Electrode for an electric-energy storage system with collector including a protective conductive layer and corresponding manufacturing method

The invention claimed is: 1. A conductive electrode, comprising: a metal current collector; an active material, said metal current collector comprising at least one conductive protective layer, which is leaktight to electrolytes and which is placed between said metal current collector and said active material, said conductive protective layer comprising: a polymer or copolymer binder comprising at least 50% of vinyl chloride unit, a crosslinked elastomer, at least one agent for crosslinking said crosslinked elastomer, and conductive fillers; and a primer layer placed between the metal current collector and the conductive protective layer, said primer layer comprising a water-dispersible binder and conductive fillers; wherein proportions of different components of the primer layer are: from 60% to 70% of the water-dispersible binder, and from 30% to 40% of the conductive fillers, as remainder in order to achieve a total of 100% by weight of dry matter. 2. The conductive electrode of claim 1 , wherein the proportions of the different components of the conductive protective layer are: from 10% to 50% of the polymer or copolymer binder comprising at least 50% of vinyl chloride unit, from 10% to 50% of the crosslinked elastomer, from 0.2% to 5% of the at least one agent for crosslinking said crosslinked elastomer, and from 25% to 50% of conductive fillers, as remainder in order to achieve a total of 100% by weight of dry matter. 3. The conductive electrode of claim 1 , wherein the polymer or copolymer binder comprising at least 50% of vinyl chloride unit is a copolymer comprising vinyl chloride and/or vinyl acetate units and/or carboxylic acid groups. 4. The conductive electrode of claim 3 , wherein the copolymer comprising vinyl chloride and/or vinyl acetate units and/or carboxylic acid groups is crosslinked, and wherein the conductive protective layer additionally comprises: an agent for crosslinking said copolymer comprising vinyl chloride and/or vinyl acetate units and/or carboxylic acid groups, and a crosslinking catalyst. 5. The conductive electrode of claim 4 , wherein the proportion of the agent for crosslinking said copolymer comprising vinyl chloride and/or vinyl acetate units and/or carboxylic acid groups in the protective layer is from 2% to 8%, as remainder in order to achieve a total of 100% by weight of dry matter, and the proportion of the crosslinking catalyst is from 1% to 2%, as remainder in order to achieve a total of 100% by weight of dry matter. 6. The conductive electrode of claim 4 , wherein the agent for crosslinking said copolymer comprising vinyl chloride and/or vinyl acetate units and/or carboxylic acid groups is a mixture of methoxymethyl- and ethoxymethylbenzoguanamine. 7. The conductive electrode of claim 4 , wherein the crosslinking catalyst is an acid catalyst blocked by an amine. 8. The conductive electrode of claim 1 , wherein the polymer or copolymer binder comprising at least 50% of vinyl chloride unit is a polyvinyl chloride. 9. The conductive electrode claim 1 , wherein the crosslinked elastomer is a hydrogenated butadiene/acrylonitrile copolymer. 10. The conductive electrode claim 1 , wherein the conductive protective layer additionally comprises an additive for adhesion to the current collector in a proportion of 2% to 7%, as remainder in order to achieve a total of 100% by weight of dry matter. 11. The conductive electrode of claim 1 , wherein the water-dispersible binder is a polyurethane latex or a polyurethane/polycarbonate latex. 12. The conductive electrode claim 1 , wherein a thickness of the primer layer is between 5 and 20 micrometers. 13. The conductive electrode of claim 1 , wherein the conductive fillers are chosen from carbon black and/or graphite and/or carbon nanotubes. 14. The conductive electrode of claim 1 , wherein a thickness of the conductive protective layer is between 5 and 30 micrometers. 15. A process for the manufacture of a conductive electrode having an aqueous electrolyte solution, said electrode comprising a metal current collector, at least one conductive protective layer, which is leaktight to electrolytes, and a layer of active material, said process comprising: preparing a protective composition comprising from 10% to 50% of a polymer or copolymer binder comprising at least 50% of vinyl chloride unit, from 10% to 50% of a crosslinked elastomer, from 0.2% to 5% of at least one agent for crosslinking said crosslinked elastomer and from 25% to 50% of conductive fillers, as remainder in order to achieve a total of 100% by weight of dry matter, which are diluted in a solvent in order to achieve a proportion of 20% to 25%; preparing a primer composition comprising from 60% to 70% of water-dispersible binder and from 30% to 40% of conductive fillers, as remainder in order to achieve a total of 100% by weight of dry matter, diluted in an aqueous solvent; depositing said primer composition on the metal current collector; drying of the metal current collector; depositing said protective composition on the metal current collector; performing a first heat treatment of the covered metal current collector at a temperature lower than a boiling point of the solvent; performing a second heat treatment of the covered metal current collector at a temperature greater than a glass transition temperature of the binder comprising at least 50% of vinyl chloride unit and greater than the boiling point of the solvent, said second heat treatment temperature being lower than a decomposition temperature of said binder; and preparing and depositing the layer of active material on the conductive protective layer. 16. The manufacturing process of claim 15 , wherein the polymer or copolymer binder comprising at least 50% of vinyl chloride unit is a copolymer comprising vinyl chloride and/or vinyl acetate units and/or carboxylic acid groups. 17. The manufacturing process of claim 16 , wherein the protective composition additionally comprises: from 2% to 8% of an agent for crosslinking the copolymer comprising vinyl chloride and/or vinyl acetate units and/or carboxylic acid groups; and from 1% to 2% of a crosslinking catalyst, as remainder in order to achieve a total of 100% by weight of dry matter before dilution in the solvent. 18. The manufacturing process of claim 17 , wherein the agent for crosslinking said copolymer comprising vinyl chloride and/or vinyl acetate units and/or carboxylic acid groups is a mixture of methoxymethyl- and ethoxymethylbenzoguanamine. 19. The manufacturing process of claim 17 , wherein the crosslinking catalyst is an acid catalyst blocked by an amine. 20. The manufacturing process of claim 15 , wherein the polymer or copolymer binder comprising at least 50% of vinyl chloride unit is a polyvinyl chloride. 21. The manufacturing process of claim 15 , wherein the crosslinked elastomer is a hydrogenated butadiene/acrylonitrile copolymer. 22. The manufacturing process of claim 21 , wherein the protective composition additionally comprises an additive for adhesion to the current collector in a proportion of 2% to 7%, as remainder in order to achieve a total of 100% by weight of dry matter before dilution in the solvent. 23. The manufacturing process claim 15 , wherein the conductive fillers are chosen from carbon black and/or graphite and/or carbon nanotubes. 24. The manufacturing process of claim 15 , wherein the deposition of th