MUSICAL OR STRIKING MECHANISM COMPRISING AN ELECTRIC GENERATOR SYSTEM

Abstract

A musical or striking mechanism (1) for a timepiece or musical box, includes an energy source (6) delivering a mechanical torque and device for transmitting mechanical torque from the energy source to a wheel set for generating music or a striking wheel set (4). The mechanism also includes a wheel set governor (2) configured to regulate, around a reference speed value, the pivoting speed of the wheel set about a pivot axis, and including a break for braking the wheel set configured to return the pivoting speed thereof to the reference speed. The wheel set governor includes a system having an electric generator (16) whereof a rotor is mechanically connected to the energy source delivering the mechanical torque, and an electronic circuit for regulating the rotation speed of the generator.

Claims

1. A musical or striking mechanism for a timepiece or musical box, comprising an energy source delivering a mechanical torque and means for transmitting mechanical torque from said energy source to a wheel set for generating music or a striking wheel set, the mechanism further comprising a wheel set governor, said governor being configured to regulate, around a reference speed value, the pivoting speed of the wheel set about a pivot axis, and comprising means for braking the wheel set configured to return the pivoting speed thereof to the reference speed, wherein the wheel set governor includes a system comprising an electric generator whereof a rotor is mechanically connected to the energy source delivering the mechanical torque, and an electronic circuit for regulating the rotation speed of the generator.

2. The musical or striking mechanism according to claim 1, wherein the electronic circuit is provided with a time base providing a reference frequency.

3. The musical or striking mechanism according to claim 2, wherein the time base comprises a quartz or MEMS resonator or an RLC oscillating circuit.

4. The musical or striking mechanism according to claim 1, wherein the electronic circuit comprises a capacitance inductance resistance circuit configured to provide a reference frequency.

5. The musical or striking mechanism according to claim 1, wherein the means for braking the wheel set are braking means configured to electrically brake the rotation of the rotor of the electric generator.

6. The musical or striking mechanism according to claim 1, wherein the electronic circuit is an oscillator electronic circuit that comprises an integrated servo-control circuit with complementary metal oxide semiconductor technology.

7. The musical or striking mechanism according to claim 6, when it depends on claim 5, wherein the stator of the generator includes an assembly of coils connected in series, and in that the integrated servo-control circuit comprises a transistor, said transistor being connected to the stator of the electric generator and being configured, via a control by the integrated circuit, to short-circuit the assembly of coils for a fraction of the period of the alternating voltage provided by the generator, said transistor constituting said electric braking means.

8. The musical or striking mechanism according to claim 1, wherein the mechanism further comprises at least one electrical component connected to the electric generator.

9. The musical or striking mechanism according to claim 8, wherein the electrical component is chosen from the group consisting of an electrical energy storage component, such as an accumulator or a condenser, a luminous component, such as a light-emitting diode, and an electric component for generating sound or vibrations.

10. The musical or striking mechanism according to claim 8, wherein the electrical component is directly connected to the electric generator.

11. The musical or striking mechanism according to claim 1, wherein the energy source is a striking barrel.

12. A timepiece or musical box comprising a musical or striking mechanism (1), wherein the musical or striking mechanism is in accordance with claim 1.

13. A timepiece or musical box according to claim 12, wherein it further comprises a mechanical horological movement, and in that the energy source of the musical or striking mechanism is a barrel of said mechanical horological movement.

14. The timepiece or musical box according to claim 12, wherein the timepiece is a mechanical striking watch.

15. Use as a music generation or striking wheel set governor, in a musical or striking mechanism for a timepiece or musical box comprising an energy source delivering a mechanical torque and means for transmitting mechanical torque from said energy source to a wheel set for generating music or a striking wheel set, of a system comprising an electric generator whereof a rotor is mechanically connected to the energy source delivering the mechanical torque, and an electronic circuit for regulating the rotation speed of the generator, said circuit being configured to regulate, around a reference speed value, the rotation speed of the generator, and thus to brake the wheel set so as to regulate the pivoting speed of the wheel set about a pivot axis.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0016] The aims, advantages and features of the musical or striking mechanism for a timepiece or musical box according to the invention will become clear in the following description based on at least one non-limiting embodiment illustrated by the drawings wherein:

[0017] FIG. 1 is a perspective view of a striking mechanism of a watch according to one embodiment of the invention, comprising a striking wheel set governor,

[0018] FIG. 2 is a top view of the striking mechanism of FIG. 1, and

[0019] FIG. 3 is a schematic representation of the striking wheel set governor of FIG. 1.

