EP3333649A1 - Method for determining parameters for adjusting the operation of a mechanical watch - Google Patents

Abstract

The invention relates to a method for determining adjustment parameters of the gait of a mechanical watch (1) by means of an electronic device (6) comprising: at least one measuring sensor (8) arranged to measure a physical parameter to which the electronic device (6) is subjected, and a data transmission device (12) arranged to transmit the data supplied by the measurement sensor (8) to a data receiving device (14) external to the mechanical watch (1), the process comprising successively: a step (20) of periodically measuring the value of the physical parameter to which the electronic device (6) is subjected by means of the measurement sensor (8); a step (22) for transmitting the data supplied by the measurement sensor (8) to the data receiving device (14); a step (24) for recording and analyzing the data transmitted to the data receiving device (14) in order to deduce the conditions to which the electronic device (6) is subjected, and - A step (26) for determining the adjustment parameters of the running of the mechanical watch (1) according to the conditions of use.

Description

Technical field of the invention

The invention relates to a method for determining adjustment parameters of the running of a mechanical watch and, more specifically, to a method for determining adjustment parameters of the running of a mechanical watch according to the conditions of use of this watch. shows.

Technological background of the invention

In known manner, a mechanical watch comprises, in a watch case, a clockwork mechanical movement which causes a set of hands hours and minutes. The mechanical watchmaking movement comprises in particular a spiral spring, a balance and an escapement together forming a time base of the watch movement.

A mechanical watch, even the most accurate, delays or advances a few seconds a day. The setting of the time base (commonly called "walk" of the watch) is intended to minimize this delay or advance.

The running of a mechanical watch depends in particular on mechanical parameters specific to the watch movement, such as the variation of the moment of force transmitted by the escapement to the balance, or the geometry of the spiral spring. These mechanical parameters are well known to the watchmaker, and taken into account for adjusting the running of the mechanical watch at the end of manufacture or during a maintenance of the watch.

The running of a mechanical watch also depends on parameters outside the watch, and in particular the conditions in which the watch is used. The watchmaker classically regulates the running of the watch based on standard conditions of use. However, these standard conditions of use are difficult to estimate and, moreover, they do not necessarily correspond to the actual conditions of use of a particular watch.

Summary of the invention

The present invention aims to overcome the disadvantages mentioned above as well as others, by proposing a method of adjusting the running of a mechanical watch that takes into account the actual conditions of use of this watch.

• au moins un capteur de mesure agencé pour mesurer au moins un paramètre physique auquel est soumis le dispositif électronique, et
• un dispositif de transmission de données agencé pour transmettre les données fournies par le capteur de mesure à un dispositif de réception de données extérieur à la montre.

For this purpose, the invention proposes a method for determining adjustment parameters of the running of a mechanical watch by means of an electronic device comprising:

• at least one measurement sensor arranged to measure at least one physical parameter to which the electronic device is subjected, and
• a data transmission device arranged to transmit the data provided by the measurement sensor to a data receiving device outside the watch.

• mesurer au moyen du capteur de mesure la valeur du paramètre physique auquel est soumis le dispositif électronique ;
• transmettre les données fournies par le capteur de mesure au dispositif de réception de données extérieur ;
• enregistrer et analyser les données recueillies par le dispositif de réception de données extérieur en vue d'en déduire les conditions auxquelles est soumis le dispositif électronique, et
• déterminer des paramètres de réglage de la marche de la montre mécanique en fonction des conditions d'utilisation.

The method according to the invention comprises the following steps, consisting of:

• measuring by means of the measurement sensor the value of the physical parameter to which the electronic device is subjected;
• transmit the data provided by the measurement sensor to the external data receiving device;
• recording and analyzing the data collected by the external data receiving device to derive the conditions to which the electronic device is subjected, and
• determine parameters for adjusting the running of the mechanical watch according to the conditions of use.

The method according to the invention thus makes it possible to refine at best the adjustment parameters of a mechanical watch as a function of the actual conditions in which this mechanical watch is used.

