Device for measuring overflow from a gutter of a print head of an ink jet printer

The invention claimed is: 1. Print head of a continuous ink jet printer comprising, in a cover: at least one nozzle for ejecting at least one fluid jet in a jet direction; at least one electrode for separating drops or sections of the at least one fluid jet, intended for printing, from drops or sections not intended for printing; a slot, open to the outside of the print head and enabling the drops or sections intended for printing to get out; a recovery gutter, for recovering the drops or sections not intended for printing, said recovery gutter comprising a recovery volume; at least one conductive detection element, arranged inside the print head: against an interior surface of the cover; against a surface of the recovery gutter, exterior to the recovery volume, said at least one conductive element being able to receive overflows of fluid from the recovery gutter; or at a distance from the recovery gutter in the jet direction; and a detector of a variation in impedance of said at least one conductive detection element, when charged or non-charged fluid is present in contact therewith or with a dielectric layer in contact therewith. 2. Print head according to claim 1 , at least one of said conductive detection element forming a resistive impedance. 3. Print head according to claim 2 , comprising a voltage supply to the terminals of said at least one conductive detection element, a variation in this voltage translating a variation in impedance of said at least one conductive detection element. 4. Print head according to claim 1 , said at least one conductive detection element forming, with another conductive element, a capacitive impedance. 5. Print head according to claim 4 , comprising a supply voltage to the terminals of said capacitive impedance, a variation in this voltage translating a variation in impedance of said capacitive impedance. 6. Print head according to claim 1 , the recovery gutter further comprising at least one further conductive element for identifying the presence of fluid in the recovery gutter, said further conductive element being mounted in parallel with said at least one conductive detection element. 7. Print head according to claim 1 , comprising wherein the at least one conductive detection element comprises multiple conductive detection elements, and the print head includes a voltage supply to supply each of the multiple conductive detection elements with a different voltage in amplitude and/or in frequency. 8. Print head according to claim 7 , said detector making it possible to localise at least one of said multiple conductive detection elements of which the impedance varies. 9. Print head according to claim 1 , said interior surface of the print head against which at least one conductive detection element is arranged being: made of a non-electrically conducting material; or being made of an electrically conducting material, said conductive detection element being arranged against a non-electrically conducting layer, itself arranged against or in said surface or arranged in one or several housings formed in said surface. 10. Print head according to claim 1 , further comprising a motor moving the recovery gutter in the print head and an electrical contact detector detecting a position of the recovery gutter. 11. Print head according to claim 10 , the electrical contact detector comprising at least one first conductive element, fixed with respect to the print head, which comes, in a 1st position of the recovery gutter, into contact with at least one conductive element, fixed with respect to the recovery gutter. 12. Print head according to claim 11 , comprising: at least one third conductive element, fixed with respect to the recovery gutter, which comes, in a 2nd position of the recovery gutter, different from said 1st position, into contact with at least one first conductive element, fixed with respect to the print head; and/or at least one second conductive element, connected to a detector of a variation in impedance when fluid is present in contact with said at least one conductive detection element or with a dielectric layer in contact therewith. 13. Print head according to claim 12 , comprising a switch switching at least one second conductive element which is fixed with respect to the recovery gutter, either as conductive element for detecting the position of the recovery gutter, or as conductive detection element for detecting the presence of fluid in contact with said second conductive element or with a dielectric layer in contact therewith. 14. Print head according to claim 1 , comprising n nozzles for producing n fluid jets, with n=1 or n>1. 15. Print head according to claim 1 , wherein the at least one conductive detection element is arranged against the interior surface of the cover. 16. Print head according to claim 1 , wherein the at least one conductive detection element is arranged at the distance from the recovery gutter in the jet direction. 17. Print head of a continuous ink jet printer comprising, in a cover: at least one nozzle for producing at least one fluid jet; at least one electrode for separating drops or sections of the at least one fluid jet, intended for printing, from drops or sections not intended for printing; a slot, open to the outside of the print head and enabling the drops or sections intended for printing to get out; a recovery gutter, for recovering the drops or sections not intended for printing, said recovery gutter comprising a recovery volume; a plurality of conductive detection elements, wherein each conductive detection element is arranged inside the print head: against an interior surface of the cover; against a surface of the recovery gutter, exterior to the recovery volume, such that the conductive detection element is able to receive overflows of fluid from the recovery gutter; or at a distance from the recovery gutter, between said recovery gutter and the cover or between said recovery gutter and the at least one nozzle; a detector of a variation in impedance of said plurality of conductive detection elements, when charged or non-charged fluid is present in contact therewith or with a dielectric layer in contact therewith; and a voltage supply to supply each of the plurality of conductive detection elements with a different voltage in amplitude and/or in frequency.