WO1997039386A1

WO1997039386A1 - Watch

Info

Publication number: WO1997039386A1
Application number: PCT/IB1997/000380
Authority: WO
Inventors: Giovanni Bulgari
Original assignee: Enigma S.A.
Priority date: 1996-04-12
Filing date: 1997-04-10
Publication date: 1997-10-23
Also published as: CN1215483A; AU2174297A; DE69701136D1; DE69701136T2; EP0892944A1; EP0892944B1; CN1138190C; HK1021416A1; JP2000508764A; TW340200B

Abstract

This invention features a watch which consists of a rotating bezel (8) with a ring-shaped part (8a) projecting from its lower surface and with a serrated edge at the end (8b). This ring-shaped part (8a) is fitted into an indentation (7) in the rim (3) and its toothed part meshes with a pinion (16) with an axial aperture of square cross-section fitting onto a segment (15a) of complementary cross-section on the winding stem (15). The pinion (16) is located in a case (14) open laterally on the external surface of the rim (3) and maintained in this case (14) by a shutting device (17). The winding stem (15) can be axially moved between at least two positions while remaining constantly meshed with the rotating bezel (8) by means of the pinion (16) allowing the rewinding or setting of the watch by rotating the bezel (8).

Description

WATCH

The present invention relates to a watch comprising a case provided with a rotating bezel, an annular part of which is toothed, a winding stem having a section of polygonal section located outside the movement of the watch, a pinion provided with an opening of complementary section to that of said section, engaged thereon, the toothing of the pinion being engaged with that of said annular toothed part, forming a kinematic connection between the rotating bezel and the winding stem .

Such watches have already been described in CH 1825 and CH 72852. In each of the solutions proposed, the rotating bezel engages with a toothed wheel associated with a rocker intended to selectively connect the rotating bezel to the winding mechanism of the barrel spring or time setting gear.

These solutions require a complete transformation of the watch movement, so that only watches equipped with such movements can be wound by the rotating bezel.

Another solution has been proposed in CH 662235 in which the rotating bezel is provided with a toothing which engages, on the one hand, with a pinion secured to the winding stem, on the other hand, with a wheel d 'a time setting mechanism mounted on an auxiliary plate. The aim of this solution is to allow a winding mechanism and time-setting mechanism to be associated by the rotating bezel without transforming the movement, but by adding an additional module mounted on the auxiliary plate.

However, such a watch has several drawbacks. It requires an additional mechanism and the auxiliary plate which carries it significantly increases the height of the movement. In addition, if we want to wind the watch, at the same time, we cause the the hour which, at the end of a certain angle of rotation engages a reference carried by the rocker with a time-setting pinion, so that if one is not careful not to exceed this angle of rotation of the bezel, we change the time, when we only want to wind the watch.

Other winding and time-setting systems by the bezel have been described in CH-A-316 834, as well as in CH-A-65 378. In both cases, the pinion which engages with the ring gear of the rotating bezel is completely secured to the winding stem in rotation and in translation. In the first of these two documents, the movement of the winding stem partially causes the teeth of the pinion to come out of the ring gear of the bezel, thereby risking damage to these teeth. The second of these documents does not have this drawback, given that the width of the ring gear has been increased accordingly to mesh with the pinion of the winding stem in the two axial positions thereof. This solution, intended for a car dashboard watch, would not be suitable for a wristwatch, since it would increase the width of the middle, detracting from the aesthetics of the box.

Although the fact of providing a section of re¬ stem of square section, allowing to drive the sliding pinion in all its axial position, winding and setting the time, is well known to all re mechanisms ¬ mounts for almost a century, it is not, however, in this case, to keep this sliding pinion axially fixed axially. On the contrary, this sliding pinion is moved axially in the opposite direction of the winding stem, by means of the zipper and the time-setting rocker, to put it in engagement with the time-setting reference. .

The object of the present invention is to remedy, at least in part, the abovementioned drawbacks and to ensure that the winding of the watch which has been perceived hitherto as a negative operation, and which has been eliminated in automatic and electric watches, it becomes something pleasant and fun and which, unlike a watch wound by the winding stem, is more easily wound by keeping it on the wrist. As will be seen in the following description, in addition to the purely mechanical design of the winding device, arrangements have been made to protect it from dust and to ensure a long service life of the rotating bezel and protective seals. To this end, the subject of this invention is a watch of the aforementioned type, characterized in that said pinion is positioned axially between two abutments integral with the case, said polygonal section of the winding stem having a length chosen to allow movement axially said winding rod between at least two positions, one for winding and the other for setting the time, while maintaining the kinematic connection between the bezel and the winding rod via said pinion. According to other particularities of this invention, it will be mentioned that, preferably, the normal spring of a manual winding watch is replaced by a sliding strap spring such as those used in watches with automatic winding. Indeed, the rotating bezel allows to exert on the spring a torque significantly higher than that exerted via the winding stem. Therefore, it is extremely advantageous that once the mainspring is fully cocked, it can slide into the barrel, so that the bezel can be continued indefinitely, although the spring is fully cocked, without risk of damage. spring.

Since in this case the winding is endless, the user does not know if the spring is armed or not. It may therefore be advantageous to add an indicator of the degree of arming of the mainspring, which is a device known per se. The watch according to the invention does not require any modification as regards the actual movement, the only modification necessary is that of the re¬ mount rod. It is therefore possible, thanks to the present invention, to adapt the winding system to any watch by only changing the winding stem.

The appended drawing illustrates, schematically and by way of example, an embodiment of the watch which is the subject of the present invention. Figure 1 is a partial view in axial section of this watch.

Figure 2 is an enlarged view of a detail of Figure 1.

