The present invention relates to a watch case comprising a middle, a tube which is integral with the middle and is provided with a thread, a control crown provided with a thread which can be screwed onto the thread of said tube, the control crown comprising an outer part with a distinctive mark which can be seen from the exterior, and an inner part which is accommodated inside of the outer part and is provided with said thread which can be screwed onto the thread of the tube, one of said parts comprising means for connection to a control rod, and in particular to a rod of a winding mechanism, and clamping means in order to keep said outer part and said inner part axially in an angular position which is determined relative to the longitudinal axis of said tube.
The production and assembly of crowns to be screwed onto watch cases are well known.
However, when the outer surface of the outer part of the crown has a distinctive mark, for esthetic reasons it is important to be able to guarantee that the distinctive mark is in an angular orientation which is determined relative to the longitudinal axis of the tube of the watch case to which the crown is screwed. Otherwise, the angular position of the distinctive mark is random.
A watch case of the aforementioned type has already been proposed in EP 1 701 225. In this document, the inner surface of the outer part comprises a frusto-conical surface, and the inner element of the crown has a second, complementary frusto-conical surface.
Resilient clamping means are used to clamp the two frusto-conical surfaces axially against one another in a relative angular orientation wherein the distinctive mark is in the required angular position.
With this solution, the conicity of the two frusto-conical surfaces must be almost identical. An excessively great difference of conicity would no longer make it possible to guarantee the securing of the outer part and the inner part of the crown after clamping, with the risk of permitting relative angular displacement of the outer part and the inner part. Furthermore, a flat seal is interposed between the inner surface of the base of the crown and the end of the tube onto which it is screwed. Since the compression of this seal depends on the degree of screwing of the crown, the precision of the angular orientation of the crown is necessarily limited.
EP 1 151 357 describes a watch case comprising a screwed crown, a ring which is positioned in an inner annular groove of the crown, and is provided with an inner female thread, and an intermediate tube comprising a threaded outer section which is designed to receive the inner female thread of the ring.
The inner female thread of the ring is indexed relative to a distinctive mark which is situated on an outer surface of the crown, and the intermediate tube is secured to the case such that it can be oriented and secured angularly relative to the case by means of a nut.
This solution is quite difficult to implement industrially, since the blocking of the nut generates clamping torque, whereas any retention in position is problematic because of the absence of areas of grasping, and because of the restricted space inside the watch case. In addition, this solution requires a template and a camera in order to index the inner female thread of the ring, and it involves a welding operation.
EP 1 411 401 describes a crown which comprises on an outer surface an added-on decorative element which bears a distinctive mark and can be oriented angularly relative to the crown by means of the use of resilient braking means.
This solution does not make it possible to obtain a satisfactory esthetic finish, since the join between the crown and the decorative element remains visible. In addition, the decorative element can be displaced accidentally because of the use of the resilient braking means.
EP 1 124 167 describes a screwed crown, the tube of which is not screwed into the middle of the watch case, but into a deformable alloy ring with shape memory which makes it possible, by means of its temporary deformation further to a temperature change which can change the phase of the shape memory material, to create play between the crown and the middle, in order to orient the crown angularly relative to the middle, according to a particular orientation.
This solution is problematic to implement since the change of phase of the shape memory material involves relatively large differences of temperature, whereas this material must resist oxidation in the case of coupling with noble materials, such as gold or platinum for example. Finally, this solution involves the risk that the two parts of the crown will become separated when the watch is subjected to extreme temperatures, such as, for example, when it is left in direct sunlight or behind glass, or when it is subjected to temperatures which are distinctly lower than 0° C. EP 1 727 005 describes a watch case crown which is screwed onto a threaded ring which is integral with a tube secured to the middle. This threaded ring is mobile in rotation, and is turned such that its thread is adjusted in a particular position before being blocked by means of a blocking unit such as a nut. Thus, the adjusted position of the thread of the threaded ring makes it possible to determine the final orientation of the crown.
However, this solution does not make it possible to obtain a precise orientation, and requires a tool in order to be able to release the ring from the blocking unit, so as to orient it and block it without it turning.
EP 2 182 417 describes a screwed crown which has three tubes, the first tube being connected to the crown and being screwed onto the second tube, the third tube being arranged so as to receive the second tube, the second tube and the third tube comprising indexing means.
The third tube comprises inner toothing which is provided on the inner periphery, and is designed to co-operate with a toothed crown of the second tube. The second tube and the third tube are kept blocked in translation by a ring, and form a sub-assembly with a thread which can be oriented, onto which the crown which is associated with the first tube is screwed.
The angular orientation is determined once and for all, and is directly associated with the number of teeth which are present on the second tube and the third tube, and the number of indexing positions is necessarily limited as a result of the small diameters of these tubes. Furthermore, this solution requires three tubes, and is difficult to put into place.
The object of the present invention is to eliminate at least partly the disadvantages of the solutions according to the above-described prior art.
For this purpose, the subject of the present invention is a watch case of the aforementioned type, and according to claim 1.
The appended drawing illustrates schematically and by way of example two embodiments of a watch case comprising a screwed crown which is the subject of this invention, as well as variants of the first embodiment.
