EP4095623A1 - Device for winding or adjusting and controlling a watch - Google Patents

Abstract

The device (1) is provided for checking the state of a watch (20) and for resetting the time. In a housing (4, 5) of the device, a watch can be arranged on a watch support (10), which can be moved from a position without measurement to a measurement position in a vision system, or vice versa. In a position without measurement, the watch on its support can be observed from outside the case of the device through at least one electronic shutter (3) activated or an optical valve (3) activated to be in a transparent state, while in the measurement position, the electronic shutter or the optical valve is deactivated to be rendered opaque.

Description

Technical field of the invention

The invention relates to a device for winding or adjusting and controlling a mechanical watch, for example with automatic or electromechanical winding, or even a mechanical watch movement. The winding or adjustment device comprises at least one support on which the watch or the mechanical watch movement is placed. The support can be driven in particular in rotary movements by a motorized arrangement to allow recharging of the energy source, which is generally a spring barrel.

State of the art

In the field of electromechanical watches fitted with hands, there are known systems for correcting the time displayed by the watch. Such systems make it possible to reset the time of the watch, for example in the case of a change of time zone or even a change of summer/winter time.

Such a time correction system is for example described in the application for patent EP 1 553 469 A1 . The system is provided with a time correction instruction device, comprising according to an exemplary embodiment a computer connected to a camera and to a circuit for generating a time correction signal. The watch includes communication means for receiving time correction data contained in this signal, and means for moving the hands to the exact time. The watch can be placed on a stand with the time indication by the hands visible on the top, and the camera can take a photograph of the position of the hands, which is sent to the computer to recognize the time displayed by the watch. The computer then generates correction data comprising a reference time, and transmits this data to the watch, via the signal generation circuit. However, a drawback of such a system is that it imposes a modification of the movement of the watch, in order to integrate therein communication means and means for moving the hands. Such a system is cumbersome and restrictive, with the need for a computer for time correction. A lack of precision is also noted, because for the control of the time displayed by the watch, the watch placed on the support is not in an enclosure or box sheltered from outside light, which can cause reading errors.

In order to overcome the aforementioned drawback, watch cases adapted to receive a watch on a support and comprising means for resetting the time of the watch are known. In this regard, we can cite the request for patent WO 2012/126978 A1 which describes such a setting. According to a particular embodiment, the case described in this document comprises a removable support which receives the watch and a device for winding the watch connected to a camera. The winding device comprises data analysis means. Once the watch has been placed on the removable support of the case, the camera records an image of the position of the hands, and sends it to the analysis means. The latter then determine the time displayed by the watch and, by comparison with a time reference, transmit a time correction instruction to the winding device. The winding device then makes it possible to wind the watch by direct mechanical action on its winding crown-stem. The case described is mechanically complex, and limited to resetting watches with a winding crown stem. Once placed in the closed case, nothing is provided to allow the watch to be seen from the outside in periods without measurement.

the patent EP 3 339 984 B1 describes a device for winding watches, which comprises a motor generating the winding, means for acoustic measurement of the oscillator of the watch on its support in the winding position, and control means for analyzing the signals transmitted by the means of measurement in order to regulate the operation of the motor by switching it on when the operating amplitude of the oscillator is lower than a minimum value, and by stopping it when the operating amplitude is greater. The acoustic measurement means are fixed in a base. Nothing is planned concerning a measurement by a viewing system of the time displayed by the watch in a box sheltered from outside light, so as to correct the time in the box. In addition, there is no possibility of seeing the watch from the outside in periods without measurement.

Summary of the invention

The object of the invention is therefore to provide a device for winding or adjusting and controlling a mechanical watch, in particular with automatic or electromechanical winding, or a mechanical watch movement, making it possible to see the watch or the mechanical movement in a position without measurement from outside the housing of the device by overcoming the aforementioned drawbacks of the state of the art. In addition, the device comprises a vision system for controlling the state of the watch in a measurement position to supply measurement signals in particular to an electronic data processing circuit in order to be able to reset the time of the watch mechanical or electromechanical or of the watch movement.

To this end, the invention relates to a device for winding or adjusting and controlling a watch, such as a mechanical watch, in particular with automatic winding, or a mechanical movement watchmaker, which includes the features defined in independent claim 1.

