Termination for a superconductive cable

The invention claimed is: 1. Termination for a superconducting cable which is arranged in a tubular cryostat, which serves for carrying a coolant, and has at least one electrical conductor, wherein the termination comprises: has an inner sheath, in which one end of the cable is arranged in a coolant, and an outer sheath, wherein the sheaths are composed of electrically insulating material and insulating material is arranged in an existing intermediate space between the inner and the outer sheath, wherein the inner sheath is connected to the cryostat, and wherein the termination is arranged vertically in the assembly position such that a lower part of the inner and outer sheath is connected to earth and an upper part of the inner and outer sheath is connected to high-voltage potential in the operating state, wherein, at their respective upper end, the inner sheath is closed off by a first bursting disc and the outer sheath is closed off by a second bursting disc. 2. Termination according to claim 1 , wherein the insulating material which is arranged in the intermediate space is composed of a solid. 3. Termination according to claim 1 , wherein a negative pressure in relation to atmospheric pressure is generated in the intermediate space. 4. Termination for a superconducting cable which is arranged in a tubular cryostat, which serves for carrying a coolant, and has at least one electrical conductor, wherein the termination comprises: an inner sheath, in which one end of the cable is arranged in a coolant, and an outer sheath, wherein the sheaths are composed of electrically insulating material and insulating material is arranged in an existing intermediate space between the inner and the outer sheath, wherein the inner sheath is connected to the cryostat, and wherein the termination is arranged vertically in the assembly position such that a lower part of the inner and outer sheath is connected to earth and an upper part of the inner and outer sheath is connected to high-voltage potential in the operating state, wherein, at their respective upper end, the inner sheath is closed off by an inner terminating plate and the outer sheath is closed off by an outer terminating plate, wherein the at least one conductor of the cable is electrically conductively connected to the inner terminating plate and the inner terminating plate is electrically conductively connected to the outer terminating plate. 5. Termination according to claim 4 , wherein the at least one conductor of the cable is connected to the inner terminating plate by means of a plug. 6. Termination according to claim 4 , wherein the inner terminating plate is connected to the outer terminating plate by means of a plug or by means of a flexible conductor ribbon. 7. Termination according to claim 4 , wherein the at least one conductor of the cable end is electrically conductively connected to a first contact element which leads laterally to the outside. 8. Termination according to claim 4 , wherein a shielding conductor of the cable end is electrically conductively connected to a second contact element which leads laterally to the outside. 9. Termination according to claim 4 , wherein coolant is guided from that part of the termination which is connected to earth, within the said termination, into the part which is at high voltage by means of a cooling pipe which is composed of electrically insulating material. 10. Termination according to claim 9 , wherein the cooling pipe runs within the inner sheath and is arranged concentrically in relation to the said inner sheath.