EP3096191B1 - Smart device for winding watches - Google Patents

Description

Field of the invention

The invention relates to the use, for the reassembly of at least one electronic watch comprising a generator with a source of mechanical energy, of a winding device for watches, comprising at least one support for the reception of a watch in a winding position, at least one energy source arranged to supply energy to at least one motor arranged to either drive the winding crown of a manually wound watch, or to drive at least one oscillating weight of a self-winding watch, or stir at least one self-winding watch, said device comprising control means which comprise measuring means incorporating sensor means for vibratory measurement and / or acoustic and / or magnetic oscillator d at least one watch placed in said winding position, said control means being arranged to analyze signals transmitted by said vibratory measuring means and / or acoustic and / or magnetic and compare them to parameterizable setpoints for regulating the operation of at least one said motor by switching on said motor when the operating amplitude of said oscillator is less than or equal to a first minimum value, and stopping said motor when the operating amplitude of said oscillator is greater than or equal to a second maximum value.

The invention relates to the field of watchmaking, and more particularly the reassembly of mechanical watches or electronic watches source of mechanical energy, and in particular but not exclusively automatic watches.

Background of the invention

The user of a mechanical or electronic watch with a source of mechanical energy, whether it is a manual winder or an automatic winder, which is not worn permanently, is obliged, when he wishes to use it, to perform the tasks of updating the displays, which can be tedious for dates, or difficult or impossible for complications such as moon phases or other leap years in a perpetual calendar.

Winding cabinets are known, or individual devices, which simulate the movements of a user by rotating the watch, generally around several axes, to give the oscillating mass the impulses necessary to perform the reassembly, or to train the crown of a hand-wound watch when this crown is suitable. These cabinets or devices are often bulky, expensive, and their movement can disturb the user. In particular, such devices are not well suited in a commercial environment, where a watch must be statically exposed to the customer, with correct display of time-related information, while being ready for a demonstration.

These pumping mechanisms, which are more or less complicated, tend to over-stress the mechanics of the watch. Indeed, these systems, even when they allow to program a number of laps to perform to perform the reassembly, take into account a safety factor, and raise the barrel more than necessary, resulting in an overvoltage in the mainspring, which is dissipated by the slippery flange. As a result, all the mechanics are subjected to stronger constraints than necessary. The induced effects are abnormal wear, and pollution by wear debris, which also alters the lubrication of the watch, and can make service operations for cleaning and lubrication more frequent, which represents a significant cost for the user.

In addition, too much winding unnecessarily solicits energy sources, whose capacity is sometimes limited, especially in the case of winding batteries or solar cells or the like.

The document CH698384B1 in the name of ELMA describes a method of monitoring a mechanical watch, including automatic with sound detection via a microphone, and the use of a processor to determine the state of the watch compared to reference values of various parameters such as level of winding, rebate, amplitude, or other.

The document CH704992A2 in the name of QUELOZ describes a method and a device for automatic winding of a watch, the winding device comprises a piezoelectric sensor for making a watch of the watch, a software for analyzing the sound listened to determine the winding rate of the shows, and an electronic circuit for interpreting the sound and define a control signal of a motor arranged to proceed with a reassembly of the watch adapted to the determined winding rate.

The document DE202010005873 in the name of MTE describes a watch riddling device with at least one riddling motor, and a control system comprising electronic control circuits for adjusting the movements of each riddling motor.

The document EP2746869A1 on behalf of SWATCH GROUPRESEARCH & DEVELOPMENT Ltd describes a solar power winder for automatic watch with a motor driving a rotating support, electronic control means to which is connected a light detector, and a user interface. In one mode of operation the rotating support is driven only when the winding is illuminated, in another mode a drive program of the rotating support is started at a time previously selected using the control interface.

The document US37771347A in the name of SCHAR describes a method for determining a momentum of the watchdog of a watch movement, with an optical system having a light beam arranged for the partial interception of the edge of the pallet in the position of At the end of the stroke, the light beam is modulated in intensity during the oscillation of the vanes to produce a trapezoidal signal voltage.

Summary of the invention

The invention proposes to provide the user with simple, inexpensive and space-saving means for reassembling a mechanical or electronic watch with a source of mechanical energy, and to maintain it permanently in maximum power reserve potential. even if it is not worn, while sparing the mechanical parts of the movement, and being economical in energy.

For this purpose, the invention relates to the use, for the reassembly of at least one electronic watch comprising a generator with a source of mechanical energy, of a watch winding device according to claim 1.

