EP2891928A1 - Timepiece comprising a decoupling between the means for transmitting power and the counting means - Google Patents

Abstract

The invention relates to a timepiece comprising a watch movement cooperating with a display device, the watch movement comprising a source of mechanical energy and a system for transmitting energy from the power source to at least one a resonator comprising a first distribution device controlled by said at least one resonator. According to the invention, the timepiece further comprises a counting system mounted between said at least one resonator and the display device, and comprising a second distribution device controlled by said at least one resonator and cooperating with the device. display to decouple the energy transmission means from those of the counting.

Description

Field of the invention

The invention relates to a timepiece comprising a decoupling between the energy transmission means of the resonator and the counting means of the timepiece.

Background of the invention

In the usual watchmaking movements, a barrel provides mechanical energy to a finishing gear meshing with a Swiss-anchor type escapement system that cooperates with a balance-spring resonator. Thus, usually, the exhaust system makes it possible to transmit the energy to the resonator, to count the comings and goings of the resonator and to be very robust to shocks.

However, the usual watch movements do not allow any oscillator or any resonator to be used and are intrinsically limited to a frequency of a few hertz.

Summary of the invention

The object of the present invention is to overcome all or part of the aforementioned drawbacks by proposing a timepiece that remains robust to shocks while allowing a great technological freedom of the oscillator and means for transmitting the energy of the source of mechanical energy.

For this purpose, the invention relates to a timepiece comprising a watch movement cooperating with a display device, the watch movement comprising a source of energy mechanical and energy transmission system from the energy source to at least one resonator, said energy transmission system comprising a first distribution device periodically transmitting mechanical energy from the mechanical energy source to said at least one resonator; least one resonator by displacements of said at least one resonator characterized in that the timepiece further comprises a counting system mounted between said at least one resonator and the display device, said counting system comprising a second device distribution cooperating with the display device and counting the movements of said at least one resonator independently from said first distribution device to make the energy transmission system completely independent from the counting system.

Advantageously, it is understood that the invention makes it possible to separately optimize the maintenance function of the counting function. Thus, the same movements of the at least one resonator are detected and used at two different locations of the timepiece to, on the one hand, periodically transmit energy from the barrel to the said at least one resonator using the first dispensing device and, secondly completely independently, counting said displacements of said at least one resonator using the second dispensing device. The timepiece can thus comprise a wide variety of technologies for the first dispensing device, said at least one resonator or the oscillator (that is to say in the case where the first dispensing device and said at least one dispenser a resonator are structurally indissociable).

In particular, it can be seen that the first distribution device may be in direct or indirect contact with the source of mechanical energy and that its technological freedom does not limit the type of said at least one resonator as to its nature and frequency. Thus, even if the first distribution device is sensitive to shocks and temporarily transmits no more energy to the at least one resonator, it is understood that that, at worst, the source of mechanical energy will "empty" temporarily into the energy transmission system without the time display device being affected because, independently, the second distribution device of the The counting system will continue counting the movements of the at least one resonator to transmit it to the display device. This is why the counting system is preferably chosen for its robustness to shocks.

