Permanent magnet buried type electric motor and compressor

The invention claimed is: 1. A permanent magnet buried type electric motor, comprising: a rotator including a rotator core including a plurality of laminated constituent sheets; and a stator arranged so as to surround the rotator, the rotator core comprising: a plurality of magnet accommodating holes formed as many as a number of poles along a circumferential direction; a plurality of permanent magnets accommodated in the plurality of magnet accommodating holes; air hole portions serving as paths for allowing a coolant and a refrigerant oil to pass therethrough; fastening holes for fastening the plurality of laminated constituent sheets, each of the plurality of magnet accommodating holes being formed into a shape that projects toward a radially inner side of the rotator core and is recessed toward a radially outer side thereof, each of the plurality of magnet accommodating holes having an inner defining line that projects toward the radially inner side of the rotator core, the plurality of air hole portions and the plurality of fastening holes being arranged on a same radius with respect to the center of the rotator core and in the circumferential direction of the rotator core so as to be alternately positioned, the air hole portion being formed into such a shape that includes a portion extending in an arc shape along an outer peripheral surface of the rotary shaft in the circumferential direction of the rotator core so that an area of the air hole portion is larger than an area of the fastening hole, wherein when a spread angle of the air hole portion in the circumferential direction is represented by θ1 and a pitch of a corresponding pair of the magnetic poles is represented by θ2, θ1≧θ2 is established, and wherein the air hole portion is formed into such a shape that includes a protruding portion toward the radially outer side of the rotator core, and a portion extending along the inner defining line of the magnet accommodating hole in the circumferential direction of the rotator core. 2. A permanent magnet buried type electric motor according to claim 1 , wherein for each of the air hole portions, a distance between both the protruding portion and the portion extending along the inner defining line of the magnetic accommodating holes is kept constant with respect to opposing inner defining lines of the magnetic accommodating holes. 3. A permanent magnet buried type electric motor according to claim 1 , wherein a thickness of the magnet accommodating hole in a short-side direction is set to be minimum at a magnetic pole center portion and be gradually increased toward the radially outer side of the rotator core. 4. A permanent magnet buried type electric motor according to claim 1 , wherein each of the plurality of air hole portions comprises a plurality of divided space portions. 5. A permanent magnet buried type electric motor according to claim 1 , wherein an air gap is secured between the outer peripheral surface of the rotator core and an inner peripheral surface of the stator, and wherein a thickness of a pole center portion of the permanent magnet is set to be eight times as large as a width of the air gap or more. 6. A compressor, comprising a motor and a compression element in an airtight container, the motor comprising the permanent magnet buried type electric motor of claim 1 . 7. A permanent magnet buried type electric motor, comprising: a rotator including a rotator core including a plurality of laminated constituent sheets; and a stator arranged so as to surround the rotator, the rotator core comprising: a plurality of magnet accommodating holes formed as many as a number of poles along a circumferential direction; a plurality of permanent magnets accommodated in the plurality of magnet accommodating holes; air hole portions serving as paths for allowing a coolant and a refrigerant oil to pass therethrough; fastening holes for fastening the plurality of laminated constituent sheets, each of the plurality of magnet accommodating holes being formed into a shape that projects toward a radially inner side of the rotator core and is recessed toward a radially outer side thereof, the plurality of air hole portions and the plurality of fastening holes being arranged on the same radius with respect to the center of the rotator core and in the circumferential direction of the rotator core so as to be alternately positioned, the air hole portion being formed into such a shape that includes a portion extending in an arc shape along an outer peripheral surface of the rotary shaft in the circumferential direction of the rotator core so that an area of the air hole portion is larger than an area of the fastening hole, wherein when a spread angle of the air hole portion in the circumferential direction is represented by θ1 and a pitch of a corresponding pair of the magnetic poles is represented by θ2, θ1≧θ2 is established, wherein a thickness of the magnet accommodating hole in a short-side direction is set to be minimum at a magnetic pole center portion and be gradually increased toward the radially outer side of the rotator core, and wherein the permanent magnet comprises a ferrite magnet.