CH713583B1 - Winding mechanism of a timepiece. - Google Patents

Abstract

The invention relates to a winding mechanism (1) for a timepiece comprising at least a first and a second energy accumulators (3, 5), said winding mechanism (1) comprising a winding stem (2), a winding pinion (4) and a sliding pinion (6) having straight teeth facing each other arranged to allow the winding pinion (4) to be driven by the sliding pinion (6). ) in both directions of rotation of the winding stem (2), said winding stem (2) and the sliding pinion (6) occupying the same axial winding position. The winding mechanism (1) comprises a clutch device (16) cooperating with the winding pinion (4) and arranged to occupy a first clutch position in which it engages the winding pinion (4) and the first accumulator energy (3) when the winding stem (2) is turned in one direction, the second energy accumulator (5) being disengaged, without any contact with said clutch device (16), and a second position d clutch according to which it engages the winding pinion (4) and the second energy accumulator (5) when the winding stem (2) is turned in the other direction, the first energy accumulator (3) being disengaged , without any contact with said clutch device (16).

Description

Field of the invention

[0001] The invention relates to a mechanism for winding a timepiece comprising at least a first energy accumulator arranged to supply energy to a first mechanism and a second energy accumulator arranged to supply energy to a second mechanism, said winding mechanism comprising a winding rod, a winding pinion and a sliding pinion carried by said winding rod and having opposite one another straight teeth arranged to allow the driving of the winding pinion winder by the sliding pinion in both directions of rotation of the winding stem, said winding stem and the sliding pinion occupying the same axial winding position. The invention also relates to a timepiece comprising such a winding mechanism.

Background of the invention

[0002] Such a winding mechanism is for example described in patent CH 330202. This document describes an alarm watch comprising a first energy accumulator constituted by the movement barrel and a second energy accumulator constituted by the movement barrel. alarm. The mechanism includes a winding stem arranged to carry out all the movement and alarm controls, and in particular the setting of the time of the movement and the striking, but also the winding of the movement barrel or the striking barrel by turning in one direction or the other the winding stem when it occupies its central winding position. For this purpose, the sliding pinion is engaged with the winding pinion by teeth of straight shape, and there is provided a crown wheel engaging with the winding pinion, and two crown returns, both meshing with the wheel crown and intended to cooperate respectively with the ratchet of each of the barrels. The meshing of the crown returns with the ratchet of the corresponding barrel is ensured by a spring which acts on the axes of the crown returns to push them and bring them into engagement with the corresponding ratchet. When the winding stem is turned in one direction or the other, by the tangential force exerted by the crown wheel on the references, one of the crown references winds the corresponding barrel while the other does unlocking. Unlocking causes the persistence of weak and cyclical contact between the parts. Such a mechanism is fragile due to the permanent stress on the spring to ensure good meshing of the crown gears with the corresponding ratchet. A loss of effectiveness of the spring, through fatigue or aging, leads to the risk that one or the other of the references no longer cooperates with the corresponding ratchet so that the associated barrel can no longer be wound. Another disadvantage is the wear of the crown gears when detaching. In addition, this construction requires control of the manufacturing tolerances of the spring.

[0003] Patent CH 47977 also describes a mechanism for winding and setting the time for a two-barrel alarm watch. This mechanism comprises a winding ratchet of the movement barrel constantly engaged with a crown wheel meshing with a winding pinion, and arranged to only actuate the movement barrel shaft in one direction of rotation of the rod. The winding ratchet of the movement barrel is used to transmit the reverse rotational movement of the stem either to the winding ratchet of the alarm barrel or to the alarm wheel by a return pivoted on a rocker operable from the outside of the watch . This mechanism has the disadvantage of requiring the actuation of an external control in addition to the rotation of the winding stem to wind the striking barrel.

Summary of the invention

[0004] The invention aims in particular to overcome the various disadvantages of known devices.

[0005] More precisely, an objective of the invention is to provide a winding mechanism allowing the winding of two energy accumulators by the sole rotation of the winding stem in both directions.

[0006] The invention also aims to provide a winding mechanism allowing the winding of two energy accumulators having high precision and reliability over time.

[0007] The invention also aims to provide a winding mechanism allowing the winding of two energy accumulators of simplified construction.

[0008] To this end, the present invention relates to a mechanism for winding a timepiece comprising at least a first energy accumulator arranged to supply energy to a first mechanism and a second energy accumulator arranged to supply energy a second mechanism, said winding mechanism comprising a winding rod, a winding pinion and a sliding pinion carried by said winding rod and presenting facing one another straight teeth arranged to allow the driving of the winding pinion by the sliding pinion in both directions of rotation of the winding stem, said winding stem and the sliding pinion occupying the same axial winding position.

