The present invention concerns a device for fastening interchangeable watchstraps with sliding lock mechanism, in particular for watches and jewelry.
One important element of the external parts of a watch is the watchstrap allowing it to be fastened to the wrist.
The evolution of lifestyles and fashion has created new needs, in particular regarding changing watchstraps, to adapt it to the circumstances, clothing or fashion of the time period.
Quality watches often use conventional means for fastening the watchstrap, i.e. clips or horns with a site for the end of the watchstrap. This watchstrap can be made in leather, metal, or any other material adapted to this use. To ensure reliable fastening of the watchstrap on the watch, they should be made integral with each other. In many watch fastening systems, a cylindrical lug is used, at least one of the two pivots of which is mobile axially. This lug is integral with the watchstrap strand by a through opening, formed in the latter part. The pivots are housed in bores, provided face-to-face in the horns of the watch. Because of this, the watchstrap is integral with the watch, via the lug, on the longitudinal axis and the vertical axis. The longitudinal axis is defines by the axis of the watchstrap, whereas the vertical axis is defined in reference to the thickness of the watch, perpendicularly to the general plane defined by the watch. Blocking on the transverse axis, i.e. the axis of the lug, is ensured, in both directions, by the fastening means of the watch, since the distance between the horns is practically equal to the width of the watchstrap. Ordinarily, the inner faces of the horns, in which the bores are formed intended to receive the pivots of the barrette, are parallel to each other, and generally parallel to the longitudinal axis of the watchstrap.
The watchstrap therefore cannot be changed instantaneously or easily by the wearer of the watch. The wearer must then address the seller, who uses appropriate tools.
The present invention aims to provide a watchstrap fastening device to meet the new needs, in the perspective described above, i.e. to allow the user to change the watchstrap easily, without tools and reliably.
Many known patents share proposals to resolve the same problem: how to change a watch watchstrap oneself quickly and without tools and still ensure the reliability of the connection?
U.S. Pat. No. 3,217,374 proposes fastening the watchstrap using the usual holes formed in the horns and comprising two pins mounted on sliding sleeves and connected to push pieces, placed in the first link of the watchstrap and kept separated by a spring. Pushing on the push buttons at the same time causes the two sleeves to slide toward the center of the space between the horns, which releases the strand of the watchstrap. One significant drawback of this device resides in the difficulty of putting the watchstrap strand into place since, unlike the invention, there is no guide to bring the pins opposite the bores of the horns. Another major drawback is that there is a risk of an unfortunate motion or pressing actuating one of the push-pieces, which could be enough to release the watchstrap and lose the watch.
Patent application WO 03/070044 also uses push-pieces which are driven into orifices placed on the same axis as the barrette holes. A spring holds the push-piece toward the outside of the horn, thus freeing part of the barrette hole. The watchstrap strand is provided with a retractable barrette at both ends and its placement is traditional. To remove the watchstrap strand, it is necessary to push on the two push-pieces at the same time, which causes the pins to go into the barrette, freeing the watchstrap. The drawbacks noted in the aforementioned patent are applicable here as well.
U.S. Pat. No. 5,914,913 aims to resolve the same problem. In this case, the slides are replaced by a type of screwed crowns, each provided with a pin at their end. The first link of the watchstrap comprises an orifice in which the pins are embedded when the crowns have been tightened. Here again we must note the absence of guide during placement of the watchstrap strands.
The present invention aims to realize interchangeable watchstrap fastening via a sliding lock mechanism made up of a groove formed on each side of the first link of the watchstrap strand, groove in which a pin is found attached to a head placed on the lower face of the link and kept separated by a spring. A skid, provided with one beveled edge, is placed on each horn. This skid comprises a recess designed to receive the corresponding pin. The fastening is done by directing the watchstrap strand toward the space between the horns. The skids, with their beveled ends, engage in the grooves of the first link and force the pins to go into their housing until they are opposite the countersunk recess in the skids where they can assume their place, pushed by the spring. In order to release the watchstrap strand, it is necessary to grasp a control organ in order to separate the pins from the passage arranged in the skids, making it possible to pull on the watchstrap strand in order to release it from the space between the horns.
Through this new design, the watchstrap is integral with the watch on its three axes. Its fastening is thus ensured and is reliable.
