Vane rotary compressor having hinge receiving portions formed on an outer peripheral surface of a rotor with a plurality of vanes including a hinge portion and a blade portion

The invention claimed is: 1. A vane rotary compressor comprising: a housing having a hollow cylinder formed therein; a rotor rotatingly disposed in the cylinder and coupled to a rotary shaft, the rotor including a plurality of slots and a plurality of hinge receiving portions formed on an outer peripheral surface of the rotor; and a plurality of vanes dividing the cylinder into a plurality of compression chambers, each of the plurality of vanes including a hinge portion and a blade portion extending outwardly from the hinge portion, the hinge portion received within one of the plurality of slots, the blade portion biasing towards an inner peripheral surface of the cylinder, each of the plurality of hinge receiving portions enclosing a circumference of the hinge portion of each of the plurality of vanes, the hinge portion of each of the plurality of vanes contacts the rotor at a friction point inwardly spaced from an end of each of the plurality of hinge receiving portions, the end of each of the plurality of hinge receiving portions extending beyond an extension line passing through a central point of the rotor and a central point of the hinge portion, each of the plurality of hinge receiving portions extending along the circumference of the hinge portion in a direction of rotation of the rotor. 2. The vane rotary compressor of claim 1 , wherein an obtuse angle formed between the extension line extending between the central point of the rotor and the central point of the hinge portion and a line extending from the central point of the hinge portion and along the end of one of the plurality of hinge receiving portions is between 180 degrees and 230 degrees. 3. The vane rotary compressor of claim 1 , wherein a gap is formed between the hinge portion and each of the plurality of hinge receiving portions on each side of the friction point, and wherein an oil film forms in each of the gaps. 4. The vane rotary compressor of claim 1 , wherein the friction point divides a gap formed between an inner peripheral surface of each of the plurality of hinge receiving portions and an outer peripheral surface of the hinge portion into a plurality of oil film formation spaces. 5. A vane rotary compressor comprising: a housing having a hollow cylinder formed therein; a rotor rotatingly disposed in the cylinder and coupled to a rotary shaft, the rotor including a plurality of slots formed on an outer peripheral surface of the rotor; and a plurality of vanes dividing the cylinder into a plurality of compression chambers, each of the plurality of vanes including a hinge portion and a blade portion extending outwardly from the hinge portion, the hinge portion received within one of the plurality of slots, the blade portion biasing towards an inner peripheral surface of the cylinder, the hinge portion contacting an inner peripheral surface of the rotor at a friction point, the friction point disposed on an extension line passing through a central point of the rotor and a central point of the hinge portion. 6. The vane rotary compressor of claim 5 , wherein a plurality of hinge receiving portions are formed on the outer peripheral surface of the rotor, each of the plurality of hinge receiving portions enclosing a circumference of the hinge portion of each of the plurality of vanes. 7. The vane rotary compressor of claim 6 , wherein a gap is formed between an inner peripheral surface of each of the plurality of hinge receiving portions and an outer peripheral surface of the hinge portion of each of the plurality of vanes, a plurality of oil film formation spaces formed in each of the gaps. 8. The vane rotary compressor of claim 7 , wherein the plurality of oil film formation spaces are separated from each other by the friction point. 9. The vane rotary compressor of claim 6 , wherein a gap is formed between the hinge portion of each of the plurality of vanes and each of the plurality of hinge receiving portions on each side of the friction point, and wherein an oil film forms in each of the gaps. 10. The vane rotary compressor of claim 5 , wherein a hinge portion imaginary circle extends along an outer peripheral surface of the hinge portion of each of the plurality of vanes and a rotor imaginary circle extends along the outer peripheral surface of the rotor, and wherein the hinge portion imaginary circle is disposed in an inner region of the rotor imaginary circle. 11. The vane rotary compressor of claim 5 , wherein a hinge portion imaginary circle extends along an outer peripheral surface of the hinge portion of each of the plurality of vanes and a rotor imaginary circle extends along the outer peripheral surface of the rotor, and wherein the hinge portion imaginary circle is disposed in an outer region of the rotor imaginary circle. 12. A vane rotary compressor comprising: a housing having a hollow cylinder formed therein; a rotor rotatingly disposed in the cylinder and coupled to a rotary shaft, the rotor including a plurality of slots formed on an outer peripheral surface of the rotor, each of the slots having a hinge portion receiving groove formed inwardly from the outer peripheral surface of the rotor, the rotor further including a plurality of hinge receiving portions formed on the outer peripheral surface of the rotor; and a plurality of vanes dividing the cylinder into a plurality of compression chambers, each of the plurality of vanes including a hinge portion and a blade portion extending outwardly from the hinge portion, the hinge portion received within one of the plurality of slots, the blade biasing towards an inner peripheral surface of the cylinder, a circumference of the hinge portion received inside the outer peripheral surface of the rotor, the hinge portion of each of the plurality of vanes contacts the rotor at a friction point inwardly spaced from an end of each of the plurality of hinge receiving portions, the end of each of the plurality of hinge receiving portions extending beyond an extension line passing through a central point of the rotor and a central point of the hinge portion, each of the plurality of hinge receiving portions extending along the circumference of the hinge portion in a direction of rotation of the rotor. 13. The vane rotary compressor of claim 12 , wherein each of the plurality of hinge receiving portions encloses the circumference of the hinge portion of each of the plurality of vanes. 14. The vane rotary compressor of claim 13 , wherein an obtuse angle formed between the extension line extending between the central point of the rotor and the central point of the hinge portion and a line extending from the central point of the hinge portion and along an end of one of the plurality of hinge receiving portions is between 180 degrees and 230 degrees. 15. The vane rotary compressor of claim 12 , wherein a gap is formed between the hinge portion and each of the plurality of hinge receiving portions on each side of the friction point, and wherein an oil film forms in each of the gaps. 16. The vane rotary compressor of claim 12 , wherein the friction point is disposed on the extension line passing through the central point of the rotor and the central point of the hinge portion.