Particular forms of the device are defined in dependent claims 2 to 11.

An advantage of the device for winding or adjusting and controlling the mechanical watch, preferably with automatic winding, lies in the fact that it comprises a well-known vision system for controlling the time displayed by the watch, when said watch is moved or placed in a measurement position in the vision system, protected from light coming from outside the box. Once the measurement has been carried out and the watch has been able to be reset by special time reset means outside the vision system, the watch on its support is moved or placed in a position without measurement. . In this position without measurement, the watch or the horological movement can be seen from outside the case through an electronic shutter or an optical valve in a transparent state. In an alternative embodiment, the vision system can be moved after the measurement to a position without measurement in the case instead of moving the support with the watch. In this position without measurement, the case includes an optical valve or an electronic shutter on one face of the case to see the watch in its position without measurement on its support.

Advantageously, in the position without measurement, the watch on its support is arranged along an axis that is not coaxial with the axis of the vision system when checking and resetting the time of the watch. In this position without measurement, the watch is arranged to be seen from the outside through the optical valve or the electronic shutter, which can be activated electronically. In an activated state, the optical valve or electronic shutter is transparent to view the watch inside the case in its measurementless position. On the other hand, in a measurement position in the optical system, the electronic shutter or the optical valve and in an opaque state so as not to disturb the measurement in the vision system.

Brief description of figures

• les figures 1A et 1B représentent une coupe transversale schématique d'une première forme d'exécution d'un dispositif de remontage ou réglage, et de contrôle d'une montre mécanique ou électromécanique, ou d'un mouvement horloger selon l'invention d'une part dans une position sans mesure et d'autre part dans une position de mesure,
• les figures 2A et 2B représentent une coupe transversale schématique d'une deuxième forme d'exécution d'un dispositif de remontage ou réglage, et de contrôle d'une montre mécanique ou électromécanique, ou d'un mouvement horloger selon l'invention d'une part dans une position sans mesure et d'autre part dans une position de mesure, et
• les figures 3A et 3B représentent une coupe transversale schématique d'une troisième forme d'exécution d'un dispositif de remontage ou réglage, et de contrôle d'une montre mécanique ou électromécanique, ou d'un mouvement horloger selon l'invention d'une part dans une position sans mesure et d'autre part dans une position de mesure.

The aims, advantages and characteristics of the device for winding or adjusting, and controlling a mechanical watch, in particular with automatic winding, or electromechanical will appear better in the following description on the basis of non-limiting embodiments and illustrated by the drawings. on which ones :

• them figures 1A and 1B represent a schematic cross section of a first embodiment of a device for winding or adjusting, and controlling a mechanical or electromechanical watch, or a horological movement according to the invention on the one hand in a position without measurement and on the other hand in a measurement position,
• them figures 2A and 2B represent a schematic cross section of a second embodiment of a device for winding or adjusting, and controlling a mechanical or electromechanical watch, or a horological movement according to the invention on the one hand in a position without measurement and on the other hand in a measurement position, and
• them figures 3A and 3B represent a schematic cross section of a third embodiment of a device for winding or adjusting, and controlling a mechanical or electromechanical watch, or a horological movement according to the invention on the one hand in a position without measurement and on the other hand in a measurement position.

Detailed description of the invention

In the following description, reference is made to a device for winding or adjusting, and controlling a mechanical watch, in particular with automatic or electromechanical winding, or a movement watchmaker. All the electronic or optical components of the device, which are well known to a person skilled in the art in this technical field, are only described in a simplified manner. Even if it may be an electromechanical watch or a mechanical watch movement mounted in the device on a support, for simplicity in the remainder of the description, reference is mainly made only to a mechanical watch. for example with automatic winding.

The figures 1A and 1B represent a first embodiment of a device 1 for winding or adjusting, and controlling, a mechanical 20 or electromechanical watch, or a watch movement. The watch 20 can be placed on a support 10, which can be moved from a first position, which is a position without measurement, to a second position, which is a measurement position in a vision system 50. The movement of the position without measurement shown at the Figure 1A at the measurement position shown in figure 1B is preferably carried out automatically by a drive means in the housing, which is for example a rotary motor unit, and vice versa. Preferably, in the position without measurement, the vision system 50 is switched off. The support 10 of the watch 20 or of the watch movement can generally be driven in rotation, in particular if the mechanical watch 20 is self-winding. Motorization means 2 comprising at least one electric motor, are connected by an axis D to the support 10 of the watch 20 defining a watch holder so as to drive it in rotation mainly in a position without measurement, but also possible in a position measurement in the vision system 50.

