Composite superconductor, and method for producing composite superconductor

The invention claimed is: 1. A method for producing a composite superconductor, comprising: a structure forming process of forming a structure including a metal covering member including at least one to-be-joined portion, a superconductor arranged inside the metal covering member, and a reinforcing member arranged between the superconductor and the at least one to-be-joined portion; and a joining process of joining thereafter the at least one to-be-joined portion, wherein the structure forming process is a process of forming the structure such that the reinforcing member and the superconductor exist on a line extended from the to-be-joined portion in a direction in which a stress is applied in the joining process, and such that both end portions of the reinforcing member are positioned at reinforcing member fixing sections formed on the metal covering member. 2. The method for producing a composite superconductor according to claim 1 , wherein the structure forming process is a process of forming a structure including the metal covering member including at least one to-be-joined portion, the superconductor arranged inside the metal covering member, the reinforcing member arranged between the superconductor and the at least one to-be-joined portion, and a filler arranged inside the metal covering member, and the method further comprises, after the joining process, a process of heating the structure in which the joining has been performed and applying pressure to the metal covering member from outside. 3. The method for producing a composite superconductor according to claim 2 , wherein a releasing hole for releasing at least one of a surplus of the filler or a gas inside the metal covering member is formed in the metal covering member. 4. The method for producing a composite superconductor according to claim 1 , wherein the joining of the at least one to-be-joined portion is performed by a friction stir welding method. 5. The method for producing a composite superconductor according to claim 4 , wherein the metal covering member is pure aluminum or an aluminum alloy, and the superconductor is a compound superconductor. 6. The method for producing a composite superconductor according to claim 5 , wherein the joining process is performed in a state in which tensile strain is applied to the superconductor. 7. The method for producing a composite superconductor according to claim 1 , wherein the superconductor is a superconducting molded twisted wire that has been obtained by twisting and molding surface-plated superconducting element wires, and a plating on a surface of the superconducting molded twisted wire has been partially removed. 8. The method for producing a composite superconductor according to claim 2 , wherein an inner surface of the metal covering member has been plated, and the superconductor is in contact with the metal covering member via a plated portion. 9. A composite superconductor comprising: a superconductor; a metal covering member which surrounds an outer periphery of the superconductor and has at least one joint portion; and a reinforcing member arranged between the joint portion and the superconductor, wherein the reinforcing member has a 0.2% proof stress that is larger than that of the metal covering member. 10. The composite superconductor according to claim 9 , wherein a reinforcing member fixing section for fixing the reinforcing member is formed on the metal covering member, and the reinforcing member is fixed on the reinforcing member fixing section. 11. The composite superconductor according to claim 9 , wherein a filler exists between the metal covering member and the superconductor. 12. The composite superconductor according to claim 9 , wherein the superconductor is a superconducting molded twisted wire formed by twisting a plurality of superconducting wires. 13. The composite superconductor according to claim 12 , wherein the superconducting wire is a compression-molded superconducting wire obtained by compression-molding a plurality of superconducting element wires arranged on an outer periphery of a core wire.