CH711303A1 - Correction device for a mechanical watch movement. - Google Patents

Abstract

The present invention relates to a correction device for a mechanical watch movement (2), comprising a bidirectional stepper motor (5) cooperating with a corrective mechanism (1) of the watch movement (2); the motor (5) being controllable by a correction signal so as to act on the corrector mechanism (1) in order to correct an indication of a display member and / or a regulating member of the watch movement, as a function of the signal of correction; the correction device comprising a remote control device (20) external to the movement (2) and comprising a computer medium including code portions of an application program for generating said correction signal.

Description

Technical area

The present invention relates to a setting device for a mechanical watch movement. In particular, the invention relates to an adjustment device that can be controlled remotely and can perform the correction in an automated manner.

State of the art

Most watches with a mechanical movement include a manual time setting device to put the watch back on time due to a difference between the time displayed on the watch and the current time.

In the case of complicated watches, correction mechanisms are also necessary to correct or modify the display of the complication. For example, in a calendar watch, the correction of the date display is done either totally manually by a time-setting device, or partly by setting the time and a quick corrector for the date, or by pushers.

However, these correction mechanisms reduce the reliability of the watch because they include, in addition to increased costs, the disadvantages of increasing the thickness of the box and reduce the seal. These correction mechanisms are also manual and the correction made is not necessarily very precise.

In the case of a setting assembly of a clockwork movement, in particular of a sprung balance, the isochronism adjustment is generally performed by acting on the active length of the spiral. The hairspring is typically attached to its inner end on a ferrule integral with the balance, and has its outer end on a pin integral with a cock fixed to the plate of the movement. To modify this active length, and in particular to have a length less than the total length defined by the recess at the peak, is used a racket provided with two pins, or a racket on which is reported a racket key carrier of these two pins. These two pins define two parallel spans on which can lean and slide the spiral. At a given moment, if the hairspring relies on one of the pins, its active length is that between its attachment to the ferrule on the one hand, and its support on the pin on the other hand. If the hairspring is not supported on any of the pins, its active length is equal to its total length.

We change the daytime running of the watch by turning the racket; the divisions marked on the cock allow to estimate approximately the effect of the retouching. Such an adjustment can be made by dismounting elements constituting the housing so as to allow access to the racket. In addition, the adjustment or fixing means are generally complicated, which can make adjustment operations difficult, and in particular a fine adjustment of the isochronism. Generally, this operation is done by a specialized person, to whom the owner of the watch entrusts the watch.

[0007] Document CH 290 647 describes a control device for a watch racket from the outside of the box. To this end, a mobile disk is disposed outside the bottom of the box and drives a gear reduction gear whose last element moves the racket when the disc is rotated.

Brief summary of the invention

The present invention aims to provide a correction device for a mechanical watch movement that can be controlled remotely.

To this end, a correction device for a mechanical watch movement, comprising a bi-directional stepper motor cooperating with a corrective mechanism of the watch movement; the motor being controllable by a correction signal so as to act on the corrective mechanism to correct an indication of a display member and / or a regulating member of the watch movement, as a function of the correction signal; the correction device comprising a remote control device external to the movement and comprising a computer medium including code portions of an application program for generating said correction signal.

In one embodiment, the application program is arranged to generate the correction signal so as to correct the indication of the display member and / or the regulating member of the watch movement, at regular intervals. .

In one embodiment, the regulating member is of the spring-balance type comprising a spiral spring; and the correcting mechanism is a racket actuated by the motor so as to adjust the active length of the spiral spring according to the correction signal.

In another embodiment, the correction signal is adapted to correct a display of the current time or to correct a date display.

This solution has the advantage over the prior art that the correction device can be controlled remotely and can perform the correction in an automated manner.

Examples of implementation of the invention are indicated in the description illustrated in FIG. 1 which illustrates an adjustment member according to one embodiment.

Example (s) of embodiment of the invention

According to the invention, a correction device for a mechanical clockwork movement comprises a bidirectional step-by-step motor cooperating with a corrective mechanism of the watch movement. The motor is controllable by a correction signal so as to act on the corrective mechanism to correct an indication of a display member and / or a regulating member of the watch movement, as a function of the correction signal. The correction device comprises a remote control device external to the movement and comprises a computer medium including code portions of an application program for generating said correction signal.

According to an embodiment illustrated in FIG. 1, a watch movement, such as a watch, comprises a balance-type regulating member comprising a spiral spring 4 (shown partially) and a device 10 for adjusting the oscillation frequency of the regulating member. The adjusting device comprises an adjustment member 1 adjustable in position and which is configured to modify the diurnal movement of the movement, by lengthening or shortening the active length of the hairspring 4. The adjustment member may comprise a raquet conventional comprising a racket 1 pivotally mounted on a balance bridge 3 (for example around a cockpit 2); the pivoting movement of the racket 1 for adjusting the active length of the spiral spring 4 of the regulating member.

