Electrical connection system for a wind turbine blade, wind turbine and related method

The invention claimed is: 1. An electrical connection system for a wind turbine blade which comprises: at least one set of carbon pultruded plates comprising at least, a first pultruded plate, a second pultruded plate and a third pultruded plate, the second pultruded plate being disposed above the first pultruded plate and the third pultruded plate being disposed above the second pultruded plate, wherein each one of the first, the second and the third pultruded plates comprises at least one electrically conductive region, wherein the first, the second and the third pultruded plates define a longitudinal direction of the wind turbine blade, wherein at least one of the pultruded plates comprises a central peel ply region and two distal regions adjacent to the central peel ply region, wherein the two distal regions are electrically conductive regions, and wherein the central peel ply region is a non-conductive region; at least one first inter-plate conductive sheet disposed between the first pultruded plate and the second pultruded plate; at least one second inter-plate conductive sheet disposed between the second pultruded plate and the third pultruded plate; wherein the third pultruded plate is partially disposed above the second pultruded plate and comprises at least one end followed by an end area in the longitudinal direction of the wind turbine blade; and wherein the at least one first inter-plate conductive sheet is disposed in contact with the at least one electrically conductive region of the first pultruded plate and the at least one second inter-plate conductive sheet is disposed in contact with the at least one electrically conductive region of the second pultruded plate and the third pultruded plate in areas corresponding, in a first transversal direction of the wind turbine blade being perpendicular to the longitudinal direction, to the end area of the third pultruded plate such that an electrical connection between the first pultruded plate, the second pultruded plate, and the third pultruded plate is established. 2. The electrical connection system for a wind turbine blade according to claim 1 , further comprising at least one additional inter-plate conductive sheet at least partially disposed above the third pultruded plate wherein the at least one additional inter-plate conductive sheet is disposed in contact with the at least one electrically conductive region of the third pultruded plate in the end area of the third pultruded plate. 3. The electrical connection system for a wind turbine blade according to claim 1 , wherein each of the pultruded plates comprise a respective central peel ply region and two respective distal regions adjacent to the respective central peel ply region. 4. The electrical connection system for a wind turbine blade according to claim 1 , wherein the pultruded plates comprise a central peel ply region and two distal regions adjacent to the central peel ply region, wherein the central peel ply region and the two distal regions are electrically conductive regions, wherein the central peel ply region is a sanded central peel ply region. 5. The electrical connection system for a wind turbine blade according to claim 1 , wherein the at least one first inter-plate conductive sheet and the at least one second inter-plate conductive sheet are disposed at least partially between the first pultruded plate and the second pultruded plate, and the second pultruded plate and the third pultruded plate, respectively, along a second transversal direction of the wind turbine blade being perpendicular to the longitudinal direction. 6. The electrical connection system for a wind turbine blade according to claim 2 , wherein the at least one additional inter-plate conductive sheet is also at least partially disposed above any of the first pultruded plate, the second pultruded plate or both of them. 7. The electrical connection system for a wind turbine blade according to claim 1 , wherein the end area of the third pultruded plate which follows the at least at one end is a chamfered area. 8. The electrical connection system for a wind turbine blade according to claim 1 , wherein the end area of the third pultruded plate which follows the at least at one end is a sanded planar area. 9. The electrical connection system for a wind turbine blade according to claim 7 , wherein the end area comprises a length of about or between 50 mm to 1000 mm. 10. A wind turbine comprising at least a wind turbine blade comprising the electrical bonding system according to claim 1 . 11. The electrical connection system for a wind turbine blade according to claim 7 , wherein the end area comprises a length of between 100 mm to 500 mm. 12. The electrical connection system for a wind turbine blade according to claim 1 , wherein there is physical contact between the first inter-plate conductive sheet and the second inter-plate conductive sheet. 13. The electrical connection system for a wind turbine blade according to claim 2 , wherein there is physical contact between the second inter-plate conductive sheet and the at least one additional inter-plate sheet. 14. The electrical connection system for a wind turbine blade according to claim 2 , wherein there is physical contact between the first inter-plate conductive sheet and the second inter-plate conductive sheet, and wherein there is contact between the second inter-plate conductive sheet and the at least one additional inter-plate sheet. 15. The electrical connection system for a wind turbine blade according to claim 2 , wherein each respective inter-plate conductive sheet extends downward to at least partially overlap all respective inter-plate sheets below it. 16. A method for electrically connecting conductive caps in a wind turbine blade which comprises: disposing, at least, a second pultruded plate above a first pultruded plate and a third pultruded plate above the second pultruded plate, wherein the first, the second and the third pultruded plates define a longitudinal direction of the wind turbine blade, wherein at least one of the pultruded plates comprises a central peel ply region and two distal regions adjacent to the central peel ply region, wherein the two distal regions are electrically conductive regions, and wherein the central peel ply region is a non-conductive region; disposing at least one first inter-plate conductive sheet between the first pultruded plate and the second pultruded plate; disposing a second inter-plate conductive sheet between the second pultruded plate and the third pultruded plate; wherein the disposing the third pultruded plate above the second pultruded plate is carried out partially disposing the third pultruded plate above the second pultruded plate; and wherein the method further comprises disposing in contact the at least one first inter-plate conductive sheet and the at least one second inter-plate conductive sheet with at least one conductive region of the first pultruded plate and the second pultruded plate respectively, in areas corresponding, in a first transversal direction of the wind turbine blade being perpendicular to the longitudinal direction, to an end area of the third pultruded plate such that an electrical connection between the first pultruded plate, the second pultruded plate, and the third pultruded plate is established. 17. The method for electrically connecting conductive caps in a wind turbine blade according to claim 16 , further comprising at least partially disposing at least one additional inter-plate conductive sheet above the third pultruded plate and disposing in co