CH716774B9 - Watchmaking coupling and indexing device. - Google Patents

Abstract

The present invention relates to a clockwork coupling and/or indexing device comprising: a first rotary wheel set (40) intended to provide a first indication, the first wheel set being integral with an indexing member (30) provided with a gear sector (31); a second rotatable mobile (50) intended to provide a second indication; a coupling member (10) provided with a spring part (11), a jumper part (12); a guide part (14, 53) configured to guide the jumper part (12); and a connecting member (20) integral with one or the other of the coupling member (10) or of the second mobile (50) and configured to cooperate with the guide part (14, 53); the coupling member (10) cooperating with the indexing member (30) and with the connecting member (20) so as to couple the first mobile (40) with the second mobile (50); the coupling member (10) comprising at least one lifted part (13) integral with the jumper part (12), said at least one lifted part (13) cooperating with the toothed sector (31) so as to move the jumper part (12) along a substantially radial displacement relative to a center of rotation of the indexing member (30).

Description

Technical area

The present invention relates to a device comprising a rapid adjustment spring cooperating with a mobile part of a timepiece. In particular, the present invention relates to a device having a high holding/driving torque and in which stresses and fatigue are reduced.

State of the art

It is known in timepieces to use a coupling / indexing mechanism to allow the training and relative adjustment of two moving parts between them, as it is for example known to use in the case of a second time zone.

[0003] Document CH604229 describes a jumper spring mounted on a base, the jumper part being mounted at the free end of the spring. However, this type of jumper has the disadvantage of having a rather asymmetrical behavior depending on whether the rotation of one of the movable members relative to the other is rotation in one direction or the other.

The document CH560410 describes a jumper composed of a roller element guided in a groove and a wire spring bringing it against the indexing star with which it cooperates. This construction has the disadvantage of a number of components and a complex assembly. On the other hand, the roller does not allow the use of a spider with a high number of teeth, in particular if the diameter of the roller becomes less than the diameter of the pivot part which guides it. Finally, the friction of the roller against the spring which holds it in position is asymmetrical.

[0005] The document EP3223085 proposes to replace, in a clockwork coupling/indexing mechanism for time zones, the jumper spring produced in the traditional manner in a crystalline metal alloy by an at least partially amorphous metal alloy, the elastic properties of this family of materials allowing a reduced size (in particular elastic elements) with equal stresses.

[0006] When such a mechanism needs to cause, in addition to the time zone, one or more additional functions linked to the latter, such as for example a calendar, in particular a calendar presenting several pieces of information that must be caused simultaneously (eg day-calendar) date-month, with moon phases, annual or perpetual calendar), the holding torque of the mechanism must be increased significantly, and the linear displacement of the "spring" parts of the jumper is disturbed, the reactions and friction generating movements of rotation at the level of the jumper elements themselves, which increases the local stresses in the spring elements of these jumpers beyond the allowable stresses and generates plastic deformations which can go as far as rupture phenomena.

Brief summary of the invention

Advantageously, in the case of a mechanism to be corrected in both directions, for example a bidirectional correction of an auxiliary function, the coupling mechanism should offer the same conditions in both directions of adjustment, correction or indexing. This can be obtained by moving the jumper whose kinematic relationships with the member to be adjusted (eg an hour star) are symmetrical, such a movement advantageously being a radial movement.

The present invention relates to a clockwork coupling and/or indexing device comprising a first rotary wheel set intended to provide a first indication, the first wheel set being secured to an indexing member provided with a toothed sector; a second rotatable wheel intended to provide a second indication; a coupling member provided with a spring part, a jumper part, a guide part configured to guide the jumper part; and a connecting member integral with one or the other of the coupling member or of the second moving part and configured to cooperate with the guide part; the coupling member cooperating with the indexing member and with the connecting member so as to couple the first mobile with the second mobile; the coupling member comprising at least one lifted part integral with the jumper part, said at least one lifted part cooperating with the toothed sector so as to move the jumper part according to a substantially radial displacement with respect to a center of rotation of the indexing body.

The device of the invention makes it possible to increase the holding/driving torque of a coupling mechanism arranged between two time display members, while reducing the stresses and fatigue of said mechanism, in particular by reducing or even eliminating certain undesired modes of movement of the mechanism which would result in an increase in local stresses.

The device of the invention also applies to various rapid adjustment springs used in a watch movement, such as a rocker return spring, a pawl spring, a drive finger, or a jumper.

