This application is a continuation of International Patent Application PCT/EP2006/050323 (WO2006/079605) filed on Jan. 20, 2006 under priority from Swiss patent application 2005CH-00113 of Jan. 25, 2005, the contents of which are hereby incorporated by reference.
The present invention concerns a clasp with unfolding buckle for wristlet, in particular a clasp with unfolding buckle for watch bracelet.
WO03/022090, in the applicant's name, describes a clasp with unfolding buckle having two push-pieces that can be actuated by moving them in opposite sense against the action of two spring bars. The guiding of the push-pieces is ensured by the external walls of a cover and by the rods engaged in blind holes in both push-pieces. In order to exclude a displacement of the push-pieces along a non-transverse direction, which could cause the device to grip, it is necessary to machine the transverse walls of the cover with strict tolerances. Furthermore, the thickness of these walls must be considerable in order to ensure an accurate guiding. This solution, though reliable, is thus expensive. Furthermore, assembling the clasp is a delicate operation and requires a casing to be screwed onto the cover.
EP 1247469 describes another clasp with unfolding buckle having two push-pieces. Two spring rods are necessary for moving the two push-pieces apart from one another and to ensure a perfectly parallel displacement. The size of the push-pieces is thus necessarily considerable and the cost increased by having two spring rods. Furthermore, the push-pieces of this construction are held back by the two central blades only when the clasp is locked. The buttons risk however becoming disunited from the clasp when the latter is open.
EP914781 describes another clasp construction having two push-pieces that can be actuated along opposite directions. The pieces are pushed back against the lateral walls of a cover thanks to a compressed spring. The clasp risks becoming disassembled if the user presses simultaneously on both pieces with sufficient force.
CH665101 describes a wristlet clasp having push-pieces that bank one against the other to limit their displacement. The push-pieces thus take up a considerable volume at the centre of the clasp and the stopping of the push-pieces is clean only when both push-pieces are guided correctly when they are displaced.
GB2273736 describes a wristlet clasp having two push-pieces whose amplitude of movement is limited by stoppings. These stoppings are not removable and are not connected to the push-piece. The assembly is complicated and the clasp requires a large number of distinct parts to insert the push-pieces over the stoppings.
CH668353 describes another example of clasp with two push-pieces. The push-pieces can be inserted easily, despite the stoppings, since they are only loosely guided into the clasp; there are however not satisfactorily held, especially when the clasp is open.
One aim of the present invention is to propose an improved clasp with unfolding buckle, in particular a clasp that allows at least certain of the mentioned problems to be solved.
In particular, one aim of the present invention is to propose a clasp with unfolding buckle that is more economical, more reliable and/or easier to assemble than the known clasps.
These aims are notably achieved by means of a clasp having the claimed elements, in particular by means of a clasp with unfolding buckle for wristlet, having:
a first blade,
at least a second blade articulated with said first blade,
at least one push-piece that can be actuated against the action of an elastic element for unlocking said clasp,
at least one stopping for limiting the amplitude of displacement of said push-piece along at least one axis,
said stopping being connected removably with said push-piece.
This solution has notably the advantage of making the clasp's assembly easier. In fact, before the stopping is assembled, the push-piece can preferably be moved freely along said axis, which allows it to be inserted easily into the clasp. The assembly is finished by connecting the stopping or stoppings to the push-piece or push-pieces, which allows their displacement to be limited and to prevent notably that they become disassembled or disunited from the clasp.
In a preferred embodiment of the invention, it becomes impossible to disassemble the push-pieces when the stoppings are connected to the push-pieces and becomes easy when this removable connection is interrupted.
The stoppings allow for example:
in locked position, to limit the amplitude of displacement of said clasp both along a transverse axis and long a vertical axis,
and in unlocked position, to limit the amplitude of displacement of said clasp along a transverse axis only.
In this text, the transverse axis refers to the wristlet. The push-pieces are actuated by a translation movement along this transverse axis, and the stoppings allow the displacement in at least one direction, preferably in both directions, to be limited, which make it notably possible to avoid the risk of both push-pieces coming completely out of the clasp. The vertical axis is perpendicular to the plane of the wristlet's ends; the clasp is opened by lifting its cover along one direction having at least one vertical component. The locking of the stopping's vertical displacements thus allows the clasp to be locked.
The present invention will be better understood by reading the description given by way of example and illustrated by the attached figures in which:
a resp. 7b are side resp. top views of the second unfolding blades of the inventive clasp.
a resp. 8b are side resp. top views of the first unfolding blades of the inventive clasp.
The clasp illustrated in the figures is designed to be used with supple wristlets, for example leather or rubber wristlets, or with bracelets formed of rows of metallic links. It includes a first inside blade 3 that folds back between two second outside blades 1. In folded position, the blades 1 and 3 thus take up a single width. The two blades 1 and 3 are articulated with one another by means of a pin going through a hole 14 at one end of the two blades.
The first inside blade 3 is connected in an articulated manner with a clasp cover 5, by means of a pin or a spring bar going through a hole 31 and lodged in blind holes in the cover's lateral walls. A first end of the wristlet (not illustrated) is connected with the other end of the cover 5; in the illustrated example, several holes or blind holes 50 are provided in the lateral walls of the cover 5 in order to allow a fine adjusting of the wristlet's length by modifying its fastening point on the cover 5.
The second outside blades 1 are articulated at their other end with a second end of the wristlet (not illustrated) connected with the blades 1 by a pin going through a hole 12.
The metallic cover 5 has at least three orthogonal sides defining a volume that allows the locking mechanism to be hidden and protected. Each of the two lateral sides is provided with an opening 113 through which one of the two push-pieces 7 goes.
