Permanent magnet-type rotary electric machine and vehicle drive system

The invention claimed is: 1. A railroad-vehicle drive system comprising: a permanent magnet-type motor; an inverter that includes switching elements formed of a wide band-gap semiconductor and that drives the permanent magnet-type motor; and a control unit that controls the inverter, wherein the permanent magnet-type motor includes a rotor core in which magnet insertion holes are arranged in a convex shape, facing a center of a rotor, the magnet insertion holes having a plurality of permanent magnets embedded therein for each pole, wherein a permanent magnet group for each pole having the plurality of permanent magnets includes vent holes passing through the rotor core in an axial direction between one of the magnet insertion holes in which the permanent magnets are embedded and adjacent one of the magnet insertion holes or between the one of the magnet insertion holes and outer circumferential portions of the rotor core, wherein the control unit controls the inverter with a target current constant, in an entire control area up to a maximum number of revolutions of the permanent magnet-type motor, and wherein the magnet insertion holes and the vent holes are alternately arranged in a substantially U-shape to be convexed toward a center of the rotor. 2. The railroad-vehicle drive system according to claim 1 , wherein the control unit controls the inverter so that a no-load induced voltage at the maximum number of revolutions of the permanent magnet-type motor is smaller than a central value of an overhead line voltage, only in a PWM control mode that proportionally increases a target voltage according to a number of revolutions. 3. The railroad-vehicle drive system according to claim 1 , wherein the magnet insertion holes and the vent holes are arranged not to block magnetic paths of reluctance torque. 4. The railroad-vehicle drive system according to claim 3 , wherein the vent holes are provided in the rotor core on both sides of each of the permanent magnets, except for the permanent magnets located on sides of outer circumferential portions. 5. The railroad-vehicle drive system according to claim 3 , wherein a sum of the number of the permanent magnets and the number of the vent holes for each pole is an odd number. 6. The railroad-vehicle drive system according to claim 3 , wherein the number of the permanent magnets for each pole is an odd number equal to or larger than three, and the permanent magnets are arranged at a central portion of the permanent magnet group and outermost circumferential portions of the permanent magnet group. 7. A railroad-vehicle drive system comprising, a permanent magnet-type motor; an inverter that includes switching elements formed of a wide band-gap semiconductor and that drives the permanent magnet-type motor; and a control unit that controls the inverter, wherein the permanent magnet-type motor includes a rotor core in which magnet insertion holes are arranged in a convex shape, facing a center of a rotor, the magnet insertion holes having a plurality of permanent magnets embedded therein for each pole, wherein a permanent magnet group for each pole having the plurality of permanent magnets includes vent holes passing through the rotor core in an axial direction between one of the magnet insertion holes in which the permanent magnets are embedded and adjacent one of the magnet insertion holes or between the one of the magnet insertion holes and outer circumferential portions of the rotor core, wherein the control unit controls the inverter with a target current constant, in an entire control area up to a maximum number of revolutions of the permanent magnet-type motor, wherein the magnet insertion holes and the vent holes are arranged in a substantially U-shape, facing an outer circumferential surface of the rotor not to block magnetic paths of reluctance torque, wherein the number of the permanent magnets for each pole is an odd number equal to or larger than three, and the permanent magnets are arranged at a central portion of the permanent magnet group and outermost circumferential portions of the permanent magnet group, and wherein the number of the permanent magnets for each pole is three, and, when assuming that a tangential direction of the U-shape at a first permanent magnet located at the central portion of the permanent magnet group or at a first magnet insertion hole in which the first permanent magnet is embedded is a first direction, that a tangential direction of the U-shape at a second permanent magnet located on a side of one of both end portions of the permanent magnet group or at a second magnet insertion hole in which the second permanent magnet is embedded is a second direction, and that a tangential direction of the U-shape at a vent hole provided between the first magnet insertion hole and the second magnet insertion hole is a third direction, the vent hole is arranged so that an angle formed by the third direction and the first direction is substantially half an angle formed by the second direction and the first direction. 8. The railroad-vehicle drive system according to claim 3 , wherein the number of the permanent magnets for each pole is an even number equal to or larger than two, and, in a vent hole group for each pole including a plurality of the vent holes, the vent holes are arranged at a central portion and outermost circumferential portions of the vent hole group. 9. A railroad-vehicle drive system comprising, a permanent magnet-type motor; an inverter that includes switching elements formed of a wide band-gap semiconductor and that drives the permanent magnet-type motor; and a control unit that controls the inverter, wherein the permanent magnet-type motor includes a rotor core in which magnet insertion holes are arranged in a convex shape, facing a center of a rotor, the magnet insertion holes having a plurality of permanent magnets embedded therein for each pole, wherein a permanent magnet group for each pole having the plurality of permanent magnets includes vent holes passing through the rotor core in an axial direction between one of the magnet insertion holes in which the permanent magnets are embedded and adjacent one of the magnet insertion holes or between the one of the magnet insertion holes and outer circumferential portions of the rotor core, wherein the control unit controls the inverter with a target current constant, in an entire control area up to a maximum number of revolutions of the permanent magnet-type motor, wherein the magnet insertion holes and the vent holes are arranged in a substantially U-shape, facing an outer circumferential surface of the rotor not to block magnetic paths of reluctance torque, wherein the number of the permanent magnets for each pole is an even number equal to or larger than two, and, in a vent hole croup for each pole including a plurality of the vent holes, the vent holes are arranged at a central portion and outermost circumferential portions of the vent hole group, and wherein the number of the vent holes for each pole is three, and, when assuming that a tangential direction of the U-shape at a first vent hole located at a central portion is a first direction, that a tangential direction of the U-shape at a second vent hole located on a side of one of outer circumferential portions of the rotor core is a second direction, and that a tangential direction of the U-shape at a permanent magnet located between the first vent hole and the second vent hole or at a magnet insertion hole in which the permanent magnet is embedded is a third direction, the permanent magnet is arranged so that an angle formed by the third direction and the first direction is substantially half an angle formed by the second direc