END PIECE

Abstract

An end piece arranged to be detachably fixed to a bar, the end piece including: a groove intended to house the bar; a rotating part able to pivot about an axis parallel to the bar between a locking position, in which the rotating part prevents the bar from leaving the groove, and a release position, in which the rotating part allows the bar to be respectively introduced into or extracted from the groove; and a locking mechanism arranged to block the rotation of the rotating part. This end piece can be handled by the user, who can fix it to a bar and detach it from the bar without requiring any tooling.

Claims

1. End piece arranged to be removably secured to a bar, said end piece comprising: a channel intended to accommodate said bar; a rotating part capable of pivoting about an axis parallel to said bar between a locking position in which the rotating part prevents the bar from leaving said channel, and a release position in which the rotating part allows the bar to be inserted into or removed from the channel; a locking mechanism arranged to block the rotation of the rotating part said rotating part comprising a first surface, the locking mechanism comprising a first locking element on a second surface of the rotating part, a second locking element in the end piece, upon rotation of said rotating part, the relative position between the second surface and said second locking element changes until said second locking element cooperates with said first locking element so as to block the rotation of said rotating part in the locking position, characterized in that said first locking element is a hole in the second surface, said second locking element is a lever, one end of said lever being opposite said second surface, and in that, upon rotation of said rotating part, the relative position between the second surface and said lever changes until said lever drops into said hole, thus blocking the rotation of said rotating part in the locking position.

2. End piece as claimed in claim 1, wherein the rotating part has an asymmetric shape arranged to block or release the bar.

3. End piece as claimed in claim 1, comprising said axis, the rotating part comprising a groove extending in the direction of said axis, said groove comprising a first bottom.

4. End piece as claimed in claim 1, comprising an entry surface, said entry surface comprising a recess and said channel, said channel comprising a second bottom and two lateral surfaces, said rotating part being engaged in said recess.

5. End piece as claimed in claim 3, wherein: in said release position, the first bottom is opposite said entry surface or one of the two lateral surfaces, in the locking position, the first bottom is located opposite the second bottom, so that both said first bottom and said second bottom surround the bar, thus securing the end piece to the bar.

6. End piece as claimed in claim 1, comprising an elastic element that cooperates with said lever so that, at rest, said lever is pushed by said elastic element towards said second surface of said rotating part.

7. End piece as claimed in claim 1, comprising a plug comprising said lever and/or said elastic element.

8. End piece as claimed in claim 1, said second surface comprising a guide groove, one end of said guide groove comprising said hole.

9. End piece as claimed in claim 1, said locking mechanism being arranged to act in a direction parallel to the bar, said second locking element allowing unlocking of the end piece, being movable parallel to the bar and being located under one face of the end piece, which face is intended to be against the user when the end piece is worn by the user.

10. End piece as claimed in claim 1, said locking mechanism comprising a grip part arranged to be manipulated by a user in order to unlock the end piece.

11. End piece as claimed in claim 1, said end piece comprising another recess for receiving said lever, this recess being arranged to allow said lever to move counter to the elastic force of said elastic member so as to cause it to exit from said hole, said movement being substantially linear in the direction of said bar.

12. Removable securing system comprising: the end piece as claimed in claim 1, a bar.

13. System as claimed in claim 12, said bar being dimensioned so that when the bar advances in the channel, it comes into contact with the rotating part, causing it to rotate about said axis.

14. System as claimed in claim 12, comprising a part linked to the end piece, said part being for example a bracelet, in particular a bracelet for a wristwatch.

15. Method for releasably securing an end piece to a bar, said end piece comprising a rotating part comprising a first surface and a second surface, the second surface comprising a first locking element which is a hole in the second surface, a second locking element which is a lever, one end of said lever being opposite said second surface, said method comprising the following steps: accommodating said bar a channel of said end piece; pivoting a rotating part about an axis parallel to said bar between a locking position in which the rotating part prevents the bar from leaving said channel, and a release position in which the rotating part allows the bar to be inserted into or removed from the channel, wherein during the pivoting of said rotating part, the relative position between the second surface and said lever changes; locking the position of the rotating part when said lever drops into said hole, thus blocking the rotation of said rotating part.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0054] Exemplary embodiments of the invention are indicated in the description illustrated by the appended figures, in which:

[0055] FIG. 1 shows an exploded perspective view of an embodiment of the end piece according to the invention.

[0056] FIG. 2 shows another perspective view of an embodiment of the end piece according to the invention.

[0057] FIG. 3 shows a side view of the embodiment of the end piece of FIG. 2.

[0058] FIG. 4 shows a view from below of the embodiment of the end piece of FIG. 2.

[0059] FIG. 5 shows a view from above of the embodiment of the end piece of FIG. 2.

[0060] FIG. 6 shows a side view of the embodiment of the end piece of FIG. 1, when the end piece is not secured to a bar.

