Stator core having convex protruding portion coinciding with adjacent coils

The invention claimed is: 1. A motor comprising: a stationary portion; and a rotating portion supported to be rotatable about a central axis with respect to the stationary portion; wherein the stationary portion includes: a stator core including a core back having an annular shape, and a plurality of teeth extending radially inward from the core back; insulators, each of which is attached to a separate one of the teeth; and coils, each of which is defined by a conducting wire wound around a separate one of the insulators; a radially inner end portion of each tooth is arranged to have a circumferential width substantially equal to or smaller than a circumferential width of a remaining portion of the tooth; the core back includes, between adjacent ones of the teeth: a protruding portion that protrudes radially inward; a cut that extends radially outward from the protruding portion; and a through hole that extends in an axial direction through the core back, and is defined at a radially outer end portion of the cut; the protruding portion is arranged to locally increase a radial dimension of the core back; the core back includes circular or substantially circular arc portions, each of which is arranged between the protruding portion and a separate one of the teeth adjacent to the protruding portion; an inner circumferential surface of the through hole includes: a first curved surface having a center of curvature in the through hole; and a second curved surface arranged radially inward of the first curved surface, and having a center of curvature outside of the through hole; the core back includes a circumferentially continuous joint portion arranged on a radially outer side of the through hole; and Dc+Dd≦Da≦Db/ 2 where Da is a radial dimension of the protruding portion, Db is a radial dimension of the circular arc portion, Dc is a radial dimension of the first curved surface Dd, and is a radial dimension of the joint portion. 2. The motor according to claim 1 , wherein the core back includes circular arc portions, each of which is arranged between the protruding portion and a separate one of the teeth adjacent to the protruding portion; and a portion of the core back which coincides with the through hole when viewed in a radial direction has a total radial dimension equal to or greater than a radial dimension of the circular arc portion, and the total radial dimension does not include a radial dimension of the through hole. 3. The motor according to claim 1 , wherein Dc≦Da≦Db/ 2. 4. The motor according to claim 1 , wherein Dc+Dd+De≦Da≦Db/ 2 where De is a radial dimension of the second curved surface. 5. The motor according to claim 1 , wherein the protruding portion has a convex shape; a portion of the protruding portion is arranged to coincide with at least a portion of each of the coils adjacent to the protruding portion when viewed in a radial direction; and the protruding portion is arranged to coincide with at least a portion of each of the coils adjacent to the protruding portion when viewed in a circumferential direction. 6. The motor according to claim 2 , wherein the protruding portion has a convex shape; a portion of the protruding portion is arranged to coincide with at least a portion of each of the coils adjacent to the protruding portion when viewed in the radial direction; and the protruding portion is arranged to coincide with at least a portion of each of the coils adjacent to the protruding portion when viewed in a circumferential direction. 7. The motor according to claim 3 , wherein the protruding portion has a convex shape; a portion of the protruding portion is arranged to coincide with at least a portion of each of the coils adjacent to the protruding portion when viewed in a radial direction; and the protruding portion is arranged to coincide with at least a portion of each of the coils adjacent to the protruding portion when viewed in a circumferential direction. 8. The motor according to claim 4 , wherein the protruding portion has a convex shape; a portion of the protruding portion is arranged to coincide with at least a portion of each of the coils adjacent to the protruding portion when viewed in a radial direction; and the protruding portion is arranged to coincide with at least a portion of each of the coils adjacent to the protruding portion when viewed in a circumferential direction. 9. The motor according to claim 5 , wherein a circumferential width of a portion of each of the coils which is located radially inward of the protruding portion is arranged to gradually decrease with decreasing distance from the central axis; and a circumferential width of a portion of each of the coils which coincides with the protruding portion when viewed in the circumferential direction is arranged to gradually decrease with increasing distance from the central axis. 10. The motor according to claim 6 , wherein a circumferential width of a portion of each of the coils which is located radially inward of the protruding portion is arranged to gradually decrease with decreasing distance from the central axis; and a circumferential width of a portion of each of the coils which coincides with the protruding portion when viewed in the circumferential direction is arranged to gradually decrease with increasing distance from the central axis. 11. The motor according to claim 7 , wherein a circumferential width of a portion of each of the coils which is located radially inward of the protruding portion is arranged to gradually decrease with decreasing distance from the central axis; and a circumferential width of a portion of each of the coils which coincides with the protruding portion when viewed in the circumferential direction is arranged to gradually decrease with increasing distance from the central axis. 12. The motor according to claim 8 , wherein a circumferential width of a portion of each of the coils which is located radially inward of the protruding portion is arranged to gradually decrease with decreasing distance from the central axis; and a circumferential width of a portion of each of the coils which coincides with the protruding portion when viewed in the circumferential direction is arranged to gradually decrease with increasing distance from the central axis. 13. The motor according to claim 12 , wherein a surface of the protruding portion is a curved surface. 14. The motor according to claim 9 , wherein at least some turns of the conducting wire are arranged to have hexagonal cross-sections on circumferential sides of each of the teeth. 15. The motor according to claim 13 , wherein at least some turns of the conducting wire are arranged to have hexagonal cross-sections on circumferential sides of each of the teeth. 16. A method of manufacturing the motor of claim 1 , the method comprising the steps of: a) winding the conducting wire around a spool to define each coil; b) attaching each coil and each insulator to a corresponding one of the teeth; and c) bending the core back into the annular shape. 17. A method of manufacturing the motor of claim 15 , the method comprising the steps of: a) winding the conducting wire around a spool to define each coil; b) attaching each coil and each insulator to a corresponding one of the teeth; and c) bending the core back into the annular shape; wherein in step a), the conducting wire is wound around the spool to assume a shape of a coil, the spool being made of a metal, and thereafter the conducting wire in the