• le système de transmission d'énergie comporte un rouage de transmission monté entre la source d'énergie et le premier dispositif de distribution ;
• le rouage de transmission est formé par au moins deux mobiles coopérant mécaniquement, comme par exemple par friction ou par engrènement, afin de former des moyens de réduction ;
• le rouage de transmission est formé par un engrenage unique réducteur comme par exemple un train épicycloïdal ou un train à déformation ondulante ;
• le premier dispositif de distribution comporte des moyens de couplage permettant, par le déplacement dudit au moins un résonateur, de transmettre une partie de l'énergie de la source d'énergie ;
• les moyens de couplage sont du type magnétique comme par exemple au moins un aimant permanent monté sur ledit au moins un résonateur synchronisant sans contact une roue coopérant, directement ou indirectement, avec la source d'énergie ;
• les moyens de couplage sont du type électrostatique comme par exemple au moins un électret monté sur ledit au moins un résonateur et synchronisant sans contact une roue coopérant, directement ou indirectement, avec la source d'énergie ;
• les moyens de couplage sont formés par un mécanisme d'échappement comme par exemple du type à ancre suisse, du type coaxial ou du type à détente, le mécanisme d'échappement comportant une roue d'échappement qui coopère, directement ou indirectement, avec la source d'énergie ;
• ledit au moins un résonateur est du type inertie-élasticité comme par exemple un ensemble balancier - spiral, une lame vibrante ou un diapason ;
• ledit au moins un résonateur comporte plusieurs résonateurs couplés entre eux ;
• le premier dispositif de distribution et ledit au moins un résonateur forment un oscillateur monobloc comme par exemple du type Clifford ;
• le système de comptage comporte un rouage de comptage monté entre le dispositif d'affichage et le deuxième dispositif de distribution ;
• le rouage de comptage est formé par au moins deux mobiles coopérant mécaniquement afin de former des moyens de réduction ;
• le deuxième dispositif de distribution comporte des moyens de comptage permettant de détecter les déplacements dudit au moins un résonateur sans transmettre d'énergie audit au moins un résonateur ;
• les moyens de comptage sont du type mécanique comme par exemple au moins une ancre motrice coopérant avec ledit au moins un résonateur et entrainant une roue coopérant, directement ou indirectement, avec le dispositif d'affichage, ou au moins un cliquet coopérant avec ledit au moins un résonateur et entrainant une roue à rochet coopérant, directement ou indirectement, avec le dispositif d'affichage, ou encore au moins un mécanisme d'échappement coopérant avec ledit au moins un résonateur et entrainant une roue coopérant, directement ou indirectement, avec le dispositif d'affichage et une deuxième source d'énergie mécanique ;
• chaque source d'énergie mécanique comporte des moyens d'accumulation d'énergie par déformation élastique ou par stockage pneumatique ;
• le dispositif d'affichage comporte un afficheur du type à aiguille et/ou du type à disque.

According to other advantageous features of the invention:

• the energy transmission system comprises a transmission train mounted between the power source and the first distribution device;
• the transmission train is formed by at least two mechanically cooperating mobiles, such as for example by friction or by meshing, in order to form reduction means;
• the transmission train is formed by a single reduction gear, for example an epicyclic gear train or an undulating deformation train;
• the first distribution device comprises coupling means allowing, by moving said at least one resonator, to transmit a portion of the energy of the energy source;
• the coupling means are of the magnetic type such as for example at least one permanent magnet mounted on said at least one contactless synchronizing resonator a wheel cooperating, directly or indirectly, with the power source;
• the coupling means are of the electrostatic type such as for example at least one electret mounted on said at least one resonator and synchronizing without contact a wheel cooperating, directly or indirectly, with the power source;
• the coupling means are formed by an escapement mechanism such as, for example, the Swiss anchor type, of the type coaxial or expansion type, the exhaust mechanism comprising an escape wheel which cooperates, directly or indirectly, with the energy source;
• said at least one resonator is of the inertia-elasticity type such as for example a pendulum-balance assembly, a vibrating blade or a tuning fork;
• said at least one resonator comprises a plurality of resonators coupled together;
• the first distribution device and said at least one resonator form a monoblock oscillator such as Clifford type;
• the metering system comprises a metering wheel mounted between the display device and the second distribution device;
• the counting wheel is formed by at least two mobile mechanically cooperating to form reduction means;
• the second distribution device comprises counting means for detecting the movements of said at least one resonator without transmitting energy to said at least one resonator;
• the counting means are of the mechanical type such as for example at least one driving anchor cooperating with said at least one resonator and driving a wheel cooperating, directly or indirectly, with the display device, or at least one pawl cooperating with said at least one a resonator and driving a ratchet wheel cooperating, directly or indirectly, with the display device, or at least one exhaust mechanism cooperating with said at least one resonator and driving a wheel cooperating, directly or indirectly, with the device display and a second source of mechanical energy;
• each source of mechanical energy comprises means of energy accumulation by elastic deformation or by pneumatic storage;
• the display device comprises a needle type display and / or a disk type display.

