WATCH COMPRISING A MAGNETIC CLAMPING DEVICE

Abstract

A watch including a case containing a plate and an electronic module powered by a button cell battery, a conductor electrically connecting the button cell battery to the electronic module and a clamping device capable of ensuring an electrical connection between the button cell battery and the conductor, wherein the clamping device includes a magnet.

Claims

1. A watch comprising a case containing a plate and an electronic module powered by a battery, a conductor electrically connecting the battery to the electronic module and a clamping device capable of ensuring an electrical connection between the battery and the conductor, wherein the clamping device includes a magnet, said magnet ensuring electrical conduction between the magnet and the conductor.

2. The method according to claim 1, wherein the conductor is flexible.

3. The method according to claim 2, wherein the conductor is a flat cable.

4. The watch according to claim 1, wherein the conductor is fixed to the magnet.

5. The watch according to claim 1, wherein the conductor is placed between the magnet and the battery.

6. The watch according to claim 4, wherein the magnet is placed between the conductor and the battery.

7. The watch according to claim 1, wherein the magnet includes a conductive surface.

8. The watch according to claim 7, wherein the magnet is made of a conductive material.

9. The watch according to claim 6, wherein the magnet is gold plated.

10. The watch according to claim 1, wherein the conductor is electrically insulated.

11. The watch according to claim 1, wherein the magnet is a magnetic strip whose length is at least five times its thickness.

12. The watch according to claim 1, wherein the watch includes an O-ring joint arranged to hold the battery.

13. The watch according to claim 12, wherein the magnet of the clamping device is integral with a fixed part of the watch.

14. The watch according to claim 1, wherein the magnet is fixed to the plate.

15. The watch according to claim 1, wherein the magnet is fixed to the case middle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] Other features and advantages of the invention will appear upon reading the description of example embodiments, given by way of non-limiting illustration, with reference to the annexed drawings, in which:

[0008] FIG. 1 is a perspective bottom view of a movement of a watch according to the invention,

[0009] FIGS. 2 to 4 represent cross-sectional views of several variants of a watch according to the invention.

DETAILED DESCRIPTION

[0010] An electronic movement or an electronic module of a watch is represented in FIG. 1 which shows a plate 2 in which is arranged a recess 5, of cylindrical shape, housing a button cell battery 4 intended to power an electronic module 3, conventionally a printed circuit board. A notch 14 facilitates the removal of the battery from its housing. An electrical conductor 6 taking the form of a flat flexible cable is intended to electrically connect electronic module 3 to a pole of battery 4. A first end 6a of conductor 6 is connected to electronic module 3, typically using a connector or a solder. A second end 6b of conductor 6 has a visible conductive surface that comes into contact with a wall 4a of battery 4. The connection to the second pole of battery 4 is not represented. A clamping device taking the form of a magnet 10 is positioned on connector end 6b, opposite wall 4a of battery 4 which is made of a ferromagnetic material. The magnetizing force between magnet 10 and wall 4a allows end 6b of connector 6 to be pressed and held against wall 4a of battery 4.

[0011] FIG. 2 shows a schematic cross-sectional view of a watch according to the invention in which only details useful for understanding the invention appear. This watch includes a case 1 whose middle part and crystal are represented, in addition to a movement located inside case 1. An electronic module 3 is mounted on a plate 2. The latter is powered by a button cell battery 4 located inside a recess 5 in the plate. Electrical conductors 6, 7 connect the two terminals of battery 4 to electronic module 3.

[0012] According to a particular embodiment of the invention, battery 4 is held in place inside recess 5 by means of an O-ring joint 8, placed in a groove arranged in the wall of recess 5. It is evident that any other fixing means could be used for holding the battery, such as, for example, deformable elastic means.

[0013] According to a first variant embodiment corresponding to the configuration presented in FIG. 1, one end 6b of a conductor 6 is clamped between a magnet 10 and battery 4. End 6b has a visible conductive path, preferably, gold-plated, which is held in contact with battery 4 by the pressure exerted by magnet 10. The conductor is a flat flexible FFC cable but could also be a wire or a metal clamp. To facilitate assembly and remove the risk of end 6b of conductor 6 being incorrectly positioned or moving under magnet 10, magnet 10 may be fixed to end 6b by any means, such as soldering or adhesive bonding.

[0014] According to a second variant embodiment, one end 7b of an electrical conductor 7 is fixed to a magnet 9 which is in turn fixed by magnetic force to one side of battery 4. In this configuration, magnet 9 is made of a conductive material or is coated with a conductive surface such as a gold plating to transmit the electrical current from battery 4 to conductor 7. The fixing of the conductor to the magnet is achieved by soldering, preferably by a robotic pick and place soldering means. In the case where conductor 7 or only end 7b thereof is formed by a metal clamp, magnet 9 may also be crimped onto the clamp. The other end 7a of conductor 7 is connected to an electronic module 3 by a solder or any other assembly means allowing transmission of an electric current.

