Electric motor with permanent magnet having curved outer wall and flat rear wall

What is claimed is: 1. An electric motor comprising: a ring-shaped stator that includes a field coil; a permanent magnet; a rotor holding the permanent magnet in a magnet holding portion of the rotor at an outer circumference of the rotor so that a cylindrical outer wall surface of the permanent magnet is exposed, the rotor being supported to be rotatable about a rotary shaft core in an inner space of the stator; the magnet holding portion including a magnet insertion portion which is more depressed in a rotary shaft core direction than an outer circumference of a rotor yoke configuring the rotor and a pair of regulation bodies integrally formed with the rotor yoke and extending toward a central side in an opening width direction with respect to an opening portion formed in an outer circumferential position of the rotor yoke in the magnet insertion portion, the permanent magnet being positioned in the magnet insertion portion; the cylindrical outer wall surface of the permanent magnet possessing a radius equivalent to that of the outer circumference of the rotor yoke, the permanent magnet also possessing a flat rear wall surface which is a side opposite to the outer wall surface, a pair of side wall surfaces which are both end portions in a circumferential direction of the rotor yoke, and a pair of engaged surfaces which are formed by partially notching the outer wall surface so as to cause the regulation bodies to fit and abut thereon at both end positions on the outer wall surface in the circumferential direction; and the magnet insertion portion being a groove-shaped portion possessing a bottom surface that faces the rear wall surface of the permanent magnet, the bottom surface of the groove-shaped portion possessing a width in the circumferential direction as measured between opposite circumferential ends of the bottom surface of the groove-shaped portion, the magnet insertion portion also including expansion portions possessing a groove configuration extending circumferentially beyond the opposite circumferential ends of the bottom surface of the groove-shaped portion of the magnet insertion portion, the expansion portions which possess the groove configuration being devoid of any part of the permanent magnet so that the expansion portions are empty, wherein a side of each expansion portion parallel to the rear wall surface is substantially coextensive with a respective one of the pair of regulation bodies. 2. The electric motor according to claim 1 , wherein the permanent magnet includes an arc-shaped chamfering surface which continues in a directional vision along the rotary shaft core in a border portion between the engaged surface and the side wall surface. 3. The electric motor according to claim 1 , wherein an exposed area of the outer wall surface on the outer circumference of the rotor yoke in the circumferential direction is larger than exposed areas of the regulation bodies on the outer circumference of the rotor yoke in the circumferential direction. 4. The electric motor according to claim 1 , wherein the permanent magnet is molded by using a die. 5. The electric motor according to claim 1 , wherein the rotor yoke is configured to be layered with magnetic steel sheets, and a gap between the magnet insertion portion and the permanent magnet is filled with a resin. 6. The electric motor according to claim 1 , wherein the magnet insertion portion is a groove-shaped portion possessing a flat bottom surface, the flat rear wall surface of the permanent magnet facing the flat bottom surface of the groove-shaped portion of the magnet insertion portion. 7. The electric motor according to claim 1 , wherein each of the engaged surfaces includes an arc-shaped concave surface that is curved in a direction toward the cylindrical outer wall surface of the permanent magnet. 8. The electric motor according to claim 7 , wherein the permanent magnet further includes an arc-shaped convex surface that is curved between each side wall surface and one of the arc-shaped concave surfaces. 9. The electric motor according to claim 1 , wherein each of the regulation bodies includes an end portion possessing an arc shape. 10. The electric motor according to claim 1 , wherein each of the engaged surfaces includes an arc-shaped concave surface that is curved in a direction toward the cylindrical outer wall surface, and each of the regulation bodies includes an arc-shaped end portion, the arc-shaped end portion of each regulation body contacting one of the arc-shaped concave surfaces. 11. The electric motor according to claim 1 , wherein each of the engaged surfaces of the permanent magnet extends along a longitudinal extent of the permanent magnet and is arc-shaped in transverse cross-section and curved toward the cylindrical outer wall surface of the permanent magnet. 12. The electric motor according to claim 11 , wherein the two regulation bodies of each sheet are arc-shaped extending towards one another and possess an outer circumference forming the outer circumference of the rotor yoke, the radius of the cylindrical outer wall surface of the permanent magnet being equivalent to that of the outer circumference of the two regulation bodies of each sheet, the two regulation bodies of each sheet engaging one of the arc-shaped engaged surfaces of the permanent magnet. 13. An electric motor comprising: a ring-shaped stator that includes a field coil; a permanent magnet; a rotor comprised of a rotor yoke and a permanent magnet, the rotor yoke comprising more than two axially stacked sheets which each include a magnet holding portion in which is held the permanent magnet so that the permanent magnet is held at an outer circumference of the rotor with a cylindrical outer wall surface of the permanent magnet exposed, the rotor being supported to be rotatable about a rotary shaft core in an inner space of the stator; the magnet holding portion of each of said sheets including a magnet insertion portion which is more depressed in a rotary shaft core direction than an outer circumference of the rotor yoke and a pair of regulation bodies integrally formed with the rotor yoke and extending toward each other; the cylindrical outer wall surface of the permanent magnet possessing a radius equivalent to that of the outer circumference of the rotor yoke, the permanent magnet also possessing a rear wall surface at a side of the permanent magnet opposite to the outer wall surface, a pair of side wall surfaces which are both end portions in a circumferential direction of the rotor yoke, and a pair of engaged surfaces each configured as a partial notch of the outer wall surface; the regulation bodies of each of said sheets possessing a free end portion, the free end portion of each regulation body being fitted into and contacting one of the engaged surfaces of the permanent magnet such that each of the regulation bodies is elastically deformed and applies a biasing force to the permanent magnet that stabilizes the permanent magnet in the magnet insertion portion; wherein the magnet insertion portion is a groove-shaped portion possessing a bottom surface, the bottom surface of the groove-shaped portion possessing a width in the circumferential direction as measured between opposite circumferential ends of the bottom surface of the groove-shaped portion, the magnet insertion portion also including expansion portions possessing a groove configuration extending circumferentially beyond the opposite circumferential ends of the bottom surface of the groove-shaped portion, and wherein a side of each expansion portion parallel to the rear wall surface is substantially coextensive with a respective on