Robot, system and method for electrostatic powder coating

The invention claimed is: 1. An electrostatic powdering robot for an electrostatic powder coating booth, comprising: a projector configured to perform electrostatic powdering; a robotic arm, which is articulated and carries said projector to position said projector inside the electrostatic powder coating booth, so that said projector performs electrostatic powdering of an article inside the electrostatic powder coating booth; and a blower configured to blow a powder removal fluid, said robotic arm carrying said blower to position said blower inside the electrostatic powder coating booth, so that said blower blows the powder removal fluid onto a surface to be de-powdered, inside the electrostatic powder coating booth, and thereby removes residual coating powder from the surface to be de-powdered. 2. The electrostatic powdering robot according to claim 1 , wherein said robotic arm comprises a support head, carrying said projector and said blower, so that said projector and said blower are jointly moved by said robotic arm. 3. The electrostatic powdering robot according to claim 1 , wherein said robotic arm is a poly-articulated arm, configured to position said projector and said blower with at least five degrees of freedom. 4. The electrostatic powdering robot according to claim 1 , wherein: said projector comprises a first row of electrostatic projection heads; and said blower comprises a row of blowing nozzles, arranged parallel to said first row of electrostatic projection heads. 5. The electrostatic powdering robot according to claim 4 , wherein said projector comprises a second row of electrostatic projection heads, arranged parallel to said first row of electrostatic projection heads, said row of blowing nozzles being arranged between said first row and said second row of electrostatic projection heads. 6. The electrostatic powdering robot according to claim 1 , wherein said projector comprises a powdering electrode, the electrostatic powdering comprising raising said powdering electrode to a powdering electrical potential, and wherein the electrostatic powdering robot further comprises a powder removal electrode, independent of said powdering electrode, the powder removal electrode configured to be raised to an anti-static electrical potential while said blower blows the powder removal fluid onto the surface to be de-powdered. 7. The electrostatic powdering robot according to claim 1 , wherein the powder removal fluid is air. 8. An electrostatic powdering system, comprising: an electrostatic powdering robot according to claim 1 ; and an electrostatic powder coating booth arranged so that the robotic arm of said electrostatic powdering robot can position: the projector of said electrostatic powdering robot inside said electrostatic powder coating booth, so that the projector performs the electrostatic powdering of an article inside said electrostatic powder coating booth; and the blower of said electrostatic powdering robot inside the electrostatic powder coating booth, for the blower to blow powder removal fluid onto a surface to be de-powdered inside said electrostatic powder coating booth. 9. The electrostatic powdering system according to claim 8 , further comprising a second robot according to claim 1 , arranged inside said electrostatic powder coating booth, and wherein the robotic arm of said electrostatic powdering robot is configured to position the blower of said electrostatic powdering robot so that the blower can blow the powder removal fluid onto said second robot, in order to remove powder from said second robot. 10. The electrostatic powdering system according to claim 8 , further comprising an auxiliary blower, which is positioned inside said electrostatic powder coating booth and is configured to blow powder removal fluid, wherein the robotic arm is configured to position the projector in proximity to said auxiliary blower, so that said auxiliary blower blows powder removal fluid onto the projector to remove powder from the projector. 11. The electrostatic powdering system according to claim 8 , wherein the blower is detachable from the robotic arm, the system further comprising a rack, including respective slots for spare tools including the blower, and adapted to make the blower available to the robotic arm when the blower is detached from the robotic arm, and wherein while the blower is detached from the robotic arm and made available to the robotic arm by said rack, the robotic arm is adapted to automatically equip itself with the blower at said rack so as to carry the blower in order to execute powder removal of the surface to be de-powdered. 12. An electrostatic powdering method, carried out by means of the electrostatic powdering robot according to claim 1 , comprising: electrostatically powdering an article by the projector of the electrostatic powdering robot, while the projector is positioned by the robotic arm of the electrostatic powdering robot inside an electrostatic powder coating booth; and once said electrostatically powdering has been carried out, blowing, by the blower of the electrostatic powdering robot, powder removal fluid onto a surface to be de-powdered, while the blower is positioned by the robotic arm inside the electrostatic powder coating booth, for removing residual coating powder from the surface to be de-powdered.