Bicycle transmission

What is claimed is: 1. A bicycle transmission, comprising: an axle; an input component rotatably supported by the axle to receive a rotational force manually applied thereto; an output component rotatably supported by the axle; a power transmission mechanism configured to transmit the rotational force of the input component to the output component through any one of a plurality of power transmission paths, the power transmission mechanism being configured to change a rotational velocity of the output component with respect to a rotational velocity of the input component; a shift mechanism including a shift input member, a shift control member, a first saver spring and a second saver spring, the shift input member configured to be set in a plurality of rotational positions about the axle, the shift control member being rotated in conjunction with movement of the shift input member so as to select any one of the plurality of power transmission paths, the shift control member receiving the rotational force applied in a first direction about the axle through the first saver spring as the shift input member is rotated in the first direction; and a shift assist mechanism configured to transmit the rotational force applied in the first direction by the input component to a shifting force transmission path between the second saver spring and the shift control member as the shift input member is rotated in the first direction. 2. The bicycle transmission according to claim 1 , wherein the shift mechanism includes an electric actuator configured to rotate the shift input member. 3. The bicycle transmission according to claim 2 , wherein the electric actuator is a motor. 4. The bicycle transmission according to claim 3 , wherein the shift mechanism includes a speed reducer configured to decelerate rotation of the motor and transmit decelerated rotation to the shift input member. 5. The bicycle transmission according to claim 3 , wherein the motor is configured to be detachably attached to the axle. 6. The bicycle transmission according to claim 2 , wherein the shift mechanism includes a controller controlling the electric actuator so as to set the shift input member in any one of the plurality of rotational positions. 7. The bicycle transmission according to claim 6 , wherein the shift mechanism includes a housing for accommodating the motor, and the controller is provided to the housing. 8. The bicycle transmission according to claim 1 , wherein the shift mechanism includes: an intermediate member to which the shift input member is contactable from an upstream side in the first direction, the intermediate member being disposed between the shift input member and the shift control member, a first spring coupling member to which the intermediate member is contactable from the upstream side in the first direction, and a second spring coupling member contactable to the shift input member from the upstream side in the first direction, the first saver spring is coupled to the first spring coupling member and the shift control member, the first saver spring biasing the first spring coupling member in a second direction, the first saver spring biasing the shift control member in the first direction, and the second saver spring is coupled to the first spring coupling member and the second spring coupling member, the second saver spring biasing the first spring coupling member in the second direction, the second saver spring biasing the second spring coupling member in the first direction. 9. The bicycle transmission according to claim 8 , wherein as the shift input member is rotated in the first direction, the shift input member is configured to press the intermediate member in the first direction so as to cause the intermediate member to press the first spring coupling member in the first direction. 10. The bicycle transmission according to claim 8 , wherein the shift mechanism includes an assistance force input member to which the intermediate member is contactable from a downstream side in the first direction and to which the rotational force is configured to be inputted from the shift assist mechanism, and a rotary member to which the assistance force input member is contactable from the downstream side in the first direction, the rotary member being contactable to the shift control member from the downstream side in the first direction, the rotary member being rotatably mounted about the axle. 11. The bicycle transmission according to claim 10 , wherein as the shift input member is rotated in the second direction: the shift input member presses the second spring coupling member in the second direction; the first spring coupling member presses the intermediate member in the second direction; the intermediate member presses the assistance force input member in the second direction; and the rotary member presses the shift control member in the second direction. 12. The bicycle transmission according to claim 10 , wherein the shift assist mechanism includes a tubular member movable in conjunction with the input component, the tubular member being provided with ratchet teeth on an inner peripheral surface thereof, the ratchet teeth being aligned at intervals in a circumferential direction, at least one pawl member mounted to the assistance force input member so as to be movable to a first position and a second position, the at least one pawl member being engageable with the ratchet teeth in the first position, the at least one pawl member being disengageable from the ratchet teeth in the second position, at least one biasing member mounted to the assistance force input ember so as to bias the at least one pawl member toward the first position, and a pawl control member restricted from moving in the first direction by the intermediate member, the pawl control member being rotated in the first direction in conjunction with movement of the at least one pawl member from the second position to the first position as the intermediate member is rotated in the first direction, the pawl control member being configured to move the at least one pawl member from the first position to the second position as the assistance force input member is rotated in the first direction while the at least one pawl member is disposed in the first position and the intermediate member is not in motion. 13. The bicycle transmission according to claim 12 , wherein the pawl control member is disposed at an interval from the shift input member so as not to make contact with the shift input member from the upstream side in the first direction as rotated in the first direction. 14. The bicycle transmission according to claim 12 , wherein the at least one pawl member is pivotally mounted to the assistance force input member so as to pivot about an axis arranged parallel to the axle. 15. The bicycle transmission according to claim 12 , wherein as the rotational force is inputted to the assistance force input member from the shift assist mechanism, the assistance force input member presses the rotary member in the first direction and the rotary member presses the shift control member in the first direction. 16. The bicycle transmission according to claim 12 , wherein the shift assist mechanism includes a torque limit mechanism, the torque limit mechanism being mounted between the input component and the tubular member, the torque limit mechanism limiting a torque to be transmitted to the tubular member. 17. The bicycle transmission according to claim 1 , wherein the power