[0015] FIG. 3 shows other variant embodiments of the invention. According to a third variant, magnet 11 is a magnetic strip whose length is at least five times its thickness. Preferably, the magnetic strip is a flexible strip. The reduction in magnetizing pressure on a magnetic strip of small thickness can be offset by the increase in the magnetized surface area so much so that the total contact force can be equivalent to that of a conventional magnet. This type of magnet has the advantage of being able to be gradually peeled off with a greatly reduced traction force compared to a rigid magnet having the same magnetizing force. This thus limits the risk of conductor 6 being pulled off when the magnet is detached. Due to its small thickness, the use of a magnetic strip 11 also allows the invention to be implemented in ultra-thin watches.

[0016] The various solutions presented until now make it possible to make a removable clamping device capable of ensuring an electrical connection between a button cell battery and a conductor. According to another advantageous aspect of the invention represented in FIGS. 3 and 4, a magnet 12 is fixed to the plate 2 by any suitable means. Alternatively, the magnet could be integral with another fixed part of the watch, such as the case middle. A conductor 6 electrically connects battery 4 to module 3 in one of the configurations described above. In this particular configuration, the clamping device, in addition to ensuring an electrical connection between battery 4 and electronic module 3, holds button cell battery 4 in place inside recess 5 in plate 2. The magnetizing force is sufficient to ensure the fixing of the battery without requiring the use of other retaining means. Battery 4 can be detached from magnet 12 by applying pressure on the periphery of battery 4 to tilt it or by inserting a suitable tool into notch 14. The insertion and removal of battery 4 in the watch is thereby facilitated.

[0017] According to another variant embodiment presented in FIG. 4, a magnet 13 is positioned facing the lateral side of a battery 4 which is electrically connected to the side of the battery opposite to that facing magnet 12. The positioning of battery 4 in the plane parallel to the movement can be obtained by a magnet forming a diehedral or by two magnets having non-parallel faces. The watch case also includes a back cover 15 comprising a battery hatch 16. Battery 4 is set in position once hatch 16 has been removed, simply by placing battery 4 inside recess 5. The final positioning of battery 4 and the electrical connections are obtained automatically through the action of magnets 12 and 13 without the need to handle any element inside the watch. This configuration makes it possible to simplify the insertion and connection of the battery, and to remove the risk of damage to the movement or the conductors encountered once the watch is opened.

[0018] In the different variant embodiments presented, button cell battery 4 was positioned parallel to the movement. It could also be positioned in another orientation, for example perpendicularly to the movement.

[0019] It is evidently possible to combine the different variant embodiments presented and that of the prior art to create an electrical clamp on each of the battery poles. In particular, a first clamp could be made on the bottom of the battery using a magnet and a second electrical clamp on the lateral side of the battery using an elastically deformed metal strip.

[0020] Advantageously, as a result of its constant magnetizing force, the magnetic clamping device of the invention makes it possible to achieve a permanent electrical contact and to eliminate the risk of poor contact caused by the relaxation over time of elastic stresses in prior art clamps or by any plastic deformation following mishandling of the clamps during replacement of the battery. It simplifies and safeguards operations to replace the battery in the watch through easy handling of the magnetized contacts or by removing manual operations to connect the battery.

[0021] The button cell batteries are cylindrical in shape, of variable thickness and diameter. Since the clamping of the conductor onto the battery is achieved by a magnetizing force on a surface of the battery, it is not dependent on the battery dimensions as is the case for a mechanical clamp where a reaction force is applied on the side opposite to that which receives the action of the clamp. Advantageously, unlike the solutions of the prior art, the magnetic clamping device of the invention thus makes it possible to use batteries of different diameter and thickness. The configuration with a fixed magnet capable of holding the battery is particularly suitable for using batteries of different sizes.

[0022] Alternatively, the same clamping device comprising a conductor and a magnet can be used in different watches intended to receive batteries of different size. This makes it possible to spare the use of specific expensive tools during the development of a new watch, by reusing existing clamps.

[0023] Advantageously, the conductors used in the invention are flexible and electrically insulated, unlike prior art clamps. The result is a simplification in the design of movements and the arrangement of two conductors with respect to one another. The conductors may, for example, easily be connected at two close points on the same side of the electronic module and run close to each other as is the case in FIG. 3, without the need to provide additional insulators. It is also easier to position the battery in a remote and independent manner with respect to the position of the electronic module and to place it at any point in the watch.

[0024] There is therefore proposed an electronic watch integrating a versatile electrical clamping device which facilitates and safeguards battery changing operations while reducing manufacturing costs.