Electromechanical timepiece module comprising an antenna

Abstract

An electromechanical timepiece module (1) has a main plate (10) with an actuator module (40) driving at least one mobile part (30) by a gear train (42). The mobile part (30) displays a time or non-time function. A wireless communication module (2) is configured for transmitting and/or receiving a wireless signal. And a control unit (6) is configured for controlling the actuator module (40) depending on a received wireless signal. The mobile part (30) and the gearing (42) are made of an electrically conductive material and are in electrical contact with each other but electrically isolated from the remainder of the timepiece module (1). The mobile part (30) is electrically connected to the communication module (2) so as to act as an antenna for the transmission and/or reception of the wireless signal and to transmit the wireless signal between the mobile part (30) and the wireless communication module (2).

Claims

1. An electromechanical timepiece module comprising a main plate comprising an actuating module having a motor that drives at least one moving part via a gear train, the moving part being intended to display a function related or unrelated to time and moving in a plane of the main plate; a wireless communication module configured to transmit and/or receive a wireless signal; and a control unit configured to control the actuating module depending on a received wireless signal; the moving part and the gear train being manufactured from an electrically conductive material and making electrical contact with each other but being electrically insulated from the rest of the timepiece module; the moving part being electrically connected to the communication module so as to act as an antenna for the transmission and/or reception of the wireless signal and to transmit the wireless signal between the moving part and the wireless communication module.

2. The module according to claim 1, wherein the actuating module comprises the motor and the gear train, which transfers the movement of the motor to the moving part, the actuating module not being electrically connected to the main plate.

3. The module according to claim 1, wherein the actuating module comprises a gear-train plate that supports the gear train, the gear-train plate being manufactured from an electrically nonconductive material.

4. The module according to claim 1, comprising a spring element configured to transmit the wireless signal between the moving part and the wireless communication module.

5. The module according to claim 1, wherein the moving part and the gear train are configured to have an antenna resistance of about 50 ohms.

6. The module according to claim 5, wherein the antenna resistance of about 50 ohms is obtained via the choice of the materials from which the moving part, the gear-train plate and the gear train are made.

7. The module according to claim 1, wherein the moving part comprises a disk that is mounted so as to be able to pivot in the plane of the main plate.

8. The module according to claim 1, wherein the moving part comprises at least one hand that is mounted so as to be able to pivot in the plane of the main plate.

9. The module according to claim 8, comprising a capacitive circuit configured to match impedance depending on an angular position of the hand.

10. The module according to claim 1, wherein the motor comprises a bidirectional stepper motor.

11. The module according to claim 1, wherein the main plate comprises a printed circuit board.

12. The module according to claim 1, comprising a dial electrically insulated from the moving part and from the gear train.

13. Watch comprising a casing containing the module according to claim 1, the casing being electrically insulated from the moving part and from the gear train.

Description

BRIEF DESCRIPTION OF THE FIGURES

(1) Examples of implementation of the invention are indicated in the description, which is illustrated by the appended figures, in which:

(2) FIG. 1 illustrates an electromechanical timepiece module, according to one embodiment; and

(3) FIG. 2 shows the timepiece module according to another embodiment.

EXAMPLE(S) OF EMBODIMENT

(4) An electromechanical timepiece module 1 is shown in FIG. 1. The module 1 comprises a main plate 10 comprising an actuating module 40 that drives at least one moving part 30 via a gear train 42. The moving part 30 is intended to display a function related or unrelated to time. The module 1 comprises a wireless communication module 2 configured to transmit and/or receive a wireless signal and a control unit 6 configured to control the actuating module 40 depending on a received wireless signal. The moving part 30 and the gear train 42 are manufactured from an electrically conductive material and make electrical contact with each other but are electrically insulated from the rest of the timepiece module 1.

(5) The moving part 30 is electrically connected to the communication module 2 so as to act as an antenna for the transmission and/or reception of the wireless signal and to transmit the wireless signal between the moving part 30 and the wireless communication module 2.

(6) In one embodiment, the actuating module 40 comprises a motor 41 and the gear train 42, which transfers the movement of the motor 41 to the moving part 30, the actuating module 40 not being electrically connected to the main plate 10.

(7) Preferably, the main plate 10 comprises a printed circuit board on which the actuating module 40 is mounted. Other electrical or electronic components of the timepiece module 1, such as the communication module 2, may also be mounted on the printed circuit board.

(8) According to one form of execution, the actuating module 40 comprises a gear-train plate 44 that supports the gear train 42. The gear-train plate 44 is preferably manufactured from an electrically nonconductive material.

(9) In the example of FIG. 1, the actuating module 40 comprises three motors 41a, 41b and 41c, each motor allowing an hour hand 31a, a minute hand 31b and a second hand 31c to be made to move, respectively. In particular, the actuating module 40 comprises a stator 43 comprising three branches, each bearing one coil 41a, 41b, 41c. The hands 31a, 31b, 31c are mounted so as to be able to pivot in the plane of the main plate 10. The three branches may make an angle of about 120° to one another. The stator may also have a two-branch shape, each branch bearing one coil so as to drive two concentrically arranged hands.

(10) The timepiece module 1 may comprise a capacitive circuit configured to match impedance depending on the angular position of the one or more hands 31a, 31b, 31c.

(11) The actuating module 40 may have other configurations and may be configured to make move only a single hand or two hands, or even a plurality of disks or any other type of moving part. For example, the actuating module 40 may comprise a bidirectional motor that actuates a retrograde hand.

(12) The example of FIG. 2 shows the module in another configuration, comprising an actuating module 40 comprising three motors 41a, 41b and 41c such as shown in FIG. 1 and able to make an hour hand, a minute hand and a second hand move (which are not illustrated in FIG. 2). The module 1 also comprises two motors 41d, 41e the stator of which comprises one branch, each driving one disk 32, date disks for example. The disks 32 are arranged so as to pivot in the plane of the main plate 10. Each of the motors 41d, 41e may also drive a hand, for example a retrograde hand in the case of bidirectional motors.

(13) According to one form of execution, a spring element (not shown) may be configured to transmit the wireless signal between the moving part 30 and the wireless communication module 2.

(14) Again according to one form of execution, the moving part 30 and the gear train 42 are configured to achieve an antenna resistance of about 50 ohms. The antenna resistance of about 50 ohms may be obtained via the choice of the materials from which the moving part 30 and the gear train 42 are made.

(15) The module 1 may comprise a dial (not illustrated). The dial is preferably electrically insulated from the moving part 30 and from the gear train 42.

(16) One advantage of the module 1 of the invention is that the dial may be manufactured from any material.

(17) The module of the invention may be integrated into a watch comprising a casing containing the module 1 according to the invention, the casing being electrically insulated from the moving part 30 and from the gear train 42.

REFERENCE NUMBERS EMPLOYED IN THE FIGURES

(18) 1 electromechanical timepiece module 10 main plate 2 wireless communication module 30 moving part 31a hour hand 31b minute hand 31c second hand 32 disk 40 actuating module 41 motor 41a, 41b and 41c coil 41d, 41e coil 42 gear train 43 stator 44 gear-train plate 6 control unit