CH706711B1 - Mechanism for selecting and controlling a timepiece. - Google Patents

Abstract

This invention relates to a selection and control mechanism (10) for a timepiece (20), comprising a selection device (30) capable of selecting one of at least two functional mechanisms of the watch movement and a control device (60) capable of controlling the functional mechanisms, wherein the selection device (30) comprises an elongate member which is arranged movable in a direction substantially parallel to the watch movement platen, and the device control device (60) comprises a rotatable member which is arranged to be rotatable about an axis of rotation which is substantially perpendicular to the watch movement platen.

Description

Technical field of the invention

The present invention relates to the technical field of watchmaking. More particularly, the present invention relates to a selection and control mechanism for a timepiece, comprising a selection device capable of selecting one of at least two functional mechanisms of the watch movement and a control device capable of cooperate with the functional mechanisms.

State of the art

A watch (in particular a wristwatch, but also a pocket watch) typically comprises a control device that is used to control various functional mechanisms, such as the winding or winding mechanism of the mainspring, the mechanism for setting the needles or the mechanism for adjusting or setting the date (date).

In a conventional watch, the control device is typically made of a ring which is integral with an elongated member which is generally known as a winding stem. The ring is located outside the watch and it can be rotated about an axis of rotation which coincides with the longitudinal axis of the winding stem, which is consequently also rotated around the same axis. The winding stem is typically provided with a winding pinion and a sliding pinion (or walker) which is free axially relative to the rod, but which is angularly secured to the rod.

When reassembling the watch, that is to say during the winding operation of the mainspring (spring motor), the sliding pinion which is rotated by the winding stem is maintained against the winding pinion so that it is also rotated in the same direction. This rotation is then transmitted to the ratchet which is fixed on the barrel shaft. The rotation of the barrel shaft arms the mainspring. Thanks to a ratchet, the ratchet can not go back and disarm the spring. The winding function of the watch is typically activated in the rest position, that is to say in the position in which the control device with the crown is during wearing of the watch.

To perform another operation, eg setting the time, the control device must be moved to a corresponding position. Generally, this movement is made by pulling on the crown until it changes position. Thanks to a latch mechanism known per se, the movement of the winding stem results in a displacement of the sliding pinion along the winding stem. This sliding pinion (or walkman) will mesh with a reference. Then, this return will mesh with the timer wheel, which itself will mesh with the roadway that carries the minute hand and with the hour wheel that carries the hour hand. As the sliding pinion no longer meshes with the winding pinion, the winding mechanism is deactivated.

In a similar manner, the conventional control device can also be moved to a third position that activates the date adjustment function mechanism.

It is therefore understandable that the conventional control device not only fulfills the control function of the various functional mechanisms, but also the function of selecting one of these different functional mechanisms of the watch.

However, this traditional control device of a watch has some significant disadvantages. In particular, the selection among the various functional mechanisms (and thus among the various operations) is performed by pulling on the device, using the crown which is located outside the middle part of the watch. However, this operation requires a certain force, but the application of such a force is made difficult because of a small size of the crown. This problem is particularly acute in ladies' watches, since the dimensions of the pieces in such watches are typically significantly smaller than the dimensions of the pieces in gentlemen's watches. At the same time, moving the crown outward is often only possible using the nails. However, this makes the use of the device even more difficult for ladies who often have decorated nails and / or longer so it is often difficult or impractical for the ladies to achieve the necessary strength without spoiling nails. In addition, a conventional control device with three positions (pushed position, intermediate position and pulled position) also has the disadvantage that the user, in wanting to pass, for example, from the pushed position to the intermediate position, may pass from the pushed position to the pulled position if it exerts too much force on the crown.

Summary of the invention

The object of the present invention is therefore to overcome the aforementioned drawbacks of conventional control devices in timepieces and to provide solutions for selecting and controlling the various functional mechanisms in a simple and easy manner. .

Another object of the present invention is to provide selection and control mechanisms for timepieces such as wristwatches, said mechanisms for selecting and controlling the various functional mechanisms without removing the watches. wristbands of users.

