Rotor for rotary electric machine and method of manufacturing rotary electric machine

The invention claimed is: 1. A rotor for a rotary electric machine, comprising: a rotor core; and a plurality of permanent magnets embedded in the rotor core, wherein: the rotor core includes a stacked structure including a plurality of magnetic sheets stacked in an axial direction along a center axis; each of the plurality of magnetic sheets has through holes for insertion of the plurality of permanent magnets at a plurality of positions in a circumferential direction; a relative positional relationship of the plurality of through holes with respect to the center axis and shapes of the through holes in each of the magnetic sheets are common to the plurality of magnetic sheets; the stacked structure is configured such that the plurality of magnetic sheets are shifted in position from one another by a constant angle to one side in the circumferential direction with increasing distance to one side in the axial direction; magnet insertion holes are formed, each defined by the plurality of through holes communicating with each other in the axial direction across the plurality of magnetic sheets; a cross-section of each of the plurality of permanent magnets orthogonal to the center axis is defined as a magnet cross-section, and positions of gravity centers of magnet cross-sections at respective positions in the axial direction corresponding to the plurality of magnetic sheets are defined as corresponding gravity center positions; a distance between each of the corresponding gravity center positions and the center axis in the radial direction is constant throughout a length of each of the plurality of permanent magnets in the axial direction; the corresponding gravity center positions are shifted from one another by the same angle as the constant angle to the one side in the circumferential direction with increasing distance to the one side in the axial direction; each of the plurality of permanent magnets is twisted about the center axis from a first end to a second end opposite the first end of each of the plurality of permanent magnets so as to be placed into a corresponding one of the magnet insertion holes, each having opposite ends in the axial direction that are shifted from each other by an angle corresponding to the constant angle, from outside in the axial direction; the magnet cross-section is rectangular, and lengths of a short side and a long side of the magnet cross-section at each of the positions in the axial direction are constant throughout the length of each of the plurality of permanent magnets in the axial direction; each magnetic pole is formed by at least two or more permanent magnets of the plurality of permanent magnets; permanent magnets of the plurality of permanent magnets forming one magnetic pole are symmetric with respect to a line as a symmetry axis passing through the center of the magnetic pole in the circumferential direction in that cross-section and extending parallel to the radial direction; and each magnetic sheet of the plurality of magnetic sheets is formed of magnetic sheets having the same shape.