[0009] According to the invention, the winding mechanism comprises a clutch device cooperating with the winding pinion and arranged to occupy a first clutch position in which it engages the winding pinion and the first energy accumulator when the winding stem is turned in one direction, the second energy accumulator being disengaged, without any contact with said clutch device, and a second clutch position according to which it engages the winding pinion and the second energy accumulator energy when the winding stem is turned in the other direction, the first energy accumulator being disengaged, without any contact with said clutch device.

[0010] Thus, the winding mechanism according to the invention makes it possible to wind two energy accumulators by the sole rotation of the winding stem in one direction and in the other, by means of a mechanism of simplified construction.

[0011] Furthermore, when one of the energy accumulators is raised by means of the clutch device, the other of the energy accumulators is disengaged, which means a total absence of contact with the clutch device and therefore the elimination of the risk of wear, unlike detaching.

[0012] The winding mechanism according to the invention is particularly suitable for winding a movement barrel constituting one of the energy accumulators and for winding a barrel of an independent automaton constituting the other of the energy accumulators.

[0013] The present invention also relates to a timepiece comprising a winding mechanism as defined above.

Summary description of the drawings

[0014] Other characteristics and advantages of the invention will appear more clearly on reading the following description of a particular embodiment of the invention, given by way of a simple illustrative and non-limiting example, and the appended figures. , among which: - Figure 1 is a perspective view, on the bridge side, of the winding mechanism according to the invention, the clutch device being in its first clutch position, the winding rod having been turned in the clockwise; – Figure 2 is an unfolded sectional view of the clutch device in its first clutch position, on the bridge side; – Figure 3 is a bridge side view of the winding mechanism according to the invention, the clutch device being in its first clutch position; – Figure 4 is a dial side view of the winding mechanism according to the invention, the clutch device being in its first clutch position; – Figure 5 is a bridge side view of the winding mechanism according to the invention, the clutch device being in its second clutch position, the winding rod having been turned counterclockwise; – Figure 6 is a perspective view of the winding pinion; and – Figure 7 is a perspective view of the sliding pinion.

Detailed description of a preferred embodiment

The present invention relates to a mechanism for winding at least two energy accumulators provided in a timepiece. These two accumulators can be independent of each other or linked, for example at the discharge level. More particularly, in the description which follows, the two energy accumulators are independent or autonomous, one of the energy accumulators being a movement barrel supplying energy to the basic movement of the timepiece and the other energy accumulators being for example an automaton barrel powering an automaton provided in the timepiece. It is obvious that energy accumulators can be used to supply energy to any other mechanism of a timepiece, for example a striking, dead seconds or alarm mechanism, or any other appropriate mechanism.

[0016] In the example described below, the first energy accumulator is constituted by a first barrel, for example the movement barrel, and the second energy accumulator is constituted by a second barrel, for example the barrel of automaton. It is, however, quite obvious that the roles can be reversed, the character “first” or “second” attributed in the present description to the movement barrel, respectively to the automaton barrel not being restrictive.

[0017] With particular reference to Figures 1 and 2, there is shown a winding mechanism 1 of a timepiece which comprises in a conventional manner a winding stem 2 on which are mounted a winding pinion 4 and a sliding pinion 6. The winding stem 2 is arranged to occupy at least two axial positions, namely a first winding position in which the rotation of the winding stem 2 in one direction (here clockwise) causes the winding of the first energy accumulator 3, that is to say the first barrel, and the rotation of the winding stem 2 in the other direction (here counterclockwise) causes the winding of the second energy accumulator 5, this is that is to say the second barrel, as will be seen below, and a second time setting position in which the rotation of the winding stem in both clockwise and counterclockwise directions allows the time setting of the movement, none of the first and second energy accumulators can then be armed, whatever the direction of rotation of the winding stem. In a manner known to those skilled in the art, the winding pinion 4 is mounted to rotate freely on a cylindrical part of the winding stem 2. The sliding pinion 6 has a square hole and is slidably mounted on a corresponding square provided at the end of the winding stem 2. The sliding pinion 6 can thus slide between the winding position in which it meshes with the winding pinion 4 and the time setting position in which the sliding pinion 6 is separated of the winding pinion 4 and meshes with the time setting mechanism. The movement of the sliding pinion 6 is ensured by a mechanism comprising a pull tab 7 and a rocker 9, visible in Figure 4. All these elements and mechanisms are known to those skilled in the art and do not require a more detailed description.