Brief description of the drawings

• la figure 1 est une vue schématique d'une pièce d'horlogerie selon l'invention ;
• les figures 2 à 5 sont des représentations schématiques de quatre modes de réalisation de pièce d'horlogerie selon l'invention.

Other particularities and advantages will emerge clearly from the description which is given hereinafter, by way of indication and in no way limiting, with reference to the appended drawings, in which:

• the figure 1 is a schematic view of a timepiece according to the invention;
• the Figures 2 to 5 are schematic representations of four timepiece embodiments according to the invention.

Detailed Description of the Preferred Embodiments

As illustrated in figure 1 the invention relates to a timepiece 1 comprising a watch movement 3 which cooperates with a device 5 for displaying the time. Of course, the display device 5 may include any type of display such as, for example, the needle type and / or the disk type. In addition, the display device 5 can not be limited to the display of the time but may also have another hour value such as a calendar value or a measured time, or may present a non-hourly value such as a temperature, pressure, immersion depth or altitude.

The watch movement 3 comprises a source 7 of mechanical energy and a system 9 for transmitting energy from the source 7 of mechanical energy to at least one resonator 11. The energy transmission system 9 comprises at least a first device 10 of distribution controlled by said at least one resonator 11, that is to say that the movements of said at least one resonator 11 can selectively receive energy from the source 7 of mechanical energy.

Advantageously according to the invention, the timepiece 1 further comprises a system 13 of counting independent of the system of transmission 9 and mounted between said at least one resonator 11 and the display device 5. The counting system 13 comprises at least a second device 12 for independent distribution of said at least one first distribution device 10 but also controlled by said at least one resonator 11, that is to say that the movements of said at least one resonator 11 are also selectively counted by the second distribution device 12. In addition, the second distribution device 12 cooperates with the display device 5 in order to decouple the energy transmission means towards said at least one resonator 11 of the counting means coming from said at least one resonator 11, that is, to make them totally independent of each other.

It is therefore understood that the same displacements of said at least one resonator 11 are detected and used at two different locations of the timepiece 1 to, on the one hand, periodically transmit energy from the barrel to said at least one resonator 11 using said at least one first dispensing device 10 and, secondly completely independently, counting said displacements of said at least one resonator 11 with said at least one second dispensing device 12.

Advantageously according to the invention, it is understood that, even if the first distribution device 10 is sensitive to shocks and temporarily transmits no more energy to the at least one resonator 11, at worst, the source 7 of mechanical energy will "empty" Temporarily in the energy transmission system 9 without the time display device 5 being affected because, in complete independence, the second metering system 13 dispensing device 12 will continue counting the said displacements. least one resonator 11 to transmit it to the display device 5.

Therefore, the timepiece 1 may comprise a wide variety of technologies for the first distribution device 10 (nature of cooperation with said at least one resonator 11, with or without contact, etc.), for said at least one resonator 11 (type, number, frequency, etc.) or for the oscillator (that is to say in the case where the first dispensing device 10 and the at least one resonator 11 are structurally indissociable).

It will be seen that the first distribution device 10 may be in direct or indirect contact with the source 7 of mechanical energy and that its technological freedom allows a large number of different resonators 11. It will thus be understood that the energy transmission system 9 may optionally include a transmission train 8 mounted between the energy source 7 and the first distribution device 10.

Released from counting, the energy transmission system 9 can thus have much more freedom with respect to the transmission gear train 8 used. According to a first variant, the transmission train 8 may for example be formed by at least two mechanically cooperating mobiles in order to form reduction means. It is thus understood that such a first variant may comprise said at least two mobiles which cooperate in a different way from the usual finishing wheels, such as, for example, by friction while remaining possible by meshing.