Brief description of the drawings

• la figure 1 représente, de façon schématisée et en perspective, un dispositif de remontage de montres, notamment mécaniques ou électroniques à source d'énergie mécanique, avec un support unique monté pivotant sur un moteur et prêt pour la réception d'une montre mécanique, laquelle comporte une puce intégrant des paramètres de marche préconisés ;
• la figure 2 représente, de façon schématisée, partiellement en vue de face au niveau des interfaces utilisateurs, et partiellement en coupe au niveau des supports, un autre dispositif de remontage de montres, comportant deux moteurs chacun entraînant un support agencé pour recevoir une montre pour son remontage;
• la figure 3 représente de façon schématisée et en perspective, un autre encore dispositif de remontage de montres, comportant deux moteurs chacun entraînant un support arbré agencé pour recevoir une pluralité de montres pour leur remontage, dans une version simplifiée d'interface utilisateur manuelle avec, pour chaque support, deux sélecteurs de paramètres globaux applicables à la pluralité de montres qu'il porte;
• la figure 4 représente, de façon schématisée et en vue de face, une autre version simplifiée d'interface utilisateur manuelle pour le dispositif de la figure 3, avec, pour chaque emplacement de montre, deux sélecteurs de paramètres applicables à la montre portée par cet emplacement;
• la figure 5 représente, de façon schématisée et en perspective, un autre encore dispositif de remontage de montres, comportant deux moteurs pour l'entraînement d'un même support autour d'axes différents pour décrire un mouvement complexe dans l'espace ;
• la figure 6 est un logigramme montrant les interactions entre les circuits constitutifs du dispositif de remontage.

Other features and advantages of the invention will appear on reading the detailed description which follows, with reference to the appended drawings, in which:

• the figure 1 represents, schematically and in perspective, a device for winding watches, in particular mechanical or electronic mechanical energy source, with a single support pivotally mounted on a motor and ready for the reception of a mechanical watch, which comprises a chip integrating recommended operating parameters;
• the figure 2 represents, schematically, partially in front view at the level of the user interfaces, and partially in section at the supports, another watch winding device, comprising two motors each driving a support arranged to receive a watch for its reassembly;
• the figure 3 shows schematically and in perspective, yet another device for winding watches, comprising two motors each driving a shafted support arranged to receive a plurality of watches for reassembly, in a simplified version of manual user interface with, for each support two global parameter selectors applicable to the plurality of watches it carries;
• the figure 4 schematically and in front view, another simplified version of a manual user interface for the device of the figure 3 , with, for each watch location, two parameter selectors applicable to the watch worn by that slot;
• the figure 5 represents, schematically and in perspective, yet another device for winding watches, comprising two motors for driving the same support around different axes to describe a complex movement in space;
• the figure 6 is a logic diagram showing the interactions between the constituent circuits of the winding device.

Detailed Description of the Preferred Embodiments

The invention proposes to develop the use of a winding sparing the mechanical parts of the movement of the watch, and economic energy.

Here, the term "watch" means any watch that can be recharged with energy by a movement that is printed on it: mechanical self-winding watch, or mechanical energy electronic watch, of the "Autoquartz" or "Automeca" type, or similar. The device moves the watch back to the level just needed.

We still call "winding" the energy reloading of such a watch.

For a standard mechanical watch, the optimum is to maintain the winding of the mainspring at a level which makes it possible to obtain an amplitude of the oscillator, constituted by a balance-balance assembly in most cases, in the vicinity of 250 °. This value corresponds to a reasonable tension in the mechanics, and to a march of the watch which is the most accurate according to the positions.

The invention implements simple means of servo, for the reassembly of a mechanical watch, applicable to the case of the reassembly of a manual winding watch by the crown or by any other component provided for this purpose, as well as in the case of the reassembly of a self-winding watch, which is done, or by a stirring of the entire watch, or by an action without contact with the oscillating mass, as described in particular in the application EP2650734A1 the same depositor.

The figures have a didactic vocation, and propose only the case of watches with automatic winding by the application of a movement with a degree of freedom unique in rotation, only the figure 5 showing a gyroscopic type assembly with two engines combined. "Motor" hereinafter means motor means arranged to move a support in at least one degree of freedom, whether it is a single motor means for a single degree of freedom, or a combination of motor means for several degrees of freedom. The case of winding by the crown is not illustrated by the figures, the skilled person having no particular difficulty in transposing the teachings of the invention.

More particularly, the invention uses a device 1 for winding watches, especially mechanical or electronic mechanical energy source, comprising at least a support 2 for receiving a watch in a winding position, at least one source of energy 3 arranged to supply energy to at least one motor 4.

