EP2279460A1

EP2279460A1 - Timepiece mechanism and module comprising such a mechanism

Info

Publication number: EP2279460A1
Application number: EP09749752A
Authority: EP
Inventors: Johnny Frédéric GIRARDIN; Franck-Charles-Cyril Orny; Daniel Martinez
Original assignee: CT Time SA
Current assignee: CT Time SA
Priority date: 2008-05-22
Filing date: 2009-05-14
Publication date: 2011-02-02
Also published as: CN102027421B; WO2009141262A1; CN102027421A; US20110110199A1; EP2124112A1; US8641269B2; JP2011521243A; RU2010143809A

Abstract

This invention relates to a mechanism and a timepiece module independent of the bottom plate of a movement, of a simple and compact design. The timepiece mechanism comprises a control stem (3) mounted in a pivoting manner and movable between at least two axial positions, a control pinion (11; 13) mounted so as to rotate with said control stem (3), and at least one actuating member (15, 24; 30) configured to engage with said control pinion (11; 13) when the control stem is occupying one of the axial positions. Said control pinion (11; 13) is also coupled translationally to said control stem (3) when the latter moves from one to the other of said two positions. The module comprises a case (2) containing said mechanism.

Description

Description TIMER MECHANISM AND MODULE COMPRISING SUCH A

TECHNICAL FIELD [0001] The present invention relates to a timepiece mechanism comprising a control rod pivotally mounted and movable between at least two axial positions, a control gear mounted to rotate with said control rod, and at least one an actuating member arranged to cooperate with said control pinion when the control rod occupies one of the axial positions. The invention also relates to a module comprising such a mechanism.

State of the art

This type of mechanism is for example a winding and setting mechanism which conventionally comprises a winding stem on which a sliding pinion, fixed in rotation with the winding stem, can slide between a winding position and a time setting position. In the winding position, the sliding pinion cooperates with a first actuating member constituted by a winding pinion and in the setting position, the sliding pinion cooperates with a suitable return which constitutes a second actuating member. The different parts are arranged on the winding stem, starting from the outside to the center of the movement in the following order: winding pinion, sliding pinion, return for setting the time. The passage from one position to another is effected by means of a pull tab cooperating with the winding stem and a rocker whose end is housed in a notch provided on the sliding pinion. The zipper and the latch represent the disadvantage of complicating the mechanism in its construction and operation.

It is known to realize this winding mechanism and time setting in the form of an independent module that can be separated from the frame of a watch movement. Such a module is for example described in Swiss Patent CH 81927, which has a winding mechanism and time setting of which all the components are fixed between two plates, forming a removable module. The Swiss patent CH 17991 also describes a module consisting of a removable bridge attaching to the plate of a watch, on which are placed all the parts constituting the mechanisms of winding and setting time. However, these modules have the same disadvantages as those encountered by winding mechanisms and conventional time setting, due to the presence of zipper and rocker.

Also known from patent CH 609 516 a timepiece mechanism comprising a rod movable between three axial positions and two pinions integral in rotation of the rod and integral in translation during the movements of the rod, each of these gears cooperating with a single actuator to perform a single function, namely setting the time and actuation of the date. The control rod is mounted in a bracket directly attached to the movement plate. The positioning of the rod must be precise so that the control gear mounted on the rod cooperate properly with their actuators arranged around the rod. In addition, if it is desired to change the position of the rod on the frame of the movement, it is also necessary to review the position of the actuating members which cooperate with the control gears arranged on the rod. We must therefore generally review the entire conception of the movement.

An object of the present invention is therefore to overcome these disadvantages, by providing a module comprising a mechanism for setting the time and reassembly, and more generally for the actuation of a function of a watch movement , allowing for simplified construction and operation.

