Joining method of electric wires

What is claimed is: 1. A joining method of electric wires comprising: a holding step of arranging a conductive first conductor formed by a plurality of element wires and a conductive second conductor formed in a bar shape to be opposed to each other in an axial direction, holding an end of the first conductor by a first holding surface of a first jig electrode from an outer circumference side, and holding an end of the second conductor by a second holding surface of a second jig electrode from an outer circumference side; an approaching step of relatively moving the first jig electrode and the second jig electrode to be opposed to each other in the axial direction and moving the end of the first conductor and the end of the second conductor to be closer to each other; and a joining and molding step of abutting and joining the end of the first conductor and the end of the second conductor while heating the ends by energizing the first jig electrode and the second jig electrode and bulging a melted material outward from an outer circumferential surface of a joining portion to a bulge molding portion formed to surround the joining portion of the end of the first conductor and the end of the second conductor, wherein the bulge molding portion has molding surfaces on the first jig electrode and the second jig electrode to mold the melted material and is formed so that widths of opposing portions of the molding surfaces opposed to each other so as to sandwich the joining portion in an orthogonal direction orthogonal to the axial direction are larger than a larger one of the widths of opposing portions of the first holding surface opposed to each other so as to sandwich the first conductor in the orthogonal direction and the widths of opposing portions of the second holding surface opposed to each other so as to sandwich the second conductor in the orthogonal direction. 2. The joining method of the electric wires according to claim 1 , wherein the molding surfaces form a smooth surface around an axial direction of the melted material. 3. The joining method of the electric wires according to claim 2 , wherein the molding surfaces form the smooth surface in parallel to the axial direction and around the axial direction. 4. The joining method of the electric wires according to claim 3 , wherein the molding surfaces form the smooth surface as a columnar outer surface having a central axis in the axial direction. 5. The joining method of the electric wires according to claim 4 , wherein the molding surfaces form the smooth surface as tapered surfaces to be tapered from both ends of the outer surface in the axial direction toward the respective outer surfaces of the first conductor and the second conductor. 6. The joining method of the electric wires according to claim 5 , wherein the molding surfaces are divided into a first molding surface and a second molding surface in the axial direction, the first jig electrode is formed integrally with the first molding surface in the axial direction, and the second jig electrode is formed integrally with the second molding surface in the axial direction. 7. The joining method of the electric wires according to claim 4 , wherein the molding surfaces are divided into a first molding surface and a second molding surface in the axial direction, the first jig electrode is formed integrally with the first molding surface in the axial direction, and the second jig electrode is formed integrally with the second molding surface in the axial direction. 8. The joining method of the electric wires according to claim 3 , wherein the molding surfaces are divided into a first molding surface and a second molding surface in the axial direction, the first jig electrode is formed integrally with the first molding surface in the axial direction, and the second jig electrode is formed integrally with the second molding surface in the axial direction. 9. The joining method of the electric wires according to claim 3 , wherein the width of the molding surfaces are formed to be smaller than the smaller one of a width in the orthogonal direction of a first wiring member including the first conductor and an insulating first insulating cover portion covering a side of an outer circumference of the first conductor and a width in the orthogonal direction of a second wiring member including the second conductor and an insulating second insulating cover portion covering a side of an outer circumference of the second conductor, and a length of the molding surfaces in the axial direction is formed to be shorter than the shorter one of the width of the first wiring member in the orthogonal direction and the width of the second wiring member in the orthogonal direction. 10. The joining method of the electric wires according to claim 2 , wherein the molding surfaces form the smooth surface as a columnar outer surface having a central axis in the axial direction. 11. The joining method of the electric wires according to claim 10 , wherein the molding surfaces form the smooth surfaces as tapered surfaces to be tapered from both ends of the outer surface in the axial direction toward the respective outer surfaces of the first conductor and the second conductor. 12. The joining method of the electric wires according to claim 11 , wherein the molding surfaces are divided into a first molding surface and a second molding surface in the axial direction, the first jig electrode is formed integrally with the first molding surface in the axial direction, and the second jig electrode is formed integrally with the second molding surface in the axial direction. 13. The joining method of the electric wires according to claim 11 , wherein the width of the molding surfaces are formed to be smaller than the smaller one of a width in the orthogonal direction of a first wiring member including the first conductor and an insulating first insulating cover portion covering a side of an outer circumference of the first conductor and a width in the orthogonal direction of a second wiring member including the second conductor and an insulating second insulating cover portion covering a side of an outer circumference of the second conductor, and a length of the molding surfaces in the axial direction is formed to be shorter than the shorter one of the width of the first wiring member in the orthogonal direction and the width of the second wiring member in the orthogonal direction. 14. The joining method of the electric wires according to claim 10 , wherein the molding surfaces are divided into a first molding surface and a second molding surface in the axial direction, the first jig electrode is formed integrally with the first molding surface in the axial direction, and the second jig electrode is formed integrally with the second molding surface in the axial direction. 15. The joining method of the electric wires according to claim 10 , wherein the width of the molding surfaces are formed to be smaller than the smaller one of a width in the orthogonal direction of a first wiring member including the first conductor and an insulating first insulating cover portion covering a side of an outer circumference of the first conductor and a width in the orthogonal direction of a second wiring member including the second conductor and an insulating second insulating cover portion covering a side of an outer circumference of the second conductor, and a length of the molding surfaces in the axial direction is formed to be shorter than the shorter one of the width of the first wiring member in the orthogonal direct