Brief description of figures

[0011] Examples of implementation of the invention are indicated in the description illustrated by the appended figures in which: FIG. 1 shows an exploded view in section and of a timepiece device intended for a coupling function and/ or indexing, according to one embodiment; FIG. 2 shows another view of the timepiece device in which a coupling member and a first wheel set are shown entirely; FIG. 3 shows the coupling member is isolated from the rest of the timepiece device; FIG. 4 is a partial view of the coupling member cooperating with an indexing member during a rest phase of the timepiece device; FIG. 5 is a partial view of the coupling member cooperating with an indexing member during a start phase phase of disengagement of a tooth from the indexing member; FIG. 6 is a partial view of the coupling member cooperating with an indexing member during a phase in which a tooth of the indexing member passes over a jumper part of the indexing member.

Example(s) of embodiment of the invention

[0012] Figure 1 shows an exploded view in section and of a timepiece device intended for a coupling and/or indexing function, according to one embodiment. The device comprises a coupling member 10 provided with a spring part 11, a jumper part 12 and a guide part. The coupling member 10 can be a quick-adjustment spring cooperating with a moving part of a timepiece, an elastic clutch device comprising a spindle spring, or any other type of quick-adjustment spring used in a watch movement. such as a rocker return spring, a pawl spring, a drive finger, or a jumper.

The device also comprises a connecting member 20, intended to cooperate with the guide part 14, and a first rotating mobile 40 configured to provide a first indication and comprising an indexing member 30 provided with a toothed sector 31. It will be noted that the expression "toothed sector" applies to any section whose profile allows indexing. For example a spline, a toothed sector, a star, a cam allowing indexing/angular positioning, etc.

The coupling member 10 acts between the first mobile 40 and a second rotating mobile 50 and intended to provide a second indication. The coupling member 10 comprises at least one lifted part 13 (or abutment part), integral with the jumper part 12. The lifted part 13 can be rigidly connected to the jumper part 12. In other words, the lifted part 13 can have a stiffness at least 3 times, preferably 5 times, higher than the stiffness of the spring part 11 of the coupling member 10.

[0015] The raised part 13 cooperates with the toothed sector 31 so as to guide the jumper part 12 according to a substantially radial displacement with respect to the center of rotation 15 of the indexing member 30, when a tooth 31 of the indexing member 30 acts against the jumper part 12 during a rotation of the indexing member 30 relative to the coupling member 10. The raised part 13 also makes it possible to limit the amplitude of the radial displacement above beyond the amplitude necessary for the coupling/clutching function of the coupling member 10.

[0016] Figure 2 shows another view of the timepiece device in which the coupling member 10 and the first moving part 40 are shown entirely.

In the particular example of Figures 1 and 2, the timepiece device is suitable for displaying a first time indication at 12 o'clock and for displaying a second time indication at 24 o'clock. More particularly, the first mobile 40 comprises a first toothed wheel 41 and a first barrel 42 configured to be secured to the first toothed wheel 41. The first toothed wheel 41 is driven by a mechanism, not shown, so as to pivot in a clockwise or counterclockwise so as to display a first indication, for example a first time indication. The indexing member 30 takes the form of a star mounted integrally on the first mobile 40 and cooperates with the coupling member 10.

The second mobile 50 includes a second toothed wheel 51 and a second barrel 52 secured to the second toothed wheel 51. The second barrel is intended to carry an indicator (not shown), for example a needle. The second toothed wheel 51 is driven by a mechanism not shown so as to pivot in a clockwise or anti-clockwise direction so as to display a second indication, for example a second time indication. The second toothed wheel 51 itself drives the indexing member 30 in rotation.

The second mobile 50 cooperates with the first mobile 40 via the connecting member 20. According to the form of executions shown in Figure 1, the connecting member 20 is integral with the second mobile 50. More particularly, the connecting member 20 takes the form of a stud fixed in a blind or through cavity 54 provided in the second mobile 50. The guide part 14 is included in the coupling member 10 and takes the form of an oblong opening in which the connecting member 20 slides.

According to the form of executions shown in Figure 2, the connecting member 20 is integral with the coupling member 10 and the guide part 53 is included in the second mobile 50. The connecting member 20 takes also the form of a stud fixed in a blind or through cavity 17 provided in the coupling member 10. The guide part 53 is included in the coupling member 10 and takes the form of an oblong opening in which slides the connecting device 20.

In both configurations, the connecting member comprises two connecting members 20, each cooperating with a guide part 14, 53. The coupling member 10 functions as an elastic clutch device for the second mobile 50.

The first toothed wheel 41 and second toothed wheel 51 can be driven so as to rotate together under normal operating conditions, while one of the wheels can be driven step by step relative to the other at will.