This engine 4 is designed to either drive the winding crown of a manual winding watch, or drive at least one oscillating weight of a self-winding watch, or stir at least one self-winding watch.

More particularly, the device 1 comprises control means 100 which comprise measuring means 10 integrating sensor means 20 for vibratory and / or acoustic and / or magnetic measurement of the oscillator of at least one watch placed in the position winding. These control means 100 are arranged to analyze signals transmitted by the vibratory measurement means and / or acoustic and / or magnetic 10, and compare them to parameterizable setpoints, to regulate the operation of at least one such motor 4 , by switching on this motor 4 when the amplitude of operation of the oscillator is less than or equal to a first minimum value, and stopping this motor 4 when the amplitude of operation of the oscillator is greater than or equal to a second value Max. It is the same for the electromagnetic field of a generator driven by the mechanical energy available.

The magnetic measuring means are well suited for winding watches whose operation is poorly audible, particularly in the case of watches with non-contact or attenuated exhaust mechanisms, with movement transmission by influence, magnetic and / or electrostatic, or comprising wheels or / and anchors or generally mobiles equipped with flexible blades at their interfaces with antagonistic components.

Other measuring means are not excluded, optical for example, but are more difficult to miniaturize, and often more sensitive to the stresses to which a watch is subjected, since normal acceleration to wear, to shocks. In addition, visibility on the areas to be measured is required, which can impose constraints on the materials of certain parts.

It should be noted in this regard that the invention is usable for any type of oscillator, and in particular, in the case of a mechanical escapement oscillator, as well for a Swiss anchor escapement, as for a coaxial escapement, or other. In the case where the notion of alternation is different, as for a detent escapement, a suitable parameterization is to be made, without departing from the scope of the invention.

By "parameterizable setpoints" is meant here that these values depend on the watch model, and may be, as the case may be, either previously introduced during the configuration of the winding device and stored in memory, or read directly on the watch model. shows by a suitable reading device. These parameterizable setpoints can, again, be modified and forced by the user, when the device 1 is equipped with a user interface 110 with input-output allowing the modification of these parameterizable values.

The control means 100 comprise, for example, calculation means 150, such as a microprocessor or the like, for processing the information coming from the sensors, the measurement means 10, a user interface 110 detailed below, from the sources of energy 3 (the figure 2 illustrates, at the level of the control means 100, the inputs 102A and 102B for the communication of the energy level of the energy sources 3), and to give the appropriate commands to the motor 4 or to the motors 4 when there are several.

The device 1 can be dedicated to reassembling a single watch, as visible on the figures 1 and 5 .

It can also be assigned to the reassembly of several watches simultaneously, and will be called hereinafter "multiple winding", as visible on the figures 2 and 3 illustrating two different variants.

Also, in a particular embodiment of such a multiple winding, which comprises one or more motors 4, each motor 4 is assigned to the reassembly of a particular group consisting of one or more supports 2, each adapted to receive a single watch. Each support 2 comprises dedicated sensor means 20. And the control means 100 are arranged to control each motor 4 as a function of the signals received from the sensor means 20 associated with the different supports 2 of the particular group.

The figure 2 represents a variant comprising two motors 4A and 4B each driving a support 2A, 2B, arranged to receive a watch 200A, 200B for its reassembly. These motors 4A, 4B are powered by the energy source or sources 3. Each support 2A, 2B carries a sensor 20A, 20B, in particular a microphone in an advantageous application, the signal of which is transmitted to the measuring means 10.

The figure 3 represents schematically and in perspective, another variant comprising two motors 4A, 4B, each driving a shafted support 2A, 2B, which is arranged to receive a plurality of watches for reassembly: three positions corresponding to 20AX sensors, 20AY , 20AZ for the support 2A, and also on three positions corresponding to 20BX, 20BY, 20BZ sensors for the support 2B.

In a particular embodiment of multiple winding, the control means 100 are arranged to differentially control each of the motors 4, as visible in FIG. figure 2 by outputs 101A and 101B for respectively controlling the motors 4A and 4B.

In another particular embodiment of multiple winding, the control means 100 are arranged to control the engine 4 assigned to said particular group by engaging it as soon as the amplitude of operation of any of said oscillators watches worn by the supports 2 of the particular group is less than or equal to a first minimum value.

In a particular variant, the control means 100 are arranged to control the engine 4 assigned to such a particular group, stopping it as soon as the amplitude of operation of all the oscillators of the watches carried by the supports 2 of the particular group is greater than or equal to a second maximum value.

In another particular variant, the control means 100 are arranged to control the engine 4 assigned to such a particular group, stopping it as soon as the amplitude of operation of any of the oscillators of the watches carried by the supports 2 the particular group is greater than or equal to a second maximum value.

