11 and the receiving element 21. Note that the term “fixing” must be understood as meaning that the two timepiece components concerned cannot be detached from one another when they are fixed. Nevertheless, they retain at least one degree of freedom of movement in rotation relative to one another by means of at least one articulation pin, which produces an articulated fixing. As described in more detail hereinafter each articulation pin 1 is able to occupy two positions, a position projecting from the connecting element 11, as represented in
Thus the articulation device is designed to occupy at least two configurations:
Each articulation pin 1 is positioned in a housing 11a in the connecting element 11. Two housings 11a preferably extend along the same axis A1. Furthermore, the housings 11a take the form of a transverse through-hole. This hole therefore opens onto the two opposite lateral walls or flanks 11b of the connecting element. Each housing 11a allows an articulation pin 1 to slide freely along the axis A1 with one degree of freedom of movement in translation. This degree of freedom of movement in translation makes it possible to position the articulation pins 1 projecting from or retracted from the flanks 11b of the connecting element 11 so as respectively to enable mounting and demounting of the connecting element 11. As an alternative, each of the housings 11a could take the form of a blind hole opening onto the flanks 11b and/or provided with bearing surfaces.
The connecting element 11 further includes a recess 2a that is particularly visible in
In this embodiment the articulation pins 1 have identical shapes and are arranged in a symmetrical manner in the connecting element 11. This connecting element 11 has a shape that is substantially symmetrical with respect to a median plane perpendicular to the axis A1.
In accordance with the invention the articulation device includes at least one articulation pin 1 made entirely of ceramic or based entirely on ceramic, that is to say comprising at least 50% by weight of ceramic, or even at least 75% by weight, or even at least 90% by weight. By the adjective “entirely” is meant that the articulation pin or at least the articulation portions thereof is or are totally made of ceramic or totally based on ceramic, which is to say that the same material occupies all of the volume of the articulation portion or portions of the articulation pin 1, or even occupy all of the volume of the articulation pin 1, or substantially all of that volume. In this embodiment the two articulation pins 1 are preferably identical.
In all the embodiments envisaged it is advantageous to use a technical ceramic and preferably a sintered technical ceramic to form all or part of the articulation pin, as explained hereinabove. The adjective “technical” refers to the high-performance properties of the chosen ceramics. In fact, technical ceramics can achieve excellent mechanical, thermal, even electrical, and/or biochemical properties, as well as chemical inertness and amagnetism, which makes them appropriate for use to form an articulation pin. The technical ceramics used here are distinguished from traditional ceramics by their composition since they are obtained from purified synthetic powders and not from natural mineral powders such as feldspar or kaolin for example.
Furthermore, in all the embodiments envisaged ceramics based on zirconia are advantageously used because they have excellent mechanical properties. The ceramic is advantageously an yttria-stabilised zirconia of type 2Y or 3Y, namely respectively comprising an yttrium molar content of 2% or 3%.
In all the embodiments envisaged the ceramic used for the articulation pin is advantageously a “dense” ceramic, that is to say a ceramic the density of which is between 95% and 100% inclusive of the theoretical density of the ceramic material concerned.
In all cases the material of the articulation pin can be chosen so that the articulation pin or at least its articulation portion or portions have a hardness greater than 800 HV.
As mentioned hereinabove the articulation pin or at least its articulation portion or portions may be entirely made of ceramic, that is to say consist entirely of ceramic. As an alternative, it may be entirely based on ceramic, that is to say entirely made of a material comprising at least 50% by weight of ceramic, complemented by another material such as a metal or a metal alloy for example, thus forming a composite material.
In all cases the articulation pin or at least its articulation portion or portions advantageously take a one-piece monobloc form made entirely of the material defined hereinabove.
In accordance with this embodiment each articulation pin 1 has a continuous and cylindrical articulation portion that extends from a first external end of the articulation pin. This articulation portion defines a first articulation surface 1a intended to cooperate with the receiving element 21 and a second articulation surface 1e intended to cooperate with the connecting element 11.
To be more precise the receiving element 21 has a first guide surface formed by the peripheral surface of the bore 21a intended to cooperate with the first articulation surface 1a of the articulation pin 1. The connecting element 11 has a second guide surface formed by the peripheral surface of the housing 11a intended to cooperate with the second articulation surface 1e of the articulation pin 1. Said guide surfaces and said articulation surfaces are positioned face-to-face for guiding by friction the respective rotation movements of the receiving element 21 and the connecting element 11 relative to said respective articulation pin 1.
Each articulation pin 1 further includes a portion of lower strength positioned outside said articulation portion and in particular out of reach of said guide surfaces 1a, 1e. This portion of lower strength is arranged at the level of a second internal end of the articulation pin opposite the end toward which is arranged the first articulation surface 1a. It forms a functional portion of the articulation pin 1.