The indexing member 30 has 12 teeth so that when the second mobile 50 is driven in rotation by means of the second toothed wheel 51, the coupling member 10 forms a sliding coupling step by step and causes the second mobile 50 by jumps of an entire hour. In other words, the twelve teeth 31 are used to correct the second mobile 50 step by step with respect to the first mobile 40. As a variant, the indexing member 30 can also have twenty-four teeth.

[0024] Figure 3 represents the coupling member 10 isolated from the rest of the timepiece device. The coupling member 10 comprises a spring part 11 comprising two flexible arms 11a and 11b. Each flexible arm 11a, 11b has an arc shape so that the two flexible arms form a continuous and closed geometry on itself. Each of the flexible arms 11a, 11b ends with the jumper part 12 cooperating with the teeth 31 of the indexing member 30. In particular, the jumper part 12 is configured to be housed in a hollow between two successive teeth 31 of the indexing member 30. The flexible arms 11a and 11b exert a compressive force on the teeth 31. When the indexing member 30 rotates, the jumper part 12 deviates (substantially radial displacement) from its rest position in a hollow between two teeth 31, passes through the top of a tooth 31 and falls into the immediately following hollow, under the effect of the compressive force exerted by the spring part 11.

In the example of Figure 3, the two flexible arms 11a, 11b are substantially symmetrical so that the two jumper parts 12 are arranged diametrically opposite, each of the jumper parts 12 exerting a restoring force towards the center of rotation 15 of the indexing member 30. The configuration of the flexible arms 11a, 11b allows each of the jumper parts 12 to exert a symmetrical force towards the center of rotation 15 of the indexing member 30.

[0026] The maximum displacement of the jumper part 12 corresponds to the spacing of the jumper part 12 between a first position of the spring part 11 where each of the jumper parts 12 are in a hollow between two teeth 31 and a second position of the spring part 11 where the jumper parts 12 are each on the top of one of the teeth 31. The maximum displacement of the jumper part 12 therefore generally corresponds to the height of the teeth 31. The deformation of the jumper part 12 and of the spring part 11 can be larger if there is pre-winding at rest in order to guarantee the shock resistance of the first mobile 40.

The connecting member 20 can slide in the guide part 14. In particular, the oblong shape of the guide part 14 makes it possible to guide the jumper part 12 and to impose a precise positioning on it. Guide portion 14 may also be rectangular in shape, include a groove, include a protrusion, or include any other suitable shape.

[0028] Figure 4 shows a rest phase of the timepiece device, in which two teeth 31 of the indexing member 30 rest on a rest surface 121 of the jumper part 12.

[0029] Figure 5 shows a start phase of the disengagement of a tooth 31 from the indexing member 30. The torque generated by the friction of one of the teeth 31 on the jumper part 12 generates a start of rotation of the indexing member 30, which is then stopped by the support of the lifted part 13 on the tooth 31a which precedes the tooth 31 rubbing on the jumper part 12. In FIG. 5, the indexing member 30 pivots in the clockwise direction of rotation.

[0030] Figure 6 shows a phase of passage of a tooth 31 of the indexing member 30 on the jumper part 12. Two teeth 31 of the indexing member 30 are then in contact with the coupling member 10 , one tooth 31 with the raised part 13 and the other tooth 31 with the jumper part 12. The indexing member 30 pivots by moving the jumper part 12 according to a substantially radial movement 16 along the oblong opening of the guide part 14, with respect to the center of rotation 15 of the indexing member 30 and moving away from the center of rotation 15. When the tooth 31 passes the jumper part 12, the latter returns towards the center of rotation 15 according to a substantially radial movement 16.

In the absence of the raised part 13, during the passage phase of a tooth 31, before the passage of the tooth 31 on the top 12b of the jumper part 12 (see Figure 5), the resultant of the force of support of the tooth 31 rubbing on the jumper part 12 generates a torque tending to cause the jumper part 12 to pivot in a direction opposite to that of the rotation of the indexing member 30 at the same time as the radial movement 16 s occurs away from the center of rotation 15. When the tooth 31 passes through the vertex 12b, the jumper part 12 pivots again in the opposite direction while continuing its radial movement 16 away from the center of rotation 15. This pivoting of the part jumper 12 generates successive foldings of the flexible arms 11a and 11b subjecting the latter to strong stresses resulting in fatigue, even plastic deformations of the flexible arms 11a and 11b.

The arrangement of the coupling member 10 in which the jumper part 12 comprises at least one raised part 13 allows the jumper part 12 to move according to the substantially radial movement with respect to the center of rotation 15. Thus, the stresses and fatigue of the coupling member 10 are minimized. In addition, the holding/driving torque of the coupling member 10 is increased.