Another object of the present invention is to provide a timepiece module independent of the frame of a movement, simple and compact design, easily removable to be used on any type of movement, without reviewing the movement design. Disclosure of the invention

For this purpose, and in accordance with the present invention, there is provided a module for actuating an element of a watch movement, intended for to be mounted on a frame of said movement, said module containing a mechanism comprising a control rod pivotally mounted and movable between at least two axial positions, a control gear mounted to rotate with said control rod, and at least one control member. actuation arranged to cooperate with said drive gear when the control rod occupies one of the axial positions, said control gear being furthermore integral in translation with said control rod when the latter moves from one to the other. other of said two positions. According to the invention, said module further comprises an independent box in which said mechanism is contained, and connecting means coming out of the box and arranged to be able to kinematically connect the actuating member to the element of the movement to be actuated, of so that said actuator can actuate said element regardless of the position of the module on the frame of the movement. The module according to the invention is particularly compact, removable and easily interchangeable. The drive gear and its actuator being mounted together in the housing, their cooperation is always guaranteed, regardless of the position of the module. The connection between the element to be actuated and the module can be ensured directly by the connection means present on the module or by simply adding other references, guaranteeing in a simple and precise way the transmission of information from the pinion control and its actuator via the connection means incorporated in the module, regardless of the position of the module. In a particularly advantageous manner, the connecting means can be mounted on the housing in a steerable manner.

According to a first embodiment, the element to be actuated may be constituted by display members, and the corresponding actuating member may comprise a time setting wheel mounted free to rotate on the rod. control, the control gear comprising, on its side facing the time setting wheel, a toothing adapted to cooperate with the toothing of the time setting wheel to correct the time. The connecting means between the time setting wheel and the display members may comprise at least one return mounted free to rotate on the housing.

According to another embodiment, the element to be actuated may be a mainspring, and the corresponding actuating member may comprise a winding pinion arranged to be kinematically connected and at least temporarily to said mainspring by the connecting means, said winding pinion being rotatably mounted on the control rod, the control pinion comprising, on its face facing the winding pinion, a toothing adapted to cooperate with said winding pinion for reassembly said movement. The connecting means between the winding pinion and the mainspring can comprise a tab projecting from the housing and rotatably mounted on said housing, said tab supporting at least one return arranged on the one hand to mesh with the winding pinion. and on the other hand to be kinematically connected and at least temporarily to said barrel spring.

According to another embodiment, the mechanism may comprise at least two actuators, one to correct the time and the other for reassembly, such as those described above, and the pinion of The control is then arranged so that on the control rod, starting from the outside towards the center, the time setting wheel, the control gear and the winding pinion.

According to another embodiment, the actuating member may comprise a rack adapted to move perpendicularly to the control rod in a bidirectional movement, said rack comprising the connecting means arranged to cooperate with the element to actuate, and the drive gear may comprise a toothing adapted to cooperate with the toothing of the rack so as to move said rack and its connecting means.

Preferably, the toothing of the rack is chosen so that, in one position, the control pinion cooperates with the rack, and that the control pinion can pass through the teeth of the rack to reach the other position. According to another embodiment, the mechanism may comprise a first control gear for setting the time and reassembly and a second control gear arranged to cooperate with a rack for the actuation of another element. of the watch movement such as those described above, the first and second control gears being arranged so that, on the control rod, from the outside towards the center, the second control gear, the setting wheel on time, the first control gear and the winding pinion, and the control rod is movable between three axial positions, a first position in which the first control gear meshes with the winding pinion, a second position according to which the second drive gear meshes with the rack, and a third position in which the first drive gear meshes with the setting wheel, the second drive gear having crossed the teeth of the rack.

Preferably, the mechanism further comprises a selector spring cooperating with the control rod and with a positioning member for defining the positions of the control rod.

Advantageously, the control rod may comprise a first removable element and a second element housed inside the housing.

The present invention also relates to a clockwork movement mechanism that can be used in the actuation module as described above, comprising a control rod pivotally mounted and movable between at least two axial positions, a mounted control pinion. integral in rotation on said control rod, and at least one actuating member arranged to cooperate with said control pinion when the control rod occupies one of the axial positions, said control gear being furthermore integral in translation with said control rod when it moves from one to the other of said two positions. The actuating member is arranged to be kinematically connected to display members of a clockwork movement, and comprises a time setting wheel mounted free to rotate on the control rod, the pinion of control comprising, on its side facing the time setting wheel, a toothing adapted to cooperate with the toothing of the time setting wheel to correct the time.