A crown C comprises an inner part 2 comprising a base 2b which has a circular lateral wall on its periphery.
This inner part is accommodated axially inside an outer part 10 which bears a distinctive mark S which can be seen from the exterior. This mark S can occupy a certain angular position around the longitudinal axis of a tube 3, according to the position of the crown C once it is screwed onto this tube.
In the first embodiment represented in
The inner part 2 of the crown C comprises a tubular sleeve 2i which bears on its inner end a coupling ring 5 with a polygonal opening in order to be engaged with a complementary polygonal coupling element 7 provided on the rod 12 of the winding mechanism.
A helical spring 6 is arranged in the sleeve 2i. It is supported firstly against the base of the tubular sleeve 2i, and secondly against a support surface 12a which is integral with the rod 12 of the winding mechanism.
The inner part 2 also comprises a thread 2d which is provided on the inner surface of a lateral wall 2h which surrounds the tubular sleeve 2i and is used to screw the crown C onto a thread 3a provided on the outer lateral surface of the tube 3.
In all the figures which illustrate the present invention, the rod of the winding mechanism is represented in the engaged position, whereas the winding mechanism crown C is represented in the screwed position. In reality, when the winding mechanism crown C is screwed onto the tube 3, the crown is displaced axially, whereas the rod 12 of the winding mechanism remains fixed. Consequently, the engagement ring 5 is displaced axially together with the crown C, such that it becomes separated from the coupling element 7 and compresses the helical spring 6 between the base of the crown C and the support surface 12a of the rod of the winding mechanism. The winding mechanism crown C is thus represented as if there were no watch movement inside the watch case, which does not cause a problem for the understanding of the invention.
The inner part 2 which is integral with the ring 5, the helical spring 6 and the rod 12 of the winding element together with the polygonal coupling element constitute a sub-assembly when it is introduced into the tube 3, inside which there are two O-ring seals 8 and 9. This sub-assembly is already known and is described in EP 0 556 155 and CH 686 596.
The inner part 2 of the crown C comprises micro-toothing or grooves 2a provided on a circular outer lateral surface of the lateral wall 2h. The outer part 10 of the crown C comprises complementary toothing or grooves 10a provided in the inner surface of its lateral wall, in which the inner part 2 of the crown C is accommodated. This complementary toothing or these grooves act(s) as an angular indexing means around the longitudinal axis of the tube 3.
The inner surface of the lateral wall of the outer part of the crown C also has a thread 10c situated between its opening and the toothing or grooves 10a, into which there is screwed a thread 11a which is provided on the periphery of a clamping ring 11. The inner wall of this clamping ring 11 comprises an axial support surface 11b which is designed to be engaged with the front end 2e of the lateral wall 2h of the inner part 2 which acts as a stop.
In order to permit the screwing of the ring 11, the latter comprises grasping means, in this case grooves 11c on its inner surface, and the outer part 10 of the crown comprises other means, in this case grooves 10d on its outer wall, which permit engagement with appropriate tools in order to screw the clamping ring into the outer part 10, until the base 2b of the inner part 2 meets the base 10b of the outer part.
The torque with which the clamping ring 11 is screwed is high enough for it not to become loosened, and for the inner part 2 to be kept blocked axially, thus perpetuating the blocking in rotation of the indexing toothing or grooves 2a, 10a.
A variant of this first embodiment of the screwed crown C is represented in
This variant is distinguished from the embodiment in
In another variant of the first embodiment represented in
For this purpose, an annular hollow 2g is provided in the base of the inner part 2. This annular hollow 2g is designed to permit the expansion of the O-ring seal 9 when it is compressed. The geometry of this hollow 2g makes it possible to guarantee steady support between the surface 3b of the tube 3 and the surface 2c of the inner part 2, whilst reducing the dimension of the crown C.
The fitting and orientation of the first embodiment of the crown C on the middle 1 of the watch case are carried out according to the following steps.
In a first step, the tube 3 is screwed in a sealed manner into the middle 1, with interposition of the seal 4. The sub-assembly A, constituted by the inner part 2 of the crown C, connected to the elements 5, 6 and 7, as well as the rod 12 of the winding mechanism, is screwed onto the tube 3. This screwing is carried out until the sub-assembly A is screwed to a torque which is close to the maximum torque which the user of the watch can exert on the crown. The surfaces respectively 3b of the tube 3, and 2c of the inner part 2 of the crown C, which are both perpendicular to the longitudinal axis of the tube 3, are then in rigid mechanical contact, thus constituting axial stops which define a reproducible screwing position.
In a second step, the outer part 10 of the crown C is introduced by axial translation on the sub-assembly A which is already screwed onto the middle 1, whilst imparting to the symbol S the angular orientation which is closest to that required. During this translation, the indexing toothing or grooves 2a of the inner part and 10a of the outer part interpenetrate one another. The precision of the angular orientation of the symbol S of the outer part 10 around the longitudinal axis of the tube 3 depends on the pitch of the toothing or grooves 2a, 10a. The smaller this pitch is, the better the precision of the angular positioning of the symbol S.