[0061] FIG. 7 shows the side view of FIG. 6, when the end piece is secured to a bar (not shown).

[0062] FIG. 8 shows the side view of FIG. 6, when the end piece is detached from a bar (not shown).

EXEMPLARY EMBODIMENT(S) OF THE INVENTION

[0063] FIG. 1 shows an exploded perspective view of an embodiment of the end piece 200 according to the invention. It can be removably secured to a bar, for example a watch case bar (not shown). At least part of the bar is intended to engage in the channel 22 of the end piece 200.

[0064] In the variant shown, the end piece 200 comprises a rotating part 10, which has an essentially cylindrical shape, for example in the shape of a roller. This rotating part 10 is arranged to rotate about an axis 19. In the variant shown, the axis is substantially parallel to the channel 22 of the end piece 200 (and therefore to the bar). In the illustrated variant, the axis 19 is arranged to link the rotating part 10 to the end piece 200.

[0065] In the illustrated variant, the rotating part 10 comprises: [0066] a first surface S1, comprising a groove 11 extending in the direction of the axis 19, [0067] a second surface S2, comprising a first locking element 170.

[0068] As will be seen, the groove 11 makes it possible to block or release the bar. It should however be understood that the presence of this groove 11 is not necessary to block or release the bar, and that the rotating part 10 could have a shape arranged to block or release the bar, for example an asymmetrical shape, without necessarily comprising a groove.

[0069] In the example shown, the first locking element 170 is a hole, in particular a blind hole, in the surface S2. This can be obtained for example by drilling the surface S2. In the example shown, this hole 170 is located at the end of a guide groove 17 in the surface S2.

[0070] In the example shown, a second locking element 16 is located opposite and/or in contact with the second surface S2. In the example shown, the second locking element is a lever 16, one end of which is in contact with the second surface S2 under the action of an elastic element (the spring 18 in the example shown).

[0071] The diameter of the rotating part 10 is not constant along its length. Indeed, its diameter is larger at the ends, so as to have more room for cooperation between the first locking element and the second locking element.

[0072] In the example of FIG. 1, the second surface S2 of the rotating part 10 is substantially perpendicular to the axis 19, however according to variants, the angle between the second surface S2 and the axis 19 may be different from 90°.

[0073] The rotating part 10 is accommodated in a recess 21 provided in the end piece 200. In the variant shown, the end piece 200 comprises holes 24 (only one of which is visible in FIG. 1), which serve for receiving the axis 19. The axis is therefore inserted into these holes 24 and then into a hole 14 passing through the rotating part 10, so as to allow the rotating part 10 to be secured to the end piece 200. Other connection means can be provided to link (directly or indirectly) the rotating part 10 to the end piece 200 via the axis 19.

[0074] As is better shown in FIG. 2, the channel 22 of the end piece 200 comprises a bottom 220. This can be obtained by cutting away the end piece 200, in particular its entry surface 23.

[0075] In the variant of FIG. 1, the spring 18 (or any other elastic element) cooperates with the lever 16 so that at rest (that is to say in the release position) the lever is pushed by the spring 18 against the second surface S2 of the rotating part 10. In other words, the spring 18 at rest is compressed and stores elastic energy.

[0076] In the variant of FIG. 1, a plug 13 receives both the lever 16 and the elastic element 18. In another variant, the plug 13 receives the lever 16 or the elastic element 18.

[0077] In the variant of FIG. 1, the end piece 200 comprises another recess 20 for receiving the lever 16 and possibly also the elastic element 18 and the plug 13.

[0078] In the variant of FIG. 1, a grip part 12 is as one with the lever 16 (or in general with the second locking element). It is arranged to be manipulated by a user to unlock the end piece 200. In the variant of FIG. 1, the grip part 12 comprises a body 120, having a section substantially in the shape of a semi-circumference, and a ring 122, allowing it to be connected to the lever 16. In particular, the lever 16 is inserted into the ring 122.

[0079] The grip part 12 also has grooves 121, to make it easier for the user to grip. The grip part 12 is arranged to come into contact with the user. Its shape and dimensions allow it to be handled by the fingers of a user while allowing this contact with the user to be as pleasant as possible.

[0080] FIG. 2 shows another perspective view of an embodiment of the end piece 200 according to the invention, at rest.

[0081] As can be seen in FIG. 3, which shows a side view of the embodiment of the end piece 200 of FIG. 2, the bottom 110 of the groove 11 of the rotating part 10 is not located opposite the bottom of the channel 22 of the end piece 200. As is clearer from FIG. 3, the bottom 110 of the groove 11 is opposite a lateral surface 221 of the channel 22 of the end piece 200. In the variant of FIG. 6, which illustrates another side view of the embodiment of the end piece 200, the bottom 110 of the groove 11 of the rotating part is substantially opposite the entry surface 23 of the end piece 200.