According to one embodiment of the invention, the method comprises an additional step of adjusting the running of the mechanical watch from the setting parameters determined according to the conditions of use.

The electronic device for collecting the values of the physical parameter (s) to which the mechanical watch is subjected can be arranged preferentially inside the watch case or inside the wristband of the watch. In this case, after analysis of the data relating to the actual conditions in which the mechanical watch is used, the movement of the watch is adjusted during a step of maintenance or repair of the watch. Thus, the data is analyzed and the watch is set by a professional specialist in mechanical movement watches.

Another way of exploiting the values of the physical parameters to which the electronic device is subjected consists in housing the electronic device in a simple bracelet that the user can for example obtain at a point of sale of watches. The user will then wear this bracelet for a few days on the wrist to which he wears his watch. During this period, the value of the physical parameter (s) to which the electronic device housed in the bracelet will be measured by means of the measurement sensor. After a few days, the user brings back his bracelet in the watch store and the data provided by the sensor will be analyzed. The analysis of these data then makes it possible to determine the way the customer wears the bracelet and to propose to him, among an assortment of mechanical watches all set differently from each other, the watch whose adjustment corresponds best to the way the watch customer wears his watch.

According to one embodiment of the invention, the electronic device comprises a memory space for storing the data provided by the at least one measurement sensor.

In the case where the electronic device does not include any memory space, the data provided by the measurement sensor is directly transmitted to an external data receiving device, for example a mobile phone provided with an application for recording and analyzing the data. data collected by the measurement sensor in order to deduce the conditions to which the electronic device is subjected. In the case where the electronic device comprises a memory space, the data collected by the measurement sensor are momentarily stored in this memory space, then are transmitted to an external data receiving device for analysis in order to determine the conditions to which is subjected the electronic device and, consequently, the mechanical watch worn by the user.

According to one embodiment of the invention, the electronic device comprises at least one accelerometer and / or a gyrometer and / or a magnetic sensor and / or a temperature sensor and / or a pressure sensor and / or a sensor. relative humidity, the data provided by the electronic device comprising at least data relating to acceleration including angular acceleration and / or data relating to a magnetic induction and / or data relating to a temperature and / or data relating to pressure and / or relative humidity data to which the mechanical watch is subjected.

The method according to the invention thus makes it possible to refine the setting of a mechanical watch as a function, as the case may be, of the accelerations to which the mechanical watch is subjected in time and / or of variations in the time of the temperature and / or the pressure and / or relative humidity and / or magnetic field experienced by the watch. These parameters are those likely to cause the most error of walking the time base of the mechanical watch.

The invention also proposes a mechanical watch comprising a bracelet associated with a watch case and an electronic device adapted for implementing a method according to the invention, this electronic device being housed inside the watch case. or inside a wristband of the watch, this electronic device comprising at least one measurement sensor arranged to measure a physical parameter to which the mechanical watch is subjected, and a data transmission device arranged to transmit data provided by the measuring sensor to a device for receiving data external to the watch.

According to one embodiment of the invention, the electronic device comprises a memory space arranged for storing data provided by the measurement sensor.

According to one embodiment of the invention, the electronic device comprises at least one accelerometer and / or a gyrometer and / or a magnetic sensor and / or a temperature sensor and / or a pressure sensor and / or a sensor. relative humidity.

Brief description of the figures

• la figure 1 est un schéma d'une montre mécanique adaptée pour la mise en oeuvre d'un procédé selon l'invention ;
• la figure 2 est une variante de la montre de la figure 1 ;
• la figure 3 détaille les composants essentiels nécessaires à la mise en oeuvre de l'invention ;
• la figure 4 montre schématiquement les étapes d'un procédé selon l'invention, et
• la figure 5 montre une autre variante de réalisation adaptée à la mise en oeuvre du procédé.

