CH707406A2 - Solar electric winder for automatic watch, has support rotated only when winder is lit in one mode of operating processes, and drive program of support is booted at hour selected beforehand using command interface in another mode - Google Patents

Abstract

The winder (1) has a turning support (7), and a battery (15) that is arranged to supply a motor (9) or driving module. A high-output solar cell (13) charges the battery. A microcontroller (19) controls the motor. A photodiode (21) is connected to the microcontroller that is controlled by a user so as to be provided selectively in a set of operating processes. The support is rotated only when the winder is lit in one mode of the operating processes, and a drive program of the support is booted at an hour selected beforehand using an application command interface (23) in another mode.

Description

FIELD OF THE INVENTION

The present invention relates to an electric winder for automatic watch, the winder comprising an electric motor, a battery arranged to power the motor, a solar cell arranged to charge the battery, an internal clock, electronic means for controlling the motor , and a control interface of the electronic means by a user. The present invention relates more particularly to such a winding adapted to also serve as a display for the automatic watch.

PRIOR ART

[0002] Electric winders are already known. These winders are devices that can be used to prevent an automatic watch from stopping when it is not worn for a certain period of time. The automatic watches are equipped with a mechanism that automatically raises the mainspring by using the movements of the arm of the wearer of the watch as a driving force. When an automatic watch is worn, the movements rotate or oscillate a steering wheel provided for this purpose inside the watch. The steering wheel itself is designed to transmit the energy that drives it to a train that arms the mainspring. It will be understood that an automatic watch that remains motionless does not go up.

A place where a watch is particularly likely to remain a long time immobile, is the window of a dealer. Indeed, it is not uncommon for a large number of watches to be statically exposed in the windows of watch shops. The use of electric winders is particularly advantageous in such an environment. The patent document EP 2 481 322 describes an electric winding adapted to also serve as a display for a watch in the window of a dealer. The electric winding device described in this prior document is formed of a base on which stand two uprights which carry a support element intended to carry a watch. The support member is pivotally mounted between the uprights, and an electric motor installed in the base rotates the support member through a belt. According to the aforementioned earlier document, the rotation of the support element makes it possible to offer viewers a dynamic presentation of an automatic watch, while reassembling it. Finally, it should be noted that the energy necessary for the operation of this electric winding device of the prior art can be provided either via the current of the electrical network or from solar cells arranged on the surface of the base.

The winder that has just been described has some disadvantages. In particular, the document explains that the movement of the support member is intended to be permanent. In this respect, it is known that an electric winder is not likely to go up a watch beyond the maximum tension of the spring. Indeed, the motor spring of an automatic watch is normally provided with a sliding flange. The latter is arranged to allow the spring to arm normally, but to slide against the walls of the drum as soon as the tension of the spring reaches a certain limit. In any case, permanent winding as described in the above mentioned document is contraindicated. Indeed, such a reassembly has the disadvantage of causing accelerated wear of the winding mechanism. On the other hand, lovers of beautiful watches often prefer to examine a statically exposed timepiece.

BRIEF DESCRIPTION OF THE INVENTION

An object of the present invention is to overcome the disadvantages of the prior art just mentioned by providing an electric winder for automatic watch powered by a solar cell, and suitable to simultaneously perform the winding function and that static display during the opening hours of a store. The present invention achieves this goal by providing an automatic watch winder according to the appended claim 1.

BRIEF DESCRIPTION OF THE FIGURES

Other features and advantages of the present invention will appear on reading the description which follows, given solely by way of non-limiting example, and with reference to the accompanying drawings in which: <tb> fig. 1 <SEP> is a schematic sectional view of a solar electric winding according to a particular embodiment of the present invention; <tb> fig. 2 <SEP> is a partial view from above showing the control interface of the electric winding device of FIG. 1.

DETAILED DESCRIPTION OF AN EMBODIMENT

[0007] FIG. 1 is a schematic sectional view of a solar electric winding (generally designated by the reference 1) according to the present invention. As can be seen, the winding 1 comprises a base 3 which carries an inclined arm 5 which terminates in a removable rotating support 7. Inside the arm is housed a motor module 9 comprising an electric motor and a reduction gear ( not referenced). The rotating support 7 is coupled to the motor module 9 via a silicone tube 11 having at its ends openings in which are inserted frictionally the axes of the motor module and the rotating support.

The arm 5 is fixed on the base 3. A number of elements of the winding 1 are housed in two cavities arranged in the thickness of the base. A first cavity (not referenced) serves as housing for a photovoltaic cell 13 and a battery 15. A second cavity (not referenced) contains a voltage boost circuit 17, a clock microcontroller 19 and a light sensor 21 constituted in the present example by a photodiode.