The watch 20 on its support 10 and the vision system 50 for measuring the state of the mechanical watch 20 are placed in a casing 4, 5, which may have the general shape of a rectangular parallelepiped. This housing can comprise a first part 4 on or through which at least one optical shutter 3 or at least one optical valve 3 can be placed, and a second base part 5 on which the first part 4 is mounted. The first part 4 of the casing can be mounted or fixed by fitting or snapping onto an opening of the second base part 5 to close the casing. However, as not shown in detail on the figures 1A and 1B , the first part 4 can be rotatably or pivotally mounted on the opening of the second part 5 of the housing by a hinge or articulation. In this embodiment variant, this facilitates the opening and closing of the case for mounting the watch 20 on its support 10.

Once the watch 20 is placed on its support 10 and in a position without measurement, it can be observed in particular by a person P from outside the device 1 through the optical shutter 3 or optical valve 3, which is electronically rendered transparent in this position without measurement. On the other hand, in a measurement position of the watch 20 in the vision system 50, the optical shutter 3 or optical valve 3 is made opaque so as to guarantee a good measurement in the vision system 50 of the state of the watch. 20.

For the movement of the first embodiment of the support 10 of the watch 20 of the device 1 from the position without measurement to the measurement position, a rotary motor unit mounted on a support plate 6 fixed in the housing, makes it possible to rotate the support 10 along an axis of rotation R perpendicular to the axis D of the support 10. The axis of rotation R is preferably located at motorization means 2 of the axis D of the support 10 driving the mechanical watch 20 from so as to operate an automatic winding of said watch even in a position without measurement. Preferably, the watch holder, which notably comprises the watch 20 on its support 10 connected by the axis D to the motorization means 2, is rotated along the axis of rotation R from the position without measurement to the measurement position or Conversely. The watch holder is tilted or turned from the position without measurement to the measurement position where a detection of the state of the watch 20 is carried out by the vision system 50, which supplies measurement signals to an electronic circuit with unit processing for the purpose of ordering a reset of the time of said watch 20 by particular time-setting means outside the vision system 50. In the measurement position, the state of the watch is determined in a few minutes. This means that a large part of the time the watch 20 is visible in the position without measurement through the electronic shutter 3 or the optical valve 3 rendered transparent in this position without measurement.

It should be noted that mechanical watches 20 with automatic winding discharge when they are not worn. Smart watch winders generally solve this problem by imposing a movement on them, causing the oscillating weight to rotate for rewinding the mainspring. It is known to use the gentle oscillation of the watch defined as "pampering" at the natural frequency of a spiral balance wheel of the mechanical watch, which makes it possible to slave the rate or operation to the precision of the quartz equipping the winding clever. It is possible to have small corrections if the frequency of pampering does not exceed a certain standard value for example +/- 30 seconds per day. If the condition of the watch is well known, it is possible to envisage setting the time directly for said watch, but the time for resetting the time by this principle of the watch can be quite long (a few hours). To do this, so as to know first of all the state of the watch 20, a vision system 50 is used. This vision system 50 is mainly composed of one or more light sources 14, which are for example light-emitting diodes, a dome 16 and at least one camera 15 arranged in the dome 16 in a direction of an axis D of the support 10 carrying the watch 20 to be checked. Preferably, the camera 15 is placed centrally in the top of the dome 16 along the axis D of rotation of the support 10 carrying the watch 20 to be measured in the measurement position. The light source(s) 14 are arranged for annular illumination around the camera 15 to illuminate the watch 20 on the dial side with mainly the time indication hands arranged on the dial. The purpose of the annular illumination 14 with the dome 16 of the vision system 50 is to create no shadows and no reflections to perform the measurement and define the state of the watch.