In particular this functional portion arranged at the level of this second internal end of each articulation pin 1 forms an abutment surface 1b. The attached element 2 has at least one first surface that defines an axial abutment 2b or stop intended to cooperate with this abutment surface 1b of each articulation pin 1 in order to retain it in the position projecting from the flanks 11b of the connecting element 11 when the attached element 2 is fixed to the connecting element 11. In other words, when the attached element 2 is fixed to the connecting element 11 its abutments 2b come into contact with the abutment surface 1b of the respective articulation pin 1 in the projecting position, thereby preventing the articulation pins 1 from retracting from the flanks 11b of the connecting element 11 so that the articulation pins 1 continue to project. The attached element 2 further includes a recess 2c at the periphery of the articulation pin 1 and out of reach of the latter.
Furthermore the articulation pin 1 includes in its functional portion a portion of lower strength because of the presence of a groove 1f. This groove in particular allows movement in translation of the articulation pin in the retracted position by means of a tool such as a pin or tweezers.
In accordance with this embodiment the bottom of the groove 1f is rounded or radiused in order to limit as much as possible stress concentrations. The groove 1f is separated from the abutment surface 1b by a part 1g of frustoconical shape about the axis A1 having a maximum diameter less than the diameter of the housing 11a in which the articulation pin is positioned. The geometry of this portion of lower strength is therefore such that it is never able to come into contact with the housing 11a and the recess 2c of the attached element 2, as can be seen in
In accordance with this embodiment the width of the groove 1f in the articulation pin 1 is of the order of 0.3 mm measured in the longitudinal direction of the articulation pin with a diameter less than approximately 0.85 mm. The radius of the rounding at the bottom of the groove is approximately 0.15 mm, i.e. approximately half said width. The diameter of the articulation portion is of the order of 1.3 mm and its length is of the order of 3.6 mm. The total length of the articulation pin is of the order of 4.5 mm.
To summarise, in this embodiment and in the absence of the attached element 2 each articulation pin 1 has two degrees of freedom of movement relative to the connecting element 11: movement in translation along the axis A1 and in rotation on itself about that same axis A1. When the articulation pins 1 are in their position projecting from the connecting element 11 fixing the attached element 2 makes it possible to eliminate the degree of freedom of movement in translation, the articulation pins 1 then remaining locked in their projecting position. These articulation pins 1 retain their degree of freedom of movement in rotation.
The operation of the articulation device in accordance with this embodiment of the invention is described next. When the device is in its fixing configuration, as depicted in
In accordance with this embodiment the middle, including its horns, and therefore the receiving element 21 and/or the connecting element 11 is made of metal, in particular of precious metal, such as gold or platinum, so as to be able to obtain a required aesthetic effect.
The invention is not limited to the embodiment described and may incorporate numerous variants. For example, as described above, an attached element 2 can take various forms. Furthermore, an attached element could be provided on a receiving element to cooperate with an articulation pin at the level of the receiving element. This cooperation may consist in blocking the degree of freedom of said articulation pin in movement in translation to retain it in the projecting position. In accordance with a variant, the same attached element or a plurality of attached elements could cooperate both with the connecting element and/or the receiving element. For example, an attached element can therefore be fixed to each of the horns of the middle 20.
In a further variant the receiving element arranged on the middle need not take the form of two horns, but for example the form of a single horn. In this variant the connecting element 11 arranged at the end of the part of a strap could consist of two complementary and distinct lateral elements each incorporating an articulation pin 1, these two articulation pins 1 being intended to occupy positions on respective opposite sides of the single horn to fix the part of a strap to a middle. An attached element is then arranged on the receiving element in the form of a single horn and each lateral element of the connecting element includes a pivot pin projecting into a bore in the single horn. The attached element immobilises these articulation pins in their projecting position. Each lateral element of the connecting element remains mobile in rotation relative to its respective articulation pin. Finally, the middle may therefore include at least one horn, in particular one or two horns. Any other middle architecture may be envisaged, in particular one including an element of the articulation device in accordance with the invention that does not necessarily take the form of one or more horns.
As mentioned above, in accordance with one embodiment the connecting element is arranged at the end of a part of a strap. When the latter includes an assembly of links, in particular metal links, the connecting element advantageously takes the form of a connecting link that has a shape identical or similar to that of other links of the part of a strap to give a continuous aesthetic effect. In accordance with a variant embodiment the part of a strap may be flexible, for example made of leather. In this case the connecting element may be integrated into the end of the flexible part of a strap, preferably in a totally or partially hidden manner. As an alternative it may take the form of a metal end arranged at the end of the flexible part of a strap.
In accordance with a further variant the connecting element is arranged on a watch case, in particular on a middle, and the receiving element is arranged on a part of a strap. For example, the construction of the articulation device described above could be reversed. That is to say, the receiving element 21 could be a part of a strap and the connecting element 11 could be one or more horns of a middle.
In addition to this, in all the variants described above the attached element may include means for acting on a pivot pin during positioning thereof in a recess and/or during its removal from the connecting element and/or from the receiving element, so as to drive said articulation pin in movement in translation to move it automatically from its retracted position to its projecting position and/or vice-versa.
