Driving module and motion assistance apparatus including the same

What is claimed is: 1 . A driving module comprising: a driving source configured to generate power; a gear train including a decelerating gear set configured to rotate in response to the power received from the driving source; a joint aligning ring, one side of the gear train configured to receive the joint aligning ring such that the joint aligning ring is rotatable therein; a rotary joint attached to the joint aligning ring, the rotary joint configured to rotate using the power received from the gear train; and a joint bearing between the joint aligning ring and the rotary joint, the joint bearing configured to attach to the gear train. 2 . The driving device of claim 1 , wherein the gear train further comprises: a first frame and a second frame configured to cover the decelerating gear set, wherein gears included in the decelerating gear set have axes of rotation that are an integral body on at least one of the first frame and the second frame. 3 . The driving device of claim 2 , wherein the decelerating gear set comprises: a base gear configured to act as an output end of the decelerating gear set; and at least one spur gear engaged between the driving source and the base gear. 4 . The driving device of claim 3 , wherein one of the first frame and the second frame has at least two portions including, a cover portion configured to cover the at least one spur gear; and an edge portion connected to the cover portion, the edge portion having the joint aligning ring on an outside thereof. 5 . The driving device of claim 4 , wherein the gear train further includes a ring gear attached to an inner side of the edge portion, the rotary joint includes at least one planetary gear configured to engage with the ring gear, and an axis of rotation of the planetary gear, and the axis of rotation of the planetary gear is an integral body on the rotary joint. 6 . The driving device of claim 5 , wherein the base gear comprises: two sub-base gears having different diameters, and wherein a small-diameter gear of the two sub-base gears is configured to engage with the planetary gear. 7 . The driving device of claim 6 , wherein the planetary gear comprises: two sub-planetary gears having different diameters, and wherein a large-diameter gear of the two sub-planetary gears is configured to engage with the small-diameter gear. 8 . The driving device of claim 6 , wherein the gear train further comprises: a receiving protrusion including a groove configured to receive an axis of rotation of the rotary joint; a first bearing between an inner wall of the groove and the axis of rotation of the rotary joint; and a second bearing between an outer side of the receiving protrusion and an inner side of the base gear. 9 . The driving device of claim 6 , wherein the rotary joint comprises: a rotation axis groove along a circumference of an axis of rotation of the rotary joint; and a third bearing between a cylindrical end portion protruding from the base gear and an inner wall of the rotation axis groove. 10 . The driving device of claim 1 , wherein the decelerating gear set comprises: an input gear configured to connect to a shaft of the driving source; an idle gear configured to engage with the input gear; and a base gear configured to engage with the idle gear, and wherein diameters of the input gear, the idle gear, and the base gear increase sequentially in an order of power transmission from the driving source to the rotary joint. 11 . The driving device of claim 1 , wherein the joint bearing is configured to support at least one of an inner side of a contour of the joint aligning ring and an inner side of a contour of the rotary joint. 12 . A driving device comprising: a driving source configured to generate power; a gear train including a decelerating gear set, a frame and a ring gear, the decelerating gear set configured to receive driving power from the driving source, the frame surrounding the deceleration gear set, and the ring gear attached to one side of the frame; and a rotary joint including at least one planetary gear, the at least one planetary gear configured to, rotate using power received from an output end of the decelerating gear set, and revolve along the ring gear. 13 . The driving device of claim 12 , wherein the at least one planetary gear is configured to rotate about an axis of rotation of the at least one planetary gear, the axis of rotation of the at least one planetary gear being an integral body on the rotary joint. 14 . The driving device of claim 12 , wherein the decelerating gear set comprises: a base gear configured to act as the output end, the base gear including two base gears having different diameters, and a small-diameter gear of the two base gears is configured to engage with the planetary gear. 15 . The driving device of claim 12 , wherein the gear train further includes a joint aligning ring configured to fasten to the rotary joint, and the driving device further includes a joint bearing attached to one side of the gear train, the joint bearing configured to prevent a separation of the joint aligning ring from the gear train. 16 . The driving device of claim 15 , wherein the joint bearing is a thin section bearing configured to reduce a torsion of the rotary joint. 17 . A motion assistance apparatus comprising: a fixing device configured to be attached to a user; a driving device, the driving device including, a driving source on one side of the fixing device, a gear train including an input end and an output end, the input end configured to receive driving power from the driving source, and a rotary joint including at least one planetary gear connected to the output end of the gear train; and a supporting device configured to support a portion of a body of the user, and to move in response to the driving power. 18 . The motion assistance apparatus of claim 17 , wherein the at least one planetary gear is configured to rotate about an axis of rotation of the at least one planetary gear, axis of rotation of the at least one planetary gear being an integral body on an inner side of the rotary joint. 19 . The motion assistance apparatus of claim 17 , wherein the driving source is configured to attach to the gear train, and the rotary joint is configured to relatively rotate with respect to the gear train using the driving power. 20 . The motion assistance apparatus of claim 17 , wherein the driving source is configured to detach from the gear train, and the gear train is configured to detach from the rotary joint.