DETAILED DESCRIPTION OF THE INVENTION

[0020] The invention relates to the field of horology, and more particularly that of musical boxes or timepieces comprising a musical or striking mechanism. The invention will more specifically be described for the preferred application of a timepiece comprising a striking mechanism. Nevertheless, the invention is applicable to the regulation of any wheel set for generating music or striking wheel set. In this regard, it will be designated in the remainder of the disclosure under the generic term “timepiece” a timepiece or a musical box, and under the term “striking mechanism” a musical or striking mechanism.

[0021] In this description of a preferred use of the invention illustrated in FIGS. 1 to 3, the invention relates to a striking mechanism 1 comprising a striking wheel set 4 governor 2, for a timepiece (not shown in the figures for reasons of clarity). The timepiece is typically a striking mechanical watch, such as for example a repeater watch. In this preferred use of the invention illustrated in FIGS. 1 to 3, the striking wheel set 4 is a percussion hammer that is configured to come to strike on a gong 5 of the striking mechanism 1. Alternatively not shown, the wheel set may be one or more lever(s), or also one or more pin(s) in movement that come to strike on the blades of a pin-barrel in the case of a musical watch. Alternatively also, the gong 5 may be replaced with one or more resonator(s), gong(s), or bell(s), or also with a resonance box in the case of a musical box.

[0022] As seen in FIG. 3, the striking mechanism 1 comprises, apart from the governor 2, an energy source 6 delivering a mechanical torque, and means for transmitting mechanical torque from the energy source 6 to the striking wheel set 4 (said latter not being shown in the figures for reasons of clarity). Preferably, the striking mechanism 1 also comprises at least one electrical component 10 connected to the governor 2. In the particular embodiment illustrated in FIGS. 1 and 2, the mechanism 1 comprises three electrical energy storage components 10, namely ceramic condensers. The energy stored in said condensers may for example be reused by luminous components within the timepiece in order to carry out a synchronised illumination. Alternatively or additionally, the electrical component(s) 10 may be an accumulator, and/or a luminous component, such as a light-emitting diode, and/or an electrical component for generating sound or vibrations within the mechanism 1. When the electrical component 10 is an electrical component for generating sound, said latter is for example a loudspeaker associated with an amplifier.

[0023] In the particular embodiment illustrated in FIGS. 1 to 3, the energy source 6 is a striking barrel received in a location 12 of the mechanism 1 (the striking barrel 6 not being shown in FIGS. 1 and 2 for reasons of clarity). The striking barrel 6 is typically a spring barrel, which may be wound in a single movement by a user of the timepiece. Such a spring barrel delivers in general a mechanical torque that varies according to the unwinding of the spring. Alternatively not shown, the energy source 6 may be a barrel of the mechanical horological movement of the timepiece, whereof a portion of the energy accumulated is recovered for the musical or striking mechanism 1.

[0024] The wheel set 4 governor 2 or regulator is intended to regulate the tempo of the striking, or of the melody according to the case, of the mechanism 1. In the particular embodiment illustrated in FIGS. 1 to 3, the wheel set 4 governor 2 is intended to regulate the tempo of the striking of the striking mechanism 1. More specifically, the governor 2 is configured to regulate, around a reference speed value, the pivoting speed of the wheel set 4 about a pivot axis. For this, the governor 2 comprises means 14 for braking the wheel set 4 (that will be described subsequently) configured to return the pivoting speed of the wheel set 4 to the reference speed.

[0025] As seen in FIG. 3, the governor 2 consists of a system comprising an electric generator 16 and an electronic circuit 18 for regulating the rotation speed of the generator 16. The generator 16 is for example connected to the electronic circuit 18 via a rectifier circuit 19.

[0026] As illustrated in FIG. 3, the electric generator 16 comprises a rotor 20 and a stator 22. The rotor 20 is connected to the energy source 6 delivering the mechanical torque, via a kinematic chain not seen in the figures (gear train). The stator 22 for example consists of an assembly of coils 24 connected in series (a single coil 24 being shown in FIG. 3 for reasons of clarity). The coils 24 are advantageously non-iron coils, which makes it possible to prevent any start positioning torque. Preferably, the electric generator 16 is an electro-dynamic microgenerator. When the mechanism 1 comprises one or more electrical component(s) 10, said latter may be directly or indirectly connected to the electric generator. When one of the components 10 at least is an electrical energy storage component, the electrical energy accumulated in said component may in particular be used to supply the electronic circuit 18 when the energy source 6 does not deliver mechanical torque.