Moreover, an embodiment compatible with all the embodiments described is based on an articulation device in which the attached element is removable. In accordance with an embodiment of this kind the attached element is advantageously removed from the articulation device when the latter is in its first configuration. It is fixed to this articulation device in the second configuration. The invention is nevertheless not limited to an articulation device equipped with an attached element as described. In a simplified variant the articulation device could have only one configuration or be actuated by any means other than by means of an attachment element as described.
More generally, the invention is not limited to the embodiment described and variants thereof. Firstly, it is not limited to an articulated device for the articulated assembly of a part of a strap and a middle but applies to any articulation of two timepiece components, such as two links of the same part of a strap. The embodiment described above and variants thereof can therefore be reproduced for the articulated connection of any two timepiece components.
Additionally, the invention is not limited to the precise geometry of the various elements represented. In particular, the articulation device may include a single articulation pin. It comprises more generally at least one articulation pin. An articulation pin of this kind may take forms other than that represented. For example the articulation portion of an articulation pin could have shapes other than a cylindrical shape. For example this articulation portion and therefore at least one articulation surface could be conical or frustoconical. The cross section of the articulation portion could also be circular or non-circular. It could for example comprise three lobes or have any other continuous shape.
The articulation pin has two articulation surfaces to cooperate by rubbing with each of the two timepiece components. These two articulation surfaces may be substantially juxtaposed on the same articulation portion of the articulation pin. In a variant the articulation pin may comprise two articulation portions. It is mainly by way of this articulation portion or these articulation portions that the articulation pin is subjected to the various loads when the watch is worn.
In all cases the articulation pin includes at least the articulation portion or portions having an entirely continuous peripheral surface, with no sharp edges, and the articulation pin is preferably entirely continuous, with no sharp edges, including the portion or portions of lower strength. Any section of at least the articulation portion or portions of the articulation pin on a median longitudinal plane and any section of at least the articulation portion or portions of the articulation axis on a transverse plane advantageously has a contour of continuous shape. This shape enables it to withstand the mechanical loads to which it is subjected. In fact, stress concentrations are limited as much as possible, consequently optimising the strength of the articulation pin, because it does not have any sharp edges or its profile does not feature any abrupt change of size.
As mentioned above, the articulation pin includes a portion of lower mechanical strength. In accordance with a variant it may include two or more than two portions of lower mechanical strength. This portion or these portions of lower mechanical strength of the articulation pin is/are in a zone out of reach of or distinct from the articulation portions so that these portions of lower strength are not loaded when the watch is worn. In other words the articulation pin includes at least one portion of lower strength and that at least one portion of lower strength is positioned outside said articulation surfaces. Furthermore the at least one portion of lower strength is advantageously part of a functional portion of the articulation pin that is entirely inscribed inside a cylinder having a diameter less than the diameter of the articulation pin at the level of the articulation portion or portions. The portion of lower strength may include a groove that may have a shape other than that represented, which may be any notch around the articulation pin, and not necessarily circular. More generally, the portion of lower strength of the articulation pin corresponds to a zone of the articulation pin that has a cross section transverse to the articulation pin with a lower stiffness (quadratic moment) than the section having the lowest stiffness (the lowest quadratic moment) of the articulation portion.
An articulation pin in accordance with the invention may have a length between 2.9 and 11 mm inclusive. The articulation portion or portions may be cylindrical or non-cylindrical. It or they may be inscribed in a cylinder having a diameter between 0.9 and 2 mm inclusive. The at least one portion of lower strength of the articulation pin may be a groove of rounded shape with no sharp edges. This groove may have a rounded surface. It may have a section on a median longitudinal plane the width of which is between 0.2 and 0.4 mm inclusive. The at least one portion of lower strength may have a depth less than or equal to 0.7 times said width, or even less than or equal to 0.6 times said width. The groove bottom section may be inscribed in a circle having a diameter greater than or equal to 0.6 times the smallest section of the articulation portion.
With the various features referred to above the articulation pin in accordance with the embodiments of the invention described above is able to resist traction forces in a longitudinal direction of the first timepiece component of at least 200 N without breaking. The various tests carried out have even made it possible to demonstrate that the articulation device with two ceramic articulation pins withstands traction forces on a part of a strap of more than 900 N, i.e. more than 450 N per articulation pin. The dimensions of the portion of lower strength are such that the articulation pin is able to withstand an axial traction force of approximately 20 N in order to guarantee that the articulation pin can be withdrawn from a receiving element without breaking.
The invention also relates to a timepiece as such, in particular a wristwatch, including at least one articulation device as described. An articulation device of this kind is advantageously arranged on respective opposite sides of the watch case, in particular of the middle, for the removable fixing of each part of a strap. It may also serve to interconnect the links of a part of a strap.
Number | Date | Country | Kind |
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22212619.5 | Dec 2022 | EP | regional |