Other features and advantages of the present invention will emerge more clearly from the detailed description which follows of examples of implementation of a method according to the invention. This example is given as purely illustrative and not limiting and is to be read in conjunction with the accompanying drawings in which:

• the figure 1 is a diagram of a mechanical watch adapted for the implementation of a method according to the invention;
• the figure 2 is a variation of the watch from the figure 1 ;
• the figure 3 details the essential components necessary for the implementation of the invention;
• the figure 4 schematically shows the steps of a method according to the invention, and
• the figure 5 shows another variant of embodiment adapted to the implementation of the method.

Detailed description of an embodiment of the invention

The present invention proceeds from the general inventive idea which consists of collecting data relating to the actual conditions of use of a mechanical watch, and to take these data into account in order to refine the adjustment of the running of the mechanical watch.

For this purpose, a mechanical watch according to the invention, designated as a whole by the general numerical reference 1, comprises a bracelet 2 associated with a watch case 4 and an electronic device 6.

According to one embodiment of the invention illustrated in figure 1 , the electronic device 6 is housed in one of the strands 2a or 2b of the bracelet 2, or its components are distributed in the two strands 2a and 2b, the two strands 2a, 2b being in this case electrically connected to each other. the other.

According to another embodiment of the invention illustrated in figure 2 , the electronic device 6 is housed inside the watch case 4, this watch case 4 being sealed with water according to known techniques.

According to yet another embodiment of the invention not shown in the figures, the electronic device 6 can be fixed on the structure of a clasp with folding clasp which is equipped with the bracelet 2.

The electronic device 6 comprises in particular (see figure 3 ) at least one measurement sensor 8 arranged to measure a physical parameter to which the mechanical watch 1 is subjected, where appropriate a memory space 10 arranged for storing data supplied by the at least one measuring sensor 8, and a transmission device 12 arranged to transmit data provided by the measuring sensor 8 to a data receiving device 14 outside the mechanical watch 1. On the figure 3 Data transfer paths are represented by thick line arrows. The transfer of data can be done by means of a wired connection using a connector and a cable, for example of the USB type, or by means of a wireless link, for example of the Bluetooth type, or near-field type based on RFID technology.

In the example shown on the figure 3 the measuring sensors 8 are three in number and comprise an accelerometer 8a, a magnetic sensor 8b and a temperature sensor 8c. The memory space 10 is here integrated in a microcontroller 16 whose overall function is to drive the plurality of measurement sensors 8, the memory space 10 and the data transmission device 12. On the figure 3 , the control signals are represented by arrows in fine lines.

In the example of the figure 3 still, the electronic device 6 additionally comprises a source of electrical energy 18, for example an accumulator, for supplying electrical energy to the plurality of measurement sensors 8, the microcontroller 16 and its memory space 10 as well as the transmission device data 12.

It goes without saying that the present invention is not limited to the embodiments which have just been described and that various modifications and Simple variants may be envisaged by those skilled in the art without departing from the scope of the invention as defined by the appended claims.

For example, the plurality of measurement sensors 8 may comprise a single sensor, for example an accelerometer 8a, which integrates its own memory space and its own control microcontroller. In this case, a microcontroller and a memory space external to the sensor are obviously not essential.

In another example, the energy for the operation of the electrical and electronic components can be provided by the movements of the person wearing the watch and / or by the external data receiving device. In this case, an additional source of electrical energy is not essential. In fact, the solution chosen to supply the electrical and electronic components is essentially a function of the acquisition frequency of the measurement signals supplied by the sensor (s) and the duration of the communication during which the data supplied by the sensor of measurement are transferred to the data receiving device. A hybrid solution comprising an on-board energy source in addition to the energy recovered, whether from the carrier's movements or from the environment (solar energy), is also conceivable. Such a solution makes it possible, for example during the active scope, to provide a faster sampling frequency of the measurements (thanks to the external supply of energy), whereas in the case of low activity, it is possible to reduce this sampling frequency without significant loss of information.