[0082] FIG. 4 shows a view from below of the embodiment of the end piece 200 of FIG. 2, on the user side. FIG. 5 shows a view from above of the embodiment of the end piece 200 of FIG. 2. In FIG. 5, a small part of the grip part 12 is visible to the user. However, this part of the grip part 12 will be hidden by the part (for example a bracelet whose end piece represents the first link).

[0083] FIG. 6 shows a side view of the embodiment of the end piece 200 of FIG. 1, when the end piece 200 is not secured to the bar.

[0084] When the user inserts the bar into the channel 22 of the end piece 200 (or brings the end piece 200 close to the bar), the bar engages in the channel 22, the height of the bar being smaller than the height h2 of channel 22.

[0085] Since the rotating part 10 is engaged in the recess 21 of the end piece 200 so that, in the release position, the first bottom 11 is facing the inlet surface 23 or one of the two side surfaces 221 of the channel 22, the height available for advancing the bar in the channel 22 is not constant and varies between a maximum value (the height h2 of the channel 22 at the entry surface 23) and a minimum value h1.

[0086] In a preferred variant, the height of the bar is between h2 and h1.

[0087] As the bar continues to advance in the channel 22 of the end piece 200 under the action of the user pushing it, and as the rotating part 10 is free to rotate about its axis 19, at a given moment it comes into contact with the rotating part 10, making it rotate about its axis 19 in the direction of rotation indicated by the arrow F1 in FIG. 7.

[0088] In the example shown in FIGS. 6 and 7, when this rotation takes place, the relative position between the second surface S2 of the rotating part 10 and the second locking element (the lever 16) changes until the second locking element cooperates with the first locking element (the hole 170) so as to block the rotation of the rotating part 10 in the locking position.

[0089] In the locking position, the first bottom 110 is located opposite the second bottom 220, so that both the first bottom 110 and the second bottom 220 surround the bar, thus securing the bar to the end piece 200 (or the end piece 200 to the bar).

[0090] In the variants of FIGS. 1, 6 and 7, the second surface S2 of the rotating part 10 comprises a guide groove 17 to guide the relative movement between the second surface S2 of the rotating part 10 and the second locking element (the lever 19). In these variants, the first locking element is a hole 170 at one end of this guide groove 17. The guide groove 17 can therefore also serve to limit the rotation of the rotary element 10.

[0091] When the lever 16 drops into the hole 17, thus blocking the rotation of the rotating part 10 in the locked position, there may be an audible click, which allows the user to understand that the securing has been carried out successfully.

[0092] In correspondence with the release position (illustrated for example in FIG. 2, 3 or 6), the rotating part 10 does not rotate if a bar is not engaged in the channel 22 of the end piece. In one variant, this is obtained by simple friction of the rotating part 10 against the end piece 200.

[0093] To unlock the end piece 200, the second locking element (the lever 16 for example) is moved away from the rotating part 10 as illustrated by the arrow F2 parallel to the bar (FIG. 8), therefore allowing the rotating part 10 to pivot when the second locking element is pulled out. The part 10 is rotated in a direction counter to the direction of rotation during the engagement of the bar (that is to say in a direction counter to that of the arrow F1 in FIG. 7).

[0094] Advantageously, the actuation of the second locking element during the detachment of the end piece 200 from the bar takes place from below the part (for example a bracelet of a wristwatch) to which the end piece 200 is linked.

[0095] Advantageously, the actuation of the second locking element during the detachment of the end piece 200 from the bar takes place laterally, that is to say parallel to the bar.

[0096] In one variant, the recess 20 for receiving the lever 16 is arranged to allow the lever 16 to move counter to the elastic force of the elastic member 18 so as to cause it to exit from the hole 170, the movement being substantially linear in the direction of the bar.

[0097] As the grip part 12 experiences a force when unlocking the end piece 200, in one variant it is made of a material which is strong in tension, for example metal. It can also be made of a hypo-allergenic material (since it comes into contact with the user's skin) and which makes it easier to grip, for example rubber.

REFERENCE NUMBERS USED IN THE FIGURES

[0098] 11 Groove of the rotating part (groove) [0099] 12 Grip part [0100] 13 Cap [0101] 14 Hole of the rotating part [0102] 16 Second locking element (lever) [0103] 17 Guide groove [0104] 18 Elastic element [0105] 19 Axis [0106] 21 First recess [0107] 20 Second recess [0108] 22 Channel [0109] 23 Entry surface [0110] 110 Bottom of the groove of the rotating part [0111] 120 Body of the grip part [0112] 121 Grip groove [0113] 122 Ring [0114] 170 Hole [0115] 200 End piece [0116] 220 Bottom of the channel [0117] 221 Side walls of the channel [0118] S1 First surface of the rotating part [0119] S2 Second surface of the rotating part [0120] F1 Arrow [0121] F2 Arrow [0122] h1 Minimum value of the available height for the advance of the bar in the channel [0123] h2 Maximum value of the available height for the advance of the bar in the channel (height of the channel)