Rotating electric machine having air core coil with curved end surfaces

What is claimed is: 1. A rotating electric machine comprising a rotor and a stator, comprising: a stator core comprising a teeth part; and an air core coil fitted to the teeth part, the air core coil comprising curved end surfaces configured to approximately define a part of cylindrical shape at inner radial side and outer radial side, the air core coil comprising approximately flat end surfaces at both circumferential sides and both axial sides, wherein the air core coil comprises four planar parts positioned at the both circumferential sides and the both axial sides, and four angular parts each positioned between the respective planar parts, wherein the air core coil is configured such that windings are arranged in alignment in the planar parts and each winding position of the windings is shifted in any two of the four angular parts, and wherein the air core coil is configured such that each curvature radius of the two angular parts where the winding position of the windings is shifted becomes larger than each curvature radius of the other two angular parts where the winding position of the windings is not shifted. 2. The rotating electric machine according to claim 1 , further comprising a connection part disposed at the outer radial side or the inner radial side of a coil end part of the air core coil, the connection part being configured to connect lead ends of the air core coil. 3. The rotating electric machine according to claim 1 , wherein the stator comprises the stator core comprising the teeth part and a yoke part in which an axial dimension of the yoke part is larger than an axial dimension of the teeth part. 4. The rotating electric machine according to claim 1 , further comprising insulators disposed between the flat end surfaces at the both axial sides of the air core coil and a housing of the rotating electric machine in a tight contact state. 5. The rotating electric machine according to claim 4 , further comprising a mold resin part formed by integrally molding the stator core, the air core coil, and the insulators. 6. The rotating electric machine according to claim 1 , wherein the air core coil comprises the flat end surfaces of which each surface direction is perpendicular to a rotation axis of the rotor at the both axial sides. 7. The rotating electric machine according to claim 6 , wherein the air core coil comprises a slot mounting part and a coil end part, wherein a circumferential cross section of the slot mounting part has approximately a fan shape in which a dimension enlarged radially outward, and wherein an axial cross section of the coil end part has approximately a rectangular shape. 8. The rotating electric machine according to claim 7 , wherein the air core coil is configured such that a cross section of at least one winding of the slot mounting part and the coil end part has a shape plastically deformed from a round shape resulting from pressure molding. 9. The rotating electric machine according to claim 8 , wherein the air core coil comprises two lead ends which are drawn radially outward or inward of the coil end part from the two angular parts at the one axial side or the two angular parts at the other axial side. 10. The rotating electric machine according to claim 9 , wherein the lead end at winding start side is drawn from a first layer at the outer radial side of the air core coil at the one angular part at the one axial side, and wherein the lead end at winding end side is drawn from an outermost layer of the air core coil at the other angular part at the one axial side. 11. The rotating electric machine according to claim 9 , wherein the lead end at winding start side is drawn from an outermost layer at the inner radial side of the air core coil at the one angular part at the one axial side, and wherein the lead end at winding end side is drawn from the outermost layer of the air core coil at the other angular part at the one axial side.