In the preferred embodiment of the invention, the electronic device 6 comprises a memory space 10 for storing the data supplied by the measurement sensor 8. It is however also conceivable that the electronic device 6 is not provided with a memory space, in which case the data provided by the measurement sensor 8 is directly transmitted to an external data receiving device such as a mobile phone which can be equipped with an application for recording and analyzing the data provided by the measurement sensor 8. In the case where the electronic device 6 comprises a memory space 10, the data relating to the physical parameters to which the electronic device is subjected 6 and which are measured by the measuring sensor 8 are temporarily stored in the memory space 10, then transferred to the data receiving device 14 for analysis in order to deduce the conditions to which the device is subjected. 6 and allow the adjustment of the mechanical watch 1 accordingly.

• mesurer périodiquement la valeur du paramètre physique auquel est soumis le dispositif électronique 6 au moyen du capteur de mesure 8 à l'étape 20 ;
• transmettre les données enregistrées au dispositif de réception des données 14 extérieur à la montre mécanique 1 à l'étape 22 ;
• enregistrer et analyser les données transmises en vue d'en déduire des conditions d'utilisation de la montre mécanique 1 à l'étape 24 ;
• déterminer, en fonction des conditions d'utilisation établies à l'étape 24, les paramètres de réglage de la marche de la montre mécanique 1 à l'étape 26 ;
• régler la marche du mouvement de la montre mécanique 1 en fonction de ces conditions d'utilisation à l'étape 28.

A mechanical watch according to the invention is adapted to implement a method according to the invention schematized on the figure 4 and comprising the following steps, consisting of:

• periodically measuring the value of the physical parameter to which the electronic device 6 is subjected by means of the measurement sensor 8 in step 20;
• transmitting the recorded data to the external data receiving device 14 to the mechanical watch 1 in step 22;
• record and analyze the transmitted data to derive terms of use of the mechanical watch 1 in step 24;
• determining, according to the operating conditions established in step 24, the adjustment parameters of the operation of the mechanical watch 1 at step 26;
• adjust the movement of the mechanical watch 1 according to these conditions of use in step 28.

Prior to step 22 of transmitting the data collected by the plurality of measurement sensors 8, this data can be temporarily stored in the memory space 10 during a step 30 for subsequent transfer to the reception device data 14.

The sensor or sensors 8 can perform measurements continuously, regardless of the use that is made of the mechanical watch 1. Alternatively, or the sensors 8 make measurements only when the mechanical watch 1 is worn by a user. It is also possible to envisage that the accelerometer 8a performs measurements continuously, and that the microcontroller 16 activates the other measurement sensors only when the accelerometer 8a detects a movement of the mechanical watch 1, that is to say say when the mechanical watch 1 is worn by a user. The measurements made by the sensor or sensors are made at regular time intervals sufficiently short to detect variations in the measured parameters: for example time intervals of the order of a few tenths of a second to a few tens of seconds for the sensor of the sensor. 8a acceleration, or a few minutes for the temperature sensor 8b or the induction sensor 8c.

In step 30, the data collected by the sensor (s) is stored in the memory space 10. It is essentially the data collected by the sensor (s) when the mechanical watch 1 is worn by the user. that is, when movements of the mechanical watch 1 are detected. But data relating to the environmental conditions (magnetic field, temperature, atmospheric pressure, residual humidity) can also be measured during the rest phases of the watch. In addition to the measured values of the physical parameters to which the mechanical watch 1 is subjected, the data collected may also include an indication of the periods of time during which the mechanical watch 1 is worn and periods of time during which the mechanical watch 1 is stationary.

In step 22, the stored data is transmitted to the data receiving device 14 outside the mechanical watch 1. The transmission can be performed via any type of link, preferably non-wired, such as a Bluetooth link.