Another object of the present invention is to provide selection and control mechanisms for timepieces that also have an attractive and innovative aesthetic appearance.

The present invention is therefore a selection and control mechanism for a timepiece, typically a wristwatch or a pocket watch, with a selection device for the selection of one of at least two mechanisms. function of the watch movement and a control device for cooperating with the functional mechanisms.

This object assigned to the invention, as well as other objects that come out directly or indirectly, is achieved with the aid of a selection and control mechanism according to the independent claim. Particular or preferred embodiments of the present invention are the subject of dependent claims.

The objects assigned to the invention are in particular achieved by means of a selection and control mechanism for a timepiece, comprising a selection device capable of selecting one of at least two functional mechanisms. of the watch movement and a control device capable of controlling the functional mechanisms, wherein the selection device comprises an elongated member which is arranged to be movable in a direction substantially parallel to the turntable of the watch movement, and wherein the control device comprises a rotatable member which is arranged to be rotatable about an axis of rotation which is substantially perpendicular to the platen of the watch movement.

The advantage of this invention lies in particular in the fact that the selection of the functional mechanism in a timepiece can be completely separate from the control of this functional mechanism. With such a mechanism, the probability of erroneous manipulation is greatly diminished. Indeed, since the selection and control of the functional mechanisms are performed using two different devices, it is simpler to choose the right functional mechanism at all times. In addition, the selection device with an elongated element which is arranged so that it can be moved in a direction substantially parallel to the platen of the movement offers the possibility of operating it (and thus making the selection of the functional mechanisms) simply by exerting a force towards the interior of the timepiece and in the direction parallel to the platen which is at the same time the direction substantially perpendicular to the lateral surface of the middle part of the timepiece. With such a system, the selection among the various functional mechanisms can be performed in a simpler way than with known devices. Also, such a system makes it possible to select the desired functional mechanism even when the wrist of the user is in an unfavorable position.

According to a preferred embodiment of the invention, the rotary element of the control device is a ring gear. The crown is a piece that has long been used in watchmaking. There are a multitude of shapes, sizes and versions of crowns. At the same time, watch users are used to the use of a crown for the control of the various functional mechanisms, such as setting the time of the watch. The advantage of this preferred embodiment therefore lies particularly in the fact that the proposed new selection and control mechanism may use an element well known in the art.

According to another preferred embodiment of the invention, the mechanism comprises a kinematic train cooperating with the functional mechanisms, driven in rotation by the ring. This preferred embodiment has the advantage, among other things, that the rotational movement of the crown can be transmitted to each functional mechanism via a kinematic train. Thanks to a suitable choice of number of elements and / or transmission ratios in the kinematic train, the control of the functional mechanisms can be reliably controlled.

[0018] Notably, the kinematic train may comprise a rod which is arranged substantially parallel to the turntable of the watch movement. With such a mechanism, the rotary movement of the ring around an axis of rotation which is substantially perpendicular to the watch movement platen can be transmitted to the rod which is substantially parallel to the platen of the watch movement.

More particularly, the rod can be rotated about its longitudinal axis. Since the rod is arranged essentially parallel to the platen of the movement, the use of the selection and control mechanism according to this embodiment of the invention is made compatible with the functional mechanisms used in watches operated in a conventional manner. .

According to another preferred embodiment of the invention, the selection device comprises a rotary step element which can be rotated through the elongated element. The advantage of this embodiment of the invention lies in the fact that the selection among the various functional mechanisms with the selection and control mechanism according to this embodiment of the invention can be performed in a "discrete" manner. that is to say by allowing a clear change between the mechanisms, without intermediate positions that could compromise the proper functioning of the functional mechanisms.

In a notable manner, the selection device comprises a pivotable element which cooperates with the elongated element to rotate the rotary element stepwise. With this mechanism, a simple pivoting of the pivotable element, caused by a simple movement of the elongated element, can be used to rotate the rotary element step by step and to select the desired functional mechanism.

