This application claims priority from European Patent Application No. 09176352.4 filed 18.11.2009, the entire disclosure of which is incorporated herein by reference.
The invention relates to the field of watchmaking or jewellery. It concerns more specifically a device for securing a strap or bracelet to an object, in particular to a watchcase.
Generally, straps or bracelets, made of leather or metal are fixed to the horns of a watchcase, via a bar formed of a tube, in which are mounted two pistons that can move in translation, and an elastic member arranged between said pistons which tends to drive them towards the exterior of the tube. Said bar is mounted in a housing provided for this purpose at one end of the strap or bracelet, and the pistons are engaged in blind bores made facing each other in the horns of the case.
To remove a strap or bracelet secured to a case in this manner, a tool is required, designed to push the pistons back into the tube, against the force exerted by the elastic member, and thereby remove the pistons from the bores. The person wearing the watch does not permanently have such a tool available and, further, the use thereof can be inconvenient. This is why straps and bracelets provided with this type of securing device are generally permanently attached to the watch.
There also exist securing devices that allow the strap or bracelet to be removed from the case without using a tool. Such devices usually include a bar, of the type described above, on which a member for actuating the pistons is mounted, passing through the tube. Said actuating member is, for example, a radial finger integral with one of the pistons, as described in CH Patent No 327838. The finger is slidably mounted through an axial slot made in the tube and the movement thereof along the slot pushes one of the pistons back inside the tube. In CH Patent No. 697152, the actuating member is a push-button movably mounted radially through the tube. The pistons are provided with support surfaces located opposite each other when the two pistons are head to tail inside the tube. The push-button includes two arms that cooperate with said support surfaces so as to draw the pistons towards the inside of the tube when said push-button is pushed in.
The securing devices thus described are generally used for interchangeable straps or bracelets, which can be replaced as the user desires. They are not, however, free of drawbacks. It will be noted, in particular, that they require major structural alterations to the bar, such as, for example, making an opening in the tube, or transforming the pistons. These changes lead to significant increases in manufacturing costs. These securing devices further include a projecting element, namely the actuating member, which may become caught on or injure the person wearing the watch.
The present invention overcomes these drawbacks by proposing a device for securing a strap or bracelet that includes a standard bar and at least one non-projecting actuating member. More precisely, the invention concerns a device for securing a strap or bracelet to an object, particularly a watchcase, including a bar formed of a tube in which there are housed at least a first piston that is mobile in translation and an elastic member that tends to drive the piston towards the exterior of the tube. According to the invention, the securing device further includes a mechanism for actuating the bar, including a first bent arm, slidably mounted axially relative to the bar between a retracted position A and a deployed position B, and one end of which cooperates with the first piston to push said piston towards the interior of the tube, and a first control member cooperating with the first arm to move it from retracted position A to deployed position B and vice versa.
Owing to the bent shape thereof the sliding arm can actuate the piston from the exterior of the bar, via one of the ends thereof, without any structural modification of the bar.
In an advantageous embodiment of the invention, the first control member is formed of a lever pivotally mounted above the first arm, between a turned down position C, and an upright position D, respectively corresponding to the deployed position B and withdrawn position A of the first arm.
Owing to this feature of the control member, the latter does not project relative to the rest of the device when the piston is in deployed position B, in particular when the strap or bracelet is secured to a watchcase.
In one possible embodiment, the strap or bracelet includes a housing in which the bar is mounted, and the actuating mechanism is fixed to the strap or bracelet in proximity to the bar. In another possible embodiment, the actuating mechanism is integral with the bar and the strap or bracelet includes a housing containing said mechanism, the first control member being mounted so as to emerge from the housing.
Other features and advantages of the present invention will appear more clearly from the following detailed description of an example embodiment of a device for securing a strap or bracelet according to the invention, this example being given purely by way of non-limiting illustration, with reference to the annexed drawings, in which:
The securing device shown in
According to the invention, securing device 1 further includes a mechanism 20 for actuating bar 10, mounted on the inner face of the strap or bracelet, above housing 11. It includes a support element 21, secured to the strap or bracelet at the location described above. Support element 21 is, for example, glued or screwed onto the leather strap. In the metal bracelet, it can be screwed, welded or snap fitted in a cavity 22 provided for such purpose. In the embodiment shown, support element 21 is formed overall of a flat parallelepiped. In a variant, it could be formed of two U-shaped bars mounted opposite and parallel to each other.