The embodiments of the invention, in no way limiting, are now described using the following drawings:
The inner faces of the horns 2 are provided with skids 8 with one beveled end 9. The skids 8 are arranged in order to cooperate with the grooves 5 and to slide within. Skids 8 and grooves 5 define together guiding means, which facilitate the assembly of the watchstrap strands 3 on the middle 1, as well as the reverse operation.
Each skid 6 further comprises a recess 10 which at least partially interrupts the wall of the skid. The dimensions of the recess are adapted to lodge a pin 6 when the watchstrap strand 3 is locked on the middle 1. Pins 6 and corresponding recesses 10 form locking means for fastening a watchstrap strand 3 on the middle 1.
Each pin 6 is therefore able to switch between:
As shown on
Thus, if a user wants to fasten a watchstrap strand 3 to a watchcase according to the invention, he has simply to engage the skids 6 inside the grooves 5, the cooperation of which operates a perfect guiding of these pieces. The pins 6 are therefore only under the influence of the springs and are in a position called “out”, corresponding approximately to their second state. When the pins 6 arrive in contact with the beveled ends 9 of the skids 8, they retract progressively inside the link 4, by the action of the user who engages further the skids 8 in the grooves 5. Simultaneously, the spring becomes compressed. When the pins 6 arrive at the level of the recess 10, they automatically penetrate in the recess 8, under the action of the release of the spring, and become into their second state. The watchstrap strand 3 is therefore fastened to the watchcase middle 1. Thanks to the guiding means, both pins 6 of a strand fasten almost simultaneously, with no risk of being slanted or put out of true. To disengage the watchstrap from the watchcase, the user actuates the control organ by tightening one head 7 against the other. This action leads to get the pins 6 closer to each other and to bring them back to their first state. When the pins 6 are not engaged in the recesses 10 any more, the user can simply move away the strand from the watchcase, this displacement being still guided by the sliding of the skids 6 in the grooves 5, until complete release of them.
In
In order to bring the pins 6 to their first state, the user rotates the button 15, that will involve the rotation of the rocker 14. Some securing means may be arranged so that the button can be rotated only in a direction. For example, some bankings 13 are arrange inside the first link 4. The button 15 can therefore only be actuated so that the pins 6 are retracted. The position of the button 15 is set so that, at rest, i.e. when the watchstrap is locked on the middle 1 of the case or when the watchstrap is separated from the case, the button is disposed in an aesthetic manner in reference to the strap, for example, parallel to the longitudinal axis.
The rocker 14 presents a double cam shape, each cam defining an active face 18a and a circular face 18b. Each pin 6 is mounted integral with a sliding element 19, able to slide transversally inside the first link 4 so that the pin 6 can move between its first and second states. Each sliding element 19 comprises, on the opposite of the cam of the rocker, a recessed part 20 which defines a straight side 20a arrange to cooperate with the active face 18a of the cam, and a concave side 20b, arranged so that the circular face can move in front of it without any contact. Thus, the button 15 can be actuated in both directions. In a first one, it will pull in the sliding element 19 and the pin 6 and, in a second one, it will have no effect.
To maintain the pins 6 in their second state, one spring is arranged to push on each sliding element. More precisely, for one of the sliding element 19a, the spring 22a is arranged between the sliding element 19a and a support element 23 arranged in a fixed manner inside the first link 4. The spring 22a can be guided on a shaft integral with the sliding element 19a or with the support element 23 and able to be engaged into an opening arranged, respectively, in the support element 23 or in the sliding element 19a. For the other sliding element 19b, another solution is proposed, which requires less place. The spring 22b is interposed between both sliding elements 19a and 19b, one replacing the support element i.e. the sliding element 19a located in direction of the cam. The guiding shaft is integral with this sliding element 19a used as a support. The guiding shaft can be engaged into an opening arranged in the other sliding element 19b. The spring 22b advantageously pushes both sliding pieces into their second state. Moreover, such a configuration is very optimal for size of the device.
It can be added that the surfaces of the elements, which are intended to glide on each other, i.e. beveled ends, ergots . . . can be coated with a lubricant or with a low friction factor material.
The embodiments described above are in no way limiting and the application of the invention is not restricted to horology. It can also be used in jewelry or for other fasteners in various applications.
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Number | Date | Country | |
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20110197400 A1 | Aug 2011 | US |