The present invention concerns a device for securing a back cover to the middle part of a watch. More specifically, the invention concerns a device of this type that can align the back cover relative to the 12 o'clock-6 o'clock axis of the watch.
It frequently happens that, when a back cover of a watchcase is screwed onto the middle part thereof, one realises that, when the back cover is completely screwed in, the markings or decorative patterns, which may for example, have been stamped or etched on the face of the back cover located on the side of the watch wearer's wrist, are not suitably aligned relative to the vertical 12 o'clock-6 o'clock axis of said watch, which, of course, is detrimental to the aesthetic appearance of the watch.
While this defect in appearance may be tolerated for cheap watches, it constitutes a very inconvenient drawback for more expensive watches.
In order to overcome this drawback, the only solution known in the past consists in matching a back cover with a determined watchcase during machining, in order to ensure that once completely screwed in, the back cover is perfectly aligned with the 12 o'clock-6 o'clock axis of the watch. This solution was, however, unsatisfactory since problems were likely to occur if the original back cover of the watch was ever lost or ruined and had to be replaced by another back cover, since one could only be certain that the back cover was properly aligned with the vertical 12 o'clock-6 o'clock axis once it was screwed onto the middle part.
The Applicant of the present Application in EP Patent Application No proposed a first solution to this problem. EP-A-1278108, which disclosed a device for securing a back cover onto the middle part of a watchcase, the back cover having an external peripheral threading. This device includes an intermediate assembly including a resilient locking element and a metal element concentric to the resilient locking element, this intermediate assembly being forcibly engaged in the bottom part of the middle part of the watch and the back cover being screwed onto the metal element, such that, when the back cover is completely screwed onto the metal element, the metal element can be pivoted by sliding over the resilient locking element as far as a stop point from which the resilient locking element can pivot in turn by sliding over the middle part of the watch, which adjusts the alignment of the back cover relative to the vertical 12 o'clock-6 o'clock axis of the watch.
The solution briefly described above has the merit of providing a first response to the problem of aligning the back cover of a watchcase relative to the 12 o'clock-6 o'clock axis of the latter. In particular, it ensures that the back cover will always be suitably aligned independently of the machining characteristics of said back cover and the middle part. However, this solution implements a large number of parts and requires the use of a pin driven into the middle part and forming a stop member, which, one might fear, is not sufficiently resistant.
It is an object of the present invention to overcome the aforementioned drawbacks in addition to others by providing a device for securing a back cover onto the middle part of a watch, which has a limited number of parts and which works reliably.
The present invention therefore concerns a device for securing a back cover onto the middle part of a watch, characterized in that it includes an intermediate element to which the back cover is connected, this intermediate element being screwed onto the middle part of the watch, means being provided to allow the back cover to drive the intermediate element in rotation until the latter reaches a locked position on the middle part, the back cover being further capable of being pivoted relative to the intermediate element without the latter being unscrewed in order to be aligned with the 12 o'clock-6 o'clock axis of the watch.
Owing to these features, the present invention provides a device whose small number of parts makes it easy to assemble and reliable in operation. After the intermediate element has been fully screwed into the middle part of the watch, the alignment of the back cover can be adjusted relative to the 12 o'clock-6 o'clock axis of said watch without said intermediate element being unscrewed, which makes the securing device according to the invention impossible to lose. Moreover, the torque to be exerted in order to pivot the back cover of the watch is much greater than the torque that could be exerted by hand, such that the alignment of said back cover cannot be inadvertently modified. It will be noted that the friction torque can be adjusted as desired depending upon the type of construction envisaged.
According to another feature of the invention, the back cover includes an oblong groove in the arc of a circle, in which a drive piece is housed, which is free to move therein and which cooperates with a stop member provided on the intermediate element to drive the latter in rotation until it reaches a locking position on the middle part.
The driven piece and the stop member provided on the intermediate element are extremely resistant, such that there is no risk of this part or stop member deteriorating.
Other features and advantages of the present invention will appear more clearly upon reading the following detailed description of an embodiment of the securing device according to the invention, this example being given purely by way of non-limiting illustration with reference to the annexed drawing, in which:
The present invention proceeds from the general inventive idea that consists in providing a device for securing a back cover onto the middle part of a watchcase for mounting the back cover onto the middle part in a perfectly water resistant manner while allowing the back cover to be orientated properly relative to the 12 o'clock-6 o'clock axis of the watch. This securing device further includes a limited number of parts, which makes it easy to assemble and reliable in operation.