The collective operation of the various elements that have just been described is governed by the microcontroller 19. First, in the present example, the photovoltaic cell 13 is a solar cell Sunpower <©> high efficiency. The voltage supplied by the cell is around 0.4 volts and depends on the light intensity as well as the current output. A voltage booster circuit 17 is placed at the output of the solar cell. The function of the voltage booster 17 is to transform the electrical power supplied at very low voltage by the solar cell into a voltage slightly greater than 3 volts, so that it is compatible both with the accumulator 15, the microcontroller 19 and the motor module 9.

The microcontroller 19 is further connected to a control interface 23 which is shown in more detail in FIG. 2. In the illustrated example, the control interface comprises a matrix LCD display 29 and four touch keys 31a, 31b, 31c and 31d. The LCD display and the touch keys are integrated together in a transparent screen which closes the first cavity of the base 3. As long as it is not activated, the control interface 23 is perfectly transparent. The ambient light can therefore reach the solar cell 13 without hindrance. According to the embodiment which is the subject of this example, the microcontroller 19 is arranged to selectively execute one or the other of a plurality of programs corresponding to as many modes of operation. The touch keys 31a, 31b, 31c and 31d in particular allow a user to select the desired operating mode.

A first of the operating modes that can be selected is a mode in which the rotating support is driven only when the winding is illuminated. The microcontroller 19 is connected to a photodiode 21, and to determine if the winding is illuminated, the microcontroller regularly controls the behavior of the photodiode to determine if the intensity of the ambient light exceeds a predefined threshold. By way of example, this first mode of operation may comprise the following steps: as soon as the microcontroller determines that the illumination is sufficient, it rotates the motor module 9 at the speed of two revolutions per minute, as long as the intensity of light does not fall below the predefined threshold. In the case where the light intensity does not weaken, after 12 hours, the engine module will have completed 1440 turns to the rotating support 7. At this time, the microcontroller interrupts the reassembly and goes to sleep for the next 12 hours . At the end of the 12 hours of sleep, the microcontroller goes to sleep again, ready to restart its program as soon as the lighting is sufficient.

Recall that an object of the present invention is to provide a solar electric winding suitable for simultaneously perform the functions of winding and static display during the opening hours of a store. For this purpose, a second of the selectable operating modes is a mode in which a drive program of the rotating support 7 is started at a previously selected time using the control interface 23. Indeed, once the second mode of operation has been selected, the user can modify the values of certain parameters of the winding program using the control interface 23. These parameters include in particular the time at which the program drive of the rotating support (7) must start. In the present example, the user first uses the touch keys 31a and 31b (FIG 2) to choose the parameter to be adjusted. Then, it uses the touch keys 31c and 31d to change the value of this parameter.

It will be understood in particular that by selecting the starting time of the training program of the rotating support so that the program takes place entirely outside the opening hours of the store, it is possible to use the winding as static display during all the hours of opening. Note that the presence of the accumulator 15 allows the execution of a complete program of winding even at night, in the absence of any illumination of the photovoltaic cell 13.

Preferably, the second mode of operation above makes it possible to use the control interface not only to choose the start time of the training program, but also to define a certain number of parameters of this program. . It is easy to understand that a parameter, which is particularly advantageous to be able to define case by case, is the duration of the winding program. Alternatively, instead of defining the winding time, it is possible to define in an equivalent manner the number of revolutions that the rotating support 7 must make during the winding program.

The duration or the number of turns made during the winding program depends on the model of the automatic watch that you want to go back. Thus, a preferred variant of the present invention provides that a user can enter an indication of the model of the watch into the control interface 23. Thus, by simply indicating to the electronic means 19 the model of the watch which is fixed on the rotating support 7, the electronic means are allowed to determine the duration or the number of revolutions to be made by the rotating support. According to a possible variant, the indication of the model of the watch can be effected by entering a corresponding code in the control interface 23. According to this latter variant, the electric winding comprises a non-volatile memory associated with the microcontroller 19. This memory contains a table of correspondences corresponding to each model of shows an identification code on the one hand, and a number of turns or a period of reassembly on the other hand. Thus, a user can program the number of revolutions or the reassembly time by simply introducing the identification code of a watch model in the control interface 23. Those skilled in the art will furthermore understand that, according to another Alternatively, the manual entry of the model indication of the watch could be replaced by a semi-automated entry of this indication. Indeed, the control interface 23 could comprise for example a barcode reading device or RFID. Under these conditions, if the watch, or rather its packaging, contained an RFID chip or an identification barcode, the user would simply have to approach this identification of the reading device to enter the indication of the model of the shows in electronic means 19.

