Embedded permanent magnet rotary electric machine

The invention claimed is: 1. An embedded permanent magnet rotary electric machine comprising: an annular stator; and a rotor that is disposed coaxially inside said stator so as to have an air gap interposed, wherein: said rotor comprises: a rotor core that has an external shape in which a plurality of circular arc-shaped curved surfaces that are convex radially outward are arranged circumferentially, and in which magnet housing apertures are formed so as to pass axially through an inner radial side of each of said circular arc-shaped curved surfaces; a rotating shaft that is inserted into a central axial position of said rotor core, and that holds said rotor core; and permanent magnets that are each produced into a rod-shaped body in which a radially outer side of a cross section that is perpendicular to a longitudinal direction is a circular arc that is convex radially outward, and in which two circumferential side surfaces are flat surfaces that are parallel to a plane that includes a magnetic pole center, said permanent magnets being housed in each of said magnet housing apertures; R1>R2>R3 is satisfied, where R1 is a radius of curvature of a cylindrical surface that contacts said circular arc-shaped curved surfaces that are arranged circumferentially, R2 is a radius of curvature of said circular arc-shaped curved surfaces, and R3 is a radius of curvature of an upper surface of said permanent magnets; said magnet housing apertures comprise air gap portions in which radially outer portions of two circumferential side portions are expanded circumferentially outward; surfaces that are parallel to a plane that includes said magnetic pole center that contact said two circumferential side surfaces of said permanent magnets are disposed on radially inner portions of said two circumferential side portions of said magnet housing apertures; B2>B1 is satisfied, where B1 is a thickness of a core portion of said rotor core between said circular arc-shaped curved surfaces and said magnet housing apertures at said magnetic pole center, and B2 is a thickness of a circumferential end portion of said core portion; and a distance between circumferentially adjacent air gap portions and a distance between circumferentially adjacent surfaces among said surfaces that are parallel to said plane that includes said magnetic pole center that contact said two circumferential side surfaces of said permanent magnets are equal. 2. The embedded permanent magnet rotary electric machine according to claim 1 , wherein Wm+0.05 mm≦Ws≦Wm+0.1 mm is satisfied, where Wm is a circumferential width between radially inner end portions of two circumferential side portions of said permanent magnets, and Ws is a circumferential width between said radially inner end portions of said two circumferential side portions of said magnet housing apertures. 3. The embedded permanent magnet rotary electric machine according to claim 2 , wherein said permanent magnets are formed so as to have a cross-sectional shape perpendicular to a longitudinal direction in which a radially outer side is a circular arc that is convex radially outward and a radially inner side is a circular arc that is convex radially outward, R1>R4>R2>R3 being satisfied, where R4 is a radius of curvature of a lower surface of said permanent magnets. 4. The embedded permanent magnet rotary electric machine according to claim 2 , wherein a lower surface of said permanent magnets is formed into a flat surface that is perpendicular to a direction of a radius that passes through a circumferentially central portion of said permanent magnets. 5. The embedded permanent magnet rotary electric machine according to claim 2 , wherein a circumferential thickness of said rotor core between magnet housing apertures that are adjacent to each other in a circumferential direction is thicker than a radial thickness of core portions of said rotor core on an outer circumferential side of two circumferential side portions of said permanent magnets. 6. The embedded permanent magnet rotary electric machine according to claim 2 , wherein said rotor core is configured such that n core segments are arranged axially, where n is an integer that is greater than or equal to two, and magnetic pole centers of core segments that are axially adjacent are offset in a circumferential direction. 7. The embedded permanent magnet rotary electric machine according to claim 1 , wherein said permanent magnets are formed so as to have a cross-sectional shape perpendicular to a longitudinal direction in which a radially outer side is a circular arc that is convex radially outward and a radially inner side is a circular arc that is convex radially outward, R1>R4>R2>R3 being satisfied, where R4 is a radius of curvature of a lower surface of said permanent magnets. 8. The embedded permanent magnet rotary electric machine according to claim 1 , wherein a lower surface of said permanent magnets is formed into a flat surface that is perpendicular to a direction of a radius that passes through a circumferentially central portion of said permanent magnets. 9. The embedded permanent magnet rotary electric machine according to claim 1 , wherein a circumferential thickness of said rotor core between magnet housing apertures that are adjacent to each other in a circumferential direction is thicker than a radial thickness of core portions of said rotor core on an outer circumferential side of two circumferential side portions of said permanent magnets. 10. The embedded permanent magnet rotary electric machine according to claim 1 , wherein said rotor core is configured such that n core segments are arranged axially, where n is an integer that is greater than or equal to two, and magnetic pole centers of core segments that are axially adjacent are offset in a circumferential direction. 11. The embedded permanent magnet rotary electric machine according to claim 10 , wherein said embedded permanent magnet rotary electric machine is a three-phase embedded permanent magnet motor, said stator comprises: an annular back yoke; teeth each that protrude radially inward from said back toke so as to be arranged; and a stator winding that is mounted to slots that are formed by said back yoke and adjacent teeth; a number of slots per phase per pole is one half or one quarter; and an angle of offset in said circumferential direction between said magnetic pole centers of said core segments that are axially adjacent is greater than or equal 30 electrical degrees and less than or equal 48 electrical degrees. 12. The embedded permanent magnet rotary electric machine according to claim 11 , wherein a gap is disposed between said core segments that are axially adjacent. 13. The embedded permanent magnet rotary electric machine according to claim 10 , wherein a gap is disposed between said core segments that are axially adjacent. 14. The embedded permanent magnet rotary electric machine according to claim 13 , wherein B1≦d is satisfied, where d is said gap. 15. An embedded permanent magnet rotary electric machine comprising: an annular stator; and a rotor that is disposed coaxially inside said stator so as to have an air gap interposed, wherein: said rotor comprises: a rotor core that has an external shape in which a plurality of circular arc-shaped curved surfaces that are convex radially outward are arranged circumferentially, and in which magnet housing apertures are formed so as to pass axially through an inner radial side of each of said circular arc-shaped curved surfaces; a rotating shaft that is inserted into a central axial position of said rotor core