The present invention also relates to a clockwork mechanism usable in the module as defined above, comprising a control rod pivotally mounted and movable between at least two axial positions, a control gear mounted rotatably mounted on said control rod, and at least one actuating member arranged to cooperate with said control pinion when the control rod occupies one of the axial positions, said control pinion being furthermore integral in translation with said control rod when it moves from one to the other of said two positions. The actuating member comprises a winding pinion arranged to be kinematically and at least temporarily connected to a mainspring of a clockwork movement, said winding pinion being mounted free to rotate on the control rod, the control gear comprising, on its face facing the winding pinion, a toothing adapted to cooperate with said winding pinion for reassembly of said movement.

Advantageously, the mechanism may comprise at least two actuators, one to correct the time and the other for reassembly, and the control gear is arranged so that are, on the control rod, from the outside towards the center, the time setting wheel, the drive gear and the winding pinion.

The present invention also relates to a watch movement mechanism usable in the module as defined above, comprising a control rod pivotally mounted and movable between at least two axial positions, a control gear mounted rotatably on said control rod, and at least one actuating member arranged to cooperate with said control pinion when the control rod occupies one of the axial positions, said control pinion being furthermore integral in translation with said control rod when it moves from one to the other of said two positions. The actuating member comprises a rack adapted to move perpendicularly to the control rod in a bidirectional movement, said rack including connecting means arranged to cooperate with the element to be actuated, the control gear comprising a toothing adapted to cooperate with the teeth of the rack to move said rack and its connecting means.

In an alternative embodiment, the mechanism may comprise a first control gear for setting the time and reassembly and a second control gear arranged to cooperate with a rack for the actuation of another element of the watch movement, the first and second control gears being arranged so that on the control rod, from the outside towards the center, the second control gear, the time setting wheel, the first gear control and the winding pinion, the control rod being movable between three axial positions, a first position in which the first control pinion meshes with the winding pinion, a second position in which the second pinion meshes with the rack. , and a third position in which the first control gear meshes with the setting wheel, the second control gear having passed through the teeth of the rack .

The present invention also relates to a timepiece comprising a module as defined above.

Brief description of the drawings

Other features of the present invention will appear more clearly on reading the description which follows, with reference to the accompanying drawings, in which:

FIGS. 1 and 2 are perspective views respectively showing the top and the bottom of a module according to the present invention; FIGS. 3 and 4 are respectively a sectional view and a top view of the module of the invention; , the control rod being in a first winding position, - Figures 5 and 6 are respectively a sectional view and a top view of the module of the invention, the control rod being in a second actuated position of another function,

FIGS. 7 and 8 are respectively a view in section and a view from above of the module of the invention, the control rod being in a third setting position, and FIG. 9 is a perspective view representing the module according to the invention mounted in a housing provided on the plate of a movement. Embodiment of the invention

[0025] With reference to the figures, there is described an alternative embodiment of the mechanism and the timepiece module according to the invention, according to which the mechanism and the module comprise two control gears and three actuating members, to namely a winding pinion, a time setting wheel and a rack for actuating another function, the control rod can then occupy three positions. Referring to Figures 1 and 2, there is shown a module 1 according to the invention comprising a housing 2 and an actuating mechanism of an element of a watch movement. Referring to Figure 5, the mechanism according to the invention comprises a control rod 3 mounted inside the housing 2, pivoting in the plane of the timepiece, and movable in translation between three positions axial. The control rod 3 comprises a first element 4 and a second element 5 housed essentially inside the housing 2. The first element 4 is removably arranged inside the second element 5 so that it can be dismounted easily and to be able to easily remove the movement from its box. The elements 4 and 5 of the rod are secured by means of a screw 6. It is obvious that the elements 4 and 5 can be replaced by any other broken rod device. The second element 5 of the control rod 3 has a first cylindrical zone 7 comprising a circular groove 8 whose operation will be explained below. The element 5 then has a square 9 and then a second cylindrical zone 10. On the square 9 is mounted a first control gear 11, which is thus integral in rotation with the control rod 3. Furthermore, there is provided a ring 12 driven on the element 5 of the control rod 3 and a coil spring 44 arranged to keep the control pinion 11 in contact with the ring 12 so as to make the control pinion 11 integral in translation with said control rod 3 as it moves between its three axial positions. On the cylindrical portion 7 of the element 5 of the control rod 3 is driven a toothed bush 13, constituting a second control pinion integral in rotation and in translation of the control rod 3. [0028] A first member of actuation is constituted by a winding pinion 15. Said winding pinion 15 is mounted free to rotate on the element 5 of the control rod 3 on the side of a watch movement (not shown) and is locked in translation by means of a bearing 45 of appropriate shape and driven on the housing 2. The winding pinion 15 is arranged to be kinematically connected and at least temporarily to a mainspring (not shown) of said movement. For this purpose, as shown in Figures 1 or 2, there is provided on the side of the winding pinion 15 a lug 16 projecting from the housing 2 and rotatably mounted around a pivot 17 on the housing 2. Said leg 16 supports two references, a first reference 18 arranged to mesh with the toothing 19 of the winding pinion 15, and a second reference 20 arranged to be kinematically connected and at least temporarily to the mainspring. In a self-winding movement, the lug 16 can tilt and disengage the return 20 of the ratchet barrel to disengage and avoid rotating the control rod 3 during automatic winding.

