CH713009A2 - Watch comprising a transmission device between a control member and the movement. - Google Patents

Abstract

The invention relates to a watch comprising a box having a middle part (1) and in which is housed a movement (2). The watch also comprises a control member (3) intended to be actuated by a user as well as an internal transmission device provided with an actuator (9) able to move, in response to the actuation of the actuator member. control (3), between a rest position and an active position in which it activates a mechanism (8) of the movement. In an original way, the transmission device comprises a closed cavity (4, 5, 6) filled with a fluid and a thrust means (7) kinematically connected to the control member (3) and arranged to move the fluid in the cavity, the displacement of the fluid in the cavity causing the displacement of the actuator (9).

Description

Description: [0001] The present invention relates to the field of watchmaking. It relates to a watch which has a movement and which has a transmission device between an external control member and a movement mechanism.

In most watches, the mechanisms of movement are placed vis-à-vis the pushers that operate so that the architecture of the movements and the arrangement of the external control members are directly related. The difficulty of designing a movement and adding additional functions is the cause of some similarities in the many horological achievements. Conventionally, the push buttons operating a chronograph are for example very often located at two and four hours, on either side of the control rod. A watch is already known in which the control pushers are not located opposite the mechanisms they actuate in the movement of which we find an example in the application EP 1 553 468. This watch comprises a complex system of transmission composed of rods and flip-flops mounted between the movement and the middle part which allows to position the two push buttons operating the chronograph opposite side to the control rod while maintaining a conventional movement. However, this type of mechanism has several disadvantages: it is complex to design, expensive to manufacture, bulky, heavy and the additional friction it causes increase the effort required for the actuation of the control pushers.

It is also known that the pushers that actuate the mechanisms of a watch may have a certain hardness that will be felt differently depending on the users. One solution to make their job more comfortable without having to change the movement is to add to the outside of the box a lever acting on the pusher. This device reduces the force required to actuate the mechanism substantially in the proportion of the increase in the stroke of the control. This type of arrangement, however, has the disadvantages of changing the aesthetics of the watch, increase its size and complicate the manufacture.

The present invention aims to overcome the aforementioned drawbacks of the prior art by proposing a new type of control device for watches and to offer new aesthetic and technical possibilities to designers of watches and movements.

For this purpose, the invention relates to a watch comprising a box having a middle part in which is housed a movement. The watch also comprises a control member intended to be actuated by a user as well as an internal transmission device provided with an actuator able to move, in response to the actuation of the control member, between a position of rest and an active position in which it activates a movement mechanism. In an original way, the transmission device comprises a closed cavity filled with a fluid and a thrust means kinematically connected to the control member and arranged to move the fluid in the cavity, the displacement of the fluid in the cavity causing the displacement of the actuator.

Such a construction has the advantage of decorrelating the position of the control member of the mechanism that operates in the movement. This allows placing the controls at the desired locations on the box according to only aesthetic and ergonomic criteria but also to design movements without being constrained by these same criteria.

Other features and advantages of the invention will appear on reading the description of exemplary embodiments, given by way of illustration and not limitation, with reference to the accompanying drawings in which: FIG. 1 shows a first embodiment of a watch according to the invention, FIG. 2 shows an alternative embodiment of the first embodiment, FIGS. 3 and 4 show detail views of alternative embodiments of a second embodiment.

FIG. 1 shows a first embodiment of a watch according to the invention of which only appear the details useful for understanding the technical problem. This watch comprises a box whose caseband 1 is shown in section and a movement 2 located in the center of the caseband 1. A control member intended to be actuated by a user appears in the form of a pushbutton 3 s' extending outside the caseband 1. An internal transmission device is housed in the caseband 1. This device comprises a closed cavity filled with a preferably incompressible fluid. The cavity comprises a hose 4 whose first end opens into a control piston chamber 5 and whose second end opens into an actuator piston chamber 6. The transmission device further comprises a thrust means capable of displacing the piston. fluid in the cavity. In the embodiment shown, the thrusting means is a control piston 7 kinematically connected to the pusher 3 and opening into the cavity at the level of the control piston chamber 5. The actuation of the pusher 3 causes the piston of the piston to move. control 7 in the control chamber 5 and the displacement of the fluid in the cavity. The transmission device further comprises an actuator disposed inside the middle part vis-à-vis a mechanism 8 of the movement that it is intended to activate by moving from a rest position to an active position . The actuator comprises an actuator piston 9 opening into the actuator piston chamber 6 and arranged to move and actuate the mechanism under the effect of the thrust of the fluid. The hose 4 is housed for example in a groove 10 formed in the inner face of the caseband 1.

