Omnidirectionally moving wheel and robot using same

The invention claimed is: 1. An omnidirectionally moving wheel, the wheel comprising: a cylindrical body having a first open end and a second open end; inner wheels each having at least a part thereof accommodated in the cylindrical body, and fixed to each of the first and second open ends of the cylindrical body such that a first inner wheel rotates about a first rotating axis and a second inner wheel rotates about a second rotating axis parallel to the first rotating axis; and an outer wheel provided on an outside of the cylindrical body and rotating centering on a third rotating axis intersecting with the first and second rotating axes, wherein outermost points of the inner wheels and the outer wheel are formed at the same distance from a center of the cylindrical body, and wherein the omnidirectionally moving wheel further comprises first and second frames provided between the first and second inner wheels, formed at the outside of the cylindrical body, and coupled to each other into a shape corresponding to a shape of the outer wheel. 2. The wheel of claim 1 , wherein first and second recess portions are formed on upper and lower portions of an outer circumferential surface of the body in an inwardly recessed manner, and the first and second frames are mounted in the first and second recess portions, respectively. 3. The wheel of claim 2 , wherein each of the first and second frames has a shape that a part of a hollow hemisphere is cut. 4. The wheel of claim 2 , wherein each of the first and second recess portions is provided with first and second through holes formed at positions facing each other, and wherein the first and second inner wheels are fixed to the body by first and second pins inserted through the first and second through holes, respectively. 5. The wheel of claim 4 , wherein first and second bottom portions each having a shape of a flat surface are formed on upper and lower ends of a circumferential surface of the body in an inwardly protruding manner, and wherein the wheel further comprises a power transmission unit coupled to the first and second bottom portions to transmit power applied to the inner wheels and the outer wheel. 6. The wheel of claim 5 , wherein the power transmission unit comprises: first and second coupling portions each having a shape of a flat surface and coupled to the respective first and second bottom portions; a connecting portion connecting the first and second coupling portions to each other; and a driving shaft fixed to the connecting portion to transmit power. 7. The wheel of claim 6 , wherein the first and second inner wheels are formed in an elliptical shape. 8. The wheel of claim 7 , wherein the power transmission unit is formed in a shape like an alphabet “C”. 9. The wheel of claim 6 , wherein an active motion is realized by a rotation of the drive shaft, and wherein the number of discontinuous points by the active motion is four. 10. The wheel of claim 1 , wherein the first and second rotating axes are orthogonal to the third rotating axis. 11. The wheel of claim 1 , wherein an angle α formed by lines extending from a center point of the body to the exposed both ends of the first inner wheel or the second inner wheel is in the range of 60 to 90°. 12. The wheel of claim 1 , wherein the outer wheel has a shape that a spherical shape is cut from a top and a bottom with a plane perpendicular to the third rotating axis. 13. The wheel of claim 1 , wherein grooves are formed on a surface of the first frame, and the first frame is coupled to the second frame by coupling members. 14. The wheel of claim 1 , wherein a plurality of grooves are formed on a surface of each inner wheel in a direction parallel to the first rotating axis, and a plurality of grooves are formed on a surface of the outer wheel in a direction parallel to the third rotating axis. 15. The wheel of claim 1 , wherein a maximum diameter of each of the inner wheels is the same as a radius of the outer wheel. 16. A moving robot, comprising: a plurality of wheels movable in an omnidirectional manner; driving units configured to rotate the wheels by transmitting power to the wheels so as to generate an active motion; and a support member connected to the driving units to support the driving units, wherein the plurality of wheels comprises at least three wheels, wherein each of the plurality of wheels comprises: a cylindrical body having a first open end and a second open end; inner wheels each having at least a part thereof accommodated in the cylindrical body, and fixed to each of the first and second open ends of the cylindrical body such that a first inner wheel rotates about a first rotating axis and a second inner wheel rotates about a second rotating axis parallel to the first rotating axis; and an outer wheel provided on an outside of the cylindrical body and rotating centering on a third rotating axis intersecting with the first and second rotating axes, wherein outermost points of the inner wheels and the outer wheel are formed at the same distance from a center of the cylindrical body, and wherein the omnidirectionally moving wheel further comprises first and second frames provided between the first and second inner wheels, formed at the outside of the cylindrical body, and coupled to each other into a shape corresponding to a shape of the outer wheel. 17. The robot of claim 16 , wherein each wheel moves omnidirectionally by a combination of an active motion by rotation of a driving shaft, and a passive motion by the active motion. 18. The robot of claim 17 , wherein at least one of the wheels moves according to the active motion. 19. The robot of claim 16 , wherein the support member comprises an upper plate and a lower plate fixed to the driving units on upper and lower portions of the driving units.