In a third step, the sub-assembly A on which the outer part 10 is arranged is unscrewed whilst maintaining the contact between the surfaces 2b and 10b, until the thread 2d has separated from the thread 3a of the tube 3.
In a fourth step, the sub-assembly A and the outer part 10 of the crown C are displaced together in translation such as to obtain complete withdrawal of these two elements relative to the middle 1. For this purpose, the length of the toothing 2a of the inner part 2 must be sufficient for the indexing means 2a of the sub-assembly A and those 10a of the outer part 10 to remain engaged, since the two parts 2 and 10 of the crown C have not yet been rendered integral with one another.
In a fifth step, the thread 11a of the blocking ring 11 is screwed into the thread 10c of the outer part 10 by means of a tool which is engaged respectively with the grooves 11c and 10d. The screwing of the parts 10 and 11 makes it possible to keep the toothing or grooves 2a and 10a engaged when the support surface 11b is pressed against the end 2e of the lateral wall 2h of the inner part 2, and to make up for the initial play, thus permitting the introduction of the inner part 2 into the outer part 10.
The preceding operations have made it possible to render the sub-assembly A integral with the outer part 10 of the crown C, and to obtain a complete crown C.
The crown C and in particular its inner part 2 is then screwed again onto the tube 3, and the distinctive mark S is placed once more in the angular position selected during the second step. This operation can be repeated without loss of orientation of the distinctive mark S in view of the rigid contact between the stop surfaces 3b and 2c perpendicular to the longitudinal axis of the tube 3, thus guaranteeing the reproducibility of the angular position of the screwed-on crown C, and therefore that of the mark S.
In the second embodiment represented in
In order to enable this sub-assembly B which bears the symbol S to be oriented, a thread 24d of the inner part is screwed onto a thread 23a of the tube 23. The outer part 20 and the inner part 24 are then secured to one another axially, as in the preceding embodiment, by means of a clamping ring 25.
The inner part 24 is in the form of a cylindrical ring, the outer lateral surface of which is provided with micro-toothing or grooves 24a engaged with complementary micro-toothing or grooves 20a provided on the inner lateral surface of the outer part 20 of the crown C. The inner surface of the ring 24 comprises an axial stop surface 24C in order to come into contact with a support surface 23b of the tube 23. These stop surfaces 23b, 24c are perpendicular to the longitudinal axis of the tube 23, and act as stops in order to determine a limit screwing position of the crown C which is reproducible, thus making it possible to guarantee the precision of the angular position of the distinctive mark S.
The clamping ring 25 is used to render the sub-assembly B and the ring 24 integral by means of a thread 25a which is provided in its axial opening, and is engaged with a thread 20c provided on the outer lateral surface of the tubular sleeve 20h of the outer part 20 of the crown C, such as to keep the stop surfaces 20b and 24b supported, as well as the support surface 25b of the ring with the axial stop surface 24e of the inner part 24.
In this second embodiment, the fitting and orientation of the screwed crown C are carried out according to the following steps.
In a first step, the ring 24 is screwed onto the tube which is already rendered integral in a sealed manner with the middle 1 by means of a seal 4. This screwing is stopped once the ring 24 is screwed to a torque which is close to the maximum torque which the user of the watch will exert on its crown C, and the support surface 23b is in rigid mechanical contact with the end 24c of the inner part 24 of the crown C.
In a second step, the sub-assembly B constituted by the outer part 20 connected to the coupling elements 15, 16, 17 and to the rod 12 of the winding mechanism is introduced axially and is oriented angularly on the ring 24, whilst engaging the toothing or grooves 24a and 20a. The angular orientation of the sub-assembly B is that which is to be imparted to the symbol S.
In a third step, the sub-assembly B and the ring 24 are unscrewed, whilst maintaining the contact between the stop surfaces 20b and 24b, until the threads 23a and 24d are separated.
In a fourth step, the sub-assembly B and the ring 24 are displaced together such as to obtain complete withdrawal of these two elements relative to the rest of the case. For this purpose, the length of the toothing or grooves 24a of the ring 24 must be sufficient for the outer part 20 and the inner part 24 of the crown C to remain engaged and retain their respective orientation relative to one another, since they have not yet been rendered integral.
In a fifth step, the clamping ring 25 is introduced according to the longitudinal axis of the rod 12 of the winding mechanism. Then, the ring 25 is screwed onto the thread 20c of the tubular sleeve 20h, and is clamped by means of a tool which is engaged firstly with the grooves 20d and with grasping means, in this case a polygonal profile 25c (
The preceding operations have made it possible to render the sub-assembly B integral with the inner part 24 of the crown, and to obtain a complete crown C with the distinctive mark S.
The seal 9 is then positioned between the inner part 24 and the clamping ring 25. Once the crown C has been screwed back onto the tube 23, the distinctive mark S regains the angular position selected during the second step, even after several successive screwing and unscrewing operations, by means of the rigid contact between the support surface 23b and the end 24c of the inner part 24.
Number | Date | Country | Kind |
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10405094.3 | May 2010 | EP | regional |
10405173.5 | Sep 2010 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CH2011/000094 | 4/28/2011 | WO | 00 | 12/14/2012 |