Rotor for rotating electric machine

What is claimed is: 1. A rotor for a rotating electric machine, the rotor comprising: a hollow cylindrical rotor core formed of a plurality of steel sheets that are laminated in an axial direction of the rotor core, the rotor core having a plurality of magnet-receiving holes and a plurality of pin-receiving holes formed therein, each of the magnet-receiving holes and the pin-receiving holes axially penetrating the rotor core, the magnet-receiving holes being formed alternately with the pin-receiving holes in a circumferential direction of the rotor core; a plurality of permanent magnets that are respectively received in the magnet-receiving holes of the rotor core to form a plurality of field poles on a radially outer periphery of the rotor core; a pair of first and second plate members, both being formed of a magnetic material, and respectively arranged on first and second axial sides of the rotor core; a plurality of first short-circuiting pins and a plurality of second short-circuiting pins, the first and second short-circuiting pins being respectively received in the pin-receiving holes of the rotor core to magnetically short-circuit a magnetic field created by the permanent magnets, each of the first short-circuiting pins having an axial end portion held by the first plate member and having been inserted in the respective one of the pin-receiving holes of the rotor core from the first axial side of the rotor core, each of the second short-circuiting pins having an axial end portion held by the second plate member and having been inserted in the respective one of the pin-receiving holes of the rotor core from the second axial side of the rotor core; and a field coil arranged radially inside the rotor core to cause magnetic flux to flow to the first and second short-circuiting pins via the first and second plate members, wherein one of the first short-circuiting pins is in contact with the rotor core to function as a first positioning pin to position the first plate member and the first short-circuiting pins with respect to the rotor core, one of the second short-circuiting pins is in contact with the rotor core to function as a second positioning pin to position the second plate member and the second short-circuiting pins with respect to the rotor core, the two pin-receiving holes of the rotor core, in which the first and second positioning pins are respectively inserted, respectively function as first and second positioning pin-receiving holes, and for at least one of the first and second positioning pin-receiving holes, each of the steel sheets forming the rotor core has a chamfered or curved corner around the positioning pin-receiving hole on a positioning pin insertion side, wherein each of the first short-circuiting pins is shaped so as to taper from the first plate member side distalward, each of the second short-circuiting pins is shaped so as to taper from the second plate member side distalward, and each of the first and second short-circuiting pins is arranged in the respective one of the pin-receiving holes of the rotor core so that the circumferential width of a distal end surface of the short-circuiting pin increases in a radially inward direction.