CH711524A2 - Watch movement comprising a date correction mechanism. - Google Patents

Abstract

The invention relates to a watch movement comprising a control rod (1), a date display mechanism, a time display mechanism, a first rocker (12) carrying a first drive wheel (14) capable of being kinematically linked to the control rod (1), a second latch (20) carrying a second time setting wheel (24) capable of being kinematically linked to the first drive wheel (14), and a third flip-flop (30) carrying a date correction mechanism that can be kinematically linked to the first drive wheel (14) and the date display mechanism, said third flip-flop (30) being pivotally mounted on the second latch (20) and arranged to move between a meshing position in which the date correction mechanism co-operates with the date display mechanism and a retracted position in which the date correction mechanism is disconnected from the date display mechanism. The first (12) and second (20) flip-flops are arranged to occupy at least one date correction position in which said first drive wheel (14) is kinematically linked to the date correction mechanism and is not kinematically connected to the second time setting wheel (24), and a time-setting position according to which said first drive wheel (14) is kinematically linked to the second time-setting wheel ( 24) and is not kinematically related to the date correction mechanism, the position of the second flip-flop (20) being modified by a cooperation between the first flip-flop (12) and the second flip-flop (20).

Description

Field of the invention

The invention relates to the field of mechanical watchmaking. More particularly, it relates to a watch movement comprising a control rod, a mechanism for winding the movement, a mechanism for displaying the date and a mechanism for displaying the time.

Background of the invention

Many mechanical watches conventionally include a control rod, arranged at 3 o'clock, and capable of occupying two positions, namely a manual winding position, and a time setting position. These watches may also include a date display mechanism. A quick correction of the date is carried out by means of a push-button provided on the watch case at a position different from the control rod, for example at 10 o'clock. However, this embodiment requires to provide an opening in the box for the passage of the push button, which has the disadvantage of weakening the tightness of the watch and limiting choices in the realization of the decorations of the watch.

A solution to solve these problems is proposed in EP 2 707 778 and is to perform the correction of the date by means of the control rod, then arranged to occupy a third position. However, in this mechanism, the corrector of the date is fixed and therefore in permanent mesh with the date ring and the correction of the date is effected in both directions. The risk is to break a date handler arm if the user makes a correction of the date around midnight. Furthermore, the wheel of the second mobile carried by the second latch is in permanent meshing with the pinion carried by the first latch, the connection between these parts being provided by their respective teeth. This construction requires specific cutting of these teeth to have a concentric profile to prevent blockage.

Summary of the invention

The invention particularly aims to overcome the various disadvantages of the known mechanisms.

More specifically, an object of the invention is to provide a watch movement for a quick correction of the date by the control rod and to remove the opening in the box relative to the pusher allowing up to then perform this function.

The invention also aims to provide a watch movement for correction of the unidirectional date by the control rod.

For this purpose, the present invention relates to a watch movement comprising a control rod, a winding movement mechanism, a date display mechanism and a time display mechanism.

According to the invention, the watch movement comprises a first rocker carrying a first drive wheel capable of being kinematically linked to the control rod, a second rocker carrying a second time setting wheel arranged to cooperate. with the time display mechanism and being kinematically linked to the first drive wheel, and a third latch carrying a date correction mechanism that can be kinematically linked to the first drive wheel. as well as the date display mechanism, said third rocker being pivotally mounted on the second rocker and arranged to move between a meshing position in which the date correction mechanism cooperates with the display mechanism of the date and a setback position that the date correction mechanism is disconnected from the display mechanism of date, and the control rod and said first and second latches are arranged to occupy three positions: a winding position, according to which the control rod is kinematically connected to the winding mechanism of the movement and is not kinematically connected to the first drive wheel, a date correction position in which the control rod is kinematically connected to the first drive wheel, and the first and second latches are positioned so that said first drive wheel is kinematically linked to the drive correction mechanism; date and is not kinematically linked to the second time setting wheel, and a time setting position in which the control rod is kinematically connected to the first drive wheel and the first and second latches are positioned so that said first drive wheel is kinematically linked to the second drive wheel. time setting and is not kinematically linked to the date correction mechanism, the position of the first rocker being modified by a cooperation between the control rod and the first rocker and the position of the second rocker being modified by a cooperation between the first rocker and the second rocker.

Advantageously, the first latch can carry a positioning pin arranged to cooperate with the second latch, the cooperation between said positioning pin and the second latch defining the position of said second latch.