Actuating member 20 for bar 10 is shown in
The long strands 25 are slit at the ends thereof, each thus separating into two fingers 30 forming an elastic U-shape in the plane of said strands 25. Fingers 30 are provided with a protruding portion 31, extending outwards in the plane of strands 25. Slots 23 are provided with a first constricted portion 32 for guiding arms 24 and for cooperating with protruding portions 31 to prevent arms 24 from exiting cavities 23 in deployed position B. They further include a second constricted portion 33, located in proximity to the bottom thereof, for cooperating with protruding portions 31 to lock arms 24 in retracted position A. Long strands 25 are further provided with an aperture 34, located in proximity to the bend in arms 24, the function of which will become clear below.
It will be noted that, if support element is formed of two, parallel-mounted, U-shaped bars, arms 24 are slidably mounted inside said bars. Like slots 23, the bars are then provided with constricted portions 32 and 33 for locking arms 24.
Actuating mechanism 20 for bar 10 further includes two control members 35 for arms 24, pivotally mounted on support element 21, between a turned down position C and an upright position D, above arms 24. Said control members 35 are overall formed of a lever, pivotally mounted about an axis BB perpendicular to axis AA and approximately parallel to the plane of support element 21. Said lever is bent so as to form an actuating finger 36 oriented at right angles or a slightly obtuse angle, which is engaged in aperture 34 in long strands 25.
The securing device thus described operates as follows. Control members 35 are normally in turned down position C on support element 21. In this position, fingers 36 engaged in apertures 34 push arms 24 towards the exterior of cavities 23. Arms 24 are then locked in deployed position B, on one side by actuating fingers 36 and on the other side by constricted portion 32. In this deployed position, pistons 14 of bar 10 are driven towards the exterior of tube 13 by the elastic member inserted between them. The end thereof projects relative to the strap or bracelet. When control members 35 are tilted into upright position D, actuating fingers 36 engaged in apertures 34 push arms 24 towards the interior of cavities 23. Arms 24 are then locked in retracted position A, by constricted portion 33. In this retracted position, short strands 26, resting on shoulders 29, keep pistons 14 inside housing 11, against the action of the elastic member inserted between pistons 14. In this upright position D, the strap or bracelet can be engaged between the horns of a watchcase, provided with blind bores. To secure the strap or bracelet to the case, control members 35 need only be folded down onto casing 31 in position C. The end of pistons 14 engages in the bores and the strap or bracelet is secured to the case. To remove the strap or bracelet from the case, the user need only place control members 35 back upright in position D. Pistons 14 are then released from the blind bores and the strap or bracelet is released.
Thus a device 1 for securing a strap or bracelet has been described, provided with a standard type bar and allowing said strap or bracelet to be mounted on or dismantled from a case, without using a tool. Of course, the device for securing a strap or bracelet according to the invention is not limited to the embodiment that has just been described and various simple alterations and variants can be envisaged by those skilled in the art without departing from the scope of the invention as defined by the annexed claims.
It will be noted, in particular, that the securing device 1 described above exhibits symmetry relative to a plane perpendicular to axis AA of bar 10. It is thus provided with two sliding pistons 14, actuated by two arms 24, which are controlled by two control members 35. However, securing device 1 could include a single sliding piston 14, the other piston 14 then being fixedly mounted. In that case, assembly of the strap or bracelet on the case would have to start with the introduction of the fixed piston in a bore in the horn, with the mobile piston in the retracted position. Once the strap or bracelet is housed between the two horns and the fixed piston is engaged in its bore, the mobile piston would have to be actuated in the deployed position.
Moreover, in the embodiment shown, actuating mechanism 20 for bar 10 is separate from bar 10, and directly mounted on the strap or bracelet. In a variant, actuating device 20 for bar 10 could be integral therewith, with the support element being welded or secured via flanges to the tube. The bar-actuating mechanism assembly would then be mounted in a housing 11 provided for that purpose, from which only control members 35 would emerge.
Number | Date | Country | Kind |
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09176352 | Nov 2009 | EP | regional |
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Number | Date | Country | |
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20110113594 A1 | May 2011 | US |