The back cover 1 of the watchcase will be examined in more detail now with reference to
We will now examine in more detail intermediate element 10 and the way it enables back cover 1 to be mounted on middle part 12 of the watchcase with reference to
Hereafter, we will assume that drive part 6 is a ball and that connecting element 8 is a polygonal shaped spring. It goes without saying that these examples are given purely by way of illustration and that other types of drive and connecting members could be envisaged.
Securing device 4 according to the invention is mounted as follows. Polygonal shaped spring 8 is inserted into undercut 28 in intermediate part 10. This spring, of polygonal shape, is preferably formed of a single coil, which is inscribed substantially in a circle. It is formed of a series of rectilinear segments or flats 8′ arranged at an angle in relation to each other. Once spring 8 has been inserted in undercut 28 and ball 6 arranged in oblong recess 2, the assembly formed by intermediate element 10 and its spring 8 is fitted onto annular collar 16. This movement is interrupted when intermediate element 10 is stopped, via the heel 40 thereof, against the bottom of groove 20. At that moment, the two undercuts 26 and 28 are opposite each other and spring 8 can return to its rest position in the annular groove thereby formed. In this position, the top between two consecutive segments 8′ of spring 8 is for example abutting against intermediate element 10, whereas the middle of each of the segments 8′ that precedes and follows the top is abutting against annular collar 16. This arrangement makes back cover 1 totally inseparable from intermediate element 10 after assembly. Back cover 1 retains, however, the possibility of rotating relative to intermediate element 10.
Once back cover 1 and intermediate element 10 have been indissociably assembled to each other, this assembly is screwed onto middle part 12 via threads 36 and 38. A key is used to start to screw together the assembly formed by back cover 1 and intermediate element 10. Back cover 1 and intermediate element 10 rotate together for as long as the friction forces induced by spring 8 between said back cover 1 and said intermediate element 10 are greater than the tightening torque of said intermediate element 10 on middle part 12. Once the tightening torque becomes greater than the friction forces generated by spring, intermediate element 10 is immobilised and back cover 1 continues to rotate relative to said intermediate element 10. As it rotates, the back cover drives ball 6, which is stopped at the bottom of oblong recess 2. The rotation of back cover 1 relative to intermediate element 10 is continued until ball 6 abuts against the stop member 34 of said intermediate element 10, which projects into the bottom of circular groove 20. At that moment, back cover 1 and intermediate element 10 are again coupled in rotation and the rotation of back cover 1 imparts a tightening torque that screws intermediate element 10 completely onto middle part 12. When intermediate element 10 reaches a locking position on middle part 12, the screwing operation stops. In order to adjust the alignment of back cover 1 relative to the 12 o'clock-6 o'clock axis of the watch, the back cover has only to be rotated in the opposite direction to the direction of screwing. The back cover can be rotated through more than 360° since the sum of the diameter of ball 6 and the length of stop member 34 is less than the length of oblong recess 2. Of course, the torque to be exerted to adjust the alignment of back cover 1 has to be less than the tightening torque of intermediate element 10 on middle part 12. This torque must however be sufficiently high for the alignment of back cover 1 to be upset by hand. This torque is determined by sealing gasket 14 arranged between back cover 1 and middle part 12. It is estimated that a compression rate of sealing gasket 14 of at least 10% is necessary to achieve the desired objectives. It will be noted that the friction torque can be adjusted as desired depending upon the type of construction envisaged. In order to unscrew the assembly formed by back cover 1 and intermediate element 10, one need only continue to rotate back cover 1 in the opposite direction to the direction of screwing until ball 6 abuts against stop member 34 again. Thereafter, back cover 1 drives intermediate element 10 in rotation again, but this time in the direction of unscrewing.
It goes without saying that the present invention is not limited to the embodiments that have just been described and that various simple alterations and variants could be envisaged by those skilled in the art without departing from the scope of the invention as defined by the annexed claims.
Number | Date | Country | Kind |
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05019294.7 | Sep 2005 | EP | regional |
This is a National Phase Application in the United States of International Patent Application No. PCT/EP2006/008596 filed Sep. 4, 2006, which claims priority on European Patent Application No. 05019294.7, filed Sep. 6, 2005. The entire disclosures of the above patent applications are hereby incorporated by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/008596 | 9/4/2006 | WO | 00 | 3/6/2008 |