Preferably, it can be provided a return spring arranged to cooperate with the second latch and ensure the contact between said second latch and the first latch.

Advantageously, the second flip-flop can further include a connecting mobile comprising a third connecting wheel capable of being kinematically linked to the first drive wheel and a connecting pinion cooperating with the date correction mechanism.

Preferably, the second latch may comprise, at a first end, a first axis on which is mounted the second time setting wheel, and at a second end a second axis on which are mounted the third latch as well. that the mobile link, the latter being secured to said second axis.

Advantageously, the third flip-flop may comprise a support arm on which the date correction mechanism is pivotally mounted and an arm carrying a stop element.

Preferably, it can be provided a support member arranged to press the stop member of the third latch when the control rod and the first and second latches are in the time setting position so that pivoting the third latch to its retracted position disconnected from the date display mechanism.

Advantageously, the date correction mechanism may comprise a fourth correction wheel capable of being kinematically linked to the first drive wheel and a corrector member actuated by said fourth correction wheel and comprising at least one finger of correction likely to cooperate with the date display mechanism.

Preferably, the third rocker can be mounted frictionally on the second axis of the second rocker to be secured to the second axis during the correction of the date to occupy the meshing position with the display mechanism of the date when the control rod is rotated in one direction and occupy its withdrawn position disconnected from the date display mechanism when the control rod is turned in the other direction and to be detached from the second axis when setting the time to pivot in the disconnected withdrawal position of the date display mechanism when its stop member cooperates with the support member.

Advantageously, it can be provided a holding plate having an opening arranged to define the stroke of the third rocker.

The watch movement comprising a date correction mechanism according to the invention allows a quick and unidirectional correction of the date by means of the control rod, without the risk of breaking an element of the date mechanism in case of correction of the date. date around midnight. No specific cutting of the teeth of the wheels and sprockets used is necessary.

Brief description of the drawings

Other features and advantages of the invention will appear more clearly on reading the following description of a particular embodiment of the invention, given as a simple illustrative and non-limiting example, and the appended figures. , among: <tb> fig. 1 <SEP> represents an isometric view of a part of the mechanisms provided in a movement according to the invention, <tb> fig. 2 <SEP> is an exploded view of the third flip-flop, the date correction mechanism and the date display mechanism, <tb> fig. 3 <SEP> is a front view of the mechanisms shown in FIG. 1 in manual winding position, <tb> fig. 4 <SEP> is a front view of the mechanisms shown in FIG. 1 in position of correction of the date, the third rocker being in its meshing position, <tb> fig. <SEP> is a front view of the mechanisms shown in FIG. 1 in the date correction position, the third flip-flop being in its retracted position, and <tb> fig. 6 <SEP> is a front view of the mechanisms shown in FIG. 1 in the time setting position.

Detailed description of a preferred embodiment

[0020] Referring to FIG. 1, there is shown a part of a watch movement including a control rod 1, a winding mechanism, a date display mechanism and a time display mechanism.

In a conventional manner, the control rod 1 or winding stem is operable from outside the movement box and is movable in rotation on the one hand and in translation on the other hand to occupy its different positions . It is also provided a winding pinion 2, a sliding pinion 4, the setting in position of the sliding pinion 4 being provided by a pull tab 6 and a rocker 8.

In a conventional manner, the winding pinion 2 meshes with the winding mechanism (not shown) to carry out manual winding of the movement when the control rod is in its winding position (in general its undrawn position) and that the sliding pinion 4 cooperates with the winding pinion 2, as shown in FIG. 3.

The date display mechanism conventionally comprises a disk or a date ring 10 having an internal toothing 11 operable by a date mechanism.

The time display mechanism may comprise a set of references meshing with the timer wheel which cooperates with the roadway.

All these elements and their operation are known to those skilled in the art and do not require a more detailed description.

According to the invention, there is provided a first rocker 12 pivotally mounted on the frame and carrying a first drive wheel 14 mounted free to rotate about an axis constituted by a pin 16. This pin 16 is a pin the role of which will be explained below. The first drive wheel 14 is adapted to be engaged by the sliding pinion 4 of the control rod 1 when the control rod is in the position of correction or setting time (positions pulled). Another pin 18 is provided on the frame and constitutes a stop for the first latch 12.