The vision system 50 is provided to provide measurement signals relating to the state of the watch. These measurement signals are transmitted to a processing unit with a processor in an electronic signal processing circuit, not shown, outside the vision system 50 or disposed in the support 10 of the watch 20, which may also be provided. This makes it possible to identify or determine the displayed time detected from the hands and thus allows automatic adjustment of the time indicated by the watch by special time-setting means outside the vision system. A connection to a power supply voltage of the electronic circuit and of the vision system is necessary, and a power supply provided by the traditional electrical network can be used.

All this is well known, notably defined in the patent EP 3 572 887 B1 which is incorporated here by reference and will not be described in detail in the present invention since the purpose of the present invention is mainly to be able to view the watch from the outside when it is in the position without measurement. This patent EP 3 572 887 B1 describes a device for winding and resetting the time of a mechanical or automatic watch placed on a support in the device. A vision system is used and there may also be a microphone to assess the frequency and rate of the watch in its measurement position, and also the amplitude of the balance spring. A processor processing unit or state control means are provided in an electronic circuit linked directly to the vision system or linked to the support 10 of the watch 20.

The electronic circuit further comprises a control program for all the motorization means or rotary motor unit arranged in the housing 4, 5 for automatic control of the movement of the support 10 of the watch 20 or of the vision system 50 of the position without measuring to the measurement position or from the measurement position to the non-measurement position. In general, the device 1 is only in a measurement position for a few minutes a day, which makes only a large part of the time the watch 20 on the support 10 is in the position without measurement of the device 1 making it possible to easily view the watch practically all the time in a day.

The housing can be made of a metallic or ceramic material or a combination of ceramic and metal, or even of hard plastic. The optical valve 3 or the electronic shutter 3, which is arranged on the first part 4 of the casing, is connected by metal wires to the processing unit of the vision system 50 or in the support 10 of the watch 20. Electronic shutter 3 or optical valve 3 can preferably be arranged on at least one inclined surface of first part 4 of the housing. The surface on which the electronic shutter 3 or the optical valve 3 is arranged is preferably perpendicular to the drive axis D of the support 10 of the watch 20 in the position without measurement. This axis D as shown in Figure 1A of the position without measurement of the device 1, is of course not coaxial with the measurement axis of the vision system 50, when the device 1 is in a measurement position as shown in figure 1B .

The dimension of the electronic shutter 3 or of the optical valve 3 must preferably be larger than the diameter or the dimension of the dial of the exposed watch 20 to allow a good view of said watch 20 for a person P looking at it from the exterior of the casing 4, 5 of the device 1. Preferably, according to the first embodiment of the device 1, the electronic shutter 3 or the optical valve 3 occupies the major portion of the first part 4 of the casing. Provision may even be made for the electronic shutter 3 or the optical valve 3 distributed continuously over a vertical face and over a horizontal face in connection on each side with the inclined face. Under these conditions, the dimension of the electronic shutter 3 or of the optical valve 3 is more than twice the dimension of the visible dimension of the watch 20 in the case.

It is quite clear that the motorization means or the rotary or linear motor unit described above are preferably composed of electric motors, but it is possible to use other motors to perform the expected functions.

The figures 2A and 2B represent a second embodiment of a device 1 for winding or adjusting, and controlling, a watch 20 or a watch movement. This second embodiment differs from the first embodiment mainly by an assembly 30 on which is mounted the watch holder with the support 10 of the watch 20. The motorization means 2 are connected to the support 10 of the watch 20 by an axis D making it possible to rotate the watch 20 continuously on its support 10, if it is a watch 20 with automatic winding.

The watch holder assembly 30 is mounted so as to be movable on an interior base of the second part 5 of the case. Preferably, the watch holder assembly 30 is rotatably mounted on the inner base of the second part 5 of the case. Provision may also be made to fix the watch holder assembly 30 to an inner side of a ball bearing 7, while an outer side of the ball bearing 7 is fixed to the inner base of the second part 5 of the case. . Thus the watch holder assembly 30 can be driven in rotation about a vertical axis of rotation Rv from the inner base by a motor, not shown, which is preferably an electric motor.

