Device for level measurement in a reservoir

The invention claimed is: 1. Device for level measuring for a reservoir of an inkjet printer, comprising: an electrode, which has a first end and a second end, covered, from the first end up to an intermediate level between the first end and the second end, with an electrically insulating coating, a circuit for measuring a signal which is characteristic of capacitive behaviour of the electrode and the electrically insulating coating, for a liquid level between said first end and the intermediate level and for identifying resistive behaviour of the electrode, by detecting presence of resistance between the electrode and an earth point, across the liquid, for a level of the liquid above the intermediate level, and a circuit for estimating or calculating, from said characteristic signal, a height (h) of the liquid contained in said reservoir, for a liquid level between said first end and the intermediate level, wherein the resistive behaviour of the electrode is identified by detecting that the characteristic signal has not reached a predetermined threshold value (S p ) or that a predetermined time interval has passed without the characteristic signal reaching the predetermined threshold value (S p ). 2. Device according to claim 1 , comprising: means for applying at least one current pulse to said electrode, with a characteristic signal being emitted by the electrode in response to said at least one current pulse, measuring means for measuring the time taken for said characteristic signal to reach the predetermined threshold value (S p ), in response to said at least one current pulse. 3. Device according to claim 2 , comprising: means forming a resistance arranged in series with said electrode, means for generating and applying input signals to said resistance, said measuring means allowing the time interval for said characteristic signal to reach the predetermined threshold value (S p ), in response to an input signal applied to said electrode, to be measured. 4. Device according to claim 3 , said input signals being voltage pulses or voltage steps. 5. Device according to claim 2 , said measurement means comprising a comparator for comparing an amplitude of said characteristic signal with the predetermined threshold value (S p ). 6. Device according to claim 2 , furthermore comprising means for detecting a time interval which has elapsed between a synchronous instant of a current pulse applied to said electrode and an instant at which said predetermined threshold value (S p ) is reached. 7. Device according to claim 6 , where said means for detecting a time interval which has elapsed between the synchronous instant of the current pulse applied to said electrode and the instant at which the predetermined threshold value (S p ) is reached, emit a stop signal for the current pulse. 8. Device according to claim 1 , comprising: at least a generator for applying at least one current pulse to said electrode, with a characteristic signal being emitted by the electrode in response to said at least one current pulse, at least a counter or a timer or a clock measuring the time taken for said characteristic signal to reach a predetermined threshold value (S p ), in response to said at least one current pulse. 9. Device according to claim 8 , comprising: a resistance arranged in series with said electrode, said generator applying input signals to said resistance, said counter or timer or clock allowing the time interval for said characteristic signal to reach the predetermined threshold value (S p ), in response to an input signal applied to said electrode, to be measured. 10. Device according to claim 8 , further comprising a comparator for comparing an amplitude of said characteristic signal with the predetermined threshold value (S p ). 11. Device according to claim 8 , said counter or timer or clock detecting a time interval which has elapsed between a synchronous instant of a current pulse applied to said electrode and an instant at which said predetermined threshold value is reached. 12. Device according to claim 11 , where said counter or timer or clock emitting a stop signal for the current pulse. 13. Device according to claim 1 wherein the signal which is characteristic of capacitive behaviour of the electrode is representative of a charge of a capacitance formed by a portion of the electrode located between the first end and the intermediate level, the electrically insulating coating and a liquid, when the liquid is contained in the reservoir. 14. Reservoir for ink and/or solvent, for a continuous inkjet printer (CIJ), comprising a level measurement device according to claim 1 . 15. Reservoir according to claim 14 comprising a wall at least in part made of metallic material, which is intended to be in contact with a liquid contained in the reservoir. 16. Reservoir according to claim 15 , furthermore comprising at least one contact fixed against or inserted in said part made of metallic material. 17. Continuous inkjet printer, comprising: an ink circuit and a solvent circuit, at least one of them comprising a reservoir according to claim 14 , a printing head, a hydraulic connection to bring ink to be printed from the ink circuit to the printing head and to send ink to be recovered from the printing head to the ink circuit, and an electrical connection to provide an electrical supply to said printing head. 18. Method for measuring a level of ink and/or solvent in a reservoir of a continuous inkjet printer, which implements a device according to claim 1 . 19. Device according to claim 1 , wherein the resistive behaviour of the electrode is identified by detecting a changed shape of the characteristic signal. 20. Device for level measuring for a reservoir of an inkjet printer, comprising: an electrode, which has a first end and a second end, covered, from the first end up to an intermediate level between the first end and the second end, with an electrically insulating coating, means for measuring a signal which is characteristic of capacitive behaviour of the electrode and the electrically insulating coating, for a liquid level between said first end and the intermediate level and for identifying resistive behaviour of the electrode, by detecting presence of resistance between the electrode and an earth point, across the liquid, for a level of the liquid above the intermediate level, and means for estimating or calculating, from said characteristic signal, a height of the liquid contained in said reservoir, for a liquid level between said first end and the intermediate level, wherein the resistive behaviour of the electrode is identified by detecting that the characteristic signal has not reached a predetermined threshold value (S p ) or that a predetermined time interval has passed without the characteristic signal reaching the predetermined threshold value (S p ). 21. Method for measuring a level of ink and/or solvent in a reservoir of a continuous inkjet printer (CIJ), which comprises: sending at least one current pulse to an electrode, which has a first end and an second end and which is covered from the first end up to an intermediate level between the first end and the second end with an electrically insulating coating, where the electrode and the electrically insulating coating has a capacitive behaviour for a level of liquid between said first end and the intermediate level, and the electrode has a resistive behaviour beyond the intermediate level, the measurement, in