Rotary electric machine for vehicles

What is claimed is: 1. A rotary electric machine for vehicles comprising: a stator having a stator core in which slots are located between a plurality of teeth extending radially at intervals in a circumferential direction, and stator windings incorporated with the slots; a pair of pole cores formed with tapered claw-shaped magnetic poles disposed at a predetermined pitch in the circumferential direction, the pole cores are fixed to a shaft such that the claw-shaped magnetic poles face and engage with each other, the pole cores are disposed so that an air gap is formed between radial end portions of the claw-shaped magnetic poles and tip portions of the teeth; and a rotor having a field coil disposed so as to be covered by the claw-shaped magnetic poles; wherein, each of the claw-shaped magnetic poles is formed with an air gap expanding portion formed on at least portions of both side portions in the circumferential direction, another air gap is formed between the air gap expanding portion and the tip portions of the teeth that is larger than the air gap formed between the radial end portions and the tip portions of the teeth; each of the claw-shaped magnetic poles is configured such that when an inter-pole center position which is a center of the claw-shaped magnetic poles adjacent to each other in the circumferential direction and a teeth center position which is a center of the teeth are at the same radial positions, tip portions of the claw-shaped magnetic poles do not overlap in the radial direction with each of the radial end portions of the claw-shaped magnetic poles adjacent to each other, and the tip portions of the claw-shaped magnetic poles overlap in the radial direction with at least a portion of each of the air gap enlargement portions of the claw-shaped magnetic poles adjacent to each other in the circumferential direction; when a circumferential distance between the radial end portion and the tip portion of the teeth is indicated by τ, and when the air gap is indicated by δ, each of the claw-shaped magnetic poles is formed in the range of 3δ≤τ≤15δ; and when a claw-tip end face width is indicated by L 1 , and when a claw-root end face width is indicated by L 2 , each of the claw-shaped magnetic poles is formed in a range of 0.20≤L 1 /L 2 ≤0.71. 2. The rotary electric machine for vehicles according to claim 1 ; wherein, the air gap enlarged portion includes a first portion that is formed such that an angle formed between the first portion and a central axis of the claw-like magnetic pole is a when viewed from an axial direction, and a second portion extending from the tip portion of the claw-shaped magnetic pole in the axial direction, the second portion is formed such that an angle formed between the second portion and the central axis is β; and the first portion and the second portion are formed such that α<β. 3. The rotary electric machine for vehicles according to claim 2 ; wherein, the first portion is formed within a range of 5°<α<45°. 4. The rotary electric machine for vehicles according to claim 3 , wherein, the air gap expanding portion is formed extending up to an end portion of the pole core. 5. The rotary electric machine for vehicles according to claim 2 , wherein, the air gap expanding portion is formed extending up to an end portion of the pole core. 6. The rotary electric machine for vehicles according to claim 1 , wherein, the air gap expanding portion is formed extending up to an end portion of the pole core. 7. The rotary electric machine for vehicles according to claim 1 , wherein, coil end portions of the stator winding are formed by segment conductors. 8. The rotary electric machine for vehicles according to claim 1 , wherein, the tip portions of the claw-shaped magnetic poles are positioned radially inside both the stator core and axial end faces of the teeth.