CH719259A2 - Automatic winding system for clockwork. - Google Patents

Abstract

The invention relates to an automatic winding system for a timepiece, comprising: - a barrel housing a mainspring, one end of which is kinematically connected to a toothed member arranged for winding the latter; – an oscillating mass in disengageable kinematic connection with said toothed member via a winding gear train comprising a disarming mobile (17) separate from said toothed member and arranged to allow the disengagement of the oscillating mass of said toothed member; According to the invention, said mobile decocking (17) comprises a shaft (23) carrying a wheel (19) and a pinion (21), one of said wheel (19) and said pinion (21) being integral in rotation said axle (23), the other being loosely mounted on said axle (23), said wheel (19) carrying a pawl (25) arranged to cooperate with said pinion (21), said pawl being further arranged to have a first stable state in which it cooperates with said pinion (21) in order to make said wheel (19) and said pinion (21) integral in rotation in at least one direction, and a second stable state in which said pawl (25) does not cooperate with said pinion (21).

Description

Technical area

The present invention relates to the field of watchmaking. It relates, more particularly, to an automatic winding system for a timepiece, which notably comprises a disarming mobile arranged to allow the barrel to be disengaged from the oscillating weight.

State of the art

[0002] In a classic automatic winding watch movement, the movements of an oscillating weight, in kinematic connection with the ratchet of a barrel, serve to wind the latter during the movements of the part in which the movement is integrated. . Typically, the oscillating mass is bidirectional, that is to say that a rotation in each direction is converted into a rotation in a single direction to wind the spring housed in the barrel. In such a case, an inverter mechanism is provided, which also prevents the ratchet from driving the rotation of the oscillating mass.

[0003] During dismantling of the automatic winding system for maintenance, it is advantageous to provide means for disengaging the ratchet from the oscillating mass, in order to allow the watchmaker to manually disarm the barrel under control.

[0004] The document CH700527 discloses such a means, comprising two coaxial wheels, capable of coupling to each other in rotation at least in one direction of rotation by means of coupling elements arranged on their sides who face each other. One of the coaxial wheels is movable in the axial direction on a sliding axle so that the watchmaker can press on the axle and thus disengage the coupling elements so that the wheels are released one from the other. other.

This arrangement is complicated, cumbersome, especially in the thickness of the movement, is difficult to implement and requires a specific construction in order to incorporate it.

[0006] Another solution is disclosed in the document EP1845425, in the context of a chiming timepiece. In this construction, the ratchet wheel is linked in rotation, in the direction of disarming of the mainspring and via two pawls, to an intermediate pinion meshing with a ring gear. An inversion wheel is provided, which is linked in rotation to the intermediate pinion by the abutment of the pawl axes against the end edge of an associated light, which allow an angular movement determined by the circumferential length of the lights, between the reversing wheel and intermediate pinion.

[0007] A relative pivoting of the inversion wheel with respect to the intermediate pinion causes the lifting of the pawls due to the displacement of the bearing end of each elastic blade on the side opposite to the pivot axis of the associated pawl , the blades, in this state, no longer pressing the pawls towards the ratchet wheel.

This arrangement allows the lifting of all pawls with a single tool in order to disarm the mainspring when it is desired to intervene on the striking mechanism, but is complicated and cumbersome, especially in height.

[0009] The object of the invention is therefore to provide an automatic winding system for a watch movement in which the aforementioned defects are at least partially overcome.

Disclosure of Invention

More specifically, the invention relates to an automatic winding system according to claim 1.

[0011] This system comprises: - a barrel housing a mainspring, one end of which is kinematically connected to a toothed member arranged for winding the latter, the typical configuration being that the inner end is kinematically connected to a ratchet wheel that includes the barrel, but winding by the drum is also possible; - an oscillating weight, of any known configuration, in disengageable kinematic connection with said toothed member via a winding gear train comprising a disarming wheel set, which is separate from said toothed member and is therefore not integrated with the latter, and which is arranged to allow the disengagement of the oscillating mass of said toothed member.

[0012] According to the invention, said mobile decocking comprises a shaft carrying a wheel and a pinion, one of said wheel and said pinion (typically said pinion) being integral in rotation with said shaft, the other being mounted free in rotation on said axis. The wheel carries a pawl arranged to cooperate with said pinion, said pawl being further arranged to present a first stable state in which it cooperates with said pinion in order to render said wheel and said pinion integral in rotation according to at least one direction of rotation, preferably in both directions of rotation, and a second stable state in which said pawl does not cooperate with said pinion. In this second stable state, the pinion and the wheel are mutually free from each other.