Other driving algorithms are naturally possible.

The figure 5 illustrates a setting of first minimum value and second maximum value for single medium 2.

The figure 2 illustrates a setting of first minimum value and second maximum value for each of the supports 2A and 2B.

The figure 3 illustrates a single setting of first minimum value and second maximum value for each of the supports 2A and 2B.

The figure 4 illustrates a differentiated setting of the first minimum value and the second maximum value for each of the watch receiving positions that comprise the supports 2A and 2B.

In the case where a motor 4 is constituted, as in the figure 5 , of several combined motor means, the control algorithm can be arranged to activate only one, or only part, of these motor means, especially if the energy level of energy sources 3 is low.

In all variants, the control means 100 advantageously comprise a user interface 110, which is arranged to allow the user to choose or / and modify the first minimum value and / or the second maximum value for at least one support 2 particular, depending on the watch that receives this support.

The figures illustrate, in a nonlimiting manner, different inputs of the user interface 110: a socket 111 for connection to a network or a computer or electronic device, an antenna 112 for receiving data by wireless transmission, selectors 113 or 114. These selectors 113, 114, are analogically shown for the convenience of the figures, they may of course consist of a screen-keyboard assembly or the like. In this analog version, a first selector 113A determines the first minimum amplitude value, and a second selector 114A determines the second maximum value.

In particular, this user interface 110 is arranged to allow the user to choose or / and modify the first minimum value and / or the second maximum value for each said particular support 2.

In particular, this user interface 110 is arranged to collect data specific to the first minimum value and / or the second maximum value for a particular type of watch, including but not limited to computer link or wireless communication.

In a particular variant, the user interface 110 comprises reading means 120, which are arranged at the level of at least one support 2, and which are arranged to search and read the parameters of the first minimum value and / or the second maximum value. stored in a watch at a communication interface that includes the watch, for example an RFID chip or the like. More particularly, each support 2 is equipped with such reading means 120.

And, advantageously, the control means 100 are then arranged to adjust, for such a support 2 given comprising said reading means 120, the parameters of first minimum value and / or second maximum value read by reading means 120.

In an advantageous embodiment, at least one support 2 comprises detection means 130 for the presence or absence of a watch, for example of the optical or capacitive or galvanic type, which are arranged to communicate to the control means 100 the information presence or absence of a watch in order to annihilate the effect of a signal corresponding to zero amplitude in the absence of a watch on the support 2. More particularly, all the supports 2 are thus equipped. This detection allows the standby of the corresponding equipment. The figure 2 illustrates, at the level of the control means 100, entries 103A and 103B for the communication of the presence or absence of a watch parameter.

For watches of the usual type, the angular difference between the first minimum value and / or the second maximum amplitude value is advantageously chosen less than or equal to 20 °.

More particularly, the first minimum amplitude value is 240 ° and the second maximum amplitude value is 260 °.

For commercial use, the control means 100 advantageously comprise, at the level of the calculation means 150, timing means 140, which make it possible to determine the time periods at which a watch can be reassembled, and those where it must remain stationary, plus particularly in an indexing position. For this purpose, the user interface 110 advantageously includes timer inputs 115 enabling the user to easily determine these time slots. The calculation means 150 then immobilize the motor (s) 4 in an indexing position that corresponds to a predefined indexing position of the watch or watches.

The invention also applies to the use of a watch assembly 1000 comprising such a device 1, and at least one watch 200, mechanical or electronic source of mechanical energy, which is arranged to be fixed on at least one 2. Advantageously, the watch 200 comprises a communication interface which is arranged to communicate the first minimum value and / or the second maximum value specific to the watch 200.

The sensor means 20 may in particular be of the microphone type.

The principle of an acoustic measurement works well, is reliable, and can retrieve information of duration between the tick and the tac, to calculate the amplitude of the pendulum.

It is understandable that the measurement depends on the type of movement of the watch. The winding device can be paired with a particular watch, and preconfigured at the factory.

The adjustment by the user as presented above allows the user to select on the device a configuration among standard configurations proposed by selectors at the device for the adjustment of amplitude thresholds. The user can also use a mobile application, allowing him to choose the product-watch, and send by wireless communication, or computer, or other, the corresponding configuration. The watch itself may include a chip with its parameters, or its packaging include a graphic code or a chip, readable by a suitable reader.

The invention relates to the use of such a device 1 for the reassembly of at least one electronic watch comprising a generator with a source of mechanical energy; its control means 100 then comprise measuring means 10 which incorporate sensor means 20 adapted for measuring the field produced by this generator to control the regulation of the energy recharge.