More concretely, the functional mechanisms mentioned may be (eg) the winding mechanism of the mainspring, the time adjustment mechanism and / or the date adjustment mechanism (of the date ). The advantage of using these functional mechanisms is the fact that most watches already have at least one of these functional mechanisms and that the use of the selection and control mechanism according to the embodiments of the present invention the selection and control of these widely used functional mechanisms is particularly simple, effective and advantageous.

Finally, according to one embodiment of the present invention, the selection and control mechanism comprises means ensuring the sealing of the timepiece. Indeed, it is very often desirable to produce a waterproof timepiece. In this sense, it is important to provide means that make the piece tight, even when the selection and control mechanism according to the present invention is implemented. It would be possible in particular to use known techniques, such as seals or screwed crowns. The use of other means for keeping the seal (valves, cork, etc.) is of course also possible.

Brief description of the drawings

The invention will be explained in more detail with the aid of particular embodiments; reference should be made to the drawings in which: <tb> Fig. 1 <SEP> shows schematically a perspective view of a timepiece having the selection and control mechanism according to a first embodiment of the present invention; <tb> fig. 2 <SEP> shows a perspective view of a part of the selection and control devices of the timepiece exhibiting the selection and control mechanism of FIG. 1; <tb> fig. 3 <SEP> with its sub-figs. 3A and 3B shows a view from above of the selection and control mechanism of FIGS. 1 and 2, cooperating with a possible functional mechanism of the timepiece; <tb> fig. 4 <SEP> schematically shows a perspective view of a timepiece having the selection and control mechanism according to a second embodiment of the present invention; <tb> fig. [SEP] shows a perspective view of a part of the selection and control devices of the timepiece having the selection and control mechanism of FIG. 4; <tb> fig. 6 <SEP> schematically shows a perspective view of a timepiece having the selection and control mechanism according to a third embodiment of the present invention; <tb> fig. 7 <SEP> shows a perspective view of a part of the selection and control devices of the timepiece exhibiting the selection and control mechanism of FIG. 6; <tb> fig. [SEP] schematically shows a perspective view of a timepiece having the selection and control mechanism according to a fourth embodiment of the present invention; <tb> fig. 9 <SEP> shows a perspective view of a part of the selection and control devices of the timepiece exhibiting the selection and control mechanism of FIG. 8; <tb> fig. <SEP> schematically shows a perspective view of a timepiece having the selection and control mechanism according to a fifth embodiment of the present invention; <tb> fig. [SEP] shows a perspective view of a part of the selection and control devices of the timepiece exhibiting the selection and control mechanism of FIG. 10.

Description of embodiments of the invention

FIG. 1 schematically shows a timepiece 20 with a first embodiment of the selection and control mechanism 10 according to the present invention. The key elements of this selection and control mechanism are shown in more detail in FIG. 2. Even if the representation of the timepiece 20 in FIG. 1 is extremely schematic, a person skilled in the art will know very easily that the timepiece 20 comprises as a rule all the essential elements not shown, such as a watch movement with a plate and bridges, a dial, hands, etc. .

In particular, FIG. 1 and FIG. 2 illustrate a selection device 30 for selecting one of the functional mechanisms of a watch movement (not shown) and a controller 60 which is able to cooperate with and control the operation of these functional mechanisms.

In FIG. 2, the selection device 30 comprises an elongated member 31 (eg a rod) which is arranged to be movable in a direction substantially parallel to the platen of the watch movement and which, in the present construction, is also parallel to the dial (not shown) of the timepiece 20. In addition to this elongated element 31, the selection device 30 comprises a head, part of which is visible through an opening in the middle part of the timepiece 20. The actuation of the selection mechanism 30 is in particular carried out by exerting a force on the head of the mechanism 30 in the direction coinciding with the axis of the elongated element 31. Of course, the selection mechanism 30 may also comprise locking and reversing means (not shown) which allow the elongated element 31 to move towards the inside of the watch 20 and return to the initial position but which make impossible the complete exit of the selection mechanism 30 of the watch 20.