According to a second variant, the transmission train 8 may be formed by a single gear reduction gear. Such a single gear reduction gear can be for example is a train 108 with undulating deformation or an epicyclic train 208.

As illustrated in figure 2 a train 108 with undulating deformation (also called "harmony drive" from the eponymous company that developed it) is generally formed by a rigid ring 115 having at least one internal toothing, a wave generator 117 of elliptical shape and a flexible ring 116 meshing against the internal toothing of the rigid ring 115 and being in frictional contact with the outer surface of the wave generator 117 allowing a large reduction factor in a very compact space.

As illustrated in figure 3 , an epicyclic gear 208 is formed by an outer sun gear 215 having at least one internal toothing, an inner sun gear 217 comprising at least one external toothing and at least one satellite 216 (three are used at the figure 3 ) meshing between the internal teeth of the outer sun gear 215 and the external toothing of the inner sun gear 217 allowing a large reduction factor.

Of course, the gear train 8 of transmission can not be limited to the first and second variants mentioned above. Thus, the transmission train 8 may include modifications according to the intended application and / or include other types of energy transmission.

Advantageously according to the invention, the first distribution device 10 comprises means 21 for coupling, by moving said at least one resonator 11, to transmit a portion of the energy of the source 7 of energy.

According to a first variant, the coupling means 21 may be of the magnetic type. As an example shown in figure 3 , the magnetic type coupling means 221 may be formed by at least one permanent magnet 224 mounted on said at least one resonator 211 synchronizing without contact a wheel 225 cooperating, directly or indirectly (indirectly by the gear train 208 in the case of the figure 3 ), with the source 207 of energy.

According to a second variant, the coupling means 21 may be of the electrostatic type. As an example shown in figure 2 , the coupling means 121 of the electrostatic type are formed by at least one electret 124 mounted on said at least one resonator 111 and synchronizing without contact a selectively polarized wheel cooperating, directly or indirectly (indirectly by the gear train 108 in the case of the figure 2 ), with the source 107 of energy.

According to a third variant, the coupling means 21 may be formed by an escape mechanism. The mechanism The exhaust can then be of the Swiss anchor type, the coaxial type or the expansion type, and include an escape wheel which cooperates, directly or indirectly, with the energy source.

Of course, the first distribution device 10 can not be limited to the first, second and third variants mentioned above. Thus, the first distribution device 10 may include modifications according to the intended application and / or comprise other types of energy transmission.

Advantageously according to the invention, said at least one resonator 11 may be of the inertia-elasticity type. By way of example, said at least one resonator 11 of the inertia-elasticity type may be a balance spring-balance unit 311, a vibrating blade or a tuning fork 211.

It is also understood that said at least one resonator 11 may also comprise a plurality of resonators coupled together. As an example shown in figure 2 , there is used a set 111 comprising two resonators of the balance spring type as disclosed in the document EP 2 141 555 incorporated by reference to the description. The assembly 111 comprises a first balance 131 cooperating with a first balance spring 133 and a second balance 137 cooperating with a second balance spring 139. Each balance-balance resistor is built to have a different frequency and is synchronized with the other using a third helical spring formed by a first coil spring 134 connected to the first resonator and is extended by a curve lift 135 to the second coil spring 136 which is connected to the second resonator.

According to a particular alternative, it is also understood that the first dispensing device 10 and the at least one resonator 11 can also form a monoblock oscillator, that is to say that the first dispensing device 10 and the at least one resonator 11 are structurally indissociable. As an example shown in figure 5 , it is used such a 420 monobloc oscillator type Clifford as disclosed in the document CH 386 344 incorporated by reference in the present description. The oscillator 420 comprises a resonator 411 of the vibrating blade type interleaved with a first magnetic distribution device 410. More precisely, two magnetized arms 440, 442 form a U-shaped permanent magnet 443 intended to cooperate without contact with a wheel 445 connected, directly or indirectly (directly in the case of the figure 5 ), with the source 407 of energy. Finally, between the two arms 440, 442 is mounted a vibrating blade 441. To stabilize the frequency of the oscillator 420, the wheel 445 can also be provided with a mass of inertia.

