Cable fitting for connecting a high-voltage cable to a high-voltage component

The invention claimed is: 1. A cable fitting for connecting a high-voltage cable, having a cable conductor and a cable insulating, which encases the cable conductor, to a high-voltage component, the fitting comprising: coaxially arranged around an axis a rigid conical insulator, an electrically insulating, elastomeric stress-relief cone matching the rigid conical insulator through a conical interface and an axially aligned current path which connects the cable conductor to a high-voltage current terminal arranged on top of the rigid conical insulator and provided for connection to the high-voltage component, wherein the rigid conical insulator is configured as a condenser core and comprises a plurality of electrically conductive field-grading layers which are arranged concentrically around the axis and a rigid polymeric matrix which embeds the field-grading layers, wherein a section of the cable conductor, which is stripped-off a cable insulation, extends from the conical interface to the high-voltage current terminal and forms the current path, and the condenser core comprises an axially aligned tubular duct which receives the stripped-off section of the cable conductor and which passes two opposing front faces of the condenser core. 2. The cable fitting according to claim 1 , wherein the cable conductor is a conductor of segmented type. 3. The cable fitting according to claim 1 , wherein a gap in the tubular duct between an outer surface of the cable conductor and an inner surface of the condenser core is filled with an electrically insulating, thermally conductive material. 4. The cable fitting according to claim 3 , wherein the thermally conductive material comprises at least one of a solid, a powder or a gel. 5. The cable fitting according to claim 4 , wherein the solid material comprises at least a hardened resin or an elastomer. 6. The cable fitting according to claim 5 , wherein the hardened resin or the elastomer comprises a thermally conductive filler. 7. The cable fitting according to claim 4 , wherein the powder material comprises at least one of a silica sand, or a metallic powder comprising metal grains or spheres. 8. The cable fitting according to claim 4 , wherein the gel material comprises at least one of a silicone gel or a polyurethane gel. 9. The cable fitting according to claim 1 , wherein the condenser core comprises an electrically conductive central tube which forms an outer surface of the tubular duct, and the high-voltage current terminal is fixedly secured to a top end of the central tube and is electrically connected to a free end of the stripped-off section of the cable conductor. 10. The cable fitting according to claim 9 , wherein the central tube is electrically connected to an innermost of the plurality of field-grading layers. 11. The cable fitting according to claim 10 , wherein the central tube runs down from the high-voltage current terminal at most to an upper edge of the innermost field-grading layer. 12. The cable fitting according to claim 1 , wherein an external insulator is molded directly around an outer surface of the condenser core. 13. The cable fitting according to claim 1 , wherein the condenser core comprises a sheet-like net-shaped spacer, which is wound in spiral form around the axis, each of the plurality of field grading elements is inserted between successive windings of the spacer, and the polymeric matrix penetrates the spacer and embeds the spacer and the field-grading layers. 14. The cable fitting according to claim 1 , wherein the rigid polymer matrix comprises a hardened epoxy resin comprising an inorganic filler. 15. The cable fitting according to claim 1 , wherein the elastomeric stress-relief cone is part of a stress-relief element, the stress-relief element comprises the elastomeric stress-relief cone and a housing which encloses the elastomeric stress-relief cone, an upper part of the housing on one side comprises a first opening, which receives a conical lower end of the condenser core, and on another side is fixedly secured to a mounting flange supporting the condenser core, and a lower part of the housing comprises a second opening, which receives a section of the high-voltage cable and a cable clamp, which fixes the cable to the housing. 16. The cable fitting according to claim 15 , wherein the elastomeric stress-relief cone comprises coaxially arranged an elastomeric insulator and a deflector. 17. The cable fitting according to claim 15 , wherein a gap in the tubular duct between an outer surface of the cable conductor and an inner surface of the condenser core is filled with an electrically insulating, thermally conductive material. 18. The cable fitting according to claim 5 , wherein the solid material comprises the hardened resin on the basis of an epoxy, a polyester or a polyurethane, or the elastomer on the basis of a silicone or a polyurethane. 19. The cable fitting according to claim 6 , wherein the thermally conductive filler comprises one of a powder including a mineral, a metal, a nitride, fibres, or nanotubes. 20. The cable fitting according to claim 16 , wherein the conical interface comprises an outer cone of the condenser core, and further comprising a connector shield which surrounds an end section of the cable insulation and an end section of the outer cone of the condenser core at a joint between these two end sections. 21. The cable fitting according to claim 19 , wherein the thermally conductive filler comprises one of the powder including copper or aluminum, silicon or boron nitride, carbon fibres or nanofibers. 22. The cable fitting according to claim 16 , wherein a gap in the tubular duct between an outer surface of the cable conductor and an inner surface of the condenser core is filled with an electrically insulating, thermally conductive material.