Internal transmission

What is claimed is: 1. An internal transmission comprising: a hub shaft configured to be attached to a frame of a bicycle; a first shaft separated from an axis of the hub shaft and arranged to be non-rotatable around the axis of the hub shaft; a second shaft separated from the axis of the hub shaft and from an axis of the first shaft, and the second shaft being non-rotatable around the axis of the hub shaft; a plurality of first rotating bodies coaxially arranged with the first shaft and rotatably arranged around the axis of the first shaft, the plurality of first rotating bodies comprising an input gear to which a rotation is inputted and an output gear which outputs the rotation to a hub shell; a plurality of second rotating bodies coaxially arranged with the second shaft, the second rotating bodies being coupled to each of the first rotating bodies, and the second rotating bodies being rotatably arranged around an axis of the second shaft; a clutch mechanism which controls at least one of a rotation state of the first rotating bodies around the axis of the first shaft and a rotation state of the second rotating bodies around the second shaft; a support member that is fixed to the hub shaft and supports the first shaft and the second shaft, the support member extending in a radial direction of the hub shaft; and the hub shell rotatably supported with respect to the hub shaft around the axis of the hub shaft, the hub shell housing the first shaft, the second shaft, the plurality of first rotating bodies, the plurality of second rotating bodies, the clutch mechanism, and the support member, the hub shell including an inner gear that is provided on an internal circumferential surface of the hub shell and meshes with the output gear. 2. The internal transmission as recited in claim 1 , wherein the plurality of first rotating bodies comprises gears, and the plurality of second rotating bodies comprises gears which mesh with the plurality of first rotating bodies. 3. The internal transmission as recited in claim 1 , wherein at least one of the input gear and the output gear comprises a plurality of gears having different diameters. 4. The internal transmission as recited in claim 3 , wherein at least the input gear comprises the plurality of gears having different diameters, and the plurality of second rotating bodies comprise a plurality of input side gears which mesh with each of the plurality of gears of the input gear. 5. The internal transmission as recited in claim 4 , wherein the second shaft is formed by a hollow shaft which rotatably supports the plurality of second rotating bodies, the clutch mechanism comprises a control shaft and a plurality of engagement parts, the control shaft is disposed in the second shaft and is rotatable with respect to the second shaft, and the engagement parts are operated by a rotation of the control shaft and selectively transmits a rotation of one of the input side gears to the second shaft. 6. The internal transmission as recited in claim 5 , wherein an opening is formed on an outer perimeter part of the second shaft, at least one engagement part of the plurality of engagement parts is disposed in the opening, the control shaft comprises a control portion for controlling the engagement part which is disposed in the opening, and switches between a first state in which the engagement part protrudes from the opening and a second state in which the engagement part retracts into the opening, by rotating with respect to the second shaft. 7. The internal transmission as recited in claim 6 , wherein the clutch mechanism further comprises an elastic member for biasing the engagement part to protrude from the opening. 8. The internal transmission as recited in claim 5 , wherein the clutch mechanism comprises a speed increasing mechanism for increasing a speed of the rotation of the second shaft and providing the same to the control shaft, and a speed reducing mechanism for reducing the speed of the rotation of the second shaft and providing the same to the control shaft. 9. The internal transmission as recited in claim 3 , wherein at least the output gear comprises the plurality of gears having different diameters, and the plurality of second rotating bodies comprise a plurality of output side gears which mesh with each of the plurality of gears of the output gear. 10. The internal transmission as recited in claim 9 , wherein the second shaft is formed by a hollow shaft which rotatably supports the second rotating bodies, the clutch mechanism comprises a control shaft and a plurality of engagement parts, the control shaft is disposed in the second shaft and is rotatable with respect to the second shaft, and the engagement parts are operated by a rotation of the control shaft and selectively transmits a rotation of the second shaft to one of the output side gears. 11. The internal transmission as recited in claim 9 , wherein the second rotating bodies comprise a plurality of input side gears which mesh with each of the plurality of gears of the input gear, the second shaft is formed by a hollow shaft which rotatably supports the second rotating bodies, the clutch mechanism comprises a control shaft and a plurality of engagement parts, the control shaft is disposed in the second shaft and is rotatable with respect to the second shaft, and the engagement parts are operated by a rotation of the control shaft and selectively transmits a rotation of one of the input side gears to the second shaft and selectively transmits a rotation of the second shaft to one of the output side gears. 12. The internal transmission as recited in claim 1 , wherein the hub shaft comprises a first hub shaft and a second hub shaft which is separated from the first hub shaft in an axial direction of the hub shell, the first hub shaft protrudes in one direction along the axial direction of the hub shell, and the second hub shaft protrudes in another direction opposite the one direction along the axial direction of the hub shell. 13. The internal transmission as recited in claim 12 , wherein the support member includes a first support member and a second support member, the first support member being fixed to the first hub shaft and the second support member being fixed to the second hub shaft, the first support member and the second support member being spaced apart from each other at an interval along the axial direction of the hub shell, the first hub shaft extends away from the interval in the one direction, and the second hub shaft extends away from the interval in the other direction. 14. The internal transmission as recited in claim 1 , wherein a distance between the hub shaft and the first shaft in a radial direction is substantially equal to a distance between the hub shaft and the second shaft in the radial direction. 15. The internal transmission as recited in claim 1 , wherein the axis of the first shaft and the axis of the second shaft are disposed symmetrically with respect to the axis of the hub shaft. 16. An internal transmission comprising: a hub shaft configured to be attached to a frame of a bicycle; a first shaft separated from an axis of the hub shaft and arranged to be non-rotatable around the axis of the hub shaft; a second shaft separated from the axis of the hub shaft and from an axis of the first shaft, and the second shaft being non-rotatable around the axis of the hub shaft; a plurality of first rotating bodies coaxially arranged with the first shaft and rotatably arranged around the axis of the first