• les données relatives aux accélérations, y compris les accélérations angulaires, subies par la montre mécanique 1 sont analysées pour déterminer dans quelle position se trouve le plus fréquemment la montre : position verticale, horizontale, inclinée, et estimer ensuite l'évolution des frottements au niveau d'un balancier de la montre susceptibles d'influer sur la marche de la montre mécanique 1 ;
• les données relatives à l'induction subie par la montre mécanique 1 sont analysées pour déterminer l'évolution dans le temps du champ magnétique auquel est soumis la montre, et estimer l'impact de ce champ magnétique sur la marche de la montre mécanique 1 ;
• les données relatives à la température à laquelle la montre mécanique 1 est exposée sont analysées pour déterminer l'évolution dans le temps de la température subie par la montre mécanique 1, et estimer les conséquences de cette température notamment sur le spiral et le balancier de la montre mécanique 1 (dilatation ou contraction), et donc sur la marche de la montre mécanique 1 ;
• les données relatives à la pression et à l'humidité donnent des indications sur des grandeurs physiques qui influencent le vieillissement des lubrifiants, et donc les frottements des mobiles et la marche de la montre ;
• les données relatives aux accélérations angulaires qui donnent des informations précieuses sur les rotations subies par les mobiles du mouvement et qui complètent les informations fournies par l'accéléromètre sur les chocs et autres perturbations mécaniques de la marche de la montre, comme les mouvements brusques du porteur.

In step 24, the transmitted data are analyzed to determine the conditions of use of the watch, and in particular:

• the data relating to the accelerations, including the angular accelerations, experienced by the mechanical watch 1 are analyzed to determine in which position the watch is most frequently located: vertical, horizontal, inclined position, and then to estimate the evolution of the friction at the level of a pendulum of the watch likely to influence the running of the mechanical watch 1;
• the data relating to the induction undergone by the mechanical watch 1 are analyzed to determine the evolution in time of the magnetic field to which the watch is subjected, and to estimate the impact of this magnetic field on the progress of the mechanical watch 1;
• the data relating to the temperature at which the mechanical watch 1 is exposed are analyzed in order to determine the evolution over time of the temperature experienced by the mechanical watch 1, and to estimate the consequences of this temperature, in particular on the balance spring and the balance wheel of the mechanical watch 1 (expansion or contraction), and therefore on the running of the mechanical watch 1;
• pressure and moisture data give indications of physical quantities which influence the aging of lubricants, and thus the friction of the moving parts and the running of the watch;
• the angular accelerator data which gives valuable information on the rotations of the movement motions and which supplements the information provided by the accelerometer on shocks and other mechanical disturbances of the movement of the watch, such as abrupt movements of the wearer .

During step 26, it is determined, according to the conditions of use of the mechanical watch 1 that were determined in step 24, what are the adjustments to be made to improve the movement of the mechanical watch 1.

Finally, during step 28, the operation of the mechanical watch 1 is adjusted according to the settings to be made to improve the running which were determined during step 26.

Preferably, the steps of transmission 22, analysis 24, determination of adjustment parameters 26 and adjustment 28 are performed during a maintenance or repair step of the mechanical watch 1. Thus, the data are analyzed and the mechanical watch 1 is set by a professional specialist in mechanical movement watches. It is also possible that the professional decides to revise the watch and renew lubricants for critical mobiles, for example.

The invention also relates to a bracelet 32 as illustrated in FIG. figure 5 . This bracelet 32 comprises an electronic device 6 of the type described above adapted for implementing the method according to one of the preceding variants and which comprises at least one measurement sensor 8 arranged to measure a physical parameter to which the bracelet is subjected. 32, and a data transmission device 12 arranged to transmit data provided by the at least one measuring sensor 8 to a data receiving device 14 outside the bracelet 32. A source of electrical power 18 must also be provided.

It can also be envisaged that the electronic device 6 with its various components is designed in the form of a module that will be fixed externally for example on the wristband of the watch or on the watch case for the duration of the test. . It is also conceivable that such a module is temporarily housed inside the box of the watch.

The present description specifies that the step 20 of measuring the value of the physical parameter to which the electronic device 6 is subjected by means of the measurement sensor 8 is carried out periodically. "Periodical" means that the measurement must be made throughout the period during which the value of the physical parameter (s) to which the electronic device is subjected is recorded. However, these measurements may be taken at regular time intervals or not.

Nomenclature

1.

Mechanical watch

2.

Bracelet

2a, 2b.