On their facing faces, the winding pinion 15 and the control pinion 11 comprise a Breguet toothing 21 for the control pinion 11 to cooperate with the winding pinion 15 for reassembly of the movement when the control rod 3 is in the winding position. Thanks to the Breguet toothing, meshing between the control pinion 11 and the winding pinion 15 occurs only when the control rod 3 is turned in the direction of reassembly. In the other direction, the control pinion 11 can rotate without driving the winding pinion 15.

On its other side, the control pinion 11 comprises a singing toothing 22 facing and adapted to cooperate with a set of teeth 23 of a clocking wheel 24. Said wheel setting hour 24 is rotatably mounted on the toothed sleeve 13 of the element 5 of the control rod 3 and constitutes a second actuating member for correcting the time. To do this, the hour-setting wheel 24 comprises a toothing 25 and is arranged so that the toothing 25 meshes with a return 26 mounted free to rotate on the housing 2, itself meshing with a return 27 mounted freely in rotation on the housing 2 and kinematically connected to display members (not shown) of the watch movement.

In this variant, the module 1 comprises a third actuating member consisting of a rack 30, of generally cylindrical shape. Said rack 30 is adapted to move perpendicularly to the control rod 3 in a bidirectional front-rear movement, and is held by two leaf springs 31 fixed on either side of the housing 2 (see FIG 2). The rack comprises a toothing 32 adapted to cooperate with the toothing 33 of the toothed sleeve 13. The toothing 32 of the rack is in the form of a pyramid so that it can be traversed by the toothing 33 of the toothed sleeve 13 avoiding any collision, when the control rod 3 is moved to occupy the third position, as will be seen below.

In the variant shown, the actuating means of the rack 30 are constituted by two actuating fingers 34 provided on the cylindrical body of the rack. These actuating fingers 34 protrude from the housing 2 which comprises two channels 35 in which said actuating fingers 34 may flow. The actuating fingers 34 are arranged to cooperate with a mechanism (not shown) of the watch movement, which can for example, a date correction mechanism of a calendar, a mechanism for activating a minute repeater, a mechanism for engaging a chronograph, etc.

It is obvious that the actuating means of the rack may also consist of a reverse system, that is to say a groove provided on the body of the rack arranged to be able to move pins cooperating with a mechanism of the watch movement.

The control pinion 11 and the toothed sleeve 13 are arranged on the control rod 3 so that, on the control rod 3, starting from the outside towards the center, the toothed sleeve 13, the time setting wheel 24, the control gear 11 and the winding pinion 15, and so that the rack 30 is located before the toothed sleeve 13 when the control rod 3 occupies the first winding position and between the time setting wheel 24 and the toothed sleeve 13, when the control rod 3 occupies the third position of time setting.

To define the different positions of the control rod 3, there is provided a selector spring 40 secured to two pins 41 which dip into the groove 8 of the element 5 of the control rod 3, so that the selector spring 40 follows the translational movements of the control rod 3. The ends 43 of the selector spring 40 are arranged to cooperate with a positioning member 42 which comprises three indexing elements on which the ends 43 can engage. selector spring 40, thereby defining the three positions of the control rod 3.

