Basket-type rotor production method and basket-type rotor

The invention claimed is: 1. A squirrel-cage rotor manufacturing method, comprising: punching a steel sheet to cut out a rotor slot; punching the steel sheet at a radially outer part of the rotor slot to form a closing portion; arranging the closing portion at the radially outer part of the rotor slot that was punched out of the steel sheet at the radially outer part of the rotor slot; arranging, through die-casting, a conductor into the rotor slot formed along a radially outer part of a rotor core; and performing the die-casting under a state in which the radially outer part of the rotor slot is closed with the closing portion that was punched out of the steel sheet and is made of the same material as a material of the rotor core. 2. A squirrel-cage rotor manufacturing method according to claim 1 , further comprising: forming the closing portion so that a circumferential width of the closing portion increases from a radially inner side toward a radially outer side. 3. A squirrel-cage rotor manufacturing method according to claim 1 , further comprising: forming the closing portion to include protruding portions that protrude towards a circumferentially outer side or recessed portions that retract towards a circumferentially inner side. 4. A squirrel-cage rotor manufacturing method according to claim 1 , wherein the closing portion comprises a plurality of closing sheets laminated in an axial direction of a squirrel-cage rotor, and wherein the die-casting is performed under a state in which the plurality of closing sheets laminated in the axial direction are coupled to each other. 5. A squirrel-cage rotor manufacturing method according to claim 1 , further comprising: forming the closing portion to include a wide portion having a circumferential width larger than a circumferential width of a radially outer part of the rotor slot; and the performing the die-casting is performed under a state in which the wide portion is held in surface contact with an outer peripheral surface of the rotor core from the radially outer side. 6. A squirrel-cage rotor manufacturing method according to claim 1 , further comprising: forming the closing portion so that a circumferential width of the closing portion decreases from a radially inner side toward a radially outer side. 7. A squirrel-cage rotor manufacturing method according to claim 1 , further comprising: forming recessed portions that are recessed to a circumferentially inner side. 8. A squirrel-cage rotor, comprising: a rotor core comprising: a plurality of rotor core sheets that are laminated in an axial direction of the squirrel-cage rotor; and a rotor slot formed along a radially outer part of the rotor core; and a conductor formed at a radially inner part of the rotor slot, wherein a surface of the conductor, which is exposed on a radially outer side, includes a plurality of projections from the conductor formed at positions along a direction of the lamination surfaces of the plurality of rotor core sheets and separated from each other along the axial direction of the squirrel-cage rotor, and the lamination surfaces are between the plurality of rotor core sheets. 9. A squirrel-cage rotor according to claim 8 , wherein the rotor core comprises a plurality of rotor teeth arranged side by side in a circumferential direction of the rotor core, wherein the rotor slot is formed of adjacent two of the plurality of rotor teeth along the radially outer part of the rotor core, wherein the plurality of rotor teeth each comprises, at both circumferential end portions thereof: flange portions formed so as to protrude to a circumferentially outer side and to be uniform in circumferential width from a radially inner side toward the radially outer side; or flange portions formed so as to protrude to the circumferentially outer side and to be increased in circumferential width from the radially inner side toward the radially outer side; wherein at least two of the plurality of rotor core sheets are laminated in the axial direction so that all central axes of the plurality of rotor teeth of one of the at least two of the plurality of rotor core sheets, and all central axes of the plurality of rotor teeth of another of the at least two of the plurality of rotor core sheets, are shifted in the circumferential direction with respect to each other, and wherein the rotor slot is formed so as to pass through the rotor core in the axial direction. 10. A squirrel-cage rotor according to claim 8 , wherein a surface of the rotor core, which forms the rotor slot, includes a projection formed on the radially outer side with respect to the conductor. 11. A squirrel-cage rotor, comprising: a rotor core comprising: a plurality of rotor core sheets that are laminated in an axial direction of the squirrel-cage rotor; and a rotor slot formed along a radially outer part of the rotor core; and a conductor formed at a radially inner part of the rotor slot, wherein a surface of the conductor, which is exposed on a radially outer side, comprises: first surfaces including positions along lamination surfaces of the plurality of rotor core sheets, second surfaces each arranged between a different pair of first surfaces, and having different surface roughness from the first surfaces, and the first surfaces and the second surfaces being arranged alternately along the axial direction. 12. A squirrel-cage rotor according to claim 11 , wherein the surface roughness of the first surfaces is higher than the surface roughness of the second surfaces.