[0013] By these means, the watchmaker can disengage the wheel from the pinion in order to unwind the barrel, the bistability of the pawl ensuring that he does not need to continue to act on the latter to maintain it in said second state. . Moreover, this mobile requires few parts, is therefore simple to implement and can be made very compact.

[0014] Advantageously, said winding gear train further comprises an inverter system, said disarming wheel set being distinct from said inverter system and therefore not integrated into the latter, said disarming wheel set preferably being kinematically located between said inverter system and said barrel.

[0015] Advantageously, said wheel has a hollow shape, said pinion being located at least partially inside said wheel, that is to say inside a hollow formed in one of its faces. . The mobile is thus made very compact in height, and even facilitates the use of the mobile in the context of an existing caliber to replace a conventional mobile within the latter.

Advantageously, said pawl is pivotally mounted on said wheel and cooperates with an elastic element provided on the latter, said elastic element preferably being integral with said wheel. This is simple to implement and therefore economical.

[0017] Advantageously, said pawl comprises a beak which cooperates with said pinion in said first state, a gripping means arranged to be manipulated by means of a tool as well as a zone shaped to define said stable states in direct cooperation or indirectly with said elastic element.

Brief description of the drawings

[0018] Other details of the invention will appear more clearly on reading the following description, made with reference to the appended drawings in which: - Figure 1 is a schematic diagram of an automatic winding system according to the invention ; – Figure 2 is an isometric view of a disarming mobile; - Figure 3 is a plan view of the disarming mobile of Figure 2, in its engaged state; and - Figure 4 is a plan view of the disarming mobile of Figure 2, in its disengaged state.

Embodiments of the Invention

Figure 1 schematically illustrates an automatic winding system 1 according to the invention.

This system 1 comprises a barrel 3 comprising a drum 5 housing a mainspring 7 which is in kinematic connection, at its outer end, with the drum 5, as well as at its inner end with a shaft 9 which is integral in rotation of a ratchet wheel 11 (hereinafter simply "ratchet"). The arrangement illustrated is conventional, that is to say that the toothing of the drum is intended to drive a going train, while the toothing of the ratchet 11 is used for winding the spring 7. However, the reverse arrangement is possible, that is to say that wheel 11 drives the going train, while the toothing of drum 5 is used for winding. More generally, one of these toothed members 5, 11 is used for winding, the other 11.5 to drive the finishing.

[0021] The driving force for winding is generated by an oscillating weight 13 of any known type, whether unidirectional, bidirectional, limited stroke or unlimited stroke. The oscillating weight 13 is in disengageable kinematic connection with the barrel 3 via a winding gear train 15, comprising a disarming mobile 17, an inverter system 18 in the case where the oscillating weight is of the bidirectional type as well as any other mobiles represented schematically by dotted lines. The reverser system 18 is kinematically located upstream of the disarming mobile 17 (that is to say that the disarming mobile is kinematically between the reverser system 18 and the barrel 3) and can be of any known type. , but the construction of the mobile decocking 17 forms the heart of the present invention.

As best seen in Figures 2 to 4, the mobile decocking 17 consists of a wheel 19 and a pinion 21, which are mounted coaxially on a shaft 23 and which can selectively be made integral in rotation via a pawl 25. Either the wheel 19, or the pinion 21 is mounted (e) free in rotation on the axis 23, the other being integral in rotation. In the illustrated embodiment, it is the pinion 21 which is integral in rotation with the axis 23.

[0023] In the illustrated construction, which is particularly compact and is capable of taking place in a standard winding train of an existing caliber, the wheel 19 is hollow with a recess 43 formed in one of its faces, the pawl 25 being pivotally mounted in this recess 43 via a stud 27 or the like.

The pawl 25 has a beak 29 which cooperates with the pinion 21 in a first state - engaged - in order to make the pinion 21 integral in rotation with the wheel 19 (see in particular Figure 3).

By manipulating the pawl 25 by means of an ad hoc tool, for example a hook which cooperates with a gripping means 31 such as an opening or with the free end 33 of the pawl 25, the latter can be brought into a second state - disengaged - in which the beak 29 is remote from the toothing of the pinion 21 and the wheel 19 can thus pivot freely with respect to the latter.

The return force that maintains the pawl 25 in each of its states is provided by an elastic element 35, which is integral with the wheel 19 but which can alternatively be a separate part provided on the latter.