The coupling member 10 can be configured to only allow correction and/or adjustment in one direction of rotation of the indexing member 30. To this end, the coupling member 10 may not comprise only one raised part 13 on the jumper part 12. The raised part 13 is then preferably placed on a frontal region 12a (see FIG. 3) of the jumper part 12, that is to say, the first region of the jumper part 12 that meets a tooth 31 during the rotation of the indexing member 30.

Alternatively, the coupling member 10 can be configured to allow correction and / or adjustment in both directions of rotation of the indexing member 30. To this end, the coupling member 10 may comprise two parts lifts 13 for each jumper part 12, as illustrated in Figures 3 to 6.

[0035]According to one embodiment, the timepiece device may comprise a blocking member (not shown) preventing rotation in one of the directions of rotation of the indexing member 30 and thus making it possible to drive in an integral manner the first mobile 40 and the second mobile 50, without there being any correction and/or adjustment between the first and the second mobile 40, 50.

According to one embodiment, the connecting member 20 may comprise a protuberance or a groove. The connecting member 20 can be formed integral with the second moving part 50. In fact, the connecting member 20 can be integral in rotation with the second moving part 50 or the first moving part 40.

[0037] Still according to one embodiment, the indexing member can be integral in rotation with the first mobile 40 or the second mobile 50.

According to one embodiment, the coupling member 10 is made of a metal, a metal alloy, a metalloid or even a material based on one of these. By material based on one of these, we mean a material which would comprise a significant quantity thereof, such as for example a metal matrix composite which would contain inclusions or particles of another material, such as a ceramic, sol-gel or particles of another non-metallic material. The coupling member 10 can also be made of a metal alloy including Ligaflex®, Nivaflex®, Amaflex®, Durnico®, or an at least partially amorphous metal or alloy. The amorphous metal alloy can be selected from a group including metallic glass.

According to another embodiment not shown, the coupling member 10 may comprise a core and a coating made of materials of different composition and / or structure. The core of the coupling member 10 can be made of a material having preferential elastic properties. By preferential, it is meant that the material chosen for the covering has tribological properties which are substantially better than those of the core. Such tribological properties include, but are not limited to, coefficients of slip and static and dynamic friction, wear resistance, stability of these parameters over time, interaction with the body with which it works or a third body as a lubricant. The coating of the coupling member 10 can be made of a material having favorable tribological properties, for example tribological properties allowing good sliding and good resistance to wear, when parts of the coupling member 10 are in contact with another component, for example the indexing member 30. In a non-limiting manner, such materials include ceramics, oxides, nitrides or carbides of metallic, metalloid or other elements, or the combination of a plurality of these.

Other embodiments of the coupling member 10 are also possible. For example, the coupling member 10 can comprise the same number of jumper parts 12 as guide parts 14. A guide part 14 can be associated with a jumper part 12, as illustrated in FIGS. 1 to 3.

The coupling member 10 may comprise a plurality of jumper parts 12 or, alternatively, a single jumper part 12. For example, a single jumper part 12 may be sufficient for the operation of the coupling member 10 according to the configuration shown. in FIGS. 1 to 3, the other jumper part 12 being able to be replaced by a means of attachment to the second mobile 50. On the other hand, the coupling member 10 can comprise a plurality of guide parts 14 or, alternatively, a single guide part 14. For example, a single guide part 14 may suffice for the operation of the coupling member 10 according to the configuration shown in FIGS. 1 to 3, the other guide part 14 being able to be replaced by a means of attachment to the second 50.

As illustrated in Figure 3, each of the two flexible arms 11a, 11b comprises two flexible blades 111. In general, the flexible arms 11a, 11b may comprise a single flexible blade 111 or a plurality of flexible blades 111. The coupling member 10 whose spring part 11 comprises a single flexible blade 111 has the advantage of being less bulky. The coupling member 10 whose spring part 11 comprises several flexible blades 111 has the advantage of stabilizing the movement of the jumper part 12. Indeed, the maintenance of the jumper part 12 by at least two attachment points of each side makes it possible to reinforce a displacement of the translation type (for example a radial displacement along the guide part 14).

Advantageously, the coupling member 10 is in one piece, that is to say made in one piece). The coupling member 20 can also be in one piece with the second mobile 50 or the coupling member 10.

The first mobile 40 and the second mobile 50 can be configured so as to provide, respectively, a first and a second time or non-time indication. To this end, the first mobile 40 and the second mobile 50 can be configured so as to carry an indicator mobile (not shown) such as an index, a needle, a disc or any other element capable of reading a movement with regard to 'a scale, a window, etc., so as to directly display the first and the second indication. Alternatively, the first mobile 40 and the second mobile 50 can be configured so as to cooperate indirectly with a display member, for example via a kinematic chain.

