Permanent magnet rotor brushless motor

The invention claimed is: 1. A rotor for a permanent magnet brushless motor comprising: a shaft; a rotor core fixed to the shaft and defining a plurality of spaced first slots arranged in a circumferential direction thereof, and a plurality of spaced second slots, each second slot being located between two adjacent first slots and each first slot being located between two adjacent second slots; a plurality of first permanent magnets received in the first slots; and a plurality of second permanent magnets received in the second slots and ends of the plurality of second permanent magnets adjacent to the shaft directly contacting with the rotor core, wherein each second magnet is located between two adjacent first magnets and each first magnet is located between two adjacent second magnets in the circumferential direction, and the first magnets are magnetized in radial directions of the rotor core and the second magnets are magnetized in the circumferential direction, the first magnets located closer to the shaft than the second magnets, wherein each section of the rotor core located between two adjacent first magnets and a corresponding second magnet located outside of the section has a width which is gradually reduced in the radial direction of the rotor core towards the shaft; and wherein an angle formed by extending two facing sides of two adjacent first magnets is an acute angle. 2. The rotor of claim 1 , wherein opposite end points of the outer surface of each first magnet is radially offset from the innermost points of two facing surfaces of the two adjacent second magnets. 3. The rotor of claim 2 , wherein the second magnets radially overlap the corresponding first magnet. 4. The rotor of claim 1 , wherein the first and second magnets each have a rectangular shape, the thickness of any position of the first magnets measured in the magnetized direction thereof is a fixed value and represented by T 1 , the thickness of any position of the second magnets measured in the magnetized direction thereof is a fixed value and represented by T 2 , T 1 being greater than T 2 . 5. The rotor of claim 4 , wherein the ratio of T 1 to T 2 is a fixed value and less than 1.5. 6. The rotor of claim 1 , wherein the radially outer ends of the second slots are open and the rotor core comprises protrusions extending into the outer ends of the second slots to abut against two opposite end portions of the radially outer end surfaces of the corresponding second magnets. 7. The rotor of claim 1 , wherein, in cross section, the width of the first magnet measured in a direction perpendicular to the magnetized direction, is greater than the thickness of the first magnet measured in a direction parallel to the magnetized direction. 8. The rotor of claim 1 , wherein, in cross section, the width of the first magnet measured in a direction perpendicular to the magnetized direction, is equal to the thickness of the first magnet measured in a direction parallel to the magnetized direction. 9. The rotor of claim 1 , wherein the minimum width of each section is less than the thickness T 2 of the radially inner end of the corresponding second magnet. 10. The rotor of claim 1 , wherein the first and second magnets are made of the same material. 11. The rotor of claim 10 , wherein the magnets are ferrite magnets. 12. The rotor of claim 1 , wherein, in cross section, the width of the first magnet measured in a direction perpendicular to the magnetized direction, is less than the width of the second magnet measured in a direction perpendicular to the magnetized direction. 13. The rotor of claim 1 , wherein each second slot has an inner edge without contacting with the two facing edges of the two adjacent first slots, the inner edge of each second slot located between two adjacent first slots extends towards two opposite directions to form a first edge which contacts with two facing edges of the two adjacent first slots. 14. The rotor of claim 13 , wherein the first edge cooperates with the two facing edges of the two adjacent first slots to form a triangle. 15. A rotor for a permanent magnet brushless motor comprising: a shaft; a rotor core fixed to the shaft and defining a plurality of spaced first slots arranged in a circumferential direction thereof, and a plurality of spaced second slots, each second slot being located between two adjacent first slots and each first slot being located between two adjacent second slots; a plurality of first permanent magnets received in the first slots; and a plurality of second permanent magnets received in the second slots, wherein each second magnet is located between two adjacent first magnets and each first magnet is located between two adjacent second magnets in the circumferential direction, and the first magnets are magnetized in radial directions of the rotor core and the second magnets are magnetized in the circumferential direction, the first magnets located closer to the shaft than the second magnets, wherein each section of the rotor core located between two adjacent first magnets and a corresponding second magnet located outside of the section has a width which is gradually reduced in the radial direction of the rotor core towards the shaft; and wherein an inner edge of every second slot located between two adjacent first slots extends towards two opposite directions to form a first edge which connect with two facing edges of the two adjacent first slots through bridges formed between the first magnet and two adjacent second magnets. 16. The rotor of claim 15 , wherein the first edge cooperates with the two facing edges of the two adjacent first slots to form a triangle. 17. A rotor for a permanent magnet brushless motor comprising: a shaft; a rotor core fixed to the shaft and defining a plurality of spaced first slots arranged in a circumferential direction thereof, and a plurality of spaced second slots, each second slot being located between two adjacent first slots and each first slot being located between two adjacent second slots; a plurality of first permanent magnets received in the first slots; and a plurality of second permanent magnets received in the second slots, wherein each second magnet is located between two adjacent first magnets and each first magnet is located between two adjacent second magnets in the circumferential direction, and the first magnets are magnetized in radial directions of the rotor core and the second magnets are magnetized in the circumferential direction, the first magnets located closer to the shaft than the second magnets, wherein each section of the rotor core located between two adjacent first magnets and a corresponding second magnet located outside of the section has a width which is gradually reduced in the radial direction of the rotor core towards the shaft; and wherein the first and second magnets each have a rectangular shape, the thickness of the first magnets measured in the magnetized direction thereof is represented by T 1 , the thickness of the second magnets measured in the magnetized direction thereof is represented by T 2 , T 1 being greater than T 2 , and the first magnets and second magnets are ferrite magnets.