An electric motor 5 bidirectional step-by-step cooperates with the adjustment member 1 so as to adjust a position of the adjustment member 1 and change the active length of the spiral spring 4 accordingly . The bidirectionality of the motor 5 makes it possible to modify the active length of the spiral spring 4 in one direction or the other, depending on whether it is necessary to increase or decrease the oscillation frequency of the regulating member. A gear train 6 can be interposed between the motor 5 and the adjustment member 1. In the case where the adjustment member comprises a racket, the bidirectional stepper motor causes the racket to pivot in one way or the other. In this case, the gear train can engage with the racket via a rake type system 7.

The operation of the watch is corrected by adjusting the position of the adjustment member 1 driven by the motor 5, possibly via a gear train 6. A judicious choice of the reduction of a gear train makes it possible to refine the accuracy of the adjustment of the position of the adjustment member. The adjustment member 1 can also be driven directly by the motor 5, or by a coupling of magnetic type or other.

The adjustment device further comprises a remote control device 20 comprising a computer medium including code portions of an application program for determining the correction signal.

In the example of FIG. 1, The remote control device 20 includes a day-time measurement module 21 for determining the diurnal movement of the movement. The remote control device is also configured to generate a reference time signal 22 external to the movement. The reference time signal 22 may be provided by the remote control device via an internet connection of the remote control device or via a mobile network to which the remote control device 20 is connected. The reference time signal 22 generated by the remote control device 20 may also be synchronized with a time signal of an atomic clock provided by a time server (not shown).

The correction signal can then be generated on the basis of the reference time signal 22 and the diurnal movement of the movement, determined by the diurnal day measurement module 21.

The correction signal is used to drive the motor 5 so as to adjust the position of the adjustment member 1, for example the racket, depending on the correction signal. The correction signal comprises the direction and extent of the modification to be applied to the positioning of the adjustment member 1 in order to adjust the running accuracy of the regulating member while correcting the precision errors measured by the diurnal march of the movement.

The daytime measurement module 21 may comprise acoustic measurement means in which the sounds of an exhaust, cooperating with the regulating member, are used to determine the period. For example, we can measure the time that elapses between two noises taken as landmarks.

Knowing the number of alternations per hour of movement, one can also determine the amplitude of the balance of the regulating organ by electronically measuring the time elapsing between the first and the last recorded noise during the angle lifting the balance. This time varies according to the amplitude.

The day-time measurement module 21 may also comprise viewing means 23, such as an optical sensor, for measuring the maximum amplitude, the minimum amplitude, the average amplitude, the average step and the medium lifting angle; the measurement is typically done on the arms of the pendulum.

Preferably, the display means 23 comprise a camera for recording one or more images of one or more displays of the movement, as well as analysis means for analyzing the image of one or more displays. movement to determine the diurnal march of movement movement. For example, the camera and the means of analysis make it possible to determine the diurnal march of the movement by the comparison of successive images of the needles of the movement.

The diurnal measurement module 21 may also include a combination of the means described above.

The adjustment device 10 may also comprise a reception unit 8 intended to receive the reference time signal 22 external to the movement.

In another embodiment, the remote control device 20 comprises a processor module 25. The processor module 25 is configured to determine a correction signal based on the reference time signal 22 and the daytime running of the watch determined by the diurnal walking measurement module 21.

The application program further allows to determine the correction signal at regular intervals, for example once a day, so as to correct at regular intervals the running of the watch.

In a variant, the remote control device comprises input means 25 making it possible, on demand, to determine the correction signal and to correct the movement of the movement as a function of the correction signal. The input means 25 also make it possible to start and / or stop the determination of the correction signal and the correction of the movement of the movement at regular intervals.

It goes without saying that the present invention is not limited to the embodiment which has just been described and that various modifications and simple variants can be envisaged by the skilled person without departing from the scope of the present invention. .

For example, according to another embodiment not illustrated, the correction signal is adapted to correct a display of the current time. The motor 5 may be arranged to cooperate with one or more wheels engaged with a minute wheel so as to rotate a roadway and move hour and minute hands in either direction. The correction of the current time can be done on demand, using the input means 25, or at regular intervals. The correction signal can be generated on the basis of the reference time signal 22 and the daytime running of the watch determined by the day-time measurement module 21.

In a variant, the correction signal is adapted to switch to summer or winter time, or to change the time zone. The transition to summer or winter time, or the change of time zone can be made on demand, using the input means 25, or automatically.

Still according to another embodiment not illustrated, the correction signal is adapted to correct a date display. The motor 5 can be arranged so as to actuate a date indicator regardless of the rotation of the hour wheel, for example through referrals and / or cams. The correction signal can be configured to change the date display to "1" at the end of the month of less than thirty-one days.

In fact, the correction device described here can be used for all devices that require correction, including a mechanism for the display of moon phases, the equation of time, regatta, alarm, etc.

Still according to an embodiment not shown, the movement comprises one or more display modules, each display module being configured to display simultaneously or sequentially one or more display functions. For example, the motion is configured to display one or more display functions simultaneously or sequentially, such as a conventional time function and a stopwatch function. The display module or modules may be of analog or digital type.

The application program may include a plurality of display functions, each of the display functions being configured to be executed by the one or more display modules.

