Timepiece comprising a mechanical movement whose rate is regulated by an electronic device

The invention claimed is: 1. A timepiece comprising a mechanical timepiece movement, provided with a mechanical oscillator formed by a balance and a balance spring and arranged to set the rate of the timepiece movement, and a regulating device for regulating the frequency of the mechanical oscillator, said regulating device including an auxiliary time base, formed by an auxiliary oscillator and providing a reference frequency signal, and a device for measuring a time deviation in the rate of the timepiece movement with respect to a desired frequency of the mechanical oscillator which is determined by the auxiliary time base, the balance spring being at least partially formed by a piezoelectric material and by at least two electrodes arranged to be able to have therebetween a voltage induced by said piezoelectric material when the latter is subjected to mechanical stress during an oscillation of the mechanical oscillator, the two electrodes being electrically connected to the regulating device which is arranged to be able to vary the impedance of the regulating system, formed by said piezoelectric material, said at least two electrodes and the regulating device, as a function of a time deviation measurement signal provided by the measuring device; wherein said regulating device is arranged to be able to momentarily vary the electrical resistance produced by said regulating device between said two electrodes, the regulating device being arranged to be able to produce time-separated regulating pulses, each consisting of a momentary decrease in said electrical resistance relative to a nominal electrical resistance which is produced by the regulating device between said two electrodes outside said regulating pulses, each of said regulating pulses producing a variation of rate in the mechanical movement which varies as a function of the moment of starting thereof in a half-period of the mechanical oscillator, the characteristic function of said variation of rate relative to said moment of starting of at least one of said regulating pulses respectively in at least one half-period of the mechanical oscillator being negative in a first temporal part of said at least one half-period and positive in a second temporal part of said at least one half-period; and wherein the regulating device is arranged to be able to determine whether a time deviation measured by the measuring device corresponds to at least some gain or to at least some loss, the regulating device being arranged to produce at least one of said regulating pulses with a selectively arranged start, depending on whether the measured time deviation corresponds to said at least some gain or to said at least some loss, in said first temporal part or in said second temporal part respectively of at least one half-period of the mechanical oscillator. 2. The timepiece according to claim 1 , wherein said regulating pulses each have a duration less than a quarter of the desired period which is equal to the inverse of said desired frequency. 3. The timepiece according to claim 1 , wherein the duration of said regulating pulses is less than or equal to one tenth of a desired period; and wherein the regulating device is arranged to produce at least one of said regulating pulses with a selectively arranged start, depending on whether the measured time deviation corresponds to said at least some gain or to said at least some loss, in a first interval within said first temporal part and wherein said variation of rate given by said characteristic function is greater, in absolute value, than at least half of a maximum variation of rate of said characteristic function in the first temporal part or in a second time interval within said second temporal part and wherein the variation of rate given by said characteristic function is greater than at least half of a maximum variation of rate of said characteristic function in the second temporal part. 4. The timepiece according to claim 3 , wherein said regulating device comprises a switch arranged between the two balance spring electrodes, said switch being controlled by a control logic circuit, which is arranged to momentarily close said switch during said regulating pulses in order to turn on/make conductive said switch, said regulating pulses then generating short circuit pulses. 5. The timepiece according to claim 1 , wherein said regulating device comprises a switch arranged between the two balance spring electrodes, said switch being controlled by a control logic circuit, which is arranged to momentarily close said switch during said regulating pulses in order to turn on/make conductive said switch, said regulating pulses then generating short circuit pulses. 6. The timepiece according to claim 1 , wherein said balance spring comprises a central silicon body, a silicon oxide layer deposited at the surface of said central body for temperature compensation of the balance spring, a conductive layer deposited on the silicon oxide layer, and said piezoelectric material deposited in the form of a piezoelectric layer on said conductive layer, said two electrodes being arranged on the piezoelectric layer respectively on the two lateral sides of the balance spring. 7. The timepiece according to claim 6 , wherein first and second parts of the piezoelectric layer, which extend respectively on the two lateral sides of said central body have respective crystallographic structures which are symmetrical with respect to a median plane parallel to said two lateral sides; and wherein said conductive layer forms a single same internal electrode which extends over the two lateral sides of the central body, said internal electrode having no electrical connection of its own to the regulating device. 8. The timepiece according to claim 7 , wherein said piezoelectric layer consists of an aluminium nitride crystal formed by crystal growth perpendicular to said conductive layer and from said conductive layer.