This application claims priority to European Patent Application No. 18205997.2 filed on Nov. 13, 2018, the entire disclosure of which is hereby incorporated herein by reference.
The invention relates to an assembly of elements and more specifically to an item comprising several sets of elements assembled to each other. The elements may form the links of a bracelet, of a decorative article or of a jewelry item.
There is known from EP Patent No. 2803286 a link assembly system where at least a part of the links is made of a hard material, such as diamond or ceramic, allowing little or no plastic deformation during assembly. In the illustrative case of a bracelet, the latter is a result of the assembly of several assembly systems. For a three-row bracelet, each assembly system comprises two external links and one central link. The external links each have a blind hole and the central link has a through hole. The assembly system includes a pin mounted in the through hole of the central link. The pin has, at one end, an external thread cooperating with an internal thread provided in the blind hole of one of the external links. At its other end, the pin is press-fitted and welded in a socket screwed into the blind hole of the other external link. This assembly system makes it possible to secure the three rows of links without plastic deformation of the external links, with a permanent fastening made by welding the pin in the socket. Next, or concomitantly, the assembly system is secured to another assembly system and so on to form the bracelet. In order to assemble two assembly systems to each other, each external link has a second (blind or through) hole and each central link has a second through hole. The second hole of each external link of an assembly system is respectively intended to receive one end of a pin which is mounted in the second through hole of the central link of another assembly system. The ends of the pin ensuring the assembly between the two assembly systems are freely mounted in the external links. In practice, it is observed that it is not optimal to assemble the two assembly systems in this manner. Indeed, the external links can move slightly from their initial position revealing a gap with the central link, which impairs the aesthetic appearance of the bracelet.
It is an object of the present invention to overcome the aforementioned drawbacks by proposing a mounting arrangement between the assembly systems that makes the item obtained more rigid to avoid any such movement of the external links.
To this end, the invention relates to an item comprising at least two assembly systems, which will be referred to here as sets of assembled elements, connected to each other by a permanent securing device. According to the invention, the permanent securing device comprises a pin mounted in a through hole of a central element of a set. This pin is mounted at each end in a blind recess of a side element belonging to another set. At one end, the pin is secured in the blind recess by locking means, for example by a screw connection. At its other end, it is welded to a socket which is itself secured by locking means inside the blind recess of the side element. Alternatively, the other end is driven into the socket which is itself secured by locking means inside the blind recess of the side element. The item of the invention is defined according to claim 1.
The addition of a permanent securing device to connect the sets to each other stiffens the bracelet by limiting deformation during bending, extension or twisting and thereby maintains the original aesthetics.
Other features and advantages of the present invention will appear more clearly from the following description of a preferred embodiment, provided by way of non-limiting example, with reference to the annexed drawings.
The present invention relates to a mounting arrangement or a means of assembly between at least two sets of assembled elements. Said elements are, for example, links intended to form a bracelet, a decorative article or a jewelry item. The means of assembly is more specifically suited for assembling elements made wholly or partly of hard materials. The term “hard materials” according to the invention refers to materials whose hardness is substantially equal to or greater than 600 HV and which allow little or no plastic deformation before breaking. By way of non-limiting example, the following may be cited as hard materials: enamels, precious or non-precious stones, such as ruby, sapphire or quartz, ceramics such as a metallic or non-metallic oxide, carbide or nitride, or hard metals.
According to the invention, each set includes elements assembled in a similar manner to that described in EP 2803286. Concomitantly to the assembling of the elements in each set, the sets are assembled to each other by means of a permanent securing device.
Prior to detailing this means of assembling the sets to each other, the assembly within each set of elements is described with reference to Patent No. EP 2803286. Each set 1, delimited by dotted lines in
First and second elements 3, 5 each include a first blind recess 2, 4, whereas third element 7 includes a first through hole 6. As shown in
Permanent securing device 9 includes a pin 11 mounted in through hole 6 of central third element 7. At a first end, pin 11 includes a first means 8 of locking inside first blind recess 2 of element 3. As seen more clearly in
Portion 14 of pin 11 forms said first end where said first locking means 8 is located. In the example seen in
The socket 13 represented in more detail in
In a variant presented in
This set 1, 31 is assembled with another set and so on in order to form an item, such as, for example, a bracelet, a decorative article or a jewelry item.