[0027] Preferably, the electronic circuit 18 is an oscillator circuit. In the particular embodiment illustrated in FIGS. 1 to 3, the electronic circuit 18 comprises an integrated servo-control circuit 26 with complementary metal oxide semiconductor (CMOS) technology. According to this particular embodiment, and as illustrated in FIG. 3, the electronic circuit 18 also comprises a time base, such as a quartz 28 or a MEMS resonator or an RLC oscillating circuit, which is connected to the integrated circuit 26 and which provides a reference frequency. Alternatively not shown, the electronic circuit 18 comprises a capacitance inductance resistance circuit configured to provide a reference frequency.

[0028] The integrated circuit 26 has an input terminal 29 connected to the assembly of coils 24 of the generator 16 and making it possible to recover an analogue signal 31 coming from said latter. Without this being limiting within the scope of the present invention, the integrated circuit 26 comprises for example a chain of divisions (including an inhibition programming logic), an hysteresis comparator for logically forming the analogue signal 31, a reversible counter, as well as a decision logic (such elements not being shown in FIG. 3 for reasons of clarity). The integrated circuit also comprises a transistor 30, typically an insulated gate field effect and metal oxide semiconductor (MOS) transistor.

[0029] The hysteresis comparator is connected to the input terminal 29. The chain of divisions is connected between the quartz 28 and a positive input of the reversible counter. The other input of the reversible counter, which is a negative input, is connected to the output of the hysteresis comparator. The decision logic is connected as output of the reversible counter, and has an output for controlling the transistor 30.

[0030] The reversible counter carries out the difference between the two pulsed type signals coming from the quartz 28 on the one hand, and from the generator 16 on the other hand, as well as the integration of pulses over time. The reversible counter further indicates the advance or the delay of the angular position of the rotor 20 of the generator 16 in relation to the ideal angular position thereof (given by the quartz 28) and the decision logic that monitors the counter decides on the instruction to be established. Said decision logic in fact acts according to the value of the reversible counter (positive or negative) and controls the transistor 30.

[0031] The transistor 30 is connected to the stator 22 of the electric generator 16. More specifically, as illustrated in FIG. 3, the transistor 30 is connected in parallel at the same time as the coils 24 via the two drain and source electrodes thereof. The transistor 30 constitutes the braking means 14, which are braking means configured to electrically brake the rotation of the rotor 20 of the generator 16.

[0032] The electronic circuit 18 is thus configured to regulate, around a reference speed, the rotation speed of the generator 16, and to thus brake the wheel set 4 so as to regulate the pivoting speed thereof about the pivot axis. The reference speed is for example equal to 7 revolutions per second, without this being limiting within the scope of the present invention. Thus, regardless of the mechanical torque delivered by the energy source 6, the electric generator 16 rotates at a constant or near-constant speed. For this, the frequency of the signal coming from the generator 16 (which is proportional to the rotation speed of said latter) is compared to a sub-multiple of the reference frequency (provided by the quartz 28 in the embodiment in FIG. 3). If necessary, the generator 16 is then electrically braked by the braking means 14 that constitutes the transistor 30, so as to be controlled at the reference frequency provided by the quartz 28. For this, the transistor 30, which is controlled by the decision logic of the integrated circuit 26, short-circuits the assembly of coils 24 of the stator 22 for a fraction of the period of the alternating voltage provided by the generator 16. The transistor 30 then acts as a means for intermittent and pulsed braking of the rotor 20 of the generator 16.

[0033] During operation, when the rotor 20 of the generator 16 is moved when exposed to a torque provided by the spring of the barrel 6, an induced alternating voltage appears at the terminals of the assembly of coils 24 of the stator 22. The induced alternating voltage is then used for two functions: firstly said voltage is rectified via the rectifier circuit 19 and makes it possible to supply the integrated circuit 26, and secondly said voltage makes it possible to provide an electrical energy source available for the timepiece. Said rechargeable electrical energy source then makes it possible, for example, to supply the electrical component(s) 10. The electrical energy accumulated may subsequently be advantageously reused by an electrical component, such as a light-emitting diode in order to illuminate elements of the timepiece, such as gongs, hammers or hands for example, or also by a component for generating sound or vibrations within the mechanism.