Of course, said at least one resonator 11, 111, 211, 311 or the oscillator 420 can not be limited to the examples and alternative particular cited above. Thus, said at least one resonator 11, 111, 211, 311 or the oscillator 420 may comprise modifications according to the intended application and / or comprise other types of resonator or oscillator.

Preferably according to the invention, the counting system 13 is chosen for its impact strength. It will therefore be understood that the metering system 13 may be bad from the point of view of energy transmission since there is no need for a lot of energy to move the display device. It is thus preferred that the shocks suffered by the timepiece are not transmitted to said at least one resonator 11 by the counting system 13.

It will be seen that the second distribution device 12 may be in direct or indirect contact with the display device 5. It is thus understood that the metering system 13 may optionally include a metering wheel 14 mounted between the display device 5 and the second distribution device 12.

Dedicated to counting, the counting wheel 14 may be formed by at least two mechanically cooperating mobiles in order to form reduction means. Of course, the counting gear 14 can not be limited to at least two mobiles. Thus, the counting wheel 14 can include modifications depending on the intended application and / or other types of energy transmission.

Advantageously according to the invention, a wide variety of technology for the second distribution device 12 can also be envisaged (nature of cooperation with said at least one resonator 11, with or without contact, etc.). The second distribution device 12 comprises counting means 23 making it possible to detect the displacements of said at least one resonator 11 without transmitting energy to said at least one resonator 11. The counting system 13 is preferably chosen for its robustness to shocks. The counting means 23 are, preferably, of the mechanical type.

According to a first variant illustrated in figure 2 , the second distribution device 112 comprises mechanical-type counting means 123 which are formed by at least one driving anchor 160 cooperating with said at least one resonator 111 and driving a wheel 162 co-operating, directly or indirectly (indirectly by the gear train 114 in the case of figure 3 ), with the display device 105.

The use of a driving anchor 160 makes it possible to dispense with a dedicated energy source and to directly use the force required to advance the display device 105 by the oscillator, that is to say the first distribution device 110 cooperating with the resonator 111. The transformation of the oscillations of the balance 134 or 137 into a rotation of constant direction is provided by a latch which is either tilting or rotary.

The operation of such a driving anchor is explained in particular in the book "Electric and Electronic Watches", Federations of Technical Schools and Jaques Mermod, page 157, IDEA Editions, 1977, which is incorporated by reference in the present description.

According to a second variant illustrated in figure 3 the second distribution device 212 comprises means 223 for counting the mechanical type which are formed by at least one pawl 260 cooperating with said at least one resonator 211 and driving a ratchet wheel 262 cooperating, directly or indirectly (indirectly by the gear 214 in the case of the figure 3 ), with the display device 205. It can also be seen that, to avoid unwanted rotation of the ratchet wheel 262, a counter-catch 261 may be provided.

According to a third variant illustrated in figure 4 , the second distribution device 312 includes mechanical counting means 323 which are formed by at least one Swiss-anchor type escapement mechanism 360 cooperating with said at least one resonator 311 and driving a cooperating escape wheel 362 directly or indirectly (indirectly by gearing 314 in the case of figure 4 ), with the display device 305 and a second source 316 of mechanical energy.

Of course, the second device 12, 112, 212, 312 distribution can not be limited to the first, second and third variants mentioned above. Thus, the second distribution device 12, 112, 212, 312 may include modifications depending on the intended application and / or comprise other types of energy transmission.

Finally, the sources 7, 107, 207, 307, 407 of mechanical energy and second sources 16, 316 of mechanical energy may comprise energy accumulation means by elastic deformation and / or by pneumatic storage. For example, the accumulation means may take the form of a metal blade mounted in a pivoting drum to form a barrel.

Four non-limiting embodiments will now be explained to better show the advantages of the present invention in relation to the Figures 2 to 5 .

