Connecting module and motion assistance apparatus including the same

What is claimed is: 1. A connecting module comprising: a combining frame including a side cover to cover at least a gluteus minimus of a user and a hip joint cover extended downward from the side cover to cover a hip joint of the user; a connecting frame fixed to the combining frame; a driving source originating and projecting axially from a first side of the connecting frame and extending in a first direction from a rear portion of the side cover of the combining frame towards the user such that at least a portion of the driving source is disposed in a recessed space between a waist and the hip joint of the user and spaced away from the hip joint; a support connector originating and projecting axially from a second side of the connecting frame and extending in a second direction from the hip joint cover of the combining frame away from the user at a position on the connecting frame eccentric from the driving source such that a driving axis of the driving source is eccentric to an axis of rotation of the support connector with respect to the combining frame, the axis of rotation of the support connector being rotationally controlled by the driving source, the second direction being opposite the first direction, the support connector configured to connect with a support that directly supports a thigh of the user; and a power transmitting assembly configured to transfer driving power from the driving source to the support connector. 2. The connecting module of claim 1 , wherein the power transmitting assembly comprises: a plurality of decelerating gears incline downward in a diagonal direction from the driving source to the support connector. 3. The connecting module of claim 2 , wherein the plurality of decelerating gears comprises: a first compound gear assembly, a second compound gear assembly and a third compound gear assembly therebetween, each of the first compound gear assembly, the second compound gear assembly and the third compound gear assembly including a large gear and a small gear sharing a same axis such that, when the large gear of the first compound gear assembly receives power, the small gear of the first compound gear assembly meshes with teeth of the large gear of the third compound gear assembly, wherein the first compound gear assembly is configured to receive a power from the driving source, the third compound gear assembly is configured to receive a power from the first compound gear assembly to rotate the support connector. 4. The connecting module of claim 3 , wherein the small gear of the first compound gear assembly and the small gear of the third compound gear assembly face opposite sides of a case associated with the connecting frame. 5. The connecting module of claim 3 , wherein the connecting frame includes a case, the case being bent, the large gear of the first compound gear assembly is configured to connect to a driving gear of the driving source, the small gear of the first compound gear assembly is configured to connect to the large gear of the second compound gear assembly, and the small gear of the first compound gear assembly and the small gear of the second compound gear assembly are disposed to face a same side of the case. 6. The connecting module of claim 3 , further comprising: a case configured to cover the power transmitting assembly, wherein a diameter of the large gear of the third compound gear assembly at a central portion is greater than a diameter of the large gear of the first compound gear assembly at an input terminal of the power transmitting assembly and a diameter of the large gear of the second compound gear assembly at an output terminal of the power transmitting assembly such that widths of end portions of the case are narrower than a width of the central portion of the case. 7. The connecting module of claim 2 , wherein the connecting frame includes a case, the case is being bent, and a driving gear of the driving source and at least a portion of the plurality of decelerating gears are bevel gears. 8. The connecting module of claim 1 , wherein the connecting frame includes a case, the case comprising: a first case connected to the driving source, the first case including a rigid material such that the first case is configured to support the driving source; a second case connected to the support connector, the second case including a rigid material such that the second case is configured to support the support connector; and a third case connected between the first case and the second case, the third case including a flexible material. 9. The connecting module of claim 8 , wherein the power transmitting assembly comprises: a longitudinal direction member configured to extend in a longitudinal direction of the third case. 10. The connecting module of claim 1 , wherein the connecting frame includes a case, the case comprising: a flexible frame including a flexible material; a driving source support on one side of the flexible frame, the driving source support configured to support the driving source; and a support connector support provided on another side of the flexible frame, the support connector support configured to support the support connector. 11. The connecting module of claim 1 , further comprising: a case configured to cover the power transmitting assembly, wherein the case is configured to integrate with the combining frame. 12. The connecting module of claim 1 , wherein the power transmitting assembly has a plurality of gears, the driving axis of the driving source is eccentric to the axis of rotation of the support connector that is connected to the driving source via the plurality of gears, and the power transmitting assembly is configured to transfer driving power from the driving source to the support connector via the plurality of gears. 13. A motion assistance apparatus comprising: a fixing member configured to attach to a waist of a user; a support configured to be fixed to a thigh of the user to assist a movement of the thigh; and a connecting module including, a combining frame including a side cover configured to cover at least a glutueus minimus of the user and a hip joint cover extended downward from the side cover to cover a hip joint of the user, a connecting frame fixed to the combining frame, the connecting frame configured to transmit power to the support, a driving source originating and projecting axially from a first side of the connecting frame and extending in a first direction from a rear portion of the side cover of the combining frame towards the user such that at least a portion of the driving source is disposed in a recessed space between the waist and a hip joint of the user and spaced away from the hip joint, a support connector originating and projecting axially from a second side of the connecting frame and extending in a second direction from the hip joint cover of the combining frame away from the user at a position on the connecting frame eccentric from the driving source such that a driving axis of the driving source is eccentric to an axis of rotation of the support connector with respect to the combining frame, the axis of rotation of the support connecting being rotationally controlled by the driving source, the second direction being opposite the first direction, the support connector configured to connect with the support that directly supports the thigh of the user, a power transmitting assembly configured to transmit the power from the driving source to the support connector, and a case configured to mount in a space recessed between a waist and a hip of the user such that the case is-con