The clasp illustrated in the figures has two blades 1 and 3, so that its length can be approximately doubled when unfolded. The inventive clasp applies however also to other types of unfolding buckles, including Z buckles, butterfly buckles, etc.
The inventive clasp has two push-pieces 7 protruding outside the lateral walls of the cover 5. The clasp can be unlocked by pressing the two push-pieces simultaneously, in a transverse direction. An elastic element 9 engaged in blind holes 72 (
The inventive clasp further includes a guiding element 13 illustrated in particular in
The clasp further has two stoppings 11 to limit the displacement of the push-pieces. The stoppings 11 are connected removably to the corresponding push-pieces 7. In the illustrated example, each stopping 11 has one head 110 and one shaft 111. The shaft of each stopping 111 is screwed into a hole 71 in each of the two push-pieces. The head of the stopping 111 can be split so as to allow screwing by means of a screwdriver. In a preferred embodiment, one portion of the shaft of the stopping 11 protruding from the push-piece 7 is provided with an unevenness or a polygonal rim allowing it to be screwed or unscrewed by means of a wrench; this embodiment has the advantage of hiding the screw slit and to limit the risk of a user unscrewing the stoppings accidentally. A drop of glue or other means allowing the unscrewing to be made more difficult can also be used.
The stoppings 11 could also be connected to the corresponding push-pieces by other means, for example gluing, clipping, etc.
The stoppings 11 move transversely in a plane parallel to the wristlet with the push-pieces 7 when the latter are actuated or released. For this purpose, two oblong windows 130 are provided in the guiding element 13 parallel to the latter's axis; the stoppings traverse these windows that guide their displacement. The amplitude of transverse displacement of each of the two stoppings is limited by the contact with the two rims of the corresponding window.
In a variant embodiment, only the amplitude of displacement imposed by the bar is limited by the windows 130 whilst the direct contact of the two push-pieces to one another or the contact of the bar 9 or with other elements of the clasp, allows the amplitude of displacement in the opposite sense to be limited when the user presses on the push-pieces.
In another variant embodiment, a single oblong window oriented parallel to the axis of the guiding element is provided in the lateral side of said guiding element, the transverse displacement of each stopping, when the push-pieces are pushed back by the elastic element, is limited by the side of each extremity of the single window.
In locked position, the shaft of the stoppings 11 goes through openings 10 resp. 30 in the blades 1 resp. 3. The head 110 of the stoppings 11, whose diameter is greater than that of that of the shaft, is held under the blades 1 and 3 by a contact portion 100 constituted in this example by an unevenness in the half-circle opening 10 through the second outside blades 1. The heads of the stoppings 11 cooperate with said outside blades, thus locking the blades 1 and 3 to prevent the vertical displacement of the cover 5 and the clasp's opening in locked position.
In unlocked position, when the user presses on the push-pieces 7, the stoppings move in the direction of the central axis of the blades 1, 3 until the head of the stoppings 11 disengage from the contact portion 100 and arrive opposite the half-circle openings 30 whose greater diameter allows the heads to pass. In this position, the clasp can be opened by lifting the cover 5 and the first inside blade 3 by a rotation movement around the axis 34. In a variant embodiment, a spring can be provided to ensure an automatic opening of the clasp when the push-pieces are sufficiently pressed in.
In the illustrated clasp, the stoppings traverse the openings 10, 30 through the two blades 1 and 3. This solution allows optimum access to the openings 10, 30 when the wristlet is open and makes it easier to clean this sensitive zone. In the frame of the invention, it is also possible for each of the stoppings to move in oblong windows through one only of the blades 1 or 3, for example through the outside blade 1.
The stoppings' head preferably comes just close to the lower side of the blades 1 and 3 in folded position. In order to avoid any risk of the user being injured, the stoppings' heads as well as the windows 10, 30 in which they move preferably have a rather non-aggressive shape, without sharp angles. In a variant embodiment, not illustrated, the stoppings 11 lock onto a locking portion provided on the upper side of the blades 1 and/or 3, that can then remain without through openings.
The inventive clasp is assembled by inserting, from the outside, the two push-pieces 7 through the corresponding openings in the lateral walls of the cover 5; the bar 9 is previously positioned in the guiding element 13 so as to lodge in the blind holes 72 of the push-pieces 7 whose insertion it guides. The push-pieces 7 are then sufficiently pressed in each in its turn, against the force exerted by the spring bar 9, until the holes 71 arrive opposite the openings 130 in the guiding element 13. The stoppings 11 can then be screwed in the blind holes, through the windows 130, and by means of a wrench or any other tool, not illustrated.
Number | Date | Country | Kind |
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0113/05 | Jan 2005 | CH | national |
Number | Name | Date | Kind |
---|---|---|---|
1689640 | Newman | Oct 1928 | A |
6449809 | Thalheim | Sep 2002 | B2 |
20040168469 | Tetu et al. | Sep 2004 | A1 |
Number | Date | Country |
---|---|---|
665101 | Apr 1988 | CH |
668353 | Dec 1988 | CH |
684151 | Jul 1994 | CH |
63166 | Oct 1982 | EP |
914781 | May 1999 | EP |
1247469 | Jun 2005 | EP |
2273736 | Jun 1994 | GB |
09000320 | Jan 1997 | JP |
WO 9422340 | Oct 1994 | WO |
03022090 | Mar 2003 | WO |
Number | Date | Country | |
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20070283537 A1 | Dec 2007 | US |
Number | Date | Country | |
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Parent | PCT/EP2006/050323 | Jan 2006 | US |
Child | 11781296 | US |