According to a first embodiment illustrated in figure 2 , the timepiece 101 comprises a watch movement 103 cooperating with a display device 105. The watch movement 103 comprises a source 107 of mechanical energy formed by a barrel.

The system 109 for transmitting energy from the energy source 107 to the double resonator 111 comprises a transmission train 108 and a first distribution device 110 controlled by said double resonator 111. The first distribution device 110 comprises means 121. coupling electrostatic type formed by at least one electret 124 mounted on one of the rockers 131, 137 of the double resonator 111 and which synchronizes without contact a selectively polarized wheel cooperating with the energy source 107 via the gear train 108 formed by a train with undulating deformation.

The double resonator 111 is of the inertia-elasticity type and comprises two balance-spiral assemblies. More precisely, the double resonator comprises a first pendulum 131 cooperating with a first hairspring 133 and a second pendulum 137 cooperating with a second hairspring 139. Each pendulum-hairspring resonator is constructed to have a different frequency and is synchronized with the other. using a helical third spiral formed by a first coil spring 134 connected to the first resonator and is extended by a curve lift 135 to the second coil spring 136 which is connected to the second resonator.

The counting system 113 is mounted between the double resonator 111 and the display device 105. The counting system 113 comprises a second distribution device 112 controlled by the double resonator 111 and comprising mechanical counting means 123 which are formed by at least one driving anchor 160 cooperating with the double resonator 111 and driving a cooperating wheel 162 with the display device 105 via the metering wheel 114.

According to a second embodiment illustrated in figure 3 , the timepiece 201 comprises a watch movement 203 cooperating with a display device 205. The watch movement 203 comprises a source 207 of mechanical energy formed by a barrel.

The system 209 for transmitting energy from the energy source 207 to the resonator 211 comprises a transmission train 208 and a first distribution device 210 controlled by the resonator 211. The first distribution device 210 comprises coupling means 221. magnetic type formed by at least one permanent magnet 224 mounted on the resonator 211 synchronizing without contact a wheel 225 cooperating with the energy source 207 via the gear train 208 formed by an epicyclic gear.

The resonator 211 is of the inertia-elasticity type and is formed by a tuning fork. More specifically, the tuning fork 211 comprises two vibrating blades 250, 252 connected to a fixed base 251. Each blade 250, 252 is coupled to one of the movement distribution devices 203, 212.

The counting system 213 is mounted between the resonator 211 and the display device 205. The counting system 213 comprises a second distribution device 212 controlled by the resonator 211 and comprising means 223 for counting the mechanical type formed by at least one pawl 260 cooperating with the resonator 211 and driving a ratchet wheel 262 cooperating with the device 205 display via gear wheel 214 counting. In addition, it can also be seen that, to avoid unwanted rotation of the ratchet wheel 262, a counter-catch 261 also cooperates with the ratchet wheel 262.

According to a third embodiment illustrated in figure 4 , the timepiece 301 comprises a watch movement 303 cooperating with a display device 305. The watch movement 303 comprises a source 307 of mechanical energy formed by a barrel.

The system 309 for transmitting energy from the energy source 307 to the resonator 311 comprises only a first distribution device 310 controlled by the resonator 311, that is to say without a transmission train. The first distribution device 310 comprises means 321 for coupling the magnetic type formed by at least one permanent magnet 324 mounted on the balance 331 of the resonator 311 synchronizing without contact a wheel 325 cooperating directly with the source 307 of energy. The resonator 311 is of the inertia-elasticity type and is formed by a rocker 331 coupled to a spiral 333.

The counting system 313 is mounted between the resonator 311 and the display device 305. The counting system 313 comprises means 323 for counting the mechanical type formed by at least one Swiss-anchor type escapement mechanism 360 cooperating with the resonator 311 and driving a cooperating escape wheel 362, via the gear train 314. , with the display device 305 and a second source 316 of mechanical energy.

Finally, according to a fourth embodiment illustrated in figure 5 , the timepiece 401 comprises a watch movement 403 cooperating with a display device 405. The watch movement 403 comprises a source 407 of mechanical energy formed by a barrel.

