Hybrid vehicle and method of controlling hybrid vehicle

What is claimed is: 1 . A hybrid vehicle comprising: a first motor unit which rotates a first wheel and produces first electricity; and a second motor unit which generates first rotational force by using the first electricity, and generates second electricity by using the first rotational force, wherein the first motor unit generates second rotational force by using the second electricity, and rotates the first wheel. 2 . The hybrid vehicle of claim 1 , wherein the first motor unit is at least partially disposed in the first wheel. 3 . The hybrid vehicle of claim 1 , wherein the first motor unit produces the first electricity by using regenerative braking force when the hybrid vehicle is braked while traveling, and generates the second rotational force by using the second electricity to rotate the first wheel when the hybrid vehicle accelerates after being braked, and the second motor unit produces the second electricity when the hybrid vehicle accelerates after being braked, by using the first rotational force that is generated by using the first electricity. 4 . The hybrid vehicle of claim 1 , further comprising: an energy distributor which supplies the first electricity to the second motor unit when the hybrid vehicle is braked while traveling, and supplies the second electricity to the first motor unit when the hybrid vehicle accelerates after being braked. 5 . The hybrid vehicle of claim 1 , wherein the first motor unit includes: a first housing; a first stator which is fixed in the first housing; and a first rotor which is rotatably disposed in the first stator and rotates a first hub coupled inside the first wheel. 6 . The hybrid vehicle of claim 5 , wherein at least one side of the first housing is opened, the first motor unit further includes a first cover that is coupled to the first housing while covering the opened one side of the first housing, and the first rotor is rotatably coupled to the first cover. 7 . The hybrid vehicle of claim 5 , wherein the first motor unit further includes: a speed reducer which is coupled to a rotating shaft of the first rotor and the first hub, increases torque received from the first rotor, and transmits torque to the first hub. 8 . The hybrid vehicle of claim 1 , wherein the second motor unit includes: a second housing; a second rotor which is rotatably disposed in the second housing; and a second stator which is disposed in the second rotor and produces the second electricity by rotation of the second rotor. 9 . The hybrid vehicle of claim 8 , wherein at least one side of the second housing is opened, the second motor unit further includes a second cover that is coupled to the second housing while covering the opened one side of the second housing, the second rotor is rotatably coupled to the second cover, and the second stator is fixed to the second cover. 10 . The hybrid vehicle of claim 1 , wherein the second motor unit is at least partially disposed in a second wheel. 11 . The hybrid vehicle of claim 10 , wherein the second wheel and the first wheel are disposed in a left and right direction relative to each other. 12 . The hybrid vehicle of claim 10 , further comprising: a clutch which connects a rotating shaft of the second motor unit to a second hub coupled inside the second wheel or disconnects the rotating shaft of the second motor unit from the second hub, wherein in a state in which the clutch connects the rotating shaft of the second motor unit to the second hub, and thereafter disconnects the rotating shaft of the second motor unit from the second hub such that the rotating shaft of the second motor unit is rotated by inertial force, the second motor unit generates the first rotational force by using the first electricity. 13 . A method of controlling a hybrid vehicle, the method comprising: producing, by a first motor unit, first electricity for rotating a first wheel; generating, by a second motor unit, first rotational force by using the first electricity; producing, by the second motor unit, second electricity by using the first rotational force; and generating, by the first motor unit, second rotational force by using the second electricity and rotating the first wheel. 14 . The method of claim 13 , wherein in the producing of the first electricity, the first electricity is produced by using regenerative braking force when the hybrid vehicle is braked while traveling, and in the producing of the second electricity, the second electricity is produced by using the first rotational force when the hybrid vehicle accelerates after being braked. 15 . The method of claim 13 , wherein in the generating of the first rotational force, the second motor unit generates the first rotational force by using the first electricity in a state in which a rotating shaft of the second motor unit is connected to a second hub coupled inside the second wheel and thereafter disconnected from the second hub such that the rotating shaft of the second motor unit is rotated by inertial force.