The watch illustrated by this figure comprises a movement 1 covered with an indicator dial 2, housed in a case comprising a middle part 3, a base 4 and a crystal 5.

The upper part of the middle part 3 has an annular recess 6 in the bottom of which is formed an annular groove 7. A rotating bezel 8 is arranged in the annular recess 6 and is held axially by pins 9a formed in the extension of the ex¬ screw end 9, passing radially through the rotating bezel 8 and distributed angularly around it. These pins 9a are engaged in an annular groove 10 on the side face of the annular recess 6. An annular groove 11 parallel to the annular groove 10 serves to receive a 0-ring seal 12. A second seal 13 is housed in a groove ¬ annular re 23, formed in the underside of the rotating lu¬ net 8. As can be seen in Figure 2, preferably, this seal 13 has a semi-circular section, its flat face being glued in the bottom of the groove 23. The shape of the seal 13 and the bonding thereof make it possible to increase its service life and facilitate rotation of the rotating bezel 8 in both directions. The seal 12, meanwhile, is preferably an O-ring seal. The underside of this rotating bezel 8 also has a projecting annular portion 8a at the end of which an edge toothing 8b is provided, this annular portion 8a being housed in the annular groove 7. This groove 7 communicates with a cylindrical housing 14, whose axis of revolution coincides with the axis of the winding rod 15. This winding rod 15 comprises a section of square section 15a which passes through an opening of the same section, centered on the axis of a pinion 16 meshing with the teeth 8b. A closing member 17, carrying a tube 18 provided with a 0-ring seal 19 intended to cooperate with a winding crown 20 is fitted into the cylindrical housing 14 by two screws (not shown), fixed in the middle part 3 on either side of the winding stem 15. As a result, the pinion 16 is fixed axially between two bu¬ tees constituted by the bottom of the cylindrical housing 14 on the one hand, and the internal face of the member closure 17. The lateral face of the latter has a groove 17a in which is housed a 0-ring seal 24. Spacers, 21, 22, for example made of nylon, can be placed on either side of this pinion 16 to avoid seizing. Thanks to this arrangement, the square section 15a of the winding stem 15 can slide freely through the opening of the pinion 16 and the latter remains in engagement with the teeth 8b of the rotating bezel. As a result, the winding stem 15 can occupy different positions, two or three for winding, setting the time, even setting the date, like a normal winding stem, the kinematic link remaining constantly established between the rotating bezel 8 and the winding stem 15, via the pinion 16 integral in rotation with this stem 15 by virtue of the section 15a of square section.

It can therefore be seen that no modification or addition is necessary with regard to the clock mechanism itself. The modifications take place only at the level of the housing and of the part of the rod. external winding movement. Advantageously and in order to allow the rotating bezel 8 to be rotated indefinitely, which may have a certain playful side for the user, it is possible to use a barrel spring with sliding strap as in an automatic watch. This avoids any risk of damage to the mainspring.

We can also note that the winding and time-setting mechanism is fully protected against water and dust infiltration by gaskets, thus protecting this mechanism from deterioration or seizure of the moving parts rotating bezel 8 and pinion 16.

The casing of the watch is only slightly modified compared to a normal case. Once the movement has been placed in the case, before fixing the case back 4, the winding stem 15 is put in place as usual, which is fixed, as in all watches, by screwing the zipper screw (not shown) ). Then, it suffices to introduce the pinion 16 axially and to engage it on the square section section 15a of this rod, after which the closure member 17 is put in place and it is fixed to the middle part 3 by two screws (not shown) arranged on either side of the winding stem 15. Then, it remains to put the rotating bezel 8 in place and to screw the fixing screws 9 to retain the rotating bezel 8 on the middle part 3 , while allowing it to turn to drive the pinion 16 and the winding rod 15 to wind or set the watch on time, according to the axial position of this rod 15.

Claims

1. Watch comprising a case provided with a rotating bezel (8) of which an annular part (8a) is toothed

(8b), a winding rod (15) having a section of polygonal section (15a) located outside the movement of the watch, a pinion (16) provided with an opening of section complementary to that of said section (15a ) engaged on the latter, the toothing of the pinion (16) being in engagement with that of said annular toothed part (8b), forming a kinematic connection between the rotating bezel (8) and the winding stem (15), characterized by the fact that said pinion (16) is positioned axially between two abutments integral with the housing, said polygonal section section (15a) of the winding stem (15) having a length chosen to allow said winding stem (15) to be displaced axially ) between at least two positions, one for re¬ mounting and the other for setting the time, while maintaining the kinematic connection between the bezel (8) and the winding stem (15) via said pinion (16).

2. Watch according to claim 1, characterized in that said annular toothed part (8a) is constituted by a part projecting under the rotating bezel (8) and having a toothing (8b), this annu¬ lar projecting part (8a) extending in an annular groove (7) of the middle part (3).

3. Watch according to claim 2, characterized in that said pinion (16) is arranged in a housing (14) opening on the external lateral face of the middle part (3), communicating with said annular groove (7) of the middle part (3) and that it is held by a closing member (17) fixed to the middle part (3).

4. Watch according to claim 1, characterized in that the rotating bezel (8) is retained axially on the middle part (3) by screws (9) passing through it radially and the ends of which are engaged in an annular groove (10) of the lateral face of the middle part (3).

5. Watch according to claim 3, characterized in that seals (12, 13, 19, 23) isolate the winding and time-setting mechanism from the surrounding environment.

6. Watch according to claim 1, characterized in that at least one annular seal of semi-circular section (12, 13) is disposed between the rotating bezel (8) and the middle part (3), the flat face of this joint being glued.

7. Watch according to one of the preceding claims, characterized in that the motor spring is a spring of the sliding flange type.