All the elements of the mechanism are sized and arranged to be able to contain in the housing 2 and constitute a particularly compact mechanism and module.

All the elements of the mechanism being grouped in the same module, this module 1 is independent of the rest of the watch movement and can be easily removed to be replaced. With reference to FIG. 9, the module 1 is then positioned on the frame, for example the plate 48, at the appropriate place to be able to cooperate with the element or elements of the movement to be actuated.

Most of the time, the mechanism is in the first position of winding, shown in Figures 3 and 4. In this first position, the control rod 3 is pushed to the bottom of the housing 2 and the control gear 11 is pressed against the winding pinion 15. The control pinion 11 does not cooperate with the hour-setting wheel 24 and the toothed sleeve 13 does not cooperate with the rack 30. The ends 43 of the selector spring 40 are engaged in the first indexing member of the positioning member 42 to maintain the control rod in its first position. By rotating the control rod 3 in a clockwise direction, the control pinion 11 integral with the control rod 3 rotates by driving the winding pinion 15 through the Breguet gearing 21. The toothing 19 of the winding pinion 15 then meshes with 18, which meshes itself with the reference 20 which is kinematically connected to the ratchet fixed on the barrel shaft for reassembly. The lug 16 movable in rotation makes it possible to best cooperate with the module 1 with the ratchet and allows disengagement in case of automatic winding, so that the control rod is not rotated. If the control rod 3 is rotated in the opposite direction, the control pinion 11 disengages from the winding pinion 15. With reference to FIGS. 5 and 6, when the control rod 3 is pulled out, the selector spring 40, driven by the pins 41 housed in the groove 8 of the control rod, moves in the same manner until its ends 43 engage in the second indexing member of the positioning member 42, thereby defining the second position corresponding to the actuation of a movement mechanism. During the displacement in translation of the control rod 3, the control pinion 11, constrained by the coil spring 44 and pushed by the ring 12, and the toothed sleeve 13, also integral in translation with the control rod, move the same way until occupying the second position. In this second position, the control gear 11 is inactive and cooperates neither with the winding pinion 15 nor with the setting wheel 24. The toothing 33 of the toothed sleeve 13 cooperates with the toothing 32 of the Rack 30. By rotating the control rod 3 in reciprocating motion, the rack 30 and the actuating fingers 34 move in a reciprocating manner perpendicular to the control rod 3 to actuate a suitable mechanism. By choosing the number of teeth, it is possible to give the rack 30 and the actuating fingers 34 a more or less long movement. The leaf springs 31 act as return springs. Otherwise, Those skilled in the art will be able to choose a suitable rack, in order to be able to rotate the control rod 3 in a continuous movement instead of a reciprocating movement.

Referring to Figures 7 and 8, when the control rod 3 is pulled again, the spring-selector 40, driven by the pins 41 housed in the groove 8 of the control rod, moves in the same way until its ends 43 engage in the third indexing member of the positioning member 42, thereby defining the third position for correcting the time. During the displacement in translation of the control rod 3, the control pinion 11, constrained by the coil spring 44 and pushed by the ring 12, and the toothed sleeve 13, also integral in translation with the control rod 3 move in the same way until occupying the third position of correction of the hour. In this third position, the control pinion 11 does not cooperate with the winding pinion 15 and the toothing 33 of the toothed sleeve 13 has passed through the toothing of the rack 30 so that the control pinion 11 co-operates with the setting wheel. 24. By turning the control rod 3, the control pinion 11 integral with the control rod 3 rotates by driving the time setting wheel 24 by the edge teeth 22 and 23. The toothing 25 the time-setting wheel 24 then meshes with the gear 26 which itself meshes with the gear 27, itself being kinematically connected to display elements, for the correction of the time.

The positioning member 42 is arranged to allow a return of the mechanism in the first position by pushing the control rod 3 without passing through the second intermediate position.