It is also provided a second rocker 20 pivotally mounted on the frame. With particular reference to FIGS. 1 and 4, the second latch 20 comprises a first arm 20a crossed at its free end by a first axis A, constituting the pivot axis A of the second latch 20 on the frame. The first arm 20 terminates in a first nose 22. The first nose 22 is arranged to cooperate with a return spring 23 provided on the frame. Said return spring 23 is arranged to cooperate with the second latch 20 via the first nose 22 and ensure the contact between said second latch 20 and the first latch 12.

On the pivot axis A is rotatably mounted a second time setting wheel 24 arranged to cooperate continuously with the time display mechanism, and more specifically with one of the elements of the set of references. The second time setting wheel 24 is capable of being kinematically linked to the first drive wheel 14.

The second flip-flop 20 also comprises a second arm 20b having laterally, on the side of the first flip-flop 12, a second nose 26. The second nose 26 is arranged to cooperate with the positioning pin 16 provided on the first flip-flop 12, the cooperation between said positioning pin 16 and the second nose 26 defining the position of the second latch 20.

The second arm 20b carries at its free end a second axis 28 on which are mounted a connecting mobile and a third latch 30. The connecting mobile comprises a third connecting wheel 32 may be kinematically linked to the first drive wheel 14 and a link gear 34 arranged to cooperate with the date correction mechanism. The third connecting wheel 32 and the connecting pinion 34 are mounted integral with the second pin 28. The third lever 30 is frictionally mounted on the second pin 28, as will be explained hereinafter.

The third latch 30 carries a date correction mechanism capable of being kinematically linked to the first drive wheel 14 and to the date ring 10. Referring more particularly to FIG. 2, the date correction mechanism comprises a fourth correction wheel 36 that can be kinematically connected to the first drive wheel 14 via the pinion 34 and the connecting wheel 32, and a corrector member 38 comprising correction fingers 40 capable of cooperating with the internal toothing 11 of the date ring 10. The corrector member 38 is frictionally mounted on the correction wheel 36 via an axis 42 secured to the corrector member 38. In normal operation, the corrector member 38 and the fourth correction wheel 36 are integral, the assembly being rotatably mounted on the third latch 30.

In the example shown, the correction fingers cooperate directly with the date disk but it is obvious that cogs or other intermediate mechanisms can be provided between the corrector member 38 and the time display mechanism. .

The third latch 30 comprises a support arm 30a on which are mounted through the axis 42 for mounting the date correction mechanism on the third latch 30 and the axis 28 for mounting the third latch 30 on the second latch 20. The third latch 30 is pivotally mounted on the second latch 20 and is arranged to move between a meshing position in which the date correction mechanism cooperates with the date ring 10 and a position of withdrawal according to which the date correction mechanism is disconnected from the date ring 10.

The third flip-flop 30 also comprises an arm 30b carrying a stop element 30c.

It is further provided on the frame a support member 44 arranged to press the stop member 30c of the third latch 30 to rotate the third latch 30 in its disconnected withdrawal position of the display mechanism of the date, as will be described below.

It is also provided on the frame a holding plate 46 having an opening and arranged relative to the corrector member 38 so that the axis 42 of the date correction mechanism flows freely in the opening, the edges of said opening thus making it possible to delimit the stroke of the third latch 30.

The operation of the movement according to the invention is as follows: in manual winding position, as shown in FIG. 3, the sliding pinion 4 meshes with the winding pinion 2 which meshes with the winding mechanism (not shown) for the manual winding of the movement. Thus, the control rod 1 occupying its winding position is kinematically linked to the winding mechanism of the movement and is not kinematically linked to the first drive wheel 14, nor consequently to the other time display mechanisms. or the date. The first lever 12 is in abutment against the pin 18. The return spring 23, resting on the nose 22, ensures the contact of the nose 26 of the second rocker 20 with the pin 16 secured to the first lever 12.

[0038] Referring to FIG. 4, when the control rod 1 is pulled into its position of correction of the date, the sliding pinion 4 translates to the first drive wheel 14 and then meshes with it. The first lever 12 is in abutment against the pin 18. The return spring 23, bearing on the nose 22, ensures the contact of the nose 26 of the second latch 20 with the pin 16 secured to the first latch 12. In this position date correction, the control rod 1 is kinematically linked to the first drive wheel 14 and the first 12 and second 20 rockers are positioned so that the first drive wheel 14 is kinematically linked to the correction mechanism of the date carried by the third latch 30 and is not kinematically related to the second clocking wheel 24. More specifically, the second latch 20 is positioned so that the first drive wheel 14 meshes with the third connecting wheel 32 carried by said second rocker 20. The connecting pinion 34, integral with the third connecting wheel 32, is then rotated and meshes with the fourth e correction wheel 36 carried by the third latch 30, so that the corrector member 38 secured to said fourth correction wheel 36 is rotated so that one of the correction fingers 40 cooperates with a tooth 11 of the date ring 10 and actuates the latter to correct the date. The second flip-flop 20 is positioned so that the first drive wheel 14 does not cooperate with the second time-setting wheel 24. Thus, the fast date correction function is isolated from the time-setting functions. and reassembly.