The watch holder assembly 30 can therefore easily be driven in rotation from the position without measurement shown in figure 2A at the measurement position in the vision system shown in figure 2B . As for the first embodiment, once the watch 20 is on its support 10. The electronic shutter 3 or the optical valve 3 is activated to be transparent in the position without measurement of the watch holder assembly 30, while in the measurement position of the watch holder assembly 30, the electronic shutter 3 or the optical valve 3 is deactivated to be in an opaque state so as not to disturb the measurement in the vision system 50.

The arrangement of the electronic shutter 3 or of the optical valve 3 is similar to what has been described in the first embodiment above. However, the first part 4 of the casing may have a larger dimension corresponding to approximately half of the total dimension of the casing and therefore corresponds approximately to the dimension of the second part 5 of the casing. In this case, the first part 4 of the case can be rotatably mounted by hinges or joints on the second part 5 of the case to be in an open position for mounting the watch 20 on the support 10 or a position sealing with the first part 4 closing the second part 5 of the housing.

The figures 3A and 3B represent a third embodiment of a device 1 for winding or adjusting, and controlling, a mechanical watch 20 or a watch movement. This third embodiment differs from the first and second embodiments mainly in that the watch holder with the support 10 of the watch 20 connected by an axis D to the motorization means 2 does not move from the so-called position without measurement at the so-called measurement position. Under these conditions, it is an assembly 40 with a vision system 50 which is rotatably mounted along a vertical axis Rp in the casing and mainly located in the first part 4 of the casing. The assembly 40 with the vision system 50 comprises at its base at least one circular portion 41 toothed at the periphery, which is capable of being driven in rotation by a toothed wheel 42 connected to an electric drive motor, not shown.

The assembly 40 with the vision system 50 must be provided to move the vision system 50 from a first position corresponding to the position without measurement of the device to a second position corresponding to the measurement position. In the position without measurement, the vision system 50 is opposite the portion of the first part 4 of the housing where the electronic shutter 3 or the optical valve 3 is located, which is activated to be transparent as shown in Figure 3A . On the other hand, in the measurement position, the vision system 50 is turned so that it faces the electronic shutter 3 or the optical valve 3, which in this case is rendered opaque.

The housing may be the same as that described in the second embodiment. The electronic shutter 3 or the optical valve 3 can be arranged partly on or through an inclined face of the first part 4 of the casing and have other portions connected by electric wires arranged on a vertical face and a horizontal face the first part 4 of the case.

Regarding the electronic shutter 3 or the optical valve 3, the embodiment described in the Swiss patent application CH 712 212 A2 can be used. This Swiss patent application mainly describes an optical device composed of two liquid crystal cells superimposed and controlled in such a way as to pass from a transparent state to an opaque state, and vice versa. In any event, the production of both the electronic shutter and the optical valve to have these two transparent and opaque states are well known in the state of the art and can be controlled or controlled by the electronic circuit described above.

It should be noted that it has mainly been described a displacement by a rotary movement from a position without measurement to a measurement position either of the watch holder or of an assembly comprising it, or of an assembly with a vision system . But it can also be envisaged to pass from the non-measurement position to the measurement position or vice versa, to have a linear movement of the watch holder or of the vision system assembly, but this certainly complicates its realization.

From the description which has just been made in relation to the device for winding or adjusting, and or controlling a mechanical or electromechanical watch, or a mechanical watch movement, multiple embodiments of the device can be made without departing of the scope of the invention defined by the claims.

Claims (11)