The transmission device is reversible, that is to say that a return force exerted by the mechanism 8 on the actuator, tending to bring it back to its rest position, causes the piston to move. actuator 9, the recoil of the fluid in the cavity and pushes the control piston 7 and the pusher 3 in their original position once the latter released. The transmission device may also comprise additional return means, independently of the mechanism of the movement. This return means may take the form of a spring acting for example at the control member or the actuator.

According to an alternative embodiment shown in FIG. 2, the hose 4 connecting the chamber of the control piston 5 to that 6 of the actuator can be formed directly in the middle part 1 or by means of machining or engraving or selective etching such as that described in the application of EP Patent No. 2,795,410 incorporated herein by reference, either by a three-dimensional printing technique or by the assembly of two separately machined parts and forming a duct once assembled. The method of manufacturing by three-dimensional printing makes it possible, in the mass of the caseband 1, a complex network of conduits and housings for receiving actuators and control members. In this embodiment, the cavity is at least partially made in the mass of the caseband 1. This provides great ease and many possibilities of development where the solution provided by the prior art was inflexible. Advantageously, the transmission of force by a fluid can be performed almost without friction and without the need for lubrication.

According to other variants of embodiments of the invention shown in Figs. 3 and 4, the transmission device comprises a transmission module 11 filled with a preferably incompressible fluid. This module forms a closed cavity composed of a hose 4 connecting two deformable parts 13. In the example of FIG. 3 the deformable parts are bellows, in fig. 4 It is about pockets able to turn like a sock. The walls of the deformable parts 13 are made of a flexible material such as for example silicone. The deformation of the deformable parts 13 is reversible and can be obtained either by the displacement of the fluid in the cavity or by the displacement of a wall 14 of the deformable part 13. The volume of the fluid in the cavity remains constant, so that the Increasing the volume of a deformable part 13 corresponds to the decrease in the volume of the other deformable part 13. The deformable part can be deformed by a rod 15 integral with the control member. An actuator rod 16 activates the mechanism 8 of the movement. In this embodiment, the thrust means is a deformable portion 13 of the cavity and the actuator also comprises a deformable portion 13 of the cavity. According to another configuration not shown, a wall 14 of the cavity is accessible outside the watch, flush or slightly prominent. The user can directly exert pressure on the wall 14 accessible to move the fluid in the cavity and actuate the mechanism. The wall 14 of the cavity is in this case directly the control member.

[0012] It is also possible to use metal membranes that can be deformed under the pressure of the control member, and which take their place by spring effect once the stress is released.

Whether by a piston system moving in the cavity or a deformable system, it is the displacement of a first wall of the cavity kinematically connected to the control member which causes the displacement of the fluid in the cavity. In the case of a piston, the moving wall is located directly on the piston. Similarly, the displacement of the fluid in the cavity causes the displacement of a second wall of the cavity kinematically connected to the actuator. Thus the first and second walls of the cavity are kinematically connected to each other and the control member is kinematically connected to the actuator. It is of course possible to combine all types of thrust means or actuator between them they are piston or deformable.

Advantageously with respect to a direct transmission system in which a push button acts directly on the mechanism of movement according to a given stroke and force, the transmission device according to the invention makes it possible to vary the effort of trigger and stroke regardless of the mechanism. It suffices to adapt the ratio between the fluid sections displaced at the thrust means and the actuator. In a transmission device using pistons, this amounts to choosing control pistons 7 and actuator 9 of different diameter. It is for example possible to reduce the force to be applied on the control member relative to that required to activate the mechanism, increasing its stroke. In the same way, it is possible to obtain a longer actuator stroke by increasing the force to be provided on the control member.

The presented solutions allow to arrange the movement mechanisms and the control members independently. This leaves a great freedom to the motion designer who can consider new architectures without having to worry about constraints related to the aesthetics of the watch or the ergonomics of its controls. In the embodiments shown, the actuators have been placed in the middle part of the body so as to activate the movement mechanisms in a radial direction with reference to the center of the movement. It is obvious that the actuators could be arranged differently and exert effort in any direction. The actuators could also be placed in other places of the box, on the bottom or directly in the movement closer to the mechanisms they operate. The hose for transmitting the thrust force of the control member to the actuator could travel to the surface or inside the component parts of the box, or the movement, such as the bottom, the container or the plate, or be directly dug into these parts by means of rapid prototyping, machining

