Bicycle transmission

What is claimed is: 1. A transmission of a bicycle comprising: an input rotating body to which a drive force is inputted, the input rotating body comprising an input gear; a plurality of rotating bodies to which are transmitted rotation of the input rotating body, plurality of rotating bodies comprising an input side gear which meshes with the input rotating body; a hollow shaft coaxially provided with the rotating bodies and rotatably supporting the rotating bodies; and a clutch mechanism including a control shaft disposed inside the hollow shaft and being rotatably arranged relative to the hollow shaft, and configured to switch a coupling state between the rotating bodies and the hollow shaft by rotating the control shaft relative to the hollow shaft, the clutch mechanism being configured to rotate the control shaft by transmitting a drive force that is applied to the input rotating body to the control shaft. 2. The transmission as recited in claim , further comprising a first shaft separated from the hollow shaft, and an output rotating body, to which is transmitted rotation from the rotating bodies, and which outputs the rotation, the input rotating body and the output rotating body being rotatably disposed about an axis of the first shaft. 3. A transmission of a bicycle comprising: an input rotating body to which a drive force is inputted; a plurality of rotating bodies to which are transmitted rotation of the input rotating body; a hollow shaft coaxially provided with the rotating bodies and rotatably supporting the rotating bodies; and a clutch mechanism including a control shaft disposed inside the hollow shaft and being rotatably arranged relative to the hollow shaft, and configured to switch a coupling state between the rotating bodies and the hollow shaft by rotating the control shaft relative to the hollow shaft, the clutch mechanism being configured to rotate the control shaft by transmitting a drive force that is applied to the input rotating body to the control shaft the clutch mechanism comprising: a speed increasing mechanism configured to increases a speed of rotation of the hollow shaft and providing the same to the control shaft, and a speed reducing mechanism configured to reduce the speed of the rotation of the hollow shaft and providing the same to the control shaft. 4. The transmission as recited in claim 3 , wherein the speed increasing mechanism comprises: a first synchronizing gear which is integrally rotated with the hollow shaft, a second synchronizing gear which is integrally rotatable with the control shaft, a first auxiliary gear which can mesh with one of the first synchronizing gear and the second synchronizing gear, a second auxiliary gear which meshes with the other of the first synchronizing gear and the second synchronizing gear and is integrally rotated with the first auxiliary gear, and a first switching unit which switches between a state in which the first auxiliary gear meshes with one of the first synchronizing gear and the second synchronizing gear, and a state in which the first auxiliary gear does not mesh with one of the first synchronizing gear and the second synchronizing gear. 5. The transmission as recited in claim 4 , wherein the speed decreasing mechanism comprises: the first synchronizing gear, a third synchronizing gear which can he integrally rotated with the control shaft and which has fewer number of teeth than the second synchronizing gear, a third auxiliary gear which can mesh with one of the first synchronizing gear and the third synchronizing gear, a fourth auxiliary gear which meshes with the other of the first synchronizing gear and the third synchronizing gear and which is integrally rotated with the second auxiliary gear, and a second switching unit which switches between a state in which the third auxiliary gear meshes with one of the first synchronizing gear and the third synchronizing gear, and a state in which the third auxiliary gear does not mesh with one of the first synchronizing gear and the third synchronizing gear. 6. The transmission as recited in claim 5 , wherein the third auxiliary gear comprises: a toothless portion in which teeth are not present a portion of the outer periphery thereof, the second switching unit comprises: a second key member provided to the third auxiliary gear and an actuator, and the second key member is provided protruding from the toothless portion so as to be movable between a protruding position in contact with one of the first synchronizing gear and the third synchronizing gear and a retracted position not in contact with one of the first synchronizing gear and the third synchronizing gear, and the actuator moves the second key member from the retracted position to the protruding position. 7. The transmission as recited in claim 6 , wherein the second switching unit comprises a guide portion that moves the second key member from the protruding position to the retracted position when the third synchronizing gear is rotated. 8. The transmission as recited in claim 4 , wherein the first auxiliary gear comprises a toothless portion in which teeth are not present in a portion of the outer periphery of the first auxiliary gear, and the first switching unit comprises a first key member provided to the first auxiliary gear and an actuator for operating the first key member, the first key member is provided protruding from the toothless portion so as to be movable between a protruding position in contact with one of the first synchronizing gear and the second synchronizing gear and a retracted position not in contact with one of the first synchronizing gear and the second synchronizing gear, and the actuator moves the first key member from the retracted position to the protruding position. 9. The transmission as recited in claim 8 , wherein the first switching unit comprises: a guide portion that moves the first key member from the protruding position to the retracted position when the first synchronizing gear is rotated. 10. A transmission of a bicycle comprising: an input rotating body to which a drive force is inputted; a plurality of rotating bodies to which are transmitted rotation of the input rotating body; a hollow shaft coaxially provided with the rotating bodies and rotatably supporting the rotating bodies; a clutch mechanism including a control shaft disposed inside the hollow shaft and being rotatably arranged relative to the hollow shaft, and configured to switch a coupling state between the rotating bodies and the hollow shaft by rotating the control shaft relative to the hollow shaft; and a first shaft separated from the hollow shaft; arid an output rotating body, to which is transmitted rotation from the rotating bodies, and which outputs the rotation, the input rotating body and the output rotating body being rotatably disposed about an axis of the first shaft, the clutch mechanism being configured to rotate the control shaft by transmitting a drive force that is applied to the input rotating body to the control shaft, the output rotating body comprising: an output gear, and the rotating bodies comprise an output side gear which meshes with the output rotating body. 11. The transmission as recited in claim 10 , wherein at least one of the input gear and the output gear comprises a plurality of gears having different diameters. 12. The transmission as recited in claim 11 , wherein the rotating bodies comprise a plurality of input side gears which mesh with each of the plurality of gears of the input gear. 13. The transmission as recited in claim 12 , wherein the