[0018] It should be noted, however, that unlike conventional winding mechanisms, the sliding pinion and the winding pinion do not mesh with Breguet teeth but have straight edge teeth facing each other. arranged to allow the winding pinion 4 to be driven by the sliding pinion 6 in both directions of clockwise and counterclockwise rotation of the winding stem 2, said winding stem 2 and the sliding pinion 6 occupying the same axial winding position.

[0019] With particular reference to Figures 6 and 7, the straight edge teeth of the sliding pinion 6 and the winding pinion 4 can be dog teeth. For this purpose, the winding pinion 4 and the sliding pinion 6 respectively have, instead of Breguet teeth, teeth 8 in the form of slots ending in two inclined faces joining at the top of the slot and alternating with recesses 10 of complementary shape to that of the teeth 8 allowing their meshing by the engagement of the teeth 8 of one in the corresponding recesses 10 of the other. This shape of dog edge teeth allows the sliding pinion 6 to fit easily into the winding pinion 4, and to transmit more torque when they are in the winding position, as shown Figure 4. These dog edge teeth can also be machined without great constraints. In a manner known per se, the winding pinion 4 also comprises peripheral teeth 12 arranged to cooperate with the clutch device as will be detailed below. The sliding pinion 6 also includes edge teeth 14, opposite the dog edge teeth 8, arranged to cooperate with the time setting mechanism.

[0020] In accordance with the invention, and with reference to Figures 1 to 4, the winding mechanism comprises a clutch device 16 cooperating with the winding pinion 4.

[0021] Furthermore, the clutch device 16 is arranged to occupy: – a first clutch position according to which said clutch device 16 engages the winding pinion 4 and the first energy accumulator 3 when the winding rod winder 2 is turned in one direction (here clockwise), the second energy accumulator 5 then being disengaged, without any contact with said clutch device 16, and - a second clutch position according to which said clutch device 16 engages the winding pinion 4 and the second energy accumulator 5 when the winding stem 2 is turned in the other direction (here counterclockwise), the first energy accumulator 3 then being disengaged, without any contact with said clutch device 16.

[0022] Between these two first and second clutch positions, the clutch device 16 can occupy intermediate and transitional positions in which it does not cooperate with any of the first and second energy accumulators 3, 5.

[0023] According to the invention, the clutch device 16 comprises a crown wheel 20 cooperating with the peripheral teeth 12 of the winding pinion 4 and on which a clutch rocker 22 is mounted. Said clutch rocker 22 carries at its free end a driving pinion 24 arranged to be able to kinematically connect the crown wheel 20 to one or the other of the first and second energy accumulators 3.5. More particularly, the drive pinion 24 is positioned on the clutch rocker 22 and arranged on the one hand to mesh with the crown wheel 20 and on the other hand to be able to mesh, according to the example shown, with either a first ratchet 28 cooperating with the first energy accumulator 3 when the clutch device 16 is in the first clutch position, or with a second ratchet 40 cooperating with the second energy accumulator 5 when said clutch device 16 is in second clutch position. In the example described here, the first and second energy accumulators 3, 5 are raised by their respective ratchet, anti-return mechanisms (not shown) such as pawl, spring or jumper, known to those skilled in the art, being provided at the level of the ratchet to prevent the ratchet from going back. Furthermore, the first and second energy accumulators 3, 5 here have opposite directions of operation. Those skilled in the art know how to arrange the components of the energy accumulators 3, 5 (drum, spring, shaft) in order to have two barrels operating in opposite directions. It is quite obvious that, in another variant not shown, the cocking of one of the barrels can be done by the drum in order to rotate the barrel in the opposite direction, and the driving pinion will then be arranged to mesh with the drum of said barrel.