The invention therefore relates to an item 21, 51 comprising at least two sets 1, 31. According to the invention, the two sets 1, 31 are also connected to each other by a permanent securing device 9′.
Referring to item 21 of
It is clear that, as for first through hole 6, depending on the play allowed or the respective shape of through hole 24 and of pin 11′, third central element 7 may or may not be able to pivot with respect to the first and second side elements 3, 5 which surround it. Just as for first through hole 6, through hole 24 may have a cross-section of non-circular shape matching that of pin 11′ to prevent any relative pivoting between the third element and the first and second side elements. Conversely, it is possible to envisage through hole 24 having a circular cross-section matching that of pin 11′ to allow such relative pivoting.
For item 51 seen in
The method for assembling sets 1 is explained below. In a first step, elements 3, 5, 7 are made, for example, with the various holes or recesses 2, 4, 6, 27, 28, 24 which are formed immediately or machined afterwards. In a second step, sockets 13 and 13′ are mounted in recesses 4 and 28 respectively of side element 5 via locking means 18 and 18′. In a third step, pins 11, 11′ are mounted in recesses 2 and 27 respectively of side element 3 via locking means 8 and 8′. Of course, the second and third steps can be inverted.
In a fourth step, portions 10, 10′ and 12, 12′ of pins 11, 11′ projecting from first side element 3 are respectively fitted, as regards first pin 11, in first through hole 6 of a third element 7 of a set 1, and as regards second pin 11′, in second through hole 24 of the third element 7 of an adjacent set 1. In a fifth step, the second end of each pin 11, 11′, i.e. portion 12, 12′, projecting from third elements 7 is press fitted against internal wall 19, 19′ of each socket 13, 13′ mounted in second side element 5.
Finally, in a sixth and final step, the second end of each pin 11, 11′, is welded to the internal wall 19, 19′ of the corresponding socket 13, 13′. This welding is advantageously contact free and preferably uses magnetic induction heating. Consequently, it is clear that pins 11, 11′ and sleeves 13, 13′ are preferably formed by an electrically conductive material like a metal, such as steel, for example. Advantageously, the press-fitting operation performed in the fifth step facilitates welding in the sixth step and avoids heating the sets for too long. At the end of the sixth and final step, the elements 3, 5 and 7 of each set are completely integral, as are the sets with one another, and can only be disassembled by breaking the weld between sockets 13, 13′ and pins 11, 11′.
If there are more than three elements as illustrated in
Of course, this invention is not limited to the illustrated examples but is capable of different variants and modifications that will appear to those skilled in the art. In particular, the various locking means 8, 8′, 18, 18′ may be of a different nature to devices of the internal thread 15, 15′, 25, 25′/external thread 16, 16′, 26, 26′ type and/or be of a different nature from each other. By way of non-limiting example, one or more locking means could also be formed by bayonet devices providing durable, low-stress attachment like the internal/external thread devices.
In a variant, the first and second pins can be made of titanium and in such case, said ends 12, 12′ of the pins are driven into said second sockets 13, 13′, which are also preferably made of titanium. The use of titanium for the pins and sockets has the particular advantage of providing a more rigid attachment of the links than with steel pins thereby improving the resistance of the bracelet.
Further, the number, dimensions and geometry of the elements for each set may be different without losing the advantages of the invention.
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18205997 | Nov 2018 | EP | regional |
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Korean Office Action dated Dec. 24, 2020 in Korean Patent Application No. 10-2019-0136258 (with English translation), 10 pages. |
European Search Report dated Mar. 19, 2019 in European Application 18205997.2 filed on Nov. 13, 2018 (with English Translation of Categories of Cited Documents). |
Combined Chinese Office Action and Search Report dated Mar. 29, 2021 in corresponding Chinese Patent Application No. 201911099265.0 (with English Translation and English Translation of Category of Cited Documents), 11 pages. |
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Number | Date | Country | |
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20200146403 A1 | May 2020 | US |