Claims (17)

or etching for example chemical. The great freedom of positioning and orientation of the actuators simplifies the design of movements. Advantageously, the movements of the actuators are linear and their stroke can easily be adapted to the needs of the mechanism, which makes it possible to dispense with certain transmission latches or to reduce their size. The space thus released can be used to integrate additional complications or functions or to reduce the volume of the watch. Alternatively this also offers new possibilities for the designer to arrange the controls on the watch. The pushers can thus be placed in unusual places out of the plane of movement, inclined, close to each other, on the top of the box, on the horns or the bracelet or on the clasp, etc. According to a variant of the invention, the telescope may constitute a discrete control member by rotation. To this end, a cam located on an inner face of the bezel allows, according to its angular position, to actuate one or more thrust means acting as a cam follower. The ability to vary the triggering force of the control members also makes it possible to use, for the same mechanism, pushers of different sizes for which the pressure felt by the user, that is to say the applied force divided by the surface of the pusher, will be substantially identical. Alternatively, it is easy to adapt the hardness of a command according to the wishes of a user by modifying the transmission device without having to change the movement or the pushers. Advantageously, the transmission device of the present invention provides a non-linear function between the displacement of the control member and that of the actuator. Such a result can be obtained by using a deformable part 13 which, instead of being cylindrical as in FIGS. 3 and 4, would have a variable section such as a sphere, a cone or any other form of revolution of variable section. In the case where a mechanism has in its activation stroke a hard point or, conversely, a portion of lesser resistance, the use of appropriate profiles makes it possible to erase this type of disparities by smoothing the curve of the effort felt at level of the control member. This particular arrangement makes it possible to improve the ergonomics of the control members and the quality perceived by the users. Advantageously, the transmission device may comprise a control device adapted to adjust the activation threshold of the mechanism by the actuator in response to the actuation of the control member. The adjustment device may, for example, be designed to finely adjust the length of the piston of the control member or the actuator. It can also be located at the level of the cavity or section of the hose in which it can be provided that a deformable zone is more or less compressed by the displacement of a screw, an eccentric or any other equivalent device which will have the effect of slightly moving the actuator in one direction or the other. It is common that different functions are activated synchronously in a watch, for example the functions of disengagement and braking in a chronograph mechanism. According to a particular embodiment of the invention, the watch may comprise a plurality of actuators, arranged in parallel at two ends of the same cavity and able to move in a synchronized manner in response to the displacement of the same organ. ordered. Thus the watch according to the invention provides the designer with a simple solution for solving synchronization problems within the movements. It is thus proposed a watch incorporating an original transmission device that offers many new possibilities for the design of movements and watches and which also improves the ergonomics of the controls. claims 1. Watch comprising a box having a middle part (1) and in which is housed a movement (2), the watch comprising a control member intended to be actuated by a user, the watch further comprising an internal transmission device provided with an actuator adapted to move, in response to the actuation of the control member, between a rest position and an active position in which it activates a mechanism (8) of the movement, characterized in that the transmission device comprises a closed cavity filled with a fluid and a thrust means kinematically connected to the control member and arranged to move the fluid in the cavity and in that the displacement of the fluid in the cavity causes the displacement of the actuator. 2. Watch according to the preceding claim characterized in that the thrust means is a control piston (7). 3. Watch according to one of the preceding claims characterized in that the actuator comprises an actuator piston (9). 4. Watch according to one of the preceding claims characterized in that the cavity comprises a deformable portion (13) arranged to deform reversibly. 5. Watch according to the preceding claim characterized in that the thrust means is a deformable portion (13) of the cavity. 6. Watch according to one of claims 4 or 5 characterized in that the actuator comprises a deformable portion (13) of the cavity. 7. Watch according to one of claims 4 to 6 characterized in that the deformable portion (13) has a variable section. 8. Watch according to one of claims 4 to 7 characterized in that the control member is a wall (14) of the cavity. 9. Watch according to one of the preceding claims characterized in that it comprises a plurality of actuators adapted to move synchronously in response to the movement of the same control member. 10. Watch according to one of the preceding claims characterized in that it comprises a biasing means tending to bring the actuator back to its rest position. 11. Watch according to one of the preceding claims characterized in that the control member is located outside the plane of movement. 12. Watch according to one of the preceding claims characterized in that it comprises a bezel and in that the bezel constitutes a control member. 13. Watch according to one of the preceding claims characterized in that it comprises a control device adapted to adjust the activation threshold of the mechanism (8) by the actuator in response to the actuation of the control member . 14. Watch according to one of the preceding claims characterized in that the cavity is at least partially made in the mass of the middle part (1). 15. Watch according to one of claims 1 to 14, equipped with a bracelet characterized in that the control member is offset on the bracelet. 16. Watch according to one of claims 1 to 14, equipped with a bracelet with a clasp characterized in that the control member is offset on the bracelet clasp. 17. Watch according to one of the preceding claims characterized in that the fluid filling the cavity is incompressible.