The clutch rocker 22 is mounted freely on the axis 21 of said crown wheel 20 and the driving pinion 24 is mounted frictionally on said clutch rocker 22, so that, as long as the clutch device clutch 16 does not occupy one of the clutch positions, said clutch rocker 22 and the drive pinion 24 pivot integrally with said crown wheel 20 to pass: – into the first clutch position and kinematically connect the drive pinion 24 to the first ratchet 28 of the first energy accumulator 3, then, once the driving pinion 24 is in contact with the first ratchet 28 of the first energy accumulator 3, the clutch rocker 22 is prevented from continuing to pivot and the pinion trainer 24 separates from the clutch rocker 22 thanks to friction, thus allowing the drive pinion 24 to be driven by the winding pinion 4 via the crown wheel 20 to wind the first energy accumulator 3 when the winder 2 is turned in a first direction, for example clockwise, the driving pinion 24 therefore being at a distance from the second energy accumulator 5, - in the second clutch position and kinematically link the driving pinion 24 to the second ratchet 40 of the second energy accumulator 5 then, once the driving pinion 24 is in contact with the second ratchet 40 of the second energy accumulator 5, the clutch rocker 22 is prevented from continuing to pivot and the driving pinion 24 separates from the clutch rocker 22 thanks to friction, thus allowing the drive pinion 24 to be driven by the winding pinion 4 via the crown wheel 20 to wind the second energy accumulator 5 when the winding stem 2 is turned in a second opposite direction, for example counterclockwise, the driving pinion 24 therefore being at a distance from the first energy accumulator 3.

[0025] It is obvious that the directions of rotation of the winding stem described here are not limiting and that they can be reversed, the first energy accumulator being able to be wound by rotation of the winding stem in the direction counterclockwise, the second energy accumulator then being wound by rotating the winding stem in a clockwise direction.

[0026] Furthermore, according to a preferred embodiment, the two energy accumulators are arranged in the same plane, on the same floor of the timepiece. It is obvious that in a variant not shown, the first and second energy accumulators can be arranged at different stages, intermediate mobiles and/or references then being used to be able to kinematically link the clutch device to each of the accumulators. of energy when it occupies the corresponding clutch position. In addition, the use of intermediate mobiles and/or references will have to be adapted by those skilled in the art also depending on the direction of rotation of the other components of the construction, and in particular for example depending on the directions of rotation of the barrels.

[0027] The operation of the winding mechanism according to the invention is as follows: with reference to Figures 1 to 4, when it is necessary to wind the first energy accumulator 3 or first barrel, the winding rod 2 is positioned in its axial winding position so that the sliding pinion 6 meshes with the winding pinion 4 as shown in Figure 4, then the winding stem 2 is turned clockwise. This rotation of the winding stem 2 causes the rotation of the winding pinion 4 in a clockwise direction. The winding pinion 4 meshes with the crown wheel 20 to rotate it counterclockwise (when looking at the dial). The clutch rocker 22 and the driving pinion 24 being integral due to friction and the absence of torque transmission through the cogs, and the driving pinion 24 being in engagement with the crown wheel 20, the rocker d The clutch 22 and the drive pinion 24 pivot integrally with said crown wheel 20 around its axis 21 in the counterclockwise direction until the drive pinion 24 comes into contact with the first ratchet 28 of the first energy accumulator 3. The clutch device 16 then occupies its first clutch position, as shown in Figures 1 to 4. The pivoting of the clutch rocker 22 now being prevented, the drive pinion 24 then separates from the clutch rocker 22 thanks to friction, so that the rotation of the crown wheel 20 driven by the winding pinion 4 now causes the rotation of the driving pinion 24 which meshes with the first ratchet 28 for winding the first barrel 3.

[0028] When it occupies its first clutch position, the clutch device 16 is positioned so that the kinematic chain which links it to the second energy accumulator 5 is inactive, the clutch device 16 not having no contact with any of the components of this kinematic chain. In particular, this kinematic chain does not include any components in the unlocked position. More particularly, as shown in Figures 1 to 4, the drive pinion 24 having pivoted with the clutch rocker 22 in the first clutch position, no contact is then possible between the drive pinion 24 and the second ratchet 40, or any other intermediate component possibly provided.

[0029] To wind the second energy accumulator 5, with reference to Figure 5, the winding rod 2 is always positioned in its axial winding position so that the sliding pinion 6, which has not moved, meshes still with the winding pinion 4 (as shown in Figure 4), then the winding stem 2 is turned counterclockwise. This rotation of the winding stem 2 causes the rotation of the winding pinion 4 in the counterclockwise direction. The winding pinion 4 meshes with the crown wheel 20 to rotate it clockwise (when looking at the dial). The clutch rocker 22 and the drive pinion 24 being integral due to friction and the absence of torque transmission through the cogs, and the drive pinion 24 still being in engagement with the crown wheel 20, the rocker clutch 22 and the drive pinion 24 pivot integrally with said crown wheel 20 around its axis 21 in a clockwise direction until the drive pinion 24 comes into contact with the second ratchet 40 of the second energy accumulator 5 The clutch device 16 then occupies its second clutch position shown in Figure 5. The pivoting of the clutch rocker 22 now being prevented, the drive pinion 24 then separates from the clutch rocker 22 thanks to. friction, so that the rotation of the crown wheel 20 driven by the winding pinion 4 now causes the rotation of the driving pinion 24 which meshes with the second ratchet 40 for winding the second barrel 5.