Another variant relates to the use of such a device 1 for reassembly of at least one watch comprising a magnetic exhaust mechanism; its control means 100 then comprise measuring means 10 integrating sensor means 20 for measuring the magnetic field to control the regulation of the energy recharge.

Claims (16)

1. Use, for the winding of at least one electronic watch comprising a generator with a mechanical energy source, of a watch winding device (1), comprising at least one support (2) for receiving a watch in a winding position, at least one energy source (3) arranged to supply energy to at least one motor (4) arranged either to drive the winding button of a manually wound watch, or to drive at least one oscillating weight of a self-winding automatic watch, or to rock at least one self-winding automatic watch, said device (1) comprising control means (100) which include measuring means (10) incorporating sensor means (20) for the vibratory and/or acoustic and/or magnetic measurement of the oscillator of said at least one watch placed in said winding position, said control means (100) being arranged to analyse signals transmitted by said vibratory and/or acoustic and/or magnetic measuring means (10) and to compare said signals to desired configurable values for regulating the operation of at least one said motor (4) by starting said motor (4) when the operating amplitude of said oscillator is less than or equal to a first, minimum value, and by stopping said motor (4) when the operating amplitude of said oscillator is higher than or equal to a second, maximum value, characterized in that said control means (100) comprise measuring means (10) incorporating sensor means (20) for measuring the field produced by said generator in order to control the regulation of energy recharging.
2. Use according to claim 1, characterized in that each said motor (4) is assigned to the winding of a specific group composed of one or more said supports (2), each able to receive a single watch, in that each said support (2) includes said dedicated sensor means (20), and in that said control means (100) are arranged to control each said motor (4) according to signals received from said sensor means (20) associated with said supports (2) of said specific group.
3. Use according to claim 2, characterized in that said control means (100) are arranged to control each of said motors (4) in a differentiated manner.
4. Use according to claim 2 or 3, characterized in that said control means (100) are arranged to control said motor (4) assigned to said specific group by starting it as soon as the operating amplitude of any one of said oscillators of the watches carried by said supports (2) of said specific group is less than or equal to a first, minimum value.
5. Use according to claim 4, characterized in that said control means (100) are arranged to control said motor (4) assigned to said specific group, by stopping it as soon as the operating amplitude of all said oscillators of the watches carried by said supports (2) of said specific group is higher than or equal to a second, maximum value.
6. Use according to claim 4, characterized in that said control means (100) are arranged to control said motor (4) assigned to said specific group, by stopping it as soon as the operating amplitude of any one of the oscillators of the watches carried by said supports (2) of said specific group is higher than or equal to a second, maximum value.
7. Use according to any of claims 1 to 6, characterized in that said control means (100) comprise a user interface (110) arranged to allow the user to choose and/or to modify said first, minimum value and/or said second, maximum value for at least one said specific support (2).
8. Use according to claim 7, characterized in that said user interface (110) is arranged to allow the user to choose and/or to modify said first, minimum value and/or said second, maximum value for each said specific support (2).
9. Use according to claim 7 or 8, characterized in that said user interface (110) is arranged to collect data relating to said first, minimum value and/or said second, maximum value for a determined watch type, by data link or by wireless communication.
10. Use according to claim 9, characterized in that said user interface (110) comprises reading means (120) arranged on at least one said support (2) and arranged to find and read said parameters of said first, minimum value and/or second, maximum value stored in a watch in a communication interface comprised in said watch.
11. Use according to claim 10, characterized in that said control means (100) are arranged to adjust, for a said given support (2) comprising said reading means (120), said parameters of said first, minimum value and/or second, maximum value read by said reading means (120).
12. Use according to any of claims 1 to 11, characterized in that at least one said support (2) includes means (130) for detecting the presence or absence of a watch, arranged to communicate to said control means (100) the presence or absence of watch information in order to cancel out the effect of a signal corresponding to zero amplitude in case of absence of a watch on said support (2).
13. Use according to any of claims 1 to 12, characterized in that the angular difference between said first, minimum amplitude value and/or said second, maximum amplitude value is less than or equal to 20°.
14. Use according to any of claims 1 to 13, characterized in that said first, minimum amplitude value is 240° and said second, maximum amplitude value is 260°.
15. Use according to any of claims 1 to 14, characterized in that said control means (100) comprise timing means (140), which make it possible to determine the time slots in which a watch can be wound, and those in which it must remain immobile in an indexing position.
16. Use according to claims 7 and 15, characterized in that said user interface (110) includes timing inputs (115) arranged to allow determination of said time slots by the user to easily determine said time slots.

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