It is obvious that the mechanism and the module according to the invention may comprise different combinations of control gears and actuators, as described above. For example, it is possible to provide a mechanism and its module comprising one or more bushings integral with the control rod arranged to cooperate with different racks each actuating a different element of the movement. This mechanism may or may not include the control gear that can cooperate with the winding pinion and / or the wheel of setting the time. It is also possible to provide a winding mechanism and time setting and its module, similar to that described above, but comprising only the control pinion can cooperate with the winding pinion and / or the wheel of bet on time. For example, it is possible to provide a single control gear cooperating with two actuating members, one to correct the time and the other for reassembly, or two racks each actuating a different element of the movement.

Claims

claims

1. module (1) for actuating an element of a clockwork movement, intended to be mounted on a frame of said movement, said module containing a mechanism comprising a control rod (3) pivotally mounted and movable between at least two axial positions, a control pinion (11; 13) mounted to rotate with said control rod (3), and at least one actuating member (15, 24; 30) arranged to cooperate with said control pinion (11; 13) when the control rod occupies one of the axial positions, said control gear (11; 13) being furthermore integral in translation with said control rod (3) when it moves from the one to the other of said two positions, characterized in that said module further comprises an independent box (2) in which said mechanism is contained, and connecting means (18, 20, 26, 27, 34) coming out of the box and arranged to be able to kinematically connect the actuating member (15, 24; 30) to the element of the movement to be actuated, so that said actuating member (15, 24; 30) can actuate said element regardless of the position of the module on the frame of the movement.

2. Module according to claim 1, characterized in that the connecting means (18, 20) are mounted on the housing (2) in a steerable manner.

3. Module according to claim 1, characterized in that the element to be actuated is constituted by display members, in that the corresponding actuating member comprises a time setting wheel (24) freely mounted. in rotation on the control rod (3), and in that the control pinion (11) comprises, on its face facing the setting wheel (24), a toothing (22) able to cooperate with the toothing (23) of the setting wheel (24) to correct the time.

4. Module according to claim 3, characterized in that the connecting means between the setting wheel (24) and the display members comprise at least one return (26, 27) mounted free to rotate on the case (2).

5. Module according to any one of claims 1 and 2, characterized in that the element to be actuated is constituted by a mainspring, in that the corresponding actuating member comprises a winding pinion (15) arranged to be kinematically and at least temporarily connected to said barrel spring by the connecting means, said winding pinion (15) being rotatably mounted on the control rod (3), and in that the control pinion (11) ) comprises, on its face facing the winding pinion (15), a toothing (21) adapted to cooperate with said winding pinion (15) for reassembly of said movement.

6. Module according to claim 5, characterized in that the connection means between the winding pinion (15) and the barrel spring comprise a lug (16) projecting from the housing (2) and rotatably mounted on said housing (2), said tab (16) supporting at least one return (18, 20) arranged on the one hand to mesh with the winding pinion (15) and on the other hand to be kinematically connected and at least temporarily said spring barrel.

7. Module according to claims 3 and 5, characterized in that the mechanism comprises at least two actuating members (15, 24), one for correcting the time and the other for reassembly, and in that the control pinion (11) is arranged so that on the control rod (3), from the outside towards the center, the setting wheel (24), the control pinion (11) and the winding pinion (15).

8. Module according to claim 1, characterized in that the actuating member comprises a rack (30) adapted to move perpendicularly to the control rod (3) in a bidirectional movement, said rack (30) comprising the means connecting means (34) arranged to cooperate with the element to be actuated, and in that the control pinion (13) comprises a toothing (33) adapted to cooperate with the toothing (32) of the rack (30) so as to moving said rack (30) and its connecting means (34).

9. Module according to claim 8, characterized in that the toothing (32) of the rack (30) is chosen so that, in one position, the control pinion (13) cooperates with the rack (30), and that the drive gear (13) can pass through the toothing (32) of the rack (30) to reach the other position.