The free end 37 of the elastic element cooperates with a zone 39 of said pawl 25 which is shaped so as to define, in cooperation with said free end 37, the two states mentioned, so that they are states stable. In the illustrated construction, said zone 39 consists of a pair of depressions separated by a beak or a finger, but other shapes or arrangements (for example comprising pins, studs, teeth or the like) are of course possible. When the end 37 is in one of the recesses of said zone 39, the pawl 25 is maintained in one of its states, the other of its states being obtained when the end 37 is in the other hollow, the transition from one state to the other being effected by manipulation on the part of the watchmaker, as described above.

The pawl 25 is thus bistable, and when the watchmaker has brought it into the second state (disengaged), he is not obliged to exert force to keep it in this state. He can thus handle it easily during maintenance of the movement.

[0029] In the illustrated construction, the pinion 21 is located almost entirely inside the hollow of the wheel 19. In order to provide a connection with the next mobile of the winding train 15, in the direction of the barrel 5, an additional 41 is provided, integral in rotation with said pinion 21. These two pinions 21, 41 have the same shape of teeth and the same diameter, but this is not an obligation. For the surplus, the

[0030] additional pinion 41 can be located either on one or the other side of the wheel 19. Alternatively, the pinion 21 can simply have a sufficient height to cooperate on the one hand with the pawl 25, on the other hand with the next mobile of the winding train 15 and this on two different levels.

Even if the hollow shape of the wheel 19 is advantageous in terms of space in the height, this feature is not mandatory either. It is entirely possible to provide a flat wheel 19, and to mount the pawl 25 on its surface, the pinion 21 therefore being in contact with, or adjacent to the latter. In such a case, if a second pinion 41 is provided, this can also be located either on one side or the other of wheel 19.

[0032] The toothing of pinion 21 has also been shown as taking a conventional form, but this is not mandatory either. By providing, for example, a saw toothing, it is possible to ensure that the wheel 19 and the pinion 21 are integral in rotation in a single direction of rotation, while being substantially free to pivot relative to each other. the other in the other direction (except for the force necessary to overcome the pawl 25). In such a case, the pawl 25 acts as a one-way pawl.

Regarding the shape of the pawl 25, it can be determined ad hoc according to the needs of the manufacturer, insofar as its cooperation with the elastic element 35 makes it bistable.

[0034] Although the invention has been previously described in connection with specific embodiments, other additional variants are also possible without departing from the scope of the invention as defined by the claims.

Claims (9)

1. Automatic winding system (1) for a timepiece, comprising: – a barrel (5) housing a mainspring (7) one end of which is kinematically connected to a toothed member (11) arranged for the winding of the latter; – an oscillating mass (13) in disengageable kinematic connection with said toothed member (11) via a winding gear train (15) comprising a disarming mobile (17) separate from said toothed member and arranged to allow the clutch to be disengaged the oscillating weight (13) of said toothed member (11); characterized in that said mobile decocking (17) comprises a shaft (23) carrying a wheel (19) and a pinion (21), one of said wheel (19) and of said pinion (21) being fixed in rotation to said axle (23), the other being loosely mounted on said axle (23), said wheel (19) carrying a pawl (25) arranged to cooperate with said pinion (21), said pawl being further arranged to present a first state stable in which it cooperates with said pinion (21) in order to render said wheel (19) and said pinion (21) integral in rotation in at least one direction, and a second stable state in which said pawl (25) does not cooperate with said pinion (21). 2. Winding system (1) according to the preceding claim, wherein said winding gear train (15) further comprises an inverter system (18), said disarming mobile (17) being separate from said inverter system (18). 3. Winding system (1) according to the preceding claim, wherein said decocking mobile (17) is kinematically located between said inverter system (19) and said barrel (5). 4. Winding system (1) according to one of the preceding claims, wherein said wheel (19) has a hollow shape, said pinion (21) being located at least partially inside said wheel (19). 5. Winding system (1) according to one of the preceding claims, wherein said pawl (25) is pivotally mounted on said wheel (19) and cooperates with an elastic element 35 provided on the latter. 6. Winding system (1) according to the preceding claim, wherein said elastic element (35) is integral with said wheel (19). 7. Winding system (1) according to the preceding claim, wherein said pawl (25) comprises a beak (29) which cooperates with said pinion (21) in said first state, gripping means (31; 33) arranged to be manipulated by means of a tool, as well as an area (39) shaped to define said stable states in cooperation with said elastic element (35). 8. Clock movement comprising a winding system (1) according to one of the preceding claims. 9. Timepiece comprising a clockwork according to the preceding claim.