In this configuration, the input means 25 make it possible to select a subset of display functions from among the plurality of display functions, so as to execute by said subset on the one or more display modules. The generation of the correction signal is also included in the subassembly selection

The correction of the movement of the movement according to the correction signal is also included in the selection of the subassembly.

The remote control device 20 may include a microcomputer type device, multimedia phone (smartphone), communicating tablet or a console.

In the case of a watch application, it is advantageous that the components forming the adjustment device 10 can operate at low power. For example, remote control device 20 may comprise a processor module 24 adapted to low-power embedded applications. On the other hand, the adjustment device 10 may comprise wireless connection means 9 based for example on the IEEE 802.15.4 standard, such as Bluetooth®, or on the IEEE 802.11 standard, such as WiFi means. The wireless connection means 9 may also comprise any means of communication by radio or optical wave, infrared radiation communication means known by the acronym IrDA or near field communication (NFC) communication means. . The wireless connection means 9 preferably use a Bluetooth® transmission protocol and preferably still a Bluetooth Low Energy (BLE) protocol. The wireless connection means 9 make it possible to communicate between the remote control device 20 and the adjustment device 10 so as to be able to send the correction signal and / or a signal following the activation of the input means 25 make it possible to starting and / or stopping the determination of the correction signal and the correction of the movement of the movement at regular intervals, and / or the execution of the display function (s).

Reference numbers used in the figures

[0043] <tb> 1 <SEP> adjustment device, racket <Tb> 2 <September> clammy <tb> 3 <SEP> pendulum bridge <tb> 4 <SEP> spiral spring <tb> 5 <SEP> step-by-step engine <tb> 6 <SEP> gear train <Tb> 7 <September> rake <tb> 8 <SEP> receiving unit <tb> 9 <SEP> wireless connection means <tb> 10 <SEP> setting device <tb> 20 <SEP> remote control device <tb> 21 <SEP> daytime measurement module <tb> 22 <SEP> reference time signal <tb> 23 <SEP> visualization means <tb> 24 <SEP> processor module <tb> 25 <SEP> means of seizure

Claims (16)

1. Correction device for a mechanical watch movement (2), comprising: a bidirectional step motor (5) cooperating with a corrective mechanism (1) of the watch movement (2); the motor (5) being controllable by a correction signal so as to act on the corrector mechanism (1) in order to correct an indication of a display member and / or a regulating member of the watch movement, as a function of the signal of correction; characterized in that the correction device comprises a remote control device (20) external to the movement (2) and comprising a computer medium including code portions of an application program for generating said correction signal. 2. The correction device according to claim 1, wherein the application program is arranged to generate the correction signal so as to correct the indication of the display member and / or the regulating member of the watch movement. , at regular intervals. 3. The correction device according to claim 1 or 2, wherein the regulating member is of the spring-balance type comprising a spiral spring (4); and wherein the correcting mechanism (1) is a racket actuated by the motor (5) so as to adjust the active length of the spiral spring (4) according to the correction signal. 4. The correction device according to one of claims 1 to 3, wherein the correction signal is adapted to correct a display of the current time. 5. The correction device according to claim 4, wherein the correction signal is adapted to switch to summer or winter time, or to change time zone. 6. The correction device according to one of claims 1 to 5, wherein the correction signal is adapted to correct a date display. 7. The correction device according to claim 6, wherein the correction signal is arranged to change the display of the date to the "1" at the end of the months of less than thirty-one days. 8. The correction device according to one of claims 1 to 7, wherein the remote control device (20) comprises input means (25) for generating the correction signal so as to correct the indication of the display member and / or the regulating member of the watch movement, on demand. 9. The correction device according to claim 8, wherein the motion comprises one or more display modules, each display module being configured to display simultaneously or sequentially one or more display functions; the application program further comprising a plurality of display functions, each of the display functions being configured to be executed by the one or more display modules; wherein the input means (25) selects a subset of display functions from the plurality of display functions, so as to execute by said subset on the one or more display modules; and wherein the generation of said correction signal is also included in the subassembly selection. 10. The correction device according to one of claims 1 to 9, further comprising a measuring module (21) configured to determine the diurnal motion of the movement; and wherein the remote control device (20) is configured to determine the correction signal based on a reference time signal and the diurnal movement of the determined movement. The correction device according to claim 10, wherein the measurement module (21) is included in the remote control device (20). 12. Device according to claim 10 or 11, wherein the measuring module (21) comprises acoustic measuring means included in the remote control device (20). 13. Device according to one of claims 10 to 12, wherein the measuring module (21) comprises viewing means (23) included in the remote control device (20). 14. Device according to claim 13, wherein the display means comprise a camera for recording one or more images of one or more displays of the movement and analysis means for analyzing the image of one or more Displays the movement to determine the diurnal march of movement movement. 15. Device according to claim 14, wherein the movement comprises one or more needles to indicate the time; and in which the analysis means make it possible to analyze a change of position of the one or more needles. 16. Device according to one of claims 1 to 15, wherein the remote control device (20) comprises a multimedia phone, a microcomputer, a digital tablet or a console.