High-voltage apparatus and method for producing same

The invention claimed is: 1. A high-voltage device, comprising: an internal conductor; an insulating body surrounding said internal conductor along a longitudinal direction, said insulating body including: insulating layers configured from a synthetic material that is impregnated with a resin; and electrically conductive control inserts for providing field control, said electrically conductive control inserts being disposed in a concentric manner around said internal conductor and being spaced apart from one another by means of said insulating layers, at least one of said control inserts is a conductive base layer; and a contact-making device, at least one of said control inserts is a contact insert that is connected in an electric manner to said internal conductor by means of said contact-making device, said contact-making device having a contact element configured from an electrically conductive material that is connected in an electrical manner to said contact insert, said contact element being fixed by means of an adhesive to said conductive base layer being in electrical contact with said internal conductor. 2. The high-voltage device according to claim 1 , wherein said contact element has a first contact piece and a flexible second contact piece that is connected to said first contact piece, wherein said first contact piece is fixed to said conductive base layer and said flexible second contact piece is in electrical contact with said contact insert. 3. The high-voltage device according to claim 2 , wherein said first contact piece is a planar piece that is configured from tin-plated copper. 4. The high-voltage device according to claim 3 , wherein said first contact piece is edged on said conductive base layer by means of said adhesive. 5. The high-voltage device according to claim 2 , wherein said flexible second contact piece is a metal band. 6. . The high-voltage device according to claim 1 , wherein said conductive base layer is an outer surface of said internal conductor. 7. The high-voltage device according to claim 1 , wherein: said contact-making device has a further contact element; and said conductive base layer is a first control insert that is connected in an electrical manner to said internal conductor by means of said further contact element of said contact-making device. 8. The high-voltage device according to claim 1 , wherein said synthetic material is a non-woven synthetic material. 9. The high-voltage device according to claim 8 , wherein said non-woven synthetic material contains polyester. 10. A method for producing a high-voltage device, which comprises the steps of: providing an internal conductor as a winding carrier; winding insulating layers formed of a synthetic material around the winding carrier in an alternating manner with conductive control inserts so as to provide field control, with a result that an insulating body surrounding the internal conductor is formed, wherein one of the conductive control inserts is a contact insert that is connected in an electrical manner to the internal conductor; fixing an at least in part flexible contact element configured from a conductive material by means of an adhesive onto a base layer that is in electrical contact with the internal conductor, and conjointly wound; prior to the winding of the contact insert an opening is provided in the insulating body, wherein the flexible contact element is unfurled through the opening; and subsequently producing an electrical connection between the contact element and the contact insert by virtue of the winding of the contact insert. 11. The method according to claim 10 , which further comprises filling the opening with an insulating material prior to the winding of the contact insert. 12. The method according to claim 10 , which further comprises impregnating a wound insulating body with a resin.