Continuously variable transmission

What we claim is: 1. A continuously variable transmission for integrating within a frame of a bicycle, comprising: a planetary gear set comprising a planet carrier coupled to a set of planet gears, the planet carrier being configured for receiving a torque input from a set of cranks, a fixed ring gear, and a sun gear coaxial with a crankshaft of the bicycle, wherein rotation of the planet gears drives the sun gear; and a variator, comprising an input ring coupled to the sun gear via an axial force generation mechanism comprising a cam loader having a set of bearings in contact with a set of ramps, a plurality of tiltable traction planets arranged about the crankshaft of the bicycle, each tiltable traction planet being in contact with the input ring, an output ring gear, operationally coupled to the plurality of traction planets and coaxial with the crankshaft of the bicycle, a cage, and an idler in contact with the plurality of tiltable traction planets. 2. The continuously variable transmission of claim 1 , wherein the output ring gear is integrated with a support structure for the variator. 3. The continuously variable transmission of claim 1 , wherein the planet carrier is connected to the cage, and wherein torque is supplied to the variator from the sun gear and the planet carrier. 4. The continuously variable transmission of claim 1 , wherein the cage is fixed to the frame, wherein torque is supplied to the variator through the input ring. 5. The continuously variable transmission of claim 1 , wherein a housing of the continuously variable transmission forms part of a bottom bracket. 6. A bicycle, comprising: a frame; a continuously variable transmission forming part of the frame, the continuously variable transmission comprising a planetary gear set comprising a planet carrier coupled to a set of planet gears, the planet carrier being configured for receiving a torque input from a set of cranks, a fixed ring gear, and a sun gear coaxial with a crankshaft of the bicycle, wherein rotation of the planet gears drives the sun gear; and a variator, comprising an input ring coupled to the sun gear via an axial force generation mechanism comprising a cam loader having a set of bearings in contact with a set of ramps, a plurality of tiltable traction planets arranged about the crankshaft of the bicycle, each tiltable traction planet being in contact with the input ring, an output ring gear, operationally coupled to the plurality of traction planets and coaxial with the crankshaft of the bicycle, a cage, and an idler in contact with the plurality of tiltable traction planets. 7. The bicycle of claim 6 , wherein the output ring gear is integrated with a support structure for the variator. 8. The bicycle of claim 6 , wherein the planet carrier is connected to the cage, wherein torque is supplied to the variator from the sun gear and the planet carrier. 9. The bicycle of claim 6 , wherein the cage is fixed to the frame, and wherein torque is supplied to the variator through the input ring. 10. The bicycle of claim 6 , wherein a housing of the continuously variable transmission forms part of a bottom bracket.