In this position, the third latch 30 is integral with the axis 28 carrying the connecting mobile (third connecting wheel 32 and pinion 34). Thus, the rotation of the control rod 1 in one direction causes the rotation of the connecting rod and the axis 28 in one direction, and thus the pivoting of the third latch 30 in the same direction, this direction of pivoting for example bringing the arm 30a of the third latch 30 and thus the date correction mechanism to the date ring 10, as shown in FIG. 4. The third latch 30 then occupies its meshing position with the date ring 10. The displacement of the date correction mechanism towards the date ring 10, and thus the meshing between the correction member 38 and the date ring 10, is managed by the edges of the opening provided in the holding plate 46. It is then possible to proceed to the correction of the date.

When the control rod 1 is turned in the opposite direction, it causes the rotation of the connecting rod and the axis 28 in the opposite direction, and thus the pivoting of the third latch 30 in the same direction Inversely, this reverse pivoting direction moves the arm 30a away from the third latch 30, and thus the date correction mechanism, from the date ring 10, as shown in FIG. 5. The third flip-flop 30 then occupies its withdrawal position disconnected from the date ring 10. The distance of the date correction mechanism from the date ring 10 is limited by the edges of the opening provided in the date plate. 46. Since the date correction mechanism is disconnected from the date ring 10, the date correction is therefore no longer possible even if the control rod is actuated. Thus, the mechanism according to the invention allows unidirectional correction of the date by means of the control rod.

In cases where the third latch 30 has remained in meshing position in which the correction member 38 meshes with the date ring 10, the friction fit of said correction member 38 on the fourth correction wheel 36 makes it possible to separate said correction member 38 from said fourth correction wheel 36 and to rotate it under the thrust of the date ring 10 during the normal date change.

Referring to FIG. 6, when the control rod 1 is again pulled to its setting position, the sliding pinion 4 performs a new translation towards the first latch 12. The control rod 1 then cooperates with the first latch 12 so that the latter pivots towards the second rocker 20 so that the first drive wheel 14 meshes with the second setting wheel 24, the sliding pinion 4 remaining meshing with the first drive wheel 14. The return spring 23, resting on the nose 22, ensures the contact of the nose 26 of the second flip-flop 20 with the pin 16 secured to the first flip-flop 12. In this setting position, the control rod 1 is therefore kinematically linked to the first drive wheel 14 and the first 12 and second 20 rockers are positioned so that the first drive wheel 14 is kinematically linked to the second drive wheel e 24 to allow time setting and is not kinematically linked to the date correction mechanism carried by the third flip-flop 30. More specifically, when tilting the first flip-flop 12, the cooperation between the pin 16 and the second flip-flop 20 has caused the second flip-flop 20 to tilt about the axis A which is moving from its date correction position to its time-setting position, so that the third connecting wheel 32 carried by said second flip-flop 20 disengages from the first drive wheel 14. Thus, the time-setting function is isolated from the fast date correction and reassembly functions.

When the second flip-flop 20 switches to its setting position, the stop member 30c of the third flip-flop 30 bears on the support element 44 so that, thanks to the friction fitting, the third latch 30 disengages from the axis 28 and pivots in its retracted position disconnected from the date ring 10, as shown in FIG. 6. The positioning of the third flip-flop in its retracted position makes it possible to guarantee that, when setting the time, the date correction mechanism does not cooperate with the date ring 10.

In the movement according to the invention, the meshing between the first drive wheel and the display mechanisms of the date or time setting is not permanent, so that the teeth of the different parts do not require specific cutting. The meshing between the first drive wheel and the date display or time setting mechanisms is managed by the positions of the first latch 12 and the second latch 20 in contact with the pin 16 of FIG. said first latch 12, the return spring 23 ensuring the contact between said first and second latches 12 and 20.