The control device 60 comprises on the one hand a rotary element 61 which is arranged so as to be rotatable about the axis of rotation A and on the other hand a kinematic train composed of three elements 62, 63, 64. The axis of rotation A of the rotary member 61 is substantially perpendicular to the platen of the watch movement (not shown). Consequently, the axis of rotation A is at the same time substantially perpendicular to the axis of displacement of the elongated element 31 of the selection mechanism 30.

The rotary element 61 of the control mechanism 60 is a ring gear, eg one of the rings which are conventionally used in the watches to control the different functional mechanisms.

As already mentioned, according to the embodiment of the present invention which is shown in FIG. 2, the kinematic train comprises three elements 62, 63, 64. Of course, it is also possible to provide a kinematic train which comprises more or fewer than three elements. Some of these variants will be represented in the other figures. In the train shown in fig. 2, the first element 62 is a toothed wheel which is integral with a portion of the ring 61 which projects from its upper surface and which is positioned in the axis of rotation A of the ring 61. In this way, the rotation of the ring 61 about the axis of rotation A is directly transmitted to the wheel 62. Thereafter, this rotation of the wheel 62 is transmitted to the second gear 63 which meshes with the wheel 62, and finally to the third toothed wheel 64 which meshes with the wheel 63. The rotation of the toothed wheel 64 is finally transmitted to the functional mechanism (not shown) selected by means of the selection mechanism 30.

The "conventional" functional mechanisms that can be controlled by the selection and control mechanism according to the illustrated embodiment are the winding mechanism (or winding the barrel spring), the setting mechanism. time of the clock or the mechanism of adjustment or adjustment of the date (date). Of course, it is also possible to use the proposed mechanism to select and control other functional mechanisms.

FIG. 3 with its sub-figs. 3A and 3B shows a view from above of the selection and control mechanism of FIGS. 1 and 2, cooperating with a possible functional mechanism of the timepiece 20. The elements already illustrated in FIGS. 1 and 2 carry the same reference numbers and their detailed description will be omitted. Fig. 3 will now be used to explain the operating principle of the mechanism according to the invention.

To select a desired functional mechanism (eg the winding mechanism), a force is exerted by the user on the head of the selection mechanism 30 in the direction of the axis of the elongate member 31 ( represented by a double-arrow). Consequently, an inward linear displacement of the timepiece 20 is imposed on the elongate element 31. In order to guarantee a rectilinear displacement, this elongate element 31 can preferably be guided by an opening made in the middle part ( not shown) of the watch 20.

The linear displacement of the elongate member 31 angularly displaces the pivotable element 33 which can rotate about its axis of rotation R, in the counterclockwise direction. As illustrated, the pivotable element 33 may in particular be a lever with the appropriate shape, but other pivotable elements may also be used. Similarly, it is also conceivable to provide an element that can instead rotate clockwise. The pivotable lever 33 typically comprises a recoil element (eg a leaf spring) 34 which tends to move it angularly in the direction opposite to the direction of movement under the influence of the displacement of the elongate member 31. This element recoil 34 is therefore used to automatically return the pivotable element 33 to its initial position after the user stops applying the force to the selection mechanism 30. As such, a pin or other similar element (no shown) can be provided to cooperate with the recoil element 34.

The pivoting lever 33, thanks to the angular displacement mentioned above, rotates a star 32 (visible in FIG 3B) via a pawl 35. As the angular displacement of the pivotable element to the fig. 3 is carried out counterclockwise, the star 32 will be rotated in the clockwise direction, an angle equal to the angular pitch thereof. Of course, if a rotatable member 33 in a clockwise direction is used instead of the counterclockwise pivotable member, the star 32 will be turned counterclockwise.

A locking element 36 (better visible in Fig. 3B), eg a jumper, is also provided. The jumper 36 angularly locks the star 32 when the pawl 35 does not act on it. With this jumper 36, it is therefore ensured that the star 32 remains in the imposed position through the pawl 35 even after the return of the pivotable element 33 in its initial position.