[0030] When it occupies its second clutch position, the clutch device 16 is positioned so that the kinematic chain which links it to the first energy accumulator 3 is inactive, the clutch device 16 not having no contact with any of the components of this kinematic chain. In particular, this kinematic chain does not include any components in the unlocked position. More particularly, as shown in Figure 5, the drive pinion 24 having pivoted with the clutch rocker 22 in the second clutch position, has moved away from the zone occupied by the first energy accumulator 3, no contact 'being then possible between the driving pinion 24 and the first ratchet 28, or any other intermediate component possibly provided.

[0031] Thus, the winding mechanism according to the invention allows, by means of a device of simple construction, precise and reliable winding of two energy accumulators by the sole rotation of the winding stem in both directions, the winding stem occupying the same axial winding position.

Claims (7)

1. Mechanism for winding a timepiece comprising at least a first energy accumulator (3) arranged to supply energy to a first mechanism and a second energy accumulator (5) arranged to supply energy to a second mechanism , said winding mechanism comprising a winding stem (2), a winding pinion (4) and a sliding pinion (6) carried by said winding stem (2) and having teeth facing each other straight arranged to allow the winding pinion (4) to be driven by the sliding pinion (6) in both directions of rotation of the winding stem (2), said winding stem (2) and the sliding pinion (6) occupying the same axial winding position, characterized in that the winding mechanism comprises a clutch device (16) cooperating with the winding pinion (4) and arranged to occupy a first clutch position according to which it engages the pinion winder (4) and the first energy accumulator (3) when the winding stem (2) is turned in one direction, the second energy accumulator (5) being disengaged, without any contact with said clutch device (16), and a second clutch position according to which it engages the winding pinion (4) and the second energy accumulator (5) when the winding stem (2) is turned in the other direction, the first energy accumulator (3) being disengaged, without any contact with said clutch device (16). 2. Winding mechanism according to claim 1, characterized in that the clutch device (16) comprises a crown wheel (20) cooperating with the winding pinion (4) and on which is mounted a clutch rocker ( 22) carrying a drive pinion (24) arranged to be able to kinematically connect the crown wheel (20) to one or other of the first and second energy accumulators (3, 5), said clutch rocker (22) ) being mounted freely on the crown wheel (20) and the drive pinion (24) being friction mounted on the clutch rocker (22) so as to pivot integrally with said crown wheel (20) in the first position d clutch to kinematically connect the driving pinion (24) to the first energy accumulator (3) then allow the driving pinion (24) to be driven by the crown wheel (20) to raise the first energy accumulator (3) , when the winding stem (2) is turned in a first direction, and so as to pivot integrally with said crown wheel (20) in the second clutch position to kinematically link the driving pinion (24) to the second accumulator energy (5) then allow the drive pinion (24) to be driven by the crown wheel (20) to wind the second energy accumulator (5), when the winding stem (2) is turned in a second direction reverse. 3. Winding mechanism according to one of the preceding claims, characterized in that the straight teeth of the sliding pinion (6) and the winding pinion (4) are dog teeth. 4. Winding mechanism according to the preceding claim, characterized in that the sliding pinion (6) and the winding pinion (4) respectively have teeth (8) in the form of crenellations ending in two inclined faces joining at the top and alternating with recesses (10) of complementary shape to that of the teeth (8) allowing their meshing by the engagement of the teeth (8) of one in the corresponding recesses (10) of the other. 5. Winding mechanism according to one of claims 2 to 4, characterized in that the driving pinion (24) is arranged to be able to mesh with a first ratchet (28) cooperating with the first energy accumulator (3) when the clutch device (16) is in the first clutch position and to be able to engage with a second ratchet (40) cooperating with the second energy accumulator (5) when the clutch device (16) is in the second position d 'clutch. 6. Winding mechanism according to one of the preceding claims, characterized in that the first and second energy accumulators (3, 5) are arranged in the same plane. 7. Timepiece comprising at least a first energy accumulator (3) arranged to supply energy to a first mechanism, a second energy accumulator (5) arranged to supply energy to a second mechanism, and a winding mechanism according to one of claims 1 to 6.