Rotor structure, permanent magnet auxiliary synchronous reluctance motor and electric vehicle

What is claimed is: 1. A rotor structure, comprising a rotor body, wherein the rotor body is provided with permanent magnet slot groups; the permanent magnet slot groups each comprise multiple layers of permanent magnet slots; the multiple layers of permanent magnet slots comprise a first permanent magnet slot; the first permanent magnet slot comprises a first permanent magnet slot section and a first bent slot; a first end of the first permanent magnet slot section is arranged to extend toward a rotation shaft hole of the rotor body; a second end of the first permanent magnet slot section is arranged toward an outer edge of the rotor body; a first end of the first bent slot is connected to the second end of the first permanent magnet slot section; a second end of the first bent slot is arranged to extend toward the outer edge of the rotor body; A denotes a distance from a midpoint of a side wall of the second end of the first bent slot, which is adjacent to the outer edge of the rotor body, to an intersection point of a geometric center line of the first permanent magnet slot section and the outer edge of the rotor body, and M denotes a width of the second end of the first permanent magnet slot section, wherein 0.6M≤A. 2. The rotor structure according to claim 1 , wherein a first magnetic barrier bridge is formed between the second end of the first bent slot and the outer edge of the rotor body; 0.4×M≤(H−H 1 ), or 0.4×M≤(H−H 1 )≤2×M is satisfied; wherein M denotes the width of the second end of the first permanent magnet slot section; H denotes a distance from the second end of the first permanent magnet slot section to the outer edge of the rotor body; and H 1 denotes a width of the first magnetic barrier bridge. 3. The rotor structure according to claim 1 , wherein a width of the first end of the first bent slot is less than a width of the second end of the first permanent magnet slot section, and a width of the second end of the first bent slot is less than the width of the second end of the first permanent magnet slot section. 4. The rotor structure according to claim 1 , wherein 0.25×M≤D 1 ≤0.8×M, or 0.3×M≤D 1 ≤0.45×M, wherein M denotes a width of the second end of the first permanent magnet slot section, and D 1 denotes a width of the second end of the first bent slot. 5. The rotor structure according to claim 1 , wherein the first permanent magnet slot further comprises a second permanent magnet slot section; a first end of the second permanent magnet slot section is arranged to extend toward the rotation shaft hole of the rotor body and is connected to a first end of the first permanent magnet slot section; a second end of the second permanent magnet slot section is arranged toward the outer edge of the rotor body; and the first permanent magnet slot section and the second permanent magnet slot section are disposed at two sides of a direct-axis of the rotor body; or the first end of the second permanent magnet slot section arranged to extend toward the rotation shaft hole of the rotor body and is arranged to keep a distance from the first end of the first permanent magnet slot section; the second end of the second permanent magnet slot section is arranged toward the outer edge of the rotor body; and the first permanent magnet slot section and the second permanent magnet slot section are disposed at two sides of the direct-axis of the rotor body. 6. The rotor structure according to claim 5 , wherein the first permanent magnet slot further comprises a second bent slot; a first end of the second bent slot is connected to the second end of the second permanent magnet slot section; a second end of the second bent slot is arranged to extend toward the outer edge of the rotor body; a distance between a terminal end of the second bent slot and a quadrature-axis of the rotor body is less than a distance between a terminal end of the second end of the second permanent magnet slot section and the quadrature-axis. 7. The rotor structure according to claim 6 , wherein the first bent slot and the second bent slot are arranged symmetrically relative to the direct-axis. 8. The rotor structure according to claim 6 , wherein the permanent magnet slot groups each further comprise a second permanent magnet slot arranged to be adjacent to the first permanent magnet slot; a magnetic flux path is formed between the first permanent magnet slot and the second permanent magnet slot; the second permanent magnet slot comprises a third permanent magnet slot section, a fourth permanent magnet slot section and a fifth permanent magnet slot section which are arranged sequentially; the third permanent magnet slot section, the fourth permanent magnet slot section and the fifth permanent magnet slot section are sequentially connected and form a U-shaped structure with an opening facing the outer edge of the rotor body; or the third permanent magnet slot section, the fourth permanent magnet slot section and the fifth permanent magnet slot section are sequentially arranged and spaced, and second magnetic barrier bridges are formed between adjacent two sections among the third permanent magnet slot section, the fourth permanent magnet slot section, and the fifth permanent magnet slot section respectively. 9. The rotor structure according to claim 8 , wherein the third permanent magnet slot section comprises a third bent slot; a first end of the third bent slot is connected to an end of the third permanent magnet slot section adjacent to the outer edge of the rotor body; a second end of the third bent slot extends toward the outer edge of the rotor body and gradually approaches the quadrature-axis; the fifth permanent magnet slot section comprises a fourth bent slot; a first end of the fourth bent slot is connected to an end of the fifth permanent magnet slot section adjacent to the outer edge of the rotor body; and a second end of the fourth bent slot extends toward the outer edge of the rotor body and gradually approaches the quadrature-axis. 10. The rotor structure according to claim 9 , wherein the third bent slot and the fourth bent slot are arranged symmetrically relative to the direct-axis. 11. The rotor structure according to claim 9 , wherein an extended portion of a side wall of the first bent slot adjacent to the direct-axis and an extended portion of a side wall of the second bent slot adjacent to the direct-axis form an included angle A 1 , and an extended portion of a side wall of the first permanent magnet slot section adjacent to the direct-axis and an extended portion of a side wall of the second permanent magnet slot section adjacent to the direct-axis form an included angle A , wherein 2×A≤A 1 . 12. The rotor structure according to claim 11 , wherein an extended portion of a side wall of the third bent slot adjacent to the direct-axis and an extended portion of a side wall of the fourth bent slot adjacent to the direct-axis form an included angle B 1 , and an extended portion of a side wall of the third permanent magnet slot section adjacent to the direct-axis and an extended portion of a side wall of the fifth permanent magnet slot section adjacent to the direct-axis form an included angle B, wherein 2 ×B≤B 1 ; and 1.1 ×B 1 ≤A 1. 13. The rotor structure according to claim 8 , wherein the rotor structure further comprises a first permanent magnet and a second permanent magnet; the first permanent magnet is disposed in the first permanent magnet slot; the second permanent magnet is disposed in the second permanent magnet slot; an included angle α 1 is formed between the direct-axis of the rotor body and a straight line, which connects a center of the rotation shaf