A cam 37 is integral with the star 32. Therefore, a rotational movement of the star 32 is directly transmitted on the cam 37. The cam 37 subsequently angularly moves the rocker element 38 which is capable of rotate around its axis of rotation P. It is also important to mention that the rocker element 38 is pressed against the cam 37 by means of a rocker spring 38 (visible under the control element 39). With such a construction, the rocker element 38 can take different angular positions.

The angular displacement of the rocker element 38 subsequently displaces the control element 39 around its axis of rotation Q. Again, the control element 39 is pressed against the rocker element 38 by means of a control spring 39. Thanks to such a construction, the control element 39 can also take different angular positions.

The control element 39 carries an intermediate reference T1, a date reference 12 and a time reference T3. At the same time, the rocker element 38 linearly displaces a sliding pinion T4 along the square-section portion of a time-setting rod T5. Of course, it is obvious that the sliding pinion T4 can thus take different linear positions. Therefore, the sliding pinion T4 can mesh with the winding pinion T6 or with the intermediate return T1 which, through the date return 12, can mesh with the date mobile T7, or through the return T3 time, with the T8 timer mobile.

To select a functional mechanism, the user must press the head of the selection mechanism 30 until the elements described are positioned in order to perform the desired operation. Of course, it is conceivable to provide an indication mechanism (not shown) to make the user attentive to the current position of the selection mechanism.

In any case, when the desired functional mechanism has been selected, it can be controlled by means of the control mechanism 60. As such, an angular displacement is imposed on the ring 61 which, via wheels 62, 63, 64, angularly moves the time setting rod T5 (about the axis of rotation L), and thus puts into operation the chosen functional mechanism.

It is important to mention that the mechanism shown in FIG. 3 is only a non-limiting example and it would be absolutely possible to implement other functional mechanisms that can be operated via the selection and control mechanism according to the present invention.

Figs. 4 and 5 schematically show the timepiece 20 with a second embodiment of the selection and control mechanism 10 according to the present invention. With respect to the first embodiment of the present invention (illustrated above in Figures 1 and 2), this second embodiment differs only in the construction of the control mechanism 60.

The control device 60 again comprises a rotary element 61 (eg a ring gear) which is arranged so that it can be rotated about the axis of rotation A and a kinematic train composed of of three elements 62, 63, 64. The axis of rotation A of the rotary element 61 is again substantially perpendicular to the platen of the watch movement (not shown). The elements of the kinematic train in FIG. 5 are again three toothed wheels including a first wheel 62 which is integral with a portion of the ring 61 which projects from its upper surface and which is positioned in the axis of rotation A of the ring 61 of way to directly transmit the rotation of the ring 61 about the axis of rotation A to the wheel 62. Subsequently, the rotation of the wheel 62 is transmitted to the second gear 63 which meshes with the wheel 62, and finally to the third gear 64 which meshes with the wheel 63. The rotation of the toothed wheel 64 is finally transmitted to the functional mechanism (eg that shown in Fig. 3) selected through the selection mechanism 30.

The timepiece 20 with a third embodiment of the selection and control mechanism 10 according to the present invention is shown schematically in FIGS. 6 and 7.

The control device 60 'of this third embodiment comprises a rotary element 61 (eg a ring gear) which is arranged so that it can be rotated about the axis of rotation A (Essentially perpendicular to the watch movement plate) and a single toothed wheel 62. The wheel 62 "is again secured to a portion of the ring 61 which projects from its upper surface and which is positioned in the axis of rotation A of the ring 61. Thus, the rotation of the ring 61 around the axis of rotation A is directly transmitted to the wheel 62, which directly transmits this rotation to the functional mechanism. In this example, the ring 61 may in particular be positioned lower with respect to the rings 61 and 61 of the previous embodiments. Thus, the opening in the middle of the watch 20 can for this purpose also extend to a portion of the bottom of the housing.