10. Module according to any one of the preceding claims, characterized in that the mechanism comprises a first control gear (11) for the time setting and reassembly and a second control gear (13) arranged to cooperate with a rack (30) for the actuation of another element of the watch movement, the first and second control gears (11, 13 ) being arranged so that on the control rod (3), from the outside towards the center, the second driving gear (13), the setting wheel (24), the first gear control (11) and the winding pinion (15), and in that the control rod (3) is movable between three axial positions, a first position in which the first control pinion (11) meshes with the pinion gear. winder (15), a second position in which the second control gear (13) meshes with the rack (30), and a third position in which the first control gear (11) meshes with the setting wheel (24), the second drive gear (13) having passed through the toothing (32) of the rack (30).

11. Module according to any one of the preceding claims, characterized in that the mechanism further comprises a selector spring (40) cooperating with the control rod (3) and with a positioning member (42) for defining the positions of the control rod (3).

12. Module according to any one of the preceding claims, characterized in that the control rod (3) comprises a first element (4) and a removable second element (5) housed inside the housing (2).

13. Mechanism of clockwork usable in the actuating module according to any one of claims 1 to 4, comprising a control rod (3) pivotally mounted and movable between at least two axial positions, a control pinion ( 11) rotatably mounted on said control rod (3), and at least one actuating member (24) arranged to cooperate with said control pinion (11) when the control rod occupies one of the axial positions, said control pinion (11) being furthermore integral in translation with said control rod (3) as it moves from one to the other of said two positions, characterized in that the actuating member is arranged to be kinematically connected to display members of a watch movement, and comprises a setting wheel (24) rotatably mounted on the control rod (3), and in that the sprocket control (11) comprises, on its side facing the setting wheel (24), a toothing (22) adapted to cooperate with the toothing (23) of the time setting wheel (24) to correct the time.

14. Mechanism of clockwork usable in the module according to any one of claims 5 to 6, comprising a control rod (3) pivotally mounted and movable between at least two axial positions, a control gear (11) mounted rotatably secured to said control rod (3), and at least one actuating member (15) arranged to cooperate with said control pinion (11) when the control rod occupies one of the axial positions, said pinion of control (11) being furthermore integral in translation with said control rod (3) as it moves from one to the other of said two positions, characterized in that the actuating member comprises a pinion of winder (15) arranged to be kinematically connected and at least temporarily to a mainspring of a clockwork movement, said winding pinion (15) being rotatably mounted on the control rod

(3), and in that the control pinion (11) comprises, on its face facing the winding pinion (15), a toothing (21) adapted to cooperate with said winding pinion (15) for the reassembly of said movement.

15. Mechanism according to claims 13 and 14, characterized in that it comprises at least two actuating members (15, 24), one for correcting the time and the other for reassembly, and in that the control pinion (11) is arranged so that on the control rod (3), from the outside towards the center, the setting wheel (24), the control pinion (11) and the winding pinion (15).

16. Mechanism of clockwork usable in the module according to any one of claims 8 to 9, comprising a control rod (3) pivotally mounted and movable between at least two axial positions, a control gear (13) mounted integral in rotation on said control rod (3), and at least one actuating member (30) arranged to cooperate with said control pinion (13) when the control rod occupies one of the axial positions, said pinion of control (13) being further integral in translation with said control rod (3) as it moves from one to the other of said two positions, characterized in that the actuating member comprises a rack (30) adapted to move perpendicularly to the control rod (3) in a bidirectional movement, said rack (30) comprising connecting means (34) arranged to cooperate the element to be actuated, and in that the pinion control device (13) comprises a toothing (33) adapted to cooperate with the toothing (32) of the rack (30) so as to move said rack (30) and its connecting means (34).

17. Mechanism according to any one of claims 13 to 16, characterized in that it comprises a first control gear (11) for setting the time and reassembly and a second control gear (13) arranged for cooperating with a rack (30) for the actuation of another element of the watch movement, the first and second control gears (11, 13) being arranged so that on the control rod (3) there are outside to the center, the second driving gear (13), the setting wheel (24), the first driving gear (11) and the winding gear (15), and in that the control rod (3) is movable between three axial positions, a first position in which the first control gear (11) meshes with the winding gear (15), a second position in which the second control gear (13) meshes with the rack (30), and a third position in which the first control gear (11) meshes with the setting wheel (24), the second control gear (13) having passed through the toothing (32) of the rack (30).

18. Timepiece comprising a module according to any one of claims 1 to 12.