Device (1) for winding or adjusting, and controlling a mechanical or electromechanical watch (20), or a horological movement, the device comprising a case composed of a first part (4) and a second part (5) fixed or held together to close the case, the case enclosing in an interior space a support (10) for receiving at least one watch (20) and at least one vision system (50) for perform a measurement of the state of the watch or of the watch movement so as to reset the time of the watch or the watch movement following the processing, outside the vision system (50), in an electronic circuit of the measurement signals coming from the vision system (50), the vision system (50) comprising one or more light sources (14) to illuminate the watch (20) on its support (10), a dome (16) and at least one camera ( 15) arranged in the dome (16) in a direction of an axis (D) of the support (10) carrying the watch to be checked,
characterized in that the support (10) of the watch (20) or the vision system (50) is arranged in such a way as to be moved automatically by a drive means in the case from a position without measurement to a position of measurement of the watch or from a measurement position of the watch to a non-measurement position, in the non-measurement position of the device (1), a watch (20) or a watch movement placed on the support (10) can be seen from outside the case through an electronic shutter (3) activated or an optical valve (3) activated to be in a transparent state, while in a measurement position the electronic shutter (3) is deactivated or the valve optic (3) is deactivated to be in an opaque state, the electronic shutter (3) or the optical valve (3) being arranged on or through at least one face of the first part (4) of the housing, and controlled by the electronic circuit in the case. Device (1) for winding or adjusting and checking a mechanical watch (20) with automatic winding according to claim 1, characterized in that means of motorization (2) are connected by an axis (D) to the support (10) of the watch (20) defining a watch holder so as to be able to drive it in rotation at least in the position without measurement . Device (1) for winding or adjusting and checking a watch (20) according to Claim 1, characterized in that the electronic shutter (3) or the optical valve (3) is placed on or through at least an inclined face of the first part (4) of the casing, which is of generally rectangular parallelepiped shape. Device (1) for winding or adjusting and checking a watch (20) according to Claim 3, characterized in that the electronic shutter (3) or the optical valve (3) is arranged partly on a vertical face and on a horizontal face in connection on each side with the inclined face of the first part (4) of the casing. Device (1) for winding or adjusting and checking a watch (20) according to claim 4, characterized in that the electronic shutter (3) or the optical valve (3) is composed of three parts arranged respectively on the vertical face, the inclined face and the horizontal face of the first part (4) of the casing, the three parts of the electronic shutter (3) or of the optical valve (3) being electrically connected to each other and the electronic circuitry in the housing. Device (1) for winding or adjusting and checking a watch (20) according to claim 1, characterized in that the support (10) for the watch (20) is arranged to be moved from the position without measurement to the measurement position or from the measurement position to the non-measurement position by a rotary motor unit mounted on a support plate (6) and controlled by the electronic circuit in the housing, allowing the support (10) to be rotated along an axis of rotation (R) perpendicular to the axis (D) of the support (10), in the measurement position, the axis (D) of the support (10) being coaxial with the axis of the dome (16) with the camera (15) of the vision system (50). Device (1) for winding or adjusting and checking a watch (20) according to Claim 2, characterized in that the watch holder is arranged to be moved from the position without measurement to the position of measurement or from measurement position to the non-measurement position by a rotary motor unit mounted on a support plate (6) and controlled by the electronic circuit in the case, allowing the watch holder to be rotated along an axis of rotation (R) perpendicular to the axis (D) of the watch holder, in the measurement position, the axis (D) of the support (10) being coaxial with the axis of the dome (16) with the camera (15) of the vision system ( 50), the axis of rotation (R) being arranged close to the drive means (2). Device (1) for winding or adjusting and checking a watch (20) according to one of Claims 1 and 2, characterized in that an assembly (30) comprising at least the support (10) for the watch ( 20) or the watch holder with the motorization means (2), is movably mounted on an interior base of the second part (5) of the case, the assembly (30) being rotatably mounted on the interior base along the vertical axis of rotation (Rv) to go from the non-measurement position to the measurement position and vice versa. Device (1) for winding or adjusting and checking a watch (20) according to claim 8, characterized in that the watch holder assembly (30) is rotatably mounted on the inner base of the second part (5 ) of the housing via a ball bearing (7). Device (1) for winding or adjusting and checking a watch (20) according to claim 1, characterized in that an assembly (40) comprising at least the vision system (50) is rotatably mounted according to a vertical axis (Rp) in the housing and mainly located in the first part (4) of the housing. Device (1) for winding or adjusting and checking a watch (20) for which the watch holder or the support (10) for the watch (20) does not move from the so-called position without measurement to the so-called measurement according to Claim 10, characterized in that the assembly (40) with the vision system (50) comprises at its base at least one circular portion (41) toothed at the periphery capable of being driven in rotation by a toothed wheel ( 42) connected to an electric drive motor so as to move the assembly (40) with the vision system (50) in rotation from the measurement position to the position without measurement and vice versa, in the measurement position, the system vision (50) is placed above the support (10) watch (20) coaxially to the axis of the support.

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