The system 409 for transmitting energy from the source 407 of energy to the resonator 411 is inseparable from the resonator 411 in that it does not include a transmission train and in that the first distribution device 410 is embedded in the resonator 411. It is thus clear that the first distribution device 410 and the resonator 411 form a monoblock oscillator 420. To the figure 5 it can be seen that the monobloc oscillator 420 is of the Clifford type and comprises two magnetized arms 440, 442 forming a U-shaped permanent magnet 444 intended to cooperate without contact with a wheel 445 connected directly with the source 407 of energy. In addition, between the two arms 440, 442 is mounted a vibrating blade 441.

The counting system 413 is mounted between the monoblock oscillator 420 and the display device 405. The counting system 413 comprises a second distribution device 412 controlled by the oscillator 420, such as for example its vibrating plate 441, and comprising means 423 for counting the mechanical type which are formed by at least one pawl 460 cooperating with the oscillator 420 and driving a wheel ratchet 462 cooperating with the display device 405 via the counting wheel 414. In addition, it can also be seen that, to avoid unwanted rotation of the ratchet wheel 462, a counter-catch 461 also co-operates with the ratchet wheel 462.

Of course, the present invention is not limited to the examples illustrated but is susceptible of various variations and modifications that will occur to those skilled in the art. In particular, the coupling means may be of different type and in particular of the piezoelectric type. Similarly, the counting means may be of different type and in particular of the magnetic, electrostatic or piezoelectric type.

In addition, the various variants, alternatives and / or embodiments are of course combinable or subject to adaptations according to the intended applications.

Claims (27)