Strands of the bracelet

4.

Watch box

6.

Electronic device

8.

Measuring sensor

8a.

accelerometer

8b.

Magnetic sensor

8c.

Temperature sensor

10.

Memory space

12.

Data transmission device

14.

Data receiving device

16.

microcontroller

18.

Source of electrical energy

20.

Step of measuring the value of the physical parameter

22.

Data transmission stage

24.

Step of analysis of the transmitted data

26.

Step of determining the adjustment parameters of the mechanical watch running

28.

Step of adjusting the running of the mechanical watch

30.

Step of recording the data collected by the measurement sensor

32.

Bracelet

Claims (10)

A method of determining adjustment parameters of the operation of a mechanical watch (1) by means of an electronic device (6) comprising: at least one measuring sensor (8) arranged to measure a physical parameter to which the electronic device (6) is subjected, and a data transmission device (12) arranged to transmit the data supplied by the measurement sensor (8) to a data receiving device (14) external to the mechanical watch (1), the process comprising successively: a step (20) of periodically measuring the value of the physical parameter to which the electronic device (6) is subjected by means of the measurement sensor (8); a step (22) for transmitting the data supplied by the measurement sensor (8) to the data receiving device (14); a step (24) for recording and analyzing the data transmitted to the data receiving device (14) in order to deduce the conditions to which the electronic device (6) is subjected, and - A step (26) for determining the adjustment parameters of the running of the mechanical watch (1) according to the conditions of use. Method according to claim 1, characterized in that it comprises a further step (28) of adjusting the running of the mechanical watch (1) from the setting parameters determined according to the conditions of use. Method according to one of claims 1 or 2, characterized in that the electronic device (6) further comprises a memory space (10) for storing in a step (30) the data provided by the at least one measuring sensor (8). Method according to one of claims 1 to 3, characterized in that the at least one measuring sensor (8) comprises at least one accelerometer (8a) and / or a gyrometer and / or a magnetic sensor (8b) and / or a temperature sensor (8c) and / or a pressure sensor and / or a relative humidity sensor, the data provided by this or these measurement sensors (8) comprising at least data relating to an acceleration and / or data relating to magnetic induction and / or temperature data to which the watch is subjected. Method according to one of the preceding claims, characterized in that the recording of the data is carried out during the periods when the mechanical watch (1) is worn. Method according to one of the preceding claims, characterized in that the data transmission step (22), the data analysis step (24), the step (26) of determining the setting parameters of the operation of the mechanical watch (1) according to the conditions of use and the step (28) of adjusting the running of the mechanical watch (1) are performed during a maintenance step or repair of the watch mechanical (1). Mechanical watch comprising a bracelet (2) associated with a watch case (4) and an electronic device (6) adapted for implementing the method according to one of the preceding claims, the electronic device (6) being housed at inside the watch case (4) or in the bracelet (2) of the mechanical watch (1) or in a clasp with a folding clasp equipping the bracelet (2), the electronic device (6) comprising at least one sensor of measurement (8) arranged to measure a physical parameter to which the mechanical watch (1) is subjected, and a data transmission device (12) arranged to transmit data supplied by the at least one measuring sensor (8) to a data receiving device (14) outside the mechanical watch (1). Mechanical watch according to the preceding claim, characterized in that the electronic device comprises a memory space (10) arranged for storing data supplied by the at least one measuring sensor (8). Watch according to any of claims 7 or 8, characterized in that the at least one measuring sensor (8) comprises at least one accelerometer (8a) and / or a gyroscope and / or a magnetic sensor (8b) and / or a temperature sensor (8c) and / or a temperature sensor and / or a relative humidity sensor. Bracelet comprising an electronic device (6) adapted for implementing the method according to one of the preceding claims, the electronic device (6) comprising at least one measurement sensor (8) arranged to measure a physical parameter to which the device is subjected. bracelet (32), and a data transmission device (12) arranged to transmit data provided by the at least one measuring sensor (8) to a data receiving device (14) outside the strap (32).

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