A fourth embodiment of the present invention is shown in FIGS. 8 and 9. In particular, these figures schematically show the timepiece 20 with the selection and control mechanism 10 in which the control device 60 comprises a rotary element (the crown) 61 which is arranged in such a way to be rotatable about the axis of rotation A and a kinematic train composed of two elements 62 and 63. The axis of rotation A of the rotary element 61 is again substantially perpendicular to the platen of the watch movement (not shown). As in the embodiment illustrated in FIGS. 6 and 7, a first wheel 62 is integral with a portion of the ring 61 which projects from its upper surface and which is positioned in the axis of rotation A of the ring 61 . A second wheel 63 meshes with the first wheel 62 and transmits the angular movement of the ring gear 61 to the selected functional mechanism. This second wheel 63 has a diameter which corresponds essentially to the diameter of the watch 20. Guiding means (not shown) may be provided to hold and guide the wheel 63.

Finally, FIGS. 10 and 11 schematically show a timepiece 20 with a fifth embodiment of the selection and control mechanism 10 according to the present invention. In this fifth embodiment of the present invention, the selection device 30 is essentially identical to the selection devices of the other four embodiments of the invention. As for the control device 60 according to this embodiment of the invention, it again comprises a rotary element 61 (eg a crown) which is arranged so that it can be rotation about the axis of rotation A, and a kinematic train composed of two elements 62 and 63. The axis of rotation A of the rotary element 61 is essentially perpendicular to the platen of the watch movement (not shown).

This fifth embodiment of the invention differs from the other embodiments in that the first wheel 62 of the kinematic train is not positioned on the rotary element 61 (the face of the watch 20 with the dial being considered as the face above), but rather under the rotary member 61. As in the second and third embodiments of the invention, the first wheel 62 is secured to a portion of the ring 61 which projects from its surface and is positioned in the axis A rotation of the ring 61 so as to directly transmit the rotation of the ring 61 about the axis of rotation A to the wheel 62 . This rotation of the wheel 62 is subsequently transmitted to a second gear 63 which meshes with the wheel 62 to finally transmit this rotation to the functional mechanism which has been selected through of the selection mechanism 30.

Claims (11)

A selection and control mechanism (10) for a timepiece (20), comprising a selection device (30) capable of selecting one of at least two functional mechanisms of a watch movement and a control (60) capable of controlling the functional mechanisms, characterized in that the selection device (30) comprises an elongate member (31) which is arranged to be movable in a direction substantially parallel to the platen of the watch movement, and the controller (60) comprises a rotatable member (61) which is arranged to be rotatable about an axis of rotation (A) which is substantially perpendicular to the platen of the watch movement. 2. Selection and control mechanism (10) according to claim 1, characterized in that the rotary element (61) of the control device (60) is a ring gear. 3. Selection and control mechanism (10) according to claim 1 or 2, characterized in that it comprises a kinematic train (62, 63, 64, ...) cooperating with the functional mechanisms, driven in rotation by the rotating element (61). 4. Selection and control mechanism (10) according to claim 3, characterized in that the kinematic train (62, 63, 64, ...) comprises a rod (65) which is arranged substantially parallel to the plate of the watch movement. 5. Selection and control mechanism (10) according to claim 4, characterized in that the rod (65) can be rotated about its longitudinal axis (L). 6. Selection and control mechanism (10) according to one of claims 1 to 5, characterized in that the selection device (30) comprises a rotary step element (32) which can be rotated by the through the elongated element (31). 7. Selection and control mechanism (10) according to claim 6, characterized in that the selection device (30) comprises a pivotable element (33) which cooperates with the elongate element (31) to rotate the rotary step element (32). 8. Selection and control mechanism (10) according to one of claims 1 to 7, characterized in that it comprises means ensuring the sealing of the timepiece. 9. Timepiece comprising the selection and control mechanism (10) according to one of claims 1 to 8, characterized in that it comprises, as one of the functional mechanisms, the winding mechanism of the 'motor organ. 10. Timepiece comprising the selection and control mechanism (10) according to one of claims 1 to 8, characterized in that one of the functional mechanisms is the time adjustment mechanism. 11. Timepiece comprising the selection and control mechanism (10) according to one of claims 1 to 8, characterized in that one of the functional mechanisms is the date adjustment mechanism.