Anode for cathodic protection

The invention claimed is: 1. Anode for cathodic protection, comprising a prefabricated composite strip comprising a conductive element co-laminated or mechanically interlocked to an insulating polymer element and continuously integral therewith, said conductive element comprising a metal substrate provided with a superficial catalytic coating, wherein the insulating polymer element comprises a pair of rails accommodating or enclosing the edges of said conductive element and a foldable structure suitable for accommodating the metal substrate in its interior. 2. The anode according to claim 1 , the metal substrate comprising a titanium mesh or a solid, punched or expanded sheet and the catalyst comprising noble metals or oxides thereof. 3. The anode according to claim 1 , wherein the metal substrate and the insulating polymer element are juxtaposed along their whole length and the insulating polymer element is equipped with a multiplicity of holes or openings. 4. The anode according to claim 1 , wherein the foldable structure is provided with removable fastening means for keeping the same in the folded position. 5. The anode according to claim 1 , wherein the insulating polymer element is equipped with a multiplicity of concave parts suitable for matching the profile of a multiplicity of reinforcement bars of an armed concrete structure. 6. The anode according to claim 1 , wherein the insulating polymer element is colored or luminescent. 7. The anode according to claim 1 , wherein the insulating polymer element is magnetic. 8. A cathodic protection system comprising at least one anode according to claim 1 embedded in a cementitious structure provided with metal reinforcement bars, the anode being in direct contact with the metal bars only in correspondence of an insulating polymer element. 9. Method of installation of a cathodic protection system comprising at least one anode according to claim 1 embedded in a cementitious structure provided with metal reinforcement bars, the anode being in direct contact with the metal bars only in correspondence of an insulating polymer element, the method comprising: laying down an anode in the form of composite strip on a multiplicity of metal reinforcement bars putting the anode in contact with the bars only through an insulating polymer element, with optional housing of concave parts of the insulating polymer element in correspondence of the bars; and pouring of liquid concrete over the metal bars covered with the anode in form of strip and subsequent consolidation of the cementitious structure. 10. The method according to claim 9 , wherein the step of laying down of the anode is carried out by unwinding the anode in form of strip rolled into a coil.