[0045] The timepiece device can also be configured so as to provide two time indications such as a 12h/24h display, or an auxiliary display such as a time zone, day/night, etc. The second mobile 50 is intended to drive at least one additional display function.

The first indication may include a time indication of hours or minutes. The second indication may include an additional time function, calendar display function, moon phase, etc. The additional time function can also include a time zone, a multiple or sub-multiple display of the first indication (e.g. GMT 24H or day/night display based on a 12H display, display of a time zone with half hours based on an hour display, etc.), a minute display, etc.

Reference numbers used in the figures

[0047] 1 quick-adjust spring 10 coupling member 11 spring part 11a flexible arm 11b flexible arm 111 flexible blade 12 jumper part 12a front region 12b top 121 rest surface 13 lift/stop part 14 guide part 15 center of rotation 16 movement radial 17 connecting member support 20 connecting member 30 indexing member 31 toothed sector, tooth 31a tooth 40 first mobile 41 first toothed wheel 42 first barrel 50 second mobile 51 second toothed wheel 52 second barrel 53 guide part 54 support of the liaison body

Claims (17)

1. Watchmaking coupling and/or indexing device comprising: a first rotating mobile (40) intended to provide a first indication, the first mobile (40) being integral with an indexing member (30) provided with a toothed sector (31); a second rotatable mobile (50) intended to provide a second indication; a coupling member (10) provided with at least one spring part (11), at least one jumper part (12); at least one guide portion (14, 53) configured to guide the at least one jumper portion (12); And at least one connecting member (20) integral with one or the other of the coupling member (10) or of the second mobile (50) and configured to cooperate with the guide part (14, 53); the coupling member (10) cooperating with the indexing member (30) and with the at least one connecting member (20) so as to couple the first mobile (40) with the second mobile (50); characterized in that the at least one coupling member (10) comprises at least one raised part (13) secured to the corresponding jumper part (12), said at least one raised part (13) cooperating with the toothed sector (31) so as to move the corresponding jumper part (12) according to a substantially radial displacement with respect to a center of rotation of the indexing member (30). 2. Device according to claim 1, wherein the connecting member (20) is integral with the second mobile (50) and the guide part (14) is included in the coupling member (10). 3. Device according to claim 1, wherein the connecting member (20) is integral with the coupling member (10) and the guide part (53) is included in the second mobile (50). 4. Device according to one of claims 1 to 3, wherein the coupling member (10) comprises a plurality of jumper parts (12). 5. Device according to claim 4, wherein the coupling member (10) has the same number of jumper parts (12) as guide parts (14). 6. Device according to one of claims 1 to 5, wherein the at least one spring part (11) comprises at least one flexible arm (11a, 11b), said flexible arm comprising at least one flexible blade (111). 7. Device according to claim 6, wherein the at least one spring part (11) comprises a flexible arm (11a, 11b) between each jumper part (12). 8. Device according to one of claims 1 to 7, wherein the coupling member (10) comprises a single raised part (13) so as to allow correction and/or adjustment only in one direction of rotation of the indexing member (30). 9. Device according to one of claims 1 to 7, wherein the coupling member (10) comprises two raised parts (13) so as to allow correction and/or adjustment in both directions of rotation of the indexing member (30) by movement of the jumper parts ( 12) corresponding whose kinematic relationship with the indexing member (30) are symmetrical. 10. Device according to one of claims 1 to 9, wherein the coupling member (10) is made in one piece. 11. Device according to one of claims 1 to 10, wherein the first mobile (40) and/or the second mobile (50) is configured to carry an indicator mobile so as to directly display, respectively, the first and/or the second indication. 12. Device according to one of claims 1 to 10, in which the first mobile (40) and/or the second mobile (50) is configured so as to cooperate indirectly with a display member. 13. Device according to claim 11 or 12, in which the first indication is a time indication, in particular hours or minutes. 14. Device according to claim 13, wherein the second indication includes an additional time function. 15. Device according to claim 14, wherein the additional time function comprises a calendar, moon phase, time zone display function, a multiple or sub-multiple display function of the first indication. 16. Device according to one of claims 1 to 15, wherein the coupling member (10) is made of a metal, a metal alloy, a metalloid, in particular an at least partially amorphous metal or alloy. 17. Device according to one of claims 1 to 16, wherein the coupling member (10) comprises a core and a coating made of materials of different composition and/or structure.