Moreover, the proposed mechanism is compact and compact. It advantageously allows, in the context of a movement comprising a chronograph mechanism, to leave enough room to provide the counter mechanism minutes at 3 o'clock, near the control rod.

Claims (10)

1. Watch movement comprising a control rod (1), a mechanism for winding the movement, a date display mechanism and a time display mechanism, characterized in that it comprises a first rocker ( 12) carrying a first drive wheel (14) capable of being kinematically connected to the control rod (1), a second latch (20) carrying a second setting wheel (24) arranged to cooperate with the time display mechanism and being kinematically linked to the first drive wheel (14), and a third latch (30) carrying a date correction mechanism capable of being kinematically linked to the first drive wheel (14) and the date display mechanism, said third lever (30) being pivotally mounted on the second latch (20) and arranged to move between a meshing position according to which the drive The date correction mechanism cooperates with the date display mechanism and a retract position whereby the date correction mechanism is disconnected from the date display mechanism, and the control rod ( 1) and said first (12) and second (20) latches are arranged to occupy three positions: <tb> - <SEP> a winding position, according to which the control rod (1) is kinematically connected to the winding mechanism of the movement and is not kinematically connected to the first drive wheel (14), <tb> - <SEP> a date correction position in which the control rod (1) is kinematically connected to the first drive wheel (14), and the first (12) and second (20) latches are positioned so that said first drive wheel (14) is kinematically linked to the date correction mechanism and is not kinematically related to the second time setting wheel (24), <tb> - <SEP> and a time setting position in which the control rod (1) is kinematically connected to the first drive wheel (14) and the first (12) and second (20) latches are positioned so that said first drive wheel (14) is kinematically linked to the second time setting wheel (24) and is not kinematically related to the date correction mechanism, <tb> <SEP> the position of the first rocker (12) being modified by a cooperation between the control rod (1) and the first rocker (12) and the position of the second rocker (20) being modified by a cooperation between the first flip-flop (12) and the second flip-flop (20). 2. Horological movement according to claim 1, characterized in that the first latch (12) carries a positioning pin (16) arranged to cooperate with the second latch (20), the cooperation between said positioning pin (16) and the second flip-flop (20) defining the position of said second flip-flop (20). 3. watch movement according to one of the preceding claims, characterized in that there is provided a return spring (23) arranged to cooperate with the second latch (20) and ensure the contact between said second latch (20) and the first rocker (12). 4. Watch movement according to one of the preceding claims, characterized in that the second flip-flop (20) further carries a linkage comprising a third connecting wheel (32) capable of being kinematically linked to the first wheel of drive (14) and a link gear (34) cooperating with the date correction mechanism. 5. Watch movement according to claim 4, characterized in that the second rocker (20) comprises, at a first end, a first axis (A) on which is mounted the second time setting wheel (24), and at a second end a second axis (28) on which are mounted the third rocker (30) and the connecting mobile, the latter being secured to said second axis (28). 6. watch movement according to one of the preceding claims, characterized in that the third rocker (30) comprises a support arm (30a) on which the date correction mechanism is pivotally mounted and an arm (30b) carrying an element. stopper (30c). Clock movement according to Claim 6, characterized in that a support element (44) is provided which presses on the stop element (30c) of the third rocker (30) when the control rod ( 1) and the first (12) and second (20) latches are in the time setting position so as to pivot the third latch (30) to its retracted position disconnected from the date display mechanism. 8. Watchmaking movement according to one of the preceding claims, characterized in that the date correction mechanism comprises a fourth correction wheel (36) capable of being kinematically connected to the first drive wheel (14) and a corrector member (38) actuated by said fourth correction wheel (14) and comprising at least one correction finger (40) engageable with the date display mechanism. 9. Watchmaking movement according to claims 5, 7 and 8, characterized in that the third rocker (30) is frictionally mounted on the second axis (28) of the second rocker (20) to be secured to the second axis ( 28) when correcting the date to occupy the meshing position with the date display mechanism when the control rod (1) is rotated in one direction and occupy its disconnected withdrawal position of the display mechanism of the date when the control rod (1) is turned in the other direction and in order to be detached from the second axis (28) during the time setting to pivot in the disconnected withdrawal position of the mechanism displaying the date when its stop element (30c) cooperates with the support element (44). 10. Watch movement according to one of the preceding claims, characterized in that there is provided a holding plate (46) having an opening arranged to define the stroke of the third rocker (30).