Another winding parameter may be selected by the user of the winder by means of the control interface (23) could be the direction of reassembly. This parameter could, for example, selectively take one of the three values: "clockwise rotation", "counterclockwise rotation", and "alternating winding" (the latter option would for example be implemented in the form of a sequence 10 minutes of winding in one direction, then 10 minutes in the other, and so on).

According to yet another advantageous variant of the invention, the winding can have the characteristic of stopping the rotation of the rotating support 7 at the end of the program in a well-defined angular position. This last feature allows in particular to provide a winder with which the watch is always in a vertical position when the winding program ends. To obtain the stop rotation in a specific angular position, a solar electric winding according to the latter variant comprises means for detecting at least one angular position of the rotating support 7. These detecting means may comprise for example a permanent magnet 25 crimped into the wall of the silicone tube 11, and a reed switch 27 connected to the microcontroller 19 and disposed within the arm 5 facing the circular path of the magnet 25. The force of the magnet and the sensitivity of the contactor are chosen so that the switch 27 briefly closes when the magnet 25 passes in front of him and remains open the rest of the time. It will be understood on the other hand that the means for detecting at least one angular position of the rotating support may not be magnetic. Indeed, these detection means could equally well include for example a photodiode and a light source.

It will further be understood that various modifications and / or improvements obvious to a person skilled in the art can be made to the embodiment which is the subject of the present description without departing from the scope of the present invention defined by the appended claims. In particular, the light detector connected to the electronic means according to the invention could be constituted by the photovoltaic cell 13 connected to the microcontroller 19. In this case, it is the existence, or not, of a voltage exceeding a certain threshold. between the terminals of the photovoltaic cell that would be used to determine if the winder is illuminated.

On the other hand, the electric winding could also be equipped with means for detecting the presence of a watch on the rotating support 7. The latter means would be connected to the electronic means, and keep the power winder dormant as long as no watch placed on the rotating support. Thus the rotating support would be driven only when a watch is on the rotating support. This feature would avoid wasting energy by running the motor unnecessarily. The means for detecting the presence of a watch on the rotating support could comprise, for example, an optical sensor or a pressure sensor.

Claims (6)

Electric winder (1) for an automatic watch comprising: a rotating support (7), a motor (9) arranged to drive the rotating support, an accumulator (15) arranged to supply the motor, a solar cell (13) arranged to charge the accumulator, an internal clock, electronic means (19) for controlling the motor, and an interface (23) for controlling electronic means by a user; characterized in that the winding includes a light detector (21) connected to the electronic means (19), and in that the electronic means are connected to the internal clock and are arranged to be controlled by the user to selectively find themselves in one or the other of a plurality of operating modes, said plurality of modes of operation including a first mode in which the rotating support is driven only when the winding is illuminated and a second mode in which a program of rotating media drive is started at a previously selected time using the command interface. 2. An electric winder according to claim 1, characterized in that the interface (23) for controlling the electronic means (19) by a user comprises a matrix LCD display (29) and a plurality of touch keys (31a, 31b, 31c , 31 d). The LCD display and the touch keys being integrated together in a transparent screen, and in that the solar cell (13) is arranged in a housing provided inside the electric winder, the housing being closed by the transparent screen. Electric winder according to claim 1 or 2, characterized in that it is arranged in such a way that, when the user has controlled the electronic means (19) so that they are in the second mode of operation, the the user can define a start time of the rotating support drive program (7), and in that the control interface (23) is arranged to allow input of an indication representative of the number of turns to be performed by the rotating support during the training program of the rotating support. 4. Electric winder according to claim 3, characterized in that the electronic means (19) comprise a non-volatile memory in which is recorded a correspondence table containing identification codes for different models of automatic watches and corresponding to each. said identification codes a number of laps to be performed or a duration of the training program rotating support (7), and in that the representative indication of the number of laps to be performed by the rotating support during the program is consisting of an identification code specific to a model of automatic watches. Electric winder according to claim 4, characterized in that the control interface (23) comprises a bar code reading device or RFID, and in that the watch to be mounted is stored with a bar code or a RFID chip containing the identification code of the watch model to be reassembled, the bar code reading device or RFID being arranged to read the barcode or the RFID chip stored with the watch to go up. 6. Electric winder according to one of the preceding claims, characterized in that it comprises detection means (25, 27) of at least one angular position of the rotating support (7).