It is an object of the invention is to demonstrate a watch case with a turning ring, in which said turning ring can be rotated with a high degree of precision, practically with no play and with low wear, and in particular also in a locking manner, so that the means for turnable fastening of the ring on the watch case do not detract from the appearance of the watch.
The turning ring is secured in the watch case by providing at least one securing element, which engages in a peripheral groove of the section of the case used for mounting the turning ring and is simultaneously held or guided on the turning ring or bears against one surface of the turning ring, thus securing the turning ring against being inadvertently pulled off of the case section.
For turning of the turning ring in locking increments, at least one spring-action catch element is provided on the watch case or on the turning ring and said catch element works together with catches on the turning ring or on the watch case. Preferably several, for example three such catch elements are provided, located at regular angle intervals on the axis of the turning ring. The catch elements, at least on their surfaces that work together with the catches, are made of a high-strength material, for example of a ceramic material, e.g. silicon carbide. The watch case comprising the catches or the turning ring comprising the catches, at least in the area of said catches, are likewise made of a hard material, for example of a hardenable stainless steel, e.g. of a hardenable martensitic stainless steel or a steel of the following group: X55 CrMo 14, X65 CrMo 14, X90 CrMoV 18, X105 CrMo 17 and X110 CrMoV 15.
The invention is described in more detail below based on exemplary embodiments with reference to the drawings, wherein:
In
The turning ring 3, on its bottom side, with which it is adjacent to a ring surface 4 of the case 1 enclosing the flange 2 when mounted, is provided with grooves forming catches 5 and extending radially to the axis of the turning ring 3, which (grooves) when the turning ring 3 is mounted works together with spring-action ball catches on the watch case 1, so that the turning ring 3 can be turned in locking increments, for example in increments of 6°. The ball catches in the depicted embodiment each consist of one ball 6 made of a high-strength material, for example of a ceramic material, e.g. silicon carbide and of a spring 7. For holding each ball catch or the ball 6 and corresponding catch spring 7, bore holes 8 are made in the ring surface 4 and are oriented parallel to the axis of the turning ring 3. In the depicted embodiment, at regular angle intervals on the axis of the case 1 and of the turning ring 3, three such ball catches are provided, the balls 6 of which engage respectively in one catch groove 5 in each catch position of the turning ring 3, as depicted in
For securing the turning ring 3 on the watch case 1, a snap ring 9 is provided and is made of a suitable spring steel and is slotted in the usual manner. When mounted, the snap ring 9 engages in a peripheral groove 10 of the flange 2 and bears with one outer peripheral area extending radially from the peripheral groove 10 against the top side of the turning ring 3 facing away from the watch case 1, namely along the inner edge of said turning ring.
The turning ring 3 in the depicted embodiment has an L-shaped cross section, i.e. it is manufactured as one piece with a ring section 3.1, which is located in a plane that is perpendicular to the ring axis, and with an outer section 3.2, which extends over the top side of the ring section 3.1 facing away from the watch case 1 and is knurled on the outside for a better grip on the turning ring 3.
After mounting of the turning ring 3 on the watch case 1, a turning ring insert 11 is inserted into the ring space formed between the flange 2 and the ring section 3.2 and is fastened to the turning ring 3 in a suitable manner, for example by being screwed on and/or glued on. The turning ring insert 11 is preferably designed so that after insertion of said ring, it forms a radial bearing surface for the snap ring 9, thus fixing the latter against radially slipping from the peripheral groove 10. On the truncated cone-shaped beveled top side, the turning ring insert 11 is provided with the gradation or scale typical of wristwatches with a turning ring.
The elements are assembled so that before placing the turning ring 12 on the flange 2, a ring retaining spring 13 is mounted in each slot 14 and pressed radially outward until the concave side formed on the broader section of each ring retaining spring 13 is flush with the cylindrical inner surface of the ring section 12.3. After placing the turning ring 12, the ring retaining springs 13 are pressed on their narrower side extending into the groove of the turning ring 12 radially inward using a suitable tool, so that each ring retaining spring 13 then projects over the inner surface of the ring section 12.3 and extends into the peripheral groove 10. Assembly is completed by inserting the turning ring insert 11 into the ring groove of the turning ring 12. The turning ring insert 11 in this embodiment is designed so that it simultaneously secures the ring retaining springs 13 in their position engaging in the peripheral groove 10. The turning ring insert 11 is fastened by being screwed in or glued in. An additional special feature of this embodiment is the fact that the ring section 12.3 of the turning ring 12 overlaps the flange 2 on its free upper edge and also the edge area of the watch crystal 15 held in said flange.
While in the embodiments of
The flange 2 of the case 1 in this embodiment is provided in addition to the peripheral groove 10 with a plurality of catch grooves 23 extending parallel to the flange axis and the turning ring axis, which (catch grooves) likewise feature the angle interval corresponding to the division of the turning ring insert 11. The turning ring 21 is provided on the inside with recesses 24, each of which serves to hold one ball 6 and one pre-tensioning spring plate 22 pressing the ball 6 radially inward. For securing the turning ring 21 on the flange 2, the snap ring 9 is again used, which when mounted is located above the ball catches formed by the balls 6, i.e. is at a distance form the ring surface 4 of the case 1, while the balls 6 are guided on said ring surface. The snap ring 9, and also the turning ring insert 11 secure the balls 6 and the corresponding spring plates 22 on the top side of the turning ring 21 facing away from the watch case 1.
Both the balls 6 and the catch elements 26 are made of a high-strength material, for example of ceramic, e.g. silicon carbide.
The spring force pressing the ball 36 radially outward against the catch 34 is produced by one common circular spring plate 38 for all balls 36. Instead of the circular spring plate 38, separate spring plates or springs, e.g. leaf springs, can also be provided for each ball 36.
Instead of the balls 36, flat disks can also be used that are then oriented with their surface sides parallel to the top and bottom of the watch case 1, the peripheral surface working together with the catches 34. The spring tension for pressing the disks is again produced by one common spring plate 38 or leaf spring element for all disks or by single spring elements, for example leaf springs, which can have a wide variety of forms. The use of disk-shaped spring-action catch elements instead of balls 36 has the advantage, among other things, of a very flat design.
Furthermore, in the embodiment of
When completely assembled, a turning ring insert 38 corresponding to the turning ring 11 is fastened to the turning ring 32, for example by being glued in, screwed in, etc., said turning ring insert 38 in this embodiment again being covered by the spring-action catch elements formed by the balls 38 or the corresponding disks, and also the elements for axially fixing the turning ring on the watch case, namely the plates 33.
The invention was described above based on various exemplary embodiments. It goes without saying that numerous modifications and variations are possible without abandoning the underlying inventive idea upon which the invention is based.
Number | Date | Country | Kind |
---|---|---|---|
20 2005 003 029 U | Feb 2005 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
4244044 | Olsson | Jan 1981 | A |
5122997 | Schneider et al. | Jun 1992 | A |
6599009 | Terasawa et al. | Jul 2003 | B2 |
7182508 | Bertrand et al. | Feb 2007 | B2 |
20030099165 | Terasawa | May 2003 | A1 |
Number | Date | Country | |
---|---|---|---|
20060193210 A1 | Aug 2006 | US |