Timepiece (1, 101, 201, 301, 401) comprising a watch movement (3, 103, 203, 303, 403) cooperating with a display device (5, 105, 205, 305, 405), the watch movement (3, 103, 203, 303, 403) comprising a source (7, 107, 207, 307, 407) of mechanical energy and a system (9, 109, 209, 309, 409) for transmitting energy the source (7, 107, 207, 307, 407) of energy to at least one resonator (11, 111, 211, 311, 411), said energy transmission system comprising a first device (10, 110, 210, 310, 410) periodically transmitting mechanical energy from the source (7, 107, 207, 307, 407) of mechanical energy to said at least one resonator (11, 111, 211, 311, 411) by displacements of said at least one resonator (11, 111, 211, 311, 411) characterized in that the timepiece (1, 101, 201, 301, 401) further comprises a system (13, 113, 213, 313, 413) mounted between said at least one resonator (11, 1, 11, 211, 311, 411) and the display device (5, 105, 205, 305, 405), said counting system comprising a second distribution device (12, 112, 212, 312, 412) cooperating with the display device (5, 105, 205, 305, 405) and counting the movements of said at least one resonator (11, 111, 211, 311, 411) independently of said first device (10, 110, 210, 310, 410) to make the energy transmission system (9, 109, 209, 309, 409) completely independent of the metering system (13, 113, 213, 313, 413). Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the system (9, 109, 209, 309, 409) for transmitting energy comprises a gear train (8, 108, 208) mounted between the power source (7, 107, 207, 307, 407) and the first distribution device (10, 110, 210, 310, 410). Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the transmission train is formed by at least two mobile cooperating mechanically to form reduction means. Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that said at least two mobiles cooperate by friction or by meshing. Timepiece (1, 101, 201, 301, 401) according to claim 2, characterized in that the transmission train is formed by a single reduction gear. Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the single reduction gear is an epicyclic gear (208) or a train (108) with undulating deformation. Timepiece (1, 101, 201, 301, 401) according to one of the preceding claims, characterized in that the first dispensing device (10, 110, 210, 310, 410) comprises means (21, 121 , 221, 321) enabling the displacement of said at least one resonator (11, 111, 211, 311, 411) to transmit a portion of the energy of the source (7, 107, 207, 307, 407 ) of energy. Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the coupling means are of the magnetic type. Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the coupling means of the magnetic type are formed by at least one permanent magnet (224, 324) mounted on said at least one resonator (11, 111, 211, 311, 411) synchronizing without contact a wheel (225, 325) cooperating, directly or indirectly, with the source (7, 107, 207, 307, 407) of energy. Timepiece (1, 101, 201, 301, 401) according to claim 7, characterized in that the coupling means are of the electrostatic type. Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the electrostatic type coupling means are formed by at least one electret (124) mounted on said at least one resonator (11). , 111, 211, 311, 411) and contactless synchronizing a wheel (125) cooperating, directly or indirectly, with the source (7, 107, 207, 307, 407) of energy. Timepiece (1, 101, 201, 301, 401) according to claim 7, characterized in that the coupling means are formed by an escape mechanism. Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the escapement mechanism is of the Swiss anchor type, of the coaxial type or of the expansion type, the escape mechanism comprising an escape wheel which cooperates, directly or indirectly, with the source (7, 107, 207, 307, 407) of energy. Timepiece (1, 101, 201, 301, 401) according to one of the preceding claims, characterized in that said at least one resonator (11, 111, 211, 311, 411) is of the inertia-elasticity type. Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that said at least one resonator (11) of the inertia-elasticity type is a set (111, 311) rocker arm (331, 131 , 137) - hairspring (133, 139, 333), a vibrating blade (441) or a tuning fork (211). Timepiece (1, 101, 201, 301, 401) according to one of the preceding claims, characterized in that said at least one resonator (11, 111) comprises a plurality of resonators coupled together. Timepiece (1, 101, 201, 301, 401) according to one of claims 1 to 6, characterized in that the first dispensing device (10, 410) and the at least one resonator (11, 411) form a monoblock oscillator (420). Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the oscillator (420) monoblock is of the Clifford type. Timepiece (1, 101, 201, 301, 401) according to one of the preceding claims, characterized in that the counting system (13, 113, 213, 313, 413) comprises a gear train (14, 114, 214, 314, 414) mounted between the display device (5, 105, 205, 305, 405) and the second distribution device (12, 112, 212, 312, 412). Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the counting gear train (14, 114, 214, 314, 414) is formed by at least two mechanically cooperating mobiles in order to form reduction means. Timepiece (1, 101, 201, 301, 401) according to one of the preceding claims, characterized in that the second distribution device (12, 112, 212, 312, 412) comprises means (23, 123 , 223, 323, 423) for detecting the movements of said at least one resonator (11,111,211,311,411) without transmitting energy to said at least one resonator. Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the counting means (23, 123, 223, 323, 423) are of the mechanical type. Timepiece (1, 101, 201, 301, 401) according to the preceding claim, characterized in that the counting means (23, 123) of the mechanical type are formed by at least one driving anchor (160) cooperating with said at least one resonator (11, 111) and driving a wheel (162) cooperating, directly or indirectly, with the display device (5, 105, 205, 305, 405). Timepiece (1, 101, 201, 301, 401) according to claim 22, characterized in that the counting means (23, 223, 423) of the mechanical type are formed by at least one ratchet (260, 460) cooperating with said at least one resonator (11, 211, 411, 420) and driving a ratchet wheel (262, 462) co-operating, directly or indirectly, with the display device (5, 105, 205, 305, 405). Timepiece (1, 101, 201, 301, 401) according to Claim 22, characterized in that the mechanical type counting means (23, 323) are formed by at least one cooperating escapement mechanism (360). with said at least one resonator (11, 311) and driving a wheel (362) cooperating, directly or indirectly, with the display device (5, 105, 205, 305, 405) and a second source (16, 316) mechanical energy. Timepiece (1, 101, 201, 301, 401) according to one of the preceding claims, characterized in that each mechanical source of energy (7, 16, 107, 207, 307, 316, 407) comprises energy storage means by elastic deformation or by pneumatic storage. Timepiece (1, 101, 201, 301, 401) according to one of the preceding claims, characterized in that the display